Skip to main content
BMJ Clinical Evidence logoLink to BMJ Clinical Evidence
. 2011 Feb 21;2011:0813.

Dysmenorrhoea

Pallavi Manish Latthe 1,#, Rita Champaneria 2,#
PMCID: PMC3275141  PMID: 21718556

Abstract

Introduction

Dysmenorrhoea may begin soon after the menarche, after which it often improves with age, or it may originate later in life after the onset of an underlying causative condition. Dysmenorrhoea is common, and in up to 20% of women it may be severe enough to interfere with daily activities.

Methods and outcomes

We conducted a systematic review and aimed to answer the following clinical question: What are the effects of treatments for primary dysmenorrhoea? We searched: Medline, Embase, The Cochrane Library, and other important databases up to January 2010 (Clinical Evidence reviews are updated periodically, please check our website for the most up-to-date version of this review). We included harms alerts from relevant organisations such as the US Food and Drug Administration (FDA) and the UK Medicines and Healthcare products Regulatory Agency (MHRA).

Results

We found 35 systematic reviews, RCTs, or observational studies that met our inclusion criteria. We performed a GRADE evaluation of the quality of evidence for interventions.

Conclusions

In this systematic review we present information relating to the effectiveness and safety of the following interventions: acupressure, acupuncture, aspirin, behavioural interventions, contraceptives (combined oral), fish oil, herbal remedies, magnets, non-steroidal anti-inflammatory drugs, paracetamol, progestogens (intrauterine), spinal manipulation, surgical interruption of pelvic nerve pathways, thiamine, toki-shakuyaku-san, topical heat, transcutaneous electrical nerve stimulation (TENS), vitamin B12, and vitamin E.

Key Points

Dysmenorrhoea may begin soon after the menarche, where it often improves with age, or may originate later in life after the onset of an underlying causative condition.

  • Dysmenorrhoea is very common, and in up to 20% of women it may be severe enough to interfere with daily activities.

  • Dysmenorrhoea is more likely in women who smoke, and those with an earlier age at menarche or longer duration of menstruation.

NSAIDs reduce moderate to severe pain in women with primary dysmenorrhoea compared with placebo, but we don't know whether any one NSAID is superior to the others.

  • Simple analgesics such as aspirin and paracetamol may reduce pain in the short term, although few studies have been of good quality.

  • The herbal remedies toki-shakuyaku-san and Iranian herbal remedy (saffron, celery, and anise) may reduce pain compared with placebo. We don't know whether Chinese herbal remedies are beneficial compared with placebo, but we found limited evidence that they may be effective compared with other treatments for dysmenorrhoea.

  • Thiamine and vitamin E may reduce pain compared with placebo in young women with primary dysmenorrhoea.

Combined oral contraceptives may be more effective at reducing pain in women with primary dysmenorrhoea compared with placebo; however, few trials have been of good quality.

Topical heat (about 39 °C) may be as effective as ibuprofen and more effective than paracetamol at reducing pain.

About this condition

Definition

Dysmenorrhoea is painful menstrual cramps of uterine origin. It is commonly divided into primary dysmenorrhoea (pain without organic pathology) and secondary dysmenorrhoea (pelvic pain associated with an identifiable pathological condition, such as endometriosis [see review on endometriosis] or ovarian cysts). The initial onset of primary dysmenorrhoea is usually shortly after menarche (6–12 months), when ovulatory cycles are established. Pain duration is commonly 8 to 72 hours and is usually associated with the onset of menstrual flow. Secondary dysmenorrhoea can also occur at any time after menarche, but may arise as a new symptom during a woman's fourth and fifth decades, after the onset of an underlying causative condition. In this review we only consider studies in women with primary dysmenorrhoea. However, the results may also be generalisable to women with secondary dysmenorrhoea. Studies in women with endometriosis, adenomyosis, pelvic congestion, and fibroids may also examine dysmenorrhoea/pain as an outcome. For more information on these conditions and studies, see also reviews on endometriosis, menorrhagia, pelvic inflammatory disease, and fibroids.

Incidence/ Prevalence

Variations in the definition of dysmenorrhoea make it difficult to determine prevalence precisely. Studies tend to report on prevalence in adolescent girls, and the type of dysmenorrhoea is not always specified. Adolescent girls tend to have a higher prevalence of primary dysmenorrhoea than older women, as primary dysmenorrhoea can improve with age (see Prognosis). Secondary dysmenorrhoea rates may be lower in adolescents, as onset of causative conditions may not yet have occurred. Therefore, the results from prevalence studies of adolescents may not always be extrapolated to older women, or be accurate estimates of the prevalence of secondary dysmenorrhoea. However, various types of studies have found a consistently high prevalence in women of different ages and nationalities. One systematic review (search date 1996) of the prevalence of chronic pelvic pain, summarising both community and hospital surveys from developed countries, estimated prevalence to be 45% to 95%. A second systematic review of studies in developing countries (search date 2002) found that 25% to 50% of adult women and about 75% of adolescents experienced pain with menstruation, with 5% to 20% reporting severe dysmenorrhoea or pain that prevents them from participating in their usual activities. A third systematic review and meta-analysis of prevalence rates among high-quality studies with samples representative of the general worldwide population (search date 2004) found that prevalence of dysmenorrhoea was 59% (95% CI 49% to 71%). Prevalence rates reported in the UK were between 45% and 97% for any dysmenorrhoea in community-based studies and between 41% and 62% in hospital-based studies.

Aetiology/ Risk factors

A systematic review (search date 2004) of cohort and case-control studies concluded that age <30 years, low BMI, smoking, earlier menarche (<12 years), longer cycles, heavy menstrual flow, nulliparity, premenstrual syndrome, sterilisation, clinically suspected pelvic inflammatory disease, sexual abuse, and psychological symptoms were associated with increased risk of dysmenorrhoea.

Prognosis

Primary dysmenorrhoea is a chronic recurring condition that affects most young women. Studies of the natural history of this condition are sparse. One longitudinal study in Scandinavia found that primary dysmenorrhoea often improves in the third decade of a woman's reproductive life, and is also reduced after childbirth. We found no studies that reliably examined the relationship between the prognosis of secondary dysmenorrhoea and the severity of the underlying pathology, such as endometriosis.

Aims of intervention

To relieve pain from dysmenorrhoea, with minimal adverse effects.

Outcomes

Pain: pain relief, measured either by a visual analogue scale, other pain scales (such as the TOTPAR [TOPAR] score, TOTPAR-8 [TOPAR-8], or SPID-8), or as a dichotomous outcome (pain relief achieved yes/no); overall improvement in dysmenorrhoea measured by change in dysmenorrhoeic symptoms either self reported or observed, proportion of women requiring analgesics in addition to their assigned treatment. Quality of life: quality of life scales, or other similar measures such as the Menstrual Distress or Menstrual Symptom Questionnaires. Daily activities and work: proportion of women reporting activity restriction or absences from work or school and hours or days of absence as a more selective measure. Adverse effects of treatment (incidence and type of adverse effects).

Methods

Clinical Evidence search and appraisal January 2010. The following databases were used to identify studies for this systematic review: Medline 1966 to January 2010, Embase 1980 to January 2010, and The Cochrane Database of Systematic Reviews 2009, Issue 4 (1966 to date of issue). An additional search within The Cochrane Library was carried out for the Database of Abstracts of Reviews of Effects (DARE) and Health Technology Assessment (HTA). We also searched for retractions of studies included in the review. Abstracts of the studies retrieved from the initial search were assessed by an information specialist. Selected studies were then sent to the contributor for additional assessment, using predetermined criteria to identify relevant studies. Study design criteria for inclusion in this review were: published systematic reviews of RCTs and RCTs in any language, at least single blinded, and containing >20 individuals of whom >80% were followed up. There was no minimum length of follow-up required to include studies. We excluded all studies described as "open", "open label", or not blinded unless blinding was impossible. We aimed to include studies in women with primary dysmenorrhoea or where a subgroup analysis was carried out in women with primary dysmenorrhoea. However, where studies included a mixture of primary and secondary dysmenorrhoea, we included studies in which at least 66% of women had primary dysmenorrhoea. We included systematic reviews of RCTs and RCTs where harms of an included intervention were studied applying the same study design criteria for inclusion as we did for benefits. In addition we use a regular surveillance protocol to capture harms alerts from organisations such as the FDA and the MHRA, which are added to the reviews as required. To aid readability of the numerical data in our reviews, we round many percentages to the nearest whole number. Readers should be aware of this when relating percentages to summary statistics such as relative risks (RRs) and odds ratios (ORs). We have performed a GRADE evaluation of the quality of evidence for interventions included in this review (see table). The categorisation of the quality of the evidence (high, moderate, low, or very low) reflects the quality of evidence available for our chosen outcomes in our defined populations of interest. These categorisations are not necessarily a reflection of the overall methodological quality of any individual study, because the Clinical Evidence population and outcome of choice may represent only a small subset of the total outcomes reported, and population included, in any individual trial. For further details of how we perform the GRADE evaluation and the scoring system we use, please see our website (www.clinicalevidence.com).

Table.

GRADE Evaluation of interventions for Dysmenorrhoea.

Important outcomes Daily activities and work, Pain, Quality of life
Studies (Participants) Outcome Comparison Type of evidence Quality Consistency Directness Effect size GRADE Comment
What are the effects of treatments for primary dysmenorrhoea?
19 (1175) Pain NSAIDs versus placebo 4 –2 0 0 0 Low Quality points deducted for unclear randomisation methodology and reporting of results post-crossover
at least 4 (at least 229) Daily activities and work NSAIDs versus placebo 4 –1 0 –1 0 Low Quality point deducted for unclear randomisation methodology. Directness point deducted for inclusion of data on aspirin v placebo
6 (972) Pain Different NSAIDs versus each other 4 –2 0 –1 0 Very low Quality points deducted for unclear randomisation methodology and reporting of results post-crossover. Directness point deducted for large number of comparators
2 (205) Pain Acupressure versus sham acupressure or no treatment 4 –1 0 –1 0 Low Quality point deducted for incomplete reporting of results. Directness point deducted for narrow inclusion criteria
1 (144) Pain Acupressure versus NSAIDs 4 –2 0 –1 0 Very low Quality points deducted for sparse data and incomplete reporting of results. Directness point deducted for narrow inclusion criteria
9 (522) Pain Aspirin versus placebo 4 –2 –1 0 0 Very low Quality points deducted for short follow-up and reporting of results post-crossover. Consistency point deducted for different results for different outcomes
at least 3 (at least 203) Daily activities and work Aspirin versus placebo 4 –2 0 0 0 Low Quality points deducted for short follow-up and reporting of results post-crossover
1 (30) Pain Paracetamol versus placebo 4 –3 0 0 0 Very low Quality points deducted for sparse data, incomplete reporting, and reporting of results post-crossover
1 (30) Pain Paracetamol versus aspirin 4 –3 0 0 0 Very low Quality points deducted for sparse data, incomplete reporting, and reporting of results post-crossover
1 (32) Pain Aspirin versus NSAIDs 4 –3 0 0 0 Very low Quality point deducted for sparse data, incomplete reporting, and methodological weaknesses including short follow-up, and reporting of results post-crossover
2 (128) Pain Paracetamol versus NSAIDs 4 –3 0 0 0 Very low Quality points deducted for sparse data, incomplete reporting, and methodological weaknesses including short follow-up, and reporting of results post-crossover
1 (556) Pain Thiamine versus placebo 4 0 0 –1 0 Moderate Directness point deducted for restricted population (Indian adolescent women)
1 (50) Pain Toki-shakuyaku-san versus placebo 4 –3 0 0 0 Very low Quality points deducted for sparse data, unclear allocation methodology, and incomplete reporting of results
1 (40) Pain Topical heat versus placebo 4 –1 0 –1 0 Low Quality point deducted for sparse data. Directness point deducted for inclusion of volunteer women as well as those presenting for medical care
1 (41) Pain Topical heat versus NSAIDs 4 –1 0 –1 0 Low Quality point deducted for sparse data. Directness point deducted for inclusion of volunteer women as well as those presenting for medical care
1 (301) Pain Topical heat versus paracetamol 4 –2 0 0 0 Low Quality points deducted for incomplete reporting of results and short follow-up
at least 3 (at least 75) Pain High-frequency TENS versus placebo TENS 4 –3 0 0 0 Very low Quality points deducted for sparse data, reporting of results post-crossover, and uncertainty about randomisation and blinding
1 (24) Daily activities and work High-frequency TENS versus placebo TENS 4 –3 0 0 0 Very low Quality points deducted for sparse data and uncertainty about randomisation and blinding
1 (26) Quality of life High-frequency TENS versus placebo TENS 4 –2 0 0 0 Low Quality points deducted for sparse data and reporting of results post-crossover
4 (86) Pain Low-frequency TENS versus placebo TENS or placebo tablet 4 –3 –1 0 0 Very low Quality points deducted for sparse data, reporting of results post-crossover, and uncertainty about randomisation and blinding. Consistency point deducted for different results for different outcomes
1 (24) Daily activities and work Low-frequency TENS versus placebo TENS or placebo tablet 4 –3 0 0 0 Very low Quality points deducted for sparse data and uncertainty about randomisation and blinding
3 (at least 39) Pain High-frequency TENS versus low-frequency TENS 4 –3 0 0 0 Very low Quality points deducted for sparse data, reporting of results post-crossover, and uncertainty about randomisation and blinding
1 (24) Daily activities and work High-frequency TENS versus low-frequency TENS 4 –3 0 0 0 Very low Quality points deducted for sparse data and uncertainty about randomisation and blinding
1 (32) Pain High-frequency TENS versus NSAIDs 4 –2 0 0 0 Low Quality points deducted for sparse data and reporting of results after crossover
3 (478) Pain Vitamin E versus placebo 4 –2 0 0 0 Low Quality points deducted for uncertainty about method of randomisation and no significance assessment performed in 1 RCT
3 (292) Pain Acupuncture versus placebo acupuncture or no treatment 4 0 0 –2 0 Low Directness points deducted for uncertainty about method for assessing outcomes (use of non-validated pain scales in 1 RCT), inclusion of women with secondary dysmenorrhoea in 1 RCT, and large number of comparators
1 (201) Quality of life Acupuncture versus placebo acupuncture or no treatment 4 –1 0 –1 0 Low Quality point deducted for significant baseline differences. Directness point deducted for inclusion of women with secondary dysmenorrhoea
1 (120) Pain Acupuncture versus NSAIDs 4 –2 0 0 0 Low Quality points deducted for sparse data and incomplete reporting of results
1 (69) Pain Relaxation treatment versus no treatment/waiting list control 4 –1 –1 –1 0 Very low Quality point deducted for sparse data. Consistency point deducted for different results for subgroups. Directness point deducted for older classification of disease no longer used
6 (497) Pain Combined oral contraceptives versus placebo/no treatment 4 –1 –1 0 0 Low Quality point deducted for methodological flaws in included RCTs. Consistency point deducted for statistical heterogeneity
2 (<120) Pain Fish oil versus placebo 4 –2 –1 –1 0 Very low Quality points deducted for sparse data and reporting of results post-crossover. Consistency point deducted for conflicting results. Directness point deducted for uncertainty about diagnosis
3 (204) Pain Chinese herbal medicine versus placebo/no treatment 4 –1 0 –1 0 Low Quality point deducted for incomplete reporting of results. Directness point deducted for inclusion of different regimens
14 (1441) Pain Chinese herbal medicine versus NSAIDs 4 0 –1 –2 0 Very low Consistency point deducted for statistical heterogeneity. Directness points deducted for large number of comparators and inclusion of additional treatments
2 (156) Pain Chinese herbal medicine versus acupuncture 4 –3 0 0 0 Very low Quality points deducted for sparse data and methodological weakness in RCTs (uncertainty about follow-up, randomisation method, and blinding)
1 (55) Pain Chinese herbal medicine versus topical heat 4 –3 0 –1 +2 Low Quality points deducted for sparse data and methodological weaknesses (uncertainty about follow-up and randomisation method). Directness point deducted for uncertainty about method of assessment of outcome. Effect-size points added for large effect size
1 (108) Pain Iranian herbal medicine versus placebo/no treatment 4 –1 0 0 0 Moderate Quality point deducted for sparse data
1 (106) Pain Iranian herbal medicine versus mefenamic acid 4 –1 0 –1 0 Low Quality point deducted for sparse data. Directness point deducted for no direct statistical comparison between groups
2 (68) Pain Laparoscopic uterine nerve ablation versus diagnostic laparoscopy 4 –1 –1 0 0 Low Quality point deducted for sparse data. Consistency point deducted for different results at different time points
1 (68) Pain Laparoscopic uterine nerve ablation versus laparoscopic presacral neurectomy 4 –1 –1 0 0 Low Quality point deducted for sparse data. Consistency point deducted for different results at different time points
3 (207) Pain Spinal manipulation versus sham manipulation or no treatment 4 –2 –1 0 0 Very low Quality points deducted for sparse data and methodological weaknesses (poor allocation concealment and poor blinding). Consistency point deducted for different results at different time points and between studies

We initially allocate 4 points to evidence from RCTs, and 2 points to evidence from observational studies. To attain the final GRADE score for a given comparison, points are deducted or added from this initial score based on preset criteria relating to the categories of quality, directness, consistency, and effect size. Quality: based on issues affecting methodological rigour (e.g., incomplete reporting of results, quasi-randomisation, sparse data [<200 people in the analysis]). Consistency: based on similarity of results across studies. Directness: based on generalisability of population or outcomes. Effect size: based on magnitude of effect as measured by statistics such as relative risk, odds ratio, or hazard ratio.

Glossary

Behavioural interventions

Treatments attempting modification of thought and beliefs (cognition) about symptoms and pain, or treatments that attempt modification of behavioural or physiological responses to symptoms, pain, or both; for example, relaxation and exercise.

Congestive dysmenorrhoea

A dull aching pain in the lower abdomen as well as other areas of the body that may begin several days before menstruation and can include other premenstrual symptoms such as irritability.

Double dummy

Design pertaining to an RCT in which multiple treatments are compared (usually against a placebo) and the treatments have dissimilar presentations. Each participant will receive either active treatment or placebo for each treatment. Because multiple treatments are being compared (at least 2), it allows identification of treatment effects against placebo, as well as the additive effects of treatments.

Efficacy RCT

A trial designed to study if an intervention works in ideal conditions (e.g., when people receive treatments exactly as prescribed). By contrast, effectiveness trials evaluate the effects of treatments in “real life” conditions. Analysis in efficacy trials usually involves only the participants who were fully compliant with the therapeutic regimen. The applicability of the results from efficacy trials may be limited because conditions are artificial and hence response may be different in real life situations.

High-velocity, low-amplitude (HVLA) manipulation

A technique of spinal manipulation that uses high-velocity, low-amplitude thrusts to manipulate vertebral joints. The technique is designed to restore motion to a restricted joint and improve function. The physician positions the person at the barrier of restricted motion and then gives a rapid, accurate thrust in the direction of the restricted barrier to resolve the restriction and improve motion.

Laparoscopic presacral neurectomy (LPSN)

Involves the total removal of the presacral nerves lying within the boundaries of the interiliac triangle. This procedure interrupts most of the cervical sensory nerve fibres and is used to diminish uterine pain.

Laparoscopic uterine nerve ablation (LUNA)

Involves laparoscopic surgery to transect (usually involves cutting and then electrocauterisation) the uterosacral ligaments at their insertion into the cervix. This procedure interrupts most of the cervical sensory nerve fibres and is used to diminish uterine pain.

Low-quality evidence

Further research is very likely to have an important impact on our confidence in the estimate of effect and is likely to change the estimate.

Moderate-quality evidence

Further research is likely to have an important impact on our confidence in the estimate of effect and may change the estimate.

Placebo acupuncture

Also known as sham acupuncture, this is a commonly used control intervention involving the use of acupuncture needles to stimulate non-acupuncture points in areas outside of Chinese meridians. These points can be identified by a point detector as areas of the skin that do not have skin electrical activity similar to acupuncture points. There is some disagreement over correct needle placement, as placement of a needle in any position may elicit some biological response that can complicate the interpretation of results.

Placebo manipulation

Also known as sham manipulation, this is a control intervention. The main principle is to use a non-therapeutic level of torque. There are two common techniques for placebo manipulation. In one, thrust is given but the posture of the participant is such that the mechanical torque of the manipulation is substantially reduced. In the other, an activator adjusting tool is used; this can make spinal adjustments using spring recoil, whereby the spring is set so that no force is exerted on the spine.

SPID-8

An outcome measure commonly used in pharmaceutical trials of treatments for pain. The difference in pain intensity from baseline up to 8 hours after dosing is measured. The SPID-8 is the sum of the pain intensity differences of all participants up to 8 hours after dosing. Pain intensity can be measured on any categorical scale, but typically a low score will mean less pain and a high score more pain.

Spasmodic dysmenorrhoea

Spasms of acute pain that typically begin on the first day of menstruation.

TOTPAR (TOPAR) score

An outcome measure commonly used in pharmaceutical trials of treatment for pain. The pain relief scores for all participants at various time points after dosing are totalled and a mean calculated. Pain relief can be measured on any categorical scale, but typically a low score will mean less pain relief and a high score more pain relief.

TOTPAR-8 (TOPAR-8) score

The same as TOTPAR (see above), but measured up to 8 hours after dosing.

Toftness manipulation

A low-force technique of chiropractic adjustment that uses a sensometer to detect sites of abnormal electromagnetic radiation, and to determine which sites to adjust. Adjustment is then delivered using a metered, hand held-pressure applicator.

Transcutaneous electrical nerve stimulation (TENS)

Electrodes are placed on the skin and different electrical pulse rates and intensities are used to stimulate the area. Low-frequency TENS (also referred to as acupuncture-like TENS) usually consists of pulses delivered at 1 to 4 Hz at high intensity, so they evoke visible muscle fibre contractions. High-frequency TENS (conventional TENS) usually consists of pulses delivered at 50 to 120 Hz at a low intensity, so there are no muscle contractions.

Very low-quality evidence

Any estimate of effect is very uncertain.

Visual analogue scale

A commonly used scale in pain assessment. It is a 10-cm horizontal or vertical line with word anchors at each end, such as "no pain" and "pain as bad as it could be". The person is asked to make a mark on the line to represent pain intensity. This mark is converted to distance in either centimetres or millimetres from the "no pain" anchor to give a pain score that can range from 0 to 10 cm or 0 to 100 mm.

Endometriosis

Disclaimer

The information contained in this publication is intended for medical professionals. Categories presented in Clinical Evidence indicate a judgement about the strength of the evidence available to our contributors prior to publication and the relevant importance of benefit and harms. We rely on our contributors to confirm the accuracy of the information presented and to adhere to describe accepted practices. Readers should be aware that professionals in the field may have different opinions. Because of this and regular advances in medical research we strongly recommend that readers' independently verify specified treatments and drugs including manufacturers' guidance. Also, the categories do not indicate whether a particular treatment is generally appropriate or whether it is suitable for a particular individual. Ultimately it is the readers' responsibility to make their own professional judgements, so to appropriately advise and treat their patients. To the fullest extent permitted by law, BMJ Publishing Group Limited and its editors are not responsible for any losses, injury or damage caused to any person or property (including under contract, by negligence, products liability or otherwise) whether they be direct or indirect, special, incidental or consequential, resulting from the application of the information in this publication.

Contributor Information

Pallavi Manish Latthe, Birmingham Women's NHS Foundation Trust, Birmingham, UK.

Rita Champaneria, University of Birmingham, Birmingham, UK.

References

  • 1.Fraser I. Prostaglandins, prostaglandin inhibitors and their roles in gynaecological disorders. Bailliere's Clinical Obstet Gynaecol 1992;6:829–857. [DOI] [PubMed] [Google Scholar]
  • 2.Zondervan KT, Yudkin PL, Vessey MP, et al. The prevalence of chronic pelvic pain in the United Kingdom: a systematic review. Br J Obstet Gynaecol 1998;105:93–99. [DOI] [PubMed] [Google Scholar]
  • 3.Harlow SD, Campbell OM. Epidemiology of menstrual disorders in developing countries: a systematic review. BJOG 2004;111:6–16. [DOI] [PubMed] [Google Scholar]
  • 4.Latthe P, Latthe M, Gulmezoglu M, et al. WHO systematic review of prevalence of chronic pelvic pain: a neglected reproductive health morbidity. BMC Public Health 2006;6:177. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 5.Latthe P, Mignini L, Gray R, et al. Factors predisposing women to chronic pelvic pain: systematic review. BMJ 2006;332:749–755. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 6.Sundell G, Milsom I, Andersch B. Factors influencing the prevalence and severity of dysmenorrhoea in young women. Br J Obstet Gynaecol 1990;97:588–594. [DOI] [PubMed] [Google Scholar]
  • 7.Marjoribanks J, Proctor ML, Farquhar C. Nonsteroidal anti-inflammatory drugs for primary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2003. [DOI] [PubMed] [Google Scholar]
  • 8.Mehlisch DR, Ardia A, Pallotta T. Analgesia with ibuprofen arginate versus conventional ibuprofen for patients with dysmenorrhea: a crossover trial. Curr Ther Res 2003:64;327–337. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 9.Malmstrom K, Kotey P, Cichanowitz N, et al. Analgesic efficacy of etoricoxib in primary dysmenorrhea: results of a randomized, controlled trial. Gynecol Obstet Invest 2003;56:65–69. [DOI] [PubMed] [Google Scholar]
  • 10.Daniels S, Gitton X, Zhou W, et al. Efficacy and tolerability of lumiracoxib 200 mg once daily for treatment of primary dysmenorrhea: results from two randomized controlled trials. J Womens Health (Larchmt) 2008;17:423–437. [DOI] [PubMed] [Google Scholar]
  • 11.Daniels S, Robbins J, West CR, et al. Celecoxib in the treatment of primary dysmenorrhea: results from two randomized, double-blind, active- and placebo-controlled, crossover studies. Clin Ther 2009;31:1192–1208. [DOI] [PubMed] [Google Scholar]
  • 12.Nahid K, Fariborz M, Ataolah G, et al. The effect of an Iranian herbal drug on primary dysmenorrhea: a clinical controlled trial. J Midwifery Womens Health 2009;54:401–404. [DOI] [PubMed] [Google Scholar]
  • 13.de Mello NR, Baracat EC, Tomaz G, et al. Double-blind study to evaluate efficacy and safety of meloxicam 7.5 mg and 15 mg versus mefenamic acid 1500 mg in the treatment of primary dysmenorrhea. Acta Obstet Gynecol Scand 2004;83:667–673. [DOI] [PubMed] [Google Scholar]
  • 14.Ylikorkala O, Puolakka J, Kauppila A. Comparison between naproxen tablets and suppositories in primary dysmenorrhea. Prostaglandins 1980;20:463–468. [DOI] [PubMed] [Google Scholar]
  • 15.Zhu X, Proctor M, Bensoussan A, et al. Chinese herbal medicine for primary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2007. [Google Scholar]
  • 16.Yang H, Liu CZ, Chen X, et al. Systematic review of clinical trials of acupuncture-related therapies for primary dysmenorrhea. Acta Obstet Gynecol Scand 2008;87:1114–1122. [DOI] [PubMed] [Google Scholar]
  • 17.Taylor D, Miaskowski C, Kohn J. A randomized clinical trial of the effectiveness of an acupressure device (relief brief) for managing symptoms of dysmenorrhea. J Altern Complement Med 2002;8:357–370. [DOI] [PubMed] [Google Scholar]
  • 18.Pouresmail Z, Ibrahimzadeh R. Effects of acupressure and ibuprofen on the severity of primary dysmenorrhea. J Tradit Chin Med 2002;22:205–210. [PubMed] [Google Scholar]
  • 19.Wu RD, Zhang HD, Lin LF, et al. Observation on ear point taping and pressing therapy for treatment of primary dysmenorrhea. Zhongguo Zhen Jiu 2007;27:815–817. [In Chinese] [PubMed] [Google Scholar]
  • 20.Zhang WY, Li Wan Po A. Efficacy of minor analgesics in primary dysmenorrhoea: a systematic review. Br J Obstet Gynaecol 1998;105:780–789. [DOI] [PubMed] [Google Scholar]
  • 21.Proctor ML, Murphy PA. Herbal and dietary therapies for primary and secondary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2000. 11687013 [Google Scholar]
  • 22.Akin MD, Weingand KW, Hengehold DA, et al. Continuous low-level topical heat in the treatment of dysmenorrhea. Obstet Gynecol 2001;97:343–349. [DOI] [PubMed] [Google Scholar]
  • 23.Akin M, Price W, Rodriguez G Jr, et al. Continuous, low-level, topical heat wrap therapy as compared to acetaminophen for primary dysmenorrhea. J Reprod Med 2004;49:739–745. [PubMed] [Google Scholar]
  • 24.Proctor ML, Smith CA, Farquhar CM, et al. Transcutaneous electrical nerve stimulation for primary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2009. [Google Scholar]
  • 25.Wang S-F, Lee JP, Hwa H-L, et al. Effect of transcutaneous electrical nerve stimulation on primary dysmenorrhea. Neuromodulation 2009;12:302–309. [DOI] [PubMed] [Google Scholar]
  • 26.Hedner N, Milsom I, Eliasson T, et al. TENS is effective in painful menstruation. Lakartidningen 1996;93:1219–1222. [In Swedish] [PubMed] [Google Scholar]
  • 27.Dawood MY, Ramos J. Transcutaneous electrical nerve stimulation (TENS) for the treatment of primary dysmenorrhea: a randomized crossover comparison with placebo TENS and ibuprofen. Obstet Gynecol 1990;75:656–660. [PubMed] [Google Scholar]
  • 28.Fugh-Berman A, Kronenberg F. Complementary and alternative medicine (CAM) in reproductive-age women: a review of randomized controlled trials. Reprod Toxicol 2003:17;137–152. Search date 2002. [DOI] [PubMed] [Google Scholar]
  • 29.Ziaei S, Zakeri M, Kazemnejad A. A randomised controlled trial of vitamin E in the treatment of primary dysmenorrhoea. BJOG 2005;112:466–469. [DOI] [PubMed] [Google Scholar]
  • 30.Ziaei S, Faghihzadeh S, Sohrabvand F, et al. A randomised placebo-controlled trial to determine the effect of vitamin E in treatment of primary dysmenorrhoea. BJOG 2001;108:1181–1183. [DOI] [PubMed] [Google Scholar]
  • 31.Witt CM, Reinhold T, Brinkhaus B, et al. Acupuncture in patients with dysmenorrhea: a randomized study on clinical effectiveness and cost-effectiveness in usual care. Am J Obstet Gynecol 2008;198:166–168. [DOI] [PubMed] [Google Scholar]
  • 32.Kempf D, Berger D, Ausfeld-Hafter B. Laser needle acupuncture in women with dysmenorrhoea: a randomised controlled double blind pilot trial. Forsch Komplementarmed 2009;16:6–12. [In German] [DOI] [PubMed] [Google Scholar]
  • 33.Helms JM. Acupuncture for the management of primary dysmenorrhea. Obstet Gynecol 1987;69:51–56. [PubMed] [Google Scholar]
  • 34.Zhi LX. Randomized controlled study on superficial needling for treatment of primary dysmenorrhea. Zhongguo Zhen Jiu 2007;27:18–21. [In Chinese] [PubMed] [Google Scholar]
  • 35.Proctor M, Murphy PA, Pattison HM, et al. Behavioural interventions for primary and secondary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2005. [Google Scholar]
  • 36.Chesney MA, Tasto DL. The effectiveness of behavior modification with spasmodic and congestive dysmenorrhea. Behav Res Ther 1975;13:245–253. [DOI] [PubMed] [Google Scholar]
  • 37.Israel RG, Sutton M, O'Brien KF. Effects of aerobic training on primary dysmenorrhea symptomatology in college females. J Am Coll Health 1985;33:241–244. [DOI] [PubMed] [Google Scholar]
  • 38.Amodei N, Nelson RO, Jarrett RB, et al. Psychological treatments of dysmenorrhea: differential effectiveness for spasmodics and congestives. J Behav Ther Exp Psychiatry 1987;18:95–103. [DOI] [PubMed] [Google Scholar]
  • 39.Wong CL, Farquhar C, Roberts H, et al. Oral contraceptive pill for primary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2008. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 40.Deutch B, Jorgensen EB, Hansen JC. Menstrual discomfort in Danish women reduced by dietary supplements of omega-3 PUFA and B12 (fish oil or seal oil capsules). Nutr Res 2000;20:621–631. [Google Scholar]
  • 41.Yeh LL, Liu JY, Lin KS, et al. A randomised placebo-controlled trial of a traditional Chinese herbal formula in the treatment of primary dysmenorrhoea. PLoS ONE 2007;2:e719. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 42.Tseng YF, Chen CH, Yang YH. Rose tea for relief of primary dysmenorrhea in adolescents: a randomized controlled trial in Taiwan. J Midwifery Womens Health 2005;50:e51–e57. [DOI] [PubMed] [Google Scholar]
  • 43.Ozgoli G, Goli M, Moattar F. Comparison of effects of ginger, mefenamic acid, and ibuprofen on pain in women with primary dysmenorrhea. J Altern Complement Med 2009;15:129–132. [DOI] [PubMed] [Google Scholar]
  • 44.Kim KS, Lee YJ. The effect of magnetic application for primary dysmenorrhea. Kanhohak Tamgu 1994;3:148–173. [In Korean] [PubMed] [Google Scholar]
  • 45.Proctor ML, Latthe P, Farquhar CM, et al. Surgical interruption of pelvic nerve pathways for primary and secondary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2004. 16235288 [Google Scholar]
  • 46.Latthe PM, Proctor ML, Farquhar CM, et al. Surgical interruption of pelvic nerve pathways in dysmenorrhea: a systematic review of effectiveness. Acta Obstet Gynecol Scand 2007;86:4–15. [DOI] [PubMed] [Google Scholar]
  • 47.Daniels J, Gray R, Hills RK, et al. Laparoscopic uterosacral nerve ablation for alleviating chronic pelvic pain: a randomized controlled trial. JAMA 2009;302:955–961. [DOI] [PubMed] [Google Scholar]
  • 48.National Institute for Health and Clinical Excellence. Laparoscopic uterine nerve ablation (LUNA) for chronic pelvic pain. October 2007. Interventional procedure guidance 234. Available at http://www.nice.org.uk/IPG234 (last accessed 1 February 2011). [Google Scholar]
  • 49.Proctor ML, Hing W, Johnson TC, et al. Spinal manipulation for primary and secondary dysmenorrhoea. In: The Cochrane Library, Issue 4, 2009. Chichester, UK: John Wiley & Sons, Ltd. Search date 2006. 16855988 [Google Scholar]
  • 50.Varma R, Sinha D, Gupta JK, et al. Non-contraceptive uses of levonorgestrel-releasing hormone system (LNG-IUS) - a systematic enquiry and overview. Eur J Obstet Gynecol Reprod Biol 2006;125:9–28. [DOI] [PubMed] [Google Scholar]
  • 51.Baldaszti E, Wimmer-Puchinger B, Loschke K, et al. Acceptability of the long-term contraceptive levonorgestrel-releasing intrauterine system (Mirena): a 3-year follow-up study. Contraception 2003;67:87–91. [DOI] [PubMed] [Google Scholar]
  • 52.Rosenwaks Z, Jones GS, Henzl MR, et al. Naproxen sodium, aspirin, and placebo in primary dysmenorrhoea. Reduction of pain and blood levels of prostaglandin-F2-alpha metabolite. Am J Obstet Gynecol 1981;140:592–598. [DOI] [PubMed] [Google Scholar]
BMJ Clin Evid. 2011 Feb 21;2011:0813.

NSAIDs (other than aspirin)

Summary

NSAIDs reduce moderate to severe pain in women with primary dysmenorrhoea compared with placebo, but we don't know whether any one NSAID is superior to the others.

It remains unclear from direct comparisons which NSAIDs have better safety. The harms of NSAIDs include gastrointestinal ulceration and haemorrhage for traditional NSAIDs and, for at least some of the COX-2 inhibitors, increased cardiovascular risk.

Benefits and harms

NSAIDs versus placebo:

We found one systematic review (search date 2003, 36 RCTs, see further information on studies) and 5 subsequent RCTs.

Pain

Compared with placebo NSAIDs may be more effective at reducing pain after 8 to 12 hours in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain relief

Systematic review
599 women with moderate to severe pain
14 RCTs in this analysis
Proportion of women with pain relief
192/288 (67%) with NSAIDs (naproxen [7 RCTs], diclofenac [2 RCTs], indometacin, mefenamic acid, niflumic acid, nimesulide, and piroxicam [1 RCT each])
61/311 (20%) with placebo

RR 3.43
95% CI 2.70 to 4.35
Moderate effect size NSAIDs

RCT
Crossover design
5-armed trial
104 women with primary dysmenorrhoea Pain outcomes (TOTPAR scores at 8 and 12 hours, time to pain relief, and time to remedication)
with ibuprofen arginate 200 mg
with ibuprofen arginate 400 mg
with ibuprofen 200 mg
with ibuprofen 400 mg
with placebo
Absolute results not reported

The RCT reported significantly improved pain outcomes with ibuprofen arginate 200 mg or 400 mg and ibuprofen 400 mg compared with placebo, further details not reported
P values not reported
Effect size not calculated ibuprofen arginate 200 mg or 400 mg and ibuprofen 400 mg

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Pain, assessed by TOPAR-8 score over 8 hours
20.0 with etoricoxib (120 mg, taken at the onset of painful menses)
12.6 with placebo (taken at the onset of painful menses)

P <0.001
Effect size not calculated etoricoxib

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Pain, assessed by TOPAR-8 score over 8 hours
21.5 with naproxen sodium (550 mg, taken at the onset of painful menses)
12.6 with placebo (taken at the onset of painful menses)

P <0.001
Effect size not calculated naproxen sodium

RCT
Crossover design
4-armed trial
144 women with moderate to severe primary dysmenorrhoea Pain intensity, assessed by SPID-8 score over the first 8 hours
12.11 with naproxen (500 mg twice daily)
8.22 with placebo

P <0.001
Effect size not calculated naproxen

RCT
Crossover design
3-armed trial
149 women aged between 18 and 44 years, with primary dysmenorrhoea Pain intensity, assessed by mean TOTPAR-8 scores over the first 8 hours
18.28 with celecoxib (400 mg, followed by 200 mg on day 1, then 200 mg twice daily as necessary on days 2 and 3)
12.82 with placebo

P <0.001
Effect size not calculated celecoxib

RCT
Crossover design
3-armed trial
149 women aged between 18 and 44 years, with primary dysmenorrhoea Pain intensity, assessed by mean TOTPAR-8 scores over the first 8 hours
20.59 with naproxen sodium (550 mg twice daily on day 1, then 550 mg twice daily as necessary on days 2 and 3)
12.82 with placebo

P <0.001
Effect size not calculated naproxen sodium

RCT
Crossover design
3-armed trial
149 women aged between 18 and 44 years, with primary dysmenorrhoea Pain intensity, assessed by mean SPID-8 values over the first 8 hours
10.06 with celecoxib (400 mg, followed by 200 mg on day 1, then 200 mg twice daily as necessary on days 2 and 3)
5.96 with placebo

P <0.001
Effect size not calculated celecoxib

RCT
Crossover design
3-armed trial
149 women aged between 18 and 44 years, with primary dysmenorrhoea Pain intensity, assessed by mean SPID-8 values over the first 8 hours
11.48 with naproxen sodium (550 mg twice daily on day 1, then 550 mg twice daily as necessary on days 2 and 3)
5.96 with placebo

P <0.001
Effect size not calculated naproxen sodium

RCT
3-armed trial
180 women with primary dysmenorrhoea Pain scores, assessed by visual analogue scale [scale 0–10, higher scores indicating more severe pain] 2 months
3.6 with mefenamic acid
5 with placebo

P <0.01
Effect size not calculated mefenamic acid

RCT
3-armed trial
180 women with primary dysmenorrhoea Pain scores, assessed by visual analogue scale [scale 0–10, higher scores indicating more severe pain] 3 months
2.4 with mefenamic acid
6 with placebo

P <0.01
Effect size not calculated mefenamic acid

RCT
3-armed trial
180 women with primary dysmenorrhoea Pain duration 2 months
3 hours with mefenamic acid
16.2 hours with placebo

P <0.01
Effect size not calculated mefenamic acid

RCT
3-armed trial
180 women with primary dysmenorrhoea Pain duration 3 months
3 hours with mefenamic acid
15.4 hours with placebo

P <0.001
Effect size not calculated mefenamic acid
Need for additional medication

Systematic review
667 women
10 RCTs in this analysis
Need for additional analgesia
104/390 (27%) with NSAIDs
150/277 (54%) with placebo

RR 0.57
95% CI 0.47 to 0.69
Analysis included data from 1 arm of an RCT (85 women; 4 treatment arms), which compared aspirin versus placebo
Small effect size NSAIDs

Daily activities and work

Compared with placebo NSAIDs may be more effective at reducing restriction of daily activities and increasing the ability to work (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Restriction of daily activities

Systematic review
216 women
3 RCTs in this analysis
Restriction of daily activities
49/125 (39%) with NSAIDs
62/91 (68%) with placebo

RR 0.65
95% CI 0.51 to 0.83
Analysis included data from 1 arm of an RCT (85 women; 4 treatment arms), which compared aspirin v placebo
Small effect size NSAIDs
Absence from work or school

Systematic review
229 women
4 RCTs in this analysis
Absence from work or school
36/109 (33%) with NSAIDs
86/120 (72%) with placebo

RR 0.46
95% CI 0.34 to 0.61
Moderate effect size NSAIDs

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
599 women with moderate to severe pain
14 RCTs in this analysis
Adverse effects
with NSAIDs
with placebo

RR (NSAIDs [analysed as a group] v placebo) 1.29
95% CI 1.05 to 1.59
However, no significant difference between any 1 NSAID and placebo
Small effect size placebo

RCT
Crossover design
5-armed trial
104 women with primary dysmenorrhoea Adverse effects
with ibuprofen arginate 200 mg
with ibuprofen arginate 400 mg
with ibuprofen 200 mg
with ibuprofen 400 mg
with placebo
Absolute results not reported

Reported as no significant difference between active treatments and placebo
Not significant

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Incidence of adverse effects
12% with etoricoxib
25% with naproxen sodium
15% with placebo
Absolute numbers not reported

Significance assessment not performed

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Headache
1.5% with etoricoxib
7.5% with naproxen sodium
4.5% with placebo
Absolute numbers not reported

Significance assessment not performed

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Nausea
3% with etoricoxib
3% with naproxen sodium
1.5% with placebo
Absolute numbers not reported

Significance assessment not performed

RCT
Crossover design
4-armed trial
144 women with moderate to severe primary dysmenorrhoea Proportion of people reporting adverse effects
23% with naproxen
13% with placebo
Absolute numbers not reported

Significance assessment not reported

RCT
Crossover design
3-armed trial
149 women aged between 18 and 44 years, with primary dysmenorrhoea Adverse effects
40/129 (31%) with celecoxib
46/126 (37%) with naproxen sodium
38/127 (30%) with placebo

RCT
3-armed trial
180 women with primary dysmenorrhoea Adverse effects
with mefenamic acid
with placebo

Different NSAIDs versus each other:

We found one systematic review (search date 2003) and three subsequent RCTs. The systematic review identified 26 RCTs, which compared different NSAIDs, but the review reported that only three RCTs reported data that were suitable for meta-analysis (see further information on studies).

Pain

Different NSAIDs compared with each other We don't know how effective different NSAIDs are, compared with each other, at reducing pain after 8 to 12 hours in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
73 women
Data from 1 RCT
Pain intensity (assessed by visual analogue scale, scale not defined)
3.17 with mefenamic acid (500 mg three times daily)
2.94 with tolfenamic acid (200 mg three times daily)

WMD +0.23
95% CI –0.64 to +1.10
Not significant

Systematic review
304 women
Data from 1 RCT
Proportion of women with pain relief
125/155 (81%) with diclofenac (50 mg up to 3 times daily as required)
128/149 (86%) with nimesulide (100 mg up to 3 times daily as required)

OR 0.69
95% CI 0.38 to 1.25
Not significant

Systematic review
81 women
Data from 1 RCT
Proportion of women with pain relief
14/40 (35%) with ibuprofen (up to a maximum daily dose of 1200 mg)
20/41 (49%) with naproxen sodium (up to a maximum daily dose of 660 mg)

OR 0.57
95% CI 0.23 to 1.38
Not significant

RCT
Crossover design
5-armed trial
104 women with primary dysmenorrhoea Time to pain relief
56 minutes with ibuprofen arginate 400 mg
90 minutes with conventional ibuprofen 200 mg

P <0.05
Effect size not calculated ibuprofen arginate 400 mg

RCT
Crossover design
5-armed trial
104 women with primary dysmenorrhoea Time to pain relief
56 minutes with ibuprofen arginate 400 mg
86 minutes with conventional ibuprofen 400 mg

P <0.05
Effect size not calculated ibuprofen arginate 400 mg

RCT
Crossover design
5-armed trial
104 women with primary dysmenorrhoea Time to remedication
with ibuprofen arginate 200 mg or 400 mg
with conventional ibuprofen 200 mg or 400 mg
Absolute results not reported

Reported no significant difference between all active treatments (P >0.05)
Not significant

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Pain, assessed by mean TOTPAR-8 score over 8 hours
20.0 units with etoricoxib (120 mg, taken at the onset of painful menses)
21.5 units with naproxen sodium (550 mg, taken at the onset of painful menses)

P = 0.33
Not significant

RCT
3-armed trial
337 women with primary dysmenorrhoea Proportion of women who rated treatment as good over 3 to 5 days and 3 menstrual cycles
43/100 (43%) with meloxicam 7.5 mg daily
44/104 (42%) with meloxicam 15 mg daily
37/104 (35%) with mefenamic acid (500 mg three times daily)

P value for all groups v each other reported as not significant
Not significant

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
111 women
Data from 1 RCT
Adverse effects
with ibuprofen
with fenoprofen
Absolute results not reported

OR 1.51
95% CI 0.72 to 3.18
Not significant

Systematic review
323 women
2 RCTs in this analysis
Adverse effects
with naproxen
with other NSAIDs
Absolute results not reported

OR 1.09
95% CI 0.54 to 2.22
Not significant

RCT
3-armed trial
337 women with primary dysmenorrhoea Adverse effects, primarily gastrointestinal
11/113 (10%) with meloxicam 7.5 mg daily
13/114 (11%) with meloxicam 15 mg daily
25/110 (23%) with mefenamic acid (500 mg three times daily)

P value reported as significant
Effect size not calculated meloxicam

RCT
Crossover design
5-armed trial
104 women with primary dysmenorrhoea Adverse effects
with ibuprofen arginate 200 mg or 400 mg
with conventional ibuprofen 200 mg or 400 mg
Absolute results not reported

Between group statistical assessment not reported

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Clinical adverse effects
12% with etoricoxib
25% with naproxen sodium
Absolute numbers not reported

Significance assessment not reported

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Headache
1.5% with etoricoxib
7.5% with naproxen sodium
Absolute numbers not reported

Significance assessment not reported

RCT
Crossover design
3-armed trial
73 women with moderate to severe primary dysmenorrhoea Nausea
3% with etoricoxib
3% with naproxen sodium
Absolute numbers not reported

Significance assessment not reported

NSAIDs versus aspirin:

See option on simple analgesics.

NSAIDs versus paracetamol:

See option on simple analgesics.

NSAIDs versus TENS:

See option on TENS.

NSAIDs versus acupressure:

See option on acupressure.

NSAIDs versus topical heat:

See option on topical heat.

NSAIDs versus acupuncture:

See option on acupuncture.

NSAIDs versus herbal remedies:

See option on herbal remedies.

Further information on studies

The systematic review included only double-blind RCTs with <20% loss to follow-up. Only 5 of the included RCTs clearly described methods of randomisation and allocation concealment. The measurement and reporting of adverse effects by individual RCTs were generally poor, even taking into account the challenge of distinguishing between dysmenorrhoeic symptoms and medication effects. Methods of collecting this information varied: about one third of the RCTs described the use of prospective self-report forms or diaries, but another third assessed adverse effects retrospectively (at follow-up appointments), and the others were not specific about their methods. In some cases, the adverse effects recorded were those deemed by the study investigator to be medication related. Few RCTs provided adverse-effect data suitable for meta-analysis, and many provided no numerical data at all. NSAIDs versus placebo: The review found that 14 of 36 included RCTs examining NSAIDs versus placebo reported data suitable for meta-analysis. Of the 24 additional comparisons of 12 different NSAIDs versus placebo that were not suitable for meta-analysis, 19 found that NSAIDs significantly relieved pain (P <0.05), three found no significant difference (aspirin, diclofenac, and ibuprofen), and two did not report statistical results. Different NSAIDs versus each other: Despite the large number of included trials, it was not clear which NSAIDs were most effective for dysmenorrhoea. This was because most of the trials were relatively small, they covered a large number of different comparisons, and few of them provided data suitable for meta-analysis.

We have only reported the data on the comparison of naproxen versus placebo from this 4-armed trial; however, results should be interpreted with caution because the RCT may not have been powered to look at this comparison and results were presented post-crossover.

Comment

The harms of NSAIDs, including the COX-2 inhibitor class, are considered in detail elsewhere in Clinical Evidence (see review on NSAIDs), and include gastrointestinal ulceration and haemorrhage for traditional NSAIDs and, for at least some of the COX-2 inhibitors, increased cardiovascular risk.

Clinical guide:

NSAIDs can be given as suppositories, which seem to have a similar effect on overall pain relief but less effect than oral treatment on spasmodic pain.

NSAIDs are an effective treatment for dysmenorrhoea, although women using them need to be aware of the significant risk of adverse effects. There is insufficient evidence to determine which (if any) individual NSAID is the safest and most effective for the treatment of dysmenorrhoea.

Substantive changes

NSAIDs New evidence added. Categorisation unchanged (Beneficial).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Acupressure

Summary

Acupressure may be more effective than sham acupressure or no treatment at relieving dysmenorrhoea.

Benefits and harms

Acupressure versus sham acupressure or no treatment:

We found one systematic review (search date 2008, 2 RCTs) and one additional RCT comparing the use of acupressure with sham acupressure or no treatment for treating primary dysmenorrhoea. The review did not pool the data because of heterogeneity of the RCTs. It did not give information on follow-up or absolute results for the individual RCTs (see further information on studies).

Pain

Compared with no treatment or sham acupressure Acupressure may be more effective than placebo acupressure or waiting list control at reducing pain after 2 to 3 months in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
3-armed trial
216 adolescent women with primary dysmenorrhoea; aged 14 to 18 years; not previously sexually active
In review
Proportion of women reporting no pain after 3 months
36/72 (50%) with self-administered acupressure for 3 menstrual cycles
13/72 (18%) with placebo acupressure (using incorrect pressure points) for 3 menstrual cycles

Reported as significant
P value not reported

RCT
61 women with primary dysmenorrhoea, aged 20 to 40 years Mean pain score for "worst" menstrual pain, assessed by Descriptive Numeric Rating Scale of Pain Intensity and Distress Inventory after 2 menstrual cycles
3.9 with specially designed cotton acupressure brief containing 10 latex foam pads fixed over lower abdominal and lower back acupressure points
7.3 with waiting list control, who received usual care

P <0.001
Effect size not calculated acupressure brief

RCT
61 women with primary dysmenorrhoea, aged 20 to 40 years Mean pain score for "worst" menstrual pain, assessed by Menstrual Pain Symptom Intensity Scale after 2 menstrual cycles
2.9 with specially designed cotton acupressure brief containing 10 latex foam pads fixed over lower abdominal and lower back acupressure points
7.1 with waiting list control, who received usual care

P <0.05
Effect size not calculated acupressure brief

RCT
61 women with primary dysmenorrhoea, aged 20 to 40 years Proportion of women experiencing a clinically significant drop in pain scores
25/28 (89%) with specially designed cotton acupressure brief containing 10 latex foam pads fixed over lower abdominal and lower back acupressure points
2/26 (8%) with waiting list control, who received usual care

P <0.05
Effect size not calculated acupressure brief

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

RCT
61 women with primary dysmenorrhoea, aged 20 to 40 years Adverse effects
with specially designed cotton acupressure brief containing 10 latex foam pads fixed over lower abdominal and lower back acupressure points
with waiting list control, who received usual care

No data from the following reference on this outcome.

Acupressure versus NSAIDs:

We found one systematic review (search date 2008, 4 RCTs) comparing the use of acupressure with NSAIDs. The review did not pool the data because of heterogeneity of the RCTs. It did not give information on follow-up or absolute results for the individual RCTs. Three of the included RCTs were written in Chinese (see further information on studies).

Pain

Compared with NSAIDs We don't know how effective acupressure and ibuprofen are, compared with each other, at reducing pain in women with dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
3-armed trial
216 adolescent women with primary dysmenorrhoea; aged 14 to 18 years; not previously sexually active
In review
Proportion of women reporting no pain 3 months
36/72 (50%) with acupressure
26/72 (36%) with ibuprofen

Difference between acupressure and ibuprofen reported as not significant
P value not reported
Not significant

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Acupressure versus herbal remedies:

We found one systematic review (search date 2008, 1 RCT, 160 women) comparing acupressure with Chinese herbal medicine. The RCT was written in Chinese, see further information on studies.

Further information on studies

A meta-analysis could not be carried out because of heterogeneity of the included RCTs in types (acupuncture, acupressure, acupoint injections, and moxibustion) and duration of treatments. None of the 32 included RCTs in the review were considered by the review as high quality, 6 were of average quality, and 26 were of low quality. Only three RCTs reported a sample size calculation, one was double-blind, three RCTs reported intention-to-treat analyses, and the follow-up was >1 year in only 4 of 32 RCTs. The systematic review concluded that because of the small sample sizes of included trials and the poor methodological quality, there is no convincing evidence for acupuncture-related treatments being an effective treatment for primary dysmenorrhoea. Acupressure versus sham acupressure or no treatment: One of the RCTs identified did not fulfil Clinical Evidence inclusion criteria because the follow-up was too low (<80%). Acupressure versus NSAIDs: Three RCTs comparing acupressure with indometacin or ibuprofen were written in Chinese. One of these RCTs did not fulfil Clinical Evidence inclusion criteria because the adequacy of randomisation was unclear (although the trial stated that women were "randomly divided", the methods section described allocation by clinical number suggesting pseudo-randomisation). We are awaiting full-text translation of the other two RCTs, and will assess these for inclusion at the next update. Acupressure versus herbal remedies: The review found no significant differences between groups in pain relief, but gave no further information. We are awaiting the full-text translation of the RCT, and will assess this for inclusion at the next update.

Comment

None.

Substantive changes

Acupressure New evidence added. Categorisation unchanged (Likely to be beneficial).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Aspirin, paracetamol, and compound analgesics

Summary

Simple analgesics such as aspirin and paracetamol may reduce pain in the short term, although few studies have been of good quality.

NOTE: A drug safety alert has been issued by the Food Drug Administration (FDA) on the risk of rare but serious skin reactions with paracetamol (acetaminophen).

Benefits and harms

Aspirin versus placebo:

We found two systematic reviews (search date 1997, 8 RCTs, 486 women with primary dysmenorrhoea; and search date 2003, 2 RCTs, 143 women; see further information on studies).

Pain

Aspirin compared with placebo Aspirin may be more effective at reducing pain in women with dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
486 women with primary dysmenorrhoea
8 RCTs in this analysis
Proportion of women with at least moderate pain relief
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 1.60
95% CI 1.12 to 2.29
NNT 10
95% CI 5 to 50
Small effect size aspirin
Need for additional medication

Systematic review
205 women with primary dysmenorrhoea
3 RCTs in this analysis
Need for additional medication
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 0.79
95% CI 0.58 to 1.08
Not significant

Systematic review
36 women
Data from 1 RCT
Need for additional medication
12/24 (50%) with aspirin (650 mg/day during menses)
7/12 (58%) with placebo

RR 0.86
95% CI 0.46 to 1.60
Not significant

Daily activities and work

Aspirin compared with placebo We don't know whether aspirin is more effective at reducing restriction of daily activity and absence from work in women with dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Daily activities

Systematic review
203 women with primary dysmenorrhoea
3 RCTs in this analysis
Restriction of daily activity
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 0.82
95% CI 0.64 to 1.04
Not significant
Absence from work

Systematic review
37 women with primary dysmenorrhoea
Data from 1 RCT
Absence from work
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 1.28
95% CI 0.24 to 6.76
Not significant

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
Women with primary dysmenorrhoea Adverse effects
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 1.3
95% CI 0.79 to 2.17
Not significant

Systematic review
Women with primary dysmenorrhoea Nausea
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 1.66
95% CI 0.59 to 4.67
Not significant

Systematic review
Women with primary dysmenorrhoea Dizziness
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 1.29
95% CI 0.28 to 5.89
Not significant

Systematic review
Women with primary dysmenorrhoea Headache
with aspirin (650 mg four times daily)
with placebo
Absolute results not reported

RR 0.60
95% CI 0.18 to 2.04
Not significant

Systematic review
36 women with dysmenorrhoea
Data from 1 RCT
Adverse effects
12/24 (50%) with aspirin
4/12 (33%) with placebo

OR 1.93
95% CI 0.49 to 7.62
Not significant

Systematic review
36 women with dysmenorrhoea
Data from 1 RCT
Gastrointestinal adverse effects
7/24 (29%) with aspirin
2/12 (17%) with placebo

OR 1.91
95% CI 0.39 to 9.26
Not significant

Systematic review
36 women with dysmenorrhoea
Data from 1 RCT
Nervous system adverse effects
8/24 (33%) with aspirin
1/12 (8%) with placebo

OR 3.66
95% 0.75 to 17.71
Not significant

Paracetamol versus placebo:

We found one systematic review (search date 1997, 1 RCT).

Pain

Paracetamol compared with placebo Paracetamol may be no more effective at reducing pain in women with dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
35 women randomised, 30 women in analysis
Data from 1 RCT
Median pain relief
1.6 with paracetamol (500 mg four times daily)
0.9 with placebo

Reported as no significant difference
Not significant

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
35 women randomised, 30 women in analysis
Data from 1 RCT
Frequency of any adverse effect
with paracetamol (500 mg four times daily)
with placebo
Absolute results not reported

RR 1.00
95% CI 0.36 to 2.75
Not significant

Paracetamol versus aspirin:

We found one systematic review (search date 1997, 1 RCT).

Pain

Aspirin compared with paracetamol We don't know how effective aspirin and paracetamol are, compared with each other, at reducing pain in women with dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
35 women randomised, 30 women in analysis
Data from 1 RCT
Median pain relief
1.2 with aspirin (500 mg four times daily)
1.6 with paracetamol (500 mg four times daily)

Reported no significant difference
Not significant

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Aspirin versus NSAIDs:

We found two systematic reviews (search dates 1997 and 2003). The first review identified two RCTs, which compared aspirin versus NSAIDs (ibuprofen or naproxen). However, one RCT did not meet Clinical Evidence inclusion criteria because of a high loss to follow-up. The second review identified no RCTs comparing NSAIDs versus aspirin that were suitable for meta-analysis.

Pain

Aspirin compared with NSAIDs Aspirin may be less effective than naproxen at reducing pain in women with dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
34 women randomised, 32 women in analysis
Data from 1 RCT
Pain relief
with aspirin (650 mg four times daily)
with naproxen (500 mg loading dose followed by 275 mg four times daily)
Absolute results not reported

RR 2.29
95% CI 1.09 to 4.79
Moderate effect size naproxen

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Paracetamol versus NSAIDs:

We found two systematic reviews (search dates 1997 and 2003).

Pain

Paracetamol compared with NSAIDs We don't know how effective paracetamol and NSAIDs are, compared with each other, at reducing pain in women with dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain relief

Systematic review
68 women in analysis for this comparison
Data from 1 RCT
Proportion of women with pain relief
9/33 (27%) with paracetamol (1000 mg up to 3 times daily)
16/35 (46%) with naproxen (220 mg up to 3 times daily)

OR 2.25
95% CI 0.81 to 6.19
Not significant

Systematic review
67 women randomised, 60 women in analysis
Data from 1 RCT
Pain relief
with paracetamol (1000 mg three times daily)
with ibuprofen (400 mg three times daily)
Absolute results not reported

RR 0.86
95% CI 0.68 to 1.10
Not significant

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
78 women in analysis for this comparison
Data from 1 RCT
Gastrointestinal adverse effects
1/39 (3%) with paracetamol (1000 mg up to 3 times daily)
1/39 (3%) with naproxen (220 mg up to 3 times daily)

OR 1.00
95% CI 0.06 to 16.58
Not significant

Systematic review
78 women in analysis for this comparison
Data from 1 RCT
Gastrointestinal adverse effects
2/39 (5%) with paracetamol (1000 mg up to 3 times daily)
3/39 (8%) with naproxen (220 mg up to 3 times daily)

OR 1.54
95% CI 0.24 to 9.78
Not significant

No data from the following reference on this outcome.

Paracetamol versus topical heat:

See option on topical heat.

Further information on studies

Most RCTs included in the systematic review were short (usually only 1 menstrual cycle on each treatment), small, and used a crossover design without a washout period. All the RCTs used double-blinding. All the RCTs used oral administration of treatment in the form of tablets or capsules. Negative RCTs may have been too small to detect clinically important differences between aspirin, paracetamol, or compound analgesics and placebo.

The systematic review included only double-blind RCTs with <20% loss to follow-up. It found no RCTs for which the results were suitable for quantitative analysis of effects on pain relief.

Drug safety alert

FDA issued a drug safety alert on the risk of rare but serious skin reactions with paracetamol (acetaminophen) (August 2013).

August 2013, paracetamol (acetaminophen)

The Food and Drug Administration (FDA) issued a drug safety alert on the risk of rare but serious skin reactions with paracetamol (acetaminophen). These skin reactions, known as Stevens–Johnson Syndrome (SJS), toxic epidermal necrolysis (TEN), and acute generalised exanthematous pustulosis (AGEP), can be fatal.(www.fda.gov/)

Comment

None.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Thiamine

Summary

Thiamine may reduce pain compared with placebo in young women with primary dysmenorrhoea.

Benefits and harms

Thiamine versus placebo:

We found one systematic review (search date 2000, 1 RCT).

Pain

Compared with placebo Thiamine seems more effective at reducing pain after 60 days in Indian adolescent women with moderate to very severe primary dysmenorrhoea (moderate-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
556 Indian adolescents attending school with moderate to very severe primary dysmenorrhoea
Data from 1 RCT
Proportion of women with no pain after 60 days and before crossover
142/277 (51%) with thiamine 100 mg daily for 90 days
0/279 (0%) with placebo for 60 days

NNT 2
95% CI 2 to 3
Effect size not calculated thiamine

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Further information on studies

After completion of the RCT, 87% of all women experienced no pain.

Comment

None.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Toki-shakuyaku-san (herbal remedy)

Summary

The herbal remedy toki-shakuyaku-san may reduce pain compared with placebo.

Benefits and harms

Toki-shakuyaku-san versus placebo:

We found one systematic review (search date 2000, 1 RCT).

Pain

Compared with placebo Toki-shakuyaku-san may be more effective at reducing pain after 6 months in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
50 women
Data from 1 RCT
Pain, as measured by a visual analogue scale after 6 months
with toki-shakuyaku-san (2.5 g three times daily)
with placebo
Absolute results reported graphically

P <0.005
Effect size not calculated toki-shakuyaku-san
Need for additional medication

Systematic review
50 women
Data from 1 RCT
Need for additional medication (diclofenac sodium) after 6 months
with toki-shakuyaku-san (2.5 g three times daily)
with placebo
Absolute results reported graphically

P <0.01
Effect size not calculated toki-shakuyaku-san

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Further information on studies

The allocation method was not clearly described in the RCT.

Comment

Toki-shakuyaku-san is a mixture of 6 herbs, including angelica and peony root.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Topical heat (about 39 °C)

Summary

Topical heat (about 39 °C) may be as effective as ibuprofen and more effective than paracetamol at reducing pain.

Benefits and harms

Topical heat versus placebo:

We found one RCT.

Pain

Compared with placebo Topical heat plus placebo tablets may be more effective than an unheated patch plus placebo at reducing pain in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
4-armed trial
84 women with moderate or greater pain in at least 4 of their last 6 cycles who experienced pain relief with non-prescription analgesics and had a history consistent with a diagnosis of primary dysmenorrhoea Mean pain relief score after 2 days of treatment from the start of menses
3.27 with abdominal heated (to 38.9 °C) patch for about 12 hours daily plus placebo
1.95 with unheated patch plus placebo

P <0.001
Effect size not calculated heated patch plus placebo

RCT
4-armed trial
84 women with moderate or greater pain in at least 4 of their last 6 cycles who experienced pain relief with non-prescription analgesics and had a history consistent with a diagnosis of primary dysmenorrhoea Mean pain intensity reduction after 2 days of treatment from the start of menses
40.4 with abdominal heated (to 38.9 °C) patch for about 12 hours daily plus placebo
21.9 with unheated patch plus placebo

P <0.003
Effect size not calculated heated patch plus placebo

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

RCT
4-armed trial
84 women with moderate or greater pain in at least 4 of their last 6 cycles who experienced pain relief with non-prescription analgesics and had a history consistent with a diagnosis of primary dysmenorrhoea Proportion of women reporting pinkness or redness of the skin end of day 2 (after 12 continuous hours of use)
23/40 (58%) with heated patch plus placebo or ibuprofen
5/41 (12%) with unheated patch plus placebo or ibuprofen

OR 9.74
95% CI 3.16 to 30.04
Large effect size unheated patch

Topical heat versus NSAIDs:

We found one RCT.

Pain

Compared with NSAIDs We don't know how effective topical heat treatment plus placebo and an unheated topical patch plus ibuprofen are, compared with each other, at reducing pain in women with dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
4-armed trial
84 women with moderate or greater pain in at least 4 of their last 6 cycles who experienced pain relief with non-prescription analgesics and had a history consistent with a diagnosis of primary dysmenorrhoea Mean pain relief score after 2 days of treatment from the start of menses
3.27 with abdominal heated (to 38.9 °C) patch for about 12 hours daily plus placebo
3.07 with unheated patch plus ibuprofen

Significance not assessed

RCT
4-armed trial
84 women with moderate or greater pain in at least 4 of their last 6 cycles who experienced pain relief with non-prescription analgesics and had a history consistent with a diagnosis of primary dysmenorrhoea Mean pain intensity reduction after 2 days of treatment from the start of menses
40.4 with abdominal heated (to 38.9 °C) patch for about 12 hours daily plus placebo
39.0 with unheated patch plus ibuprofen

Significance not assessed

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Topical heat versus paracetamol:

We found one RCT.

Pain

Compared with paracetamol Topical heat treatment may be more effective at reducing pain in women with primary dysmenorrhoea after 8 hours (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
4-armed trial
362 women with primary dysmenorrhoea Mean pain score after 8 hours of treatment
2.48 with abdominal heat wrap (heated to 40 °C for 8 hours from the first morning after the start of menses)
2.17 with high-dose paracetamol (1000 mg four times daily)

P = 0.015
Effect size not calculated heated wrap

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

RCT
4-armed trial
362 women with primary dysmenorrhoea Number of women reporting adverse effects
2 with abdominal heat wrap (heated to 40 °C for 8 hours from the first morning after the start of menses)
4 with high-dose paracetamol (1000 mg four times daily)

Topical heat versus Chinese herbal remedies:

See option on herbal remedies.

Further information on studies

Participants in the RCT included volunteer women. Dysmenorrhoea in these women may have a different pattern and response to treatment from dysmenorrhoea in women seeking health care.

No data were reported for the placebo groups.

Comment

None.

Substantive changes

Topical heat New evidence added. Categorisation unchanged (Likely to be beneficial).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

TENS

Summary

High-frequency transcutaneous electrical nerve stimulation (TENS) may reduce pain compared with sham TENS, but seems to be less effective than ibuprofen.

Benefits and harms

High-frequency TENS versus placebo TENS:

We found one systematic review (search date 2009, 4 RCTs) and one subsequent RCT in women with primary dysmenorrhoea.

Pain

High-frequency TENS compared with placebo High-frequency TENS may be more effective than placebo TENS at reducing pain in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
53 women with primary dysmenorrhoea
2 RCTs in this analysis
Pain relief, as measured by subjective assessment
30/53 (57%) with high-frequency TENS
8/53 (15%) with placebo TENS

OR 7.2
95% CI 3.1 to 16.5
Large effect size high-frequency TENS

RCT
Crossover design
26 women with primary dysmenorrhoea Change in visual analogue scale pain score after treatment
From 4.81 to 2.18 with TENS for 1 cycle
From 4.44 to 3.07 with sham TENS for 1 cycle

P = 0.018
Effect size not calculated TENS
Need for additional medication

Systematic review
32 women with primary dysmenorrhoea
Data from 1 RCT
Proportion of women needing additional analgesics
22/32 (69%) with high-frequency TENS
28/32 (88%) with placebo TENS

OR 0.3
95% CI 0.1 to 1.1
Not significant

Systematic review
24 women with primary dysmenorrhoea
Data from 1 RCT
Mean number of analgesic tablets taken each day
6.92 with high-frequency TENS
6.78 with placebo TENS

WMD +0.1 tablets
95% CI –2.1 tablets to +2.4 tablets
Randomisation and blinding unclear
Not significant

Daily activities and work

High-frequency TENS compared with placebo We don't know whether high-frequency TENS is more effective than placebo TENS at reducing absence from work or school in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Absence from work or school

Systematic review
24 women with primary dysmenorrhoea
Data from 1 RCT
Mean number of lost hours each menstrual cycle
1.46 hours with high-frequency TENS
1.42 hours with placebo TENS

WMD +0.04 hours
95% CI –0.4 hours to +0.5 hours
Randomisation and blinding unclear
Not significant

No data from the following reference on this outcome.

Quality of life

High-frequency TENS compared with placebo We don't know whether high-frequency TENS is more effective than placebo at improving quality of life, assessed by the Menstrual Distress Questionnaire or the Short-Form (SF)-36 Health Survey in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Quality of life

RCT
Crossover design
26 women with primary dysmenorrhoea Menstrual Distress Questionnaire total score
25.4 with TENS for 1 cycle
27.4 with sham TENS for 1 cycle

P = 0.079
Not significant

RCT
Crossover design
26 women with primary dysmenorrhoea Short-Form (SF)-36 questionnaire
with TENS for 1 cycle
with sham TENS for 1 cycle

No significant difference in any subcategory score
P = 0.173 to 0.992
Not significant

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
32 women with primary dysmenorrhoea
Data from 1 RCT
Adverse effects
4/32 (13%) with high-frequency TENS
0/32 (0%) with placebo TENS

RR 9.0
95% CI 0.50 to 160.59
Not significant

No data from the following reference on this outcome.

Low-frequency TENS versus placebo TENS or placebo tablet:

We found one systematic review (search date 2009, 5 RCTs) in women with primary dysmenorrhoea.

Pain

Low-frequency TENS compared with placebo We don't know whether low-frequency TENS is more effective than placebo TENS at reducing pain in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
42 women with primary dysmenorrhoea
2 RCTs in this analysis
Pain relief by subjective assessment
18/31 (58%) with low-frequency TENS
15/32 (47%) with placebo TENS or tablet

OR 1.8
95% CI 0.6 to 5.1
Not significant

Systematic review
20 women with primary dysmenorrhoea
Data from 1 RCT
Pain relief
with low-frequency TENS
with placebo TENS or tablet
Absolute results not reported

P <0.05
Effect size not calculated low-frequency TENS
Need for additional medication

Systematic review
24 women with primary dysmenorrhoea
Data from 1 RCT
Mean number of additional tablets of analgesic used
3.7 with low-frequency TENS
6.8 with placebo TENS or tablet

WMD –3.1 tablets
95% CI –5.5 tablets to –0.7 tablets
Randomisation and blinding unclear
Effect size not calculated low-frequency TENS

Daily activities and work

Low-frequency TENS compared with placebo We don't know whether low-frequency TENS is more effective than placebo TENS at reducing absence from work or school in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Absence from work/school

Systematic review
24 women with primary dysmenorrhoea
Data from 1 RCT
Mean hours of absence from work or school
1.23 hours with low-frequency TENS
1.42 hours with placebo TENS or tablet

WMD –0.2 hours
95% CI –0.6 hours to +0.2 hours
Randomisation and blinding unclear
Not significant

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
21 women with primary dysmenorrhoea
Data from 1 RCT
Adverse effects
0/10 (0%) with low-frequency TENS
0/11 (0%) with placebo TENS or tablet

High-frequency TENS versus low-frequency TENS:

We found one systematic review (search date 2009, 3 RCTs) in women with primary dysmenorrhoea.

Pain

High-frequency TENS compared with low-frequency TENS We don't know whether high-frequency TENS is more effective than low-frequency TENS at reducing pain in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
21 women with primary dysmenorrhoea
Data from 1 RCT
Proportion of women with pain relief measured by subjective assessment
16/21 (76%) with high-frequency TENS
9/21 (43%) with low-frequency TENS

OR 3.9
95% CI 1.1 to 13.0
Moderate effect size high-frequency TENS
Need for additional medication

Systematic review
24 women with primary dysmenorrhoea
Data from 1 RCT
Mean number of additional analgesic tablets taken
6.9 with high-frequency TENS
3.7 with low-frequency TENS

WMD 3.2 tablets
95% CI 0.5 tablets to 5.9 tablets
Randomisation and blinding unclear
Effect size not calculated low-frequency TENS

Daily activities and work

High-frequency TENS compared with low-frequency TENS We don't know whether high-frequency TENS is more effective than low-frequency TENS at reducing absence from work or school in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Absence from work or school

Systematic review
24 women with primary dysmenorrhoea
Data from 1 RCT
Mean hours of absence from work or school
1.46 hours with high-frequency TENS
1.23 hours with low-frequency TENS

WMD +0.2 hours
95% CI –0.2 hours to +0.6 hours
Randomisation and blinding unclear
Not significant

Adverse effects

No data from the following reference on this outcome.

High-frequency TENS versus NSAIDs:

We found one systematic review (search date 2009, 2 RCTs) in women with primary dysmenorrhoea. One of the included RCTs did not meet Clinical Evidence inclusion criteria (see comment).

Pain

High-frequency TENS compared with NSAIDs High-frequency TENS may be less effective than ibuprofen NSAIDs at reducing pain in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
Crossover design
3-armed trial
32 women
In review
Proportion of women experiencing pain relief
14/32 (44%) with high-frequency TENS
24/32 (75%) with ibuprofen

OR 0.26
95% CI 0.09 to 0.75
Moderate effect size ibuprofen

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Further information on studies

High-frequency TENS versus low-frequency TENS:One additional RCT, which could not be included in the meta-analysis, found that low-frequency TENS significantly reduced pain compared with high-frequency TENS (P <0.05).

Comment

High-frequency TENS versus NSAIDs:

One RCT (open label, crossover design, 12 women), which did not meet Clinical Evidence inclusion criteria, compared high-frequency TENS versus naproxen and found no significant difference in pain relief between groups. It reported an increase in the number of adverse effects experienced by women with high-frequency TENS compared with naproxen, particularly pain from TENS treatment. The women who reported pain from TENS stated that they were prepared to accept the short-term pain from the treatment in return for relief of dysmenorrhoea.

Substantive changes

TENS New evidence added. Categorisation unchanged (Likely to be beneficial).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Vitamin E

Summary

Vitamin E may reduce pain compared with placebo in young women with primary dysmenorrhoea.

Benefits and harms

Vitamin E versus placebo:

We found one systematic review (search date 2002, 2 RCTs) and one subsequent RCT.

Pain

Compared with placebo Vitamin E tablets may be more effective at reducing pain at 2 to 4 months in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
100 adolescent women with primary dysmenorrhoea, aged 16 to 18 years
In review
Pain assessed by median 10 cm visual analogue scale pain scores 2 months
3.5 cm with vitamin E (500 units/day [about 333 mg], from 2 days before expected menses until the third day of menses)
4.3 cm with placebo

P = 0.02
Effect size not calculated vitamin E

Systematic review
100 women aged 18 to 21 years
Data from 1 RCT
Proportion with improvement in pain 3 months
34/50 (68%) with vitamin E (50 mg three times daily from 10 days before expected menses until the fourth day of menses)
9/50 (18%) with placebo

Significance assessment not performed
This RCT may not have been truly randomised (alternate allocation)

RCT
278 adolescent women with primary dysmenorrhoea aged 15 to 17 years Median visual analogue scale score at 4 months
0.5 with vitamin E (200 units/day, from 2 days before expected menses until the third day of menses)
6.0 with placebo

P <0.001
Effect size not calculated vitamin E

RCT
278 adolescent women with primary dysmenorrhoea aged 15 to 17 years Mean pain duration at 4 months
1.6 hours with vitamin E (200 units/day, from 2 days before expected menses until the third day of menses)
17.0 hours with placebo

P <0.0001
Effect size not calculated vitamin E

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Further information on studies

None.

Comment

We found one systematic review (search date 2000), which identified one RCT (crossover design, 50 women) comparing vitamin E plus ibuprofen versus ibuprofen alone. However, the RCT was open label and so does not fulfil Clinical Evidence inclusion criteria. It found no significant difference between vitamin E plus ibuprofen and ibuprofen alone in pain relief.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Acupuncture

Summary

We don't know whether acupuncture reduces dysmenorrhoea.

Benefits and harms

Acupuncture versus placebo acupuncture or no treatment:

We found one systematic review (search date 2008, 2 RCTs) comparing acupuncture versus placebo acupuncture or no treatment for primary dysmenorrhoea. The review did not pool the data because of heterogeneity of the RCTs. It did not give information on follow-up or absolute results for the individual RCTs (see further information on studies). We found two subsequent RCTs.

Pain

Compared with placebo acupuncture or no treatment Acupuncture may be more effective than placebo acupuncture or no treatment at reducing pain in women with dysmenorrhoea, but we don't know whether laser acupuncture is more effective than placebo laser acupuncture (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
4-armed trial
43 women
In review
Proportion of women with reduction in pain of more than half the admission score after 3 months
10/11 (91%) with weekly acupuncture (30–40 minutes) for 3 weeks of each menstrual cycle
4/11 (36%) with placebo acupuncture
1/10 (10%) with monthly medical visits
2/11 (18%) with no medical treatment

P <0.05 for acupuncture v all other treatments
Effect size not calculated acupuncture

RCT
Crossover design
201 women with primary or secondary dysmenorrhoea aged 18 years or older, number of women with primary dysmenorrhoea not reported Average pain intensity after 3 months
3.1 with acupuncture
5.4 with waiting list control

Difference –2.3
P <0.001
Effect size not calculated acupuncture

RCT
48 women with primary dysmenorrhoea, aged 18 to 50 years Proportion of women with successful pain reduction
3/18 (17%) with laser acupuncture for 3 menstrual cycles (total 8 sessions of 20 minutes each)
6/30 (20%) with placebo laser acupuncture for 3 menstrual cycles (total 8 sessions of 20 minutes each)

OR 1.25
95% CI 0.22 to 8.85
Not significant

Daily activities and work

No data from the following reference on this outcome.

Quality of life

Compared with placebo acupuncture or no treatment Acupuncture may be more effective than waiting list control at improving some measures of quality of life (assessed by the Short-Form [SF]-36 questionnaire) in women with dysmenorrhoea; however, we don't know about all measures because of baseline differences between groups (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Quality of life

RCT
Crossover design
201 women with primary or secondary dysmenorrhoea aged 18 years or older, number of women with primary dysmenorrhoea not reported Quality of life scores (assessed by SF-36) after 3 months
with acupuncture
with waiting list control

Acupuncture significantly improved scores on all SF-36 subscales, except general health perception, compared with no treatment: all subscales except for general health perception P <0.001 to P = 0.021
Result should be interpreted with caution because of baseline differences between groups in quality-of-life measures (see further information on studies)

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

RCT
Crossover design
Women with primary or secondary dysmenorrhoea aged 18 years or older, number of women with primary dysmenorrhoea not reported Adverse effects
with acupuncture
with waiting list control

Analysis included women who were randomised to receive acupuncture as part of the RCT, and women who were not randomised as part of the study but who also received acupuncture

RCT
48 women with primary dysmenorrhoea, aged 18 to 50 years Adverse effects
with laser acupuncture
with placebo laser acupuncture

No data from the following reference on this outcome.

Acupuncture versus NSAIDs:

We found one systematic review (search date 2008), which found two RCTs comparing acupuncture versus indometacin and one three-armed RCT comparing acupuncture versus placebo or versus ibuprofen (see further information on studies).

Pain

Compared with NSAIDs Acupuncture may be more effective than indometacin at improving pain scores in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
120 women with primary dysmenorrhoea
In review
Change in pain score from baseline (composite pain score, range not defined) after 3 menstrual periods
From 11.26 to 1.94 with acupuncture (superficial needling at Sanyinjiao SP-6) for 2 days each menstrual period
From 11.02 to 4.49 with indometacin (oral) for 2 days each menstrual period

P <0.001 (between groups after treatment)
Effect size not calculated acupuncture

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Acupuncture versus Chinese herbal medicine:

See option on herbal remedies.

Further information on studies

A meta-analysis could not be carried out because of heterogeneity of the included RCTs in types (acupuncture, acupressure, acupoint injections, and moxibustion) and duration of treatments. None of the 32 included RCTs were considered by the review as high quality, 6 were of average quality, and 26 were of low quality. Only three RCTs reported a sample size calculation, one was double-blind, three RCTs reported intention-to-treat analyses, and the follow-up was >1 year in only 4 of 32 RCTs. The systematic review concluded that because of the small sample sizes of included trials and the poor methodological quality, there is no convincing evidence for acupuncture-related treatments being an effective treatment for primary dysmenorrhoea. Acupuncture versus placebo acupuncture or no treatment: The review reported that one RCT (122 women) compared acupuncture versus placebo or versus ibuprofen. It reported that acupuncture significantly improved pain relief compared with placebo. However, this RCT was written in Chinese and we are awaiting full-text translation of this trial and will assess it for inclusion at the next update. Acupuncture versus NSAIDs: The review reported that one RCT (58 women) found no significant difference between auricular acupuncture and indometacin in pain relief. However, it was unclear from the review whether this RCT in fact examined acupuncture or acupressure, and we were unable to access the full text of this RCT. The review reported that another RCT (122 women) found that acupuncture significantly improved pain relief compared with ibuprofen. However, this study was written in Chinese and we are awaiting full-text translation of this study and will assess it for inclusion at the next update.

The waiting list control group subsequently crossed over to receive acupuncture from 3 to 6 months. However, we have reported the pre-crossover results here. The RCT reported that there were no significant baseline differences between groups except for significantly lower scores on the physical component scale, and subscales of physical functioning and bodily pain of the Short-Form (SF)-36 questionnaire with waiting list control compared with acupuncture.

Comment

None.

Substantive changes

Acupuncture New evidence added. Categorisation unchanged (Unknown effectiveness). Because of the small sample sizes of included trials and their poor methodological quality, there remains no convincing evidence to assess whether acupuncture-related treatments are an effective treatment for primary dysmenorrhoea.

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Behavioural interventions

Summary

Relaxation may be better than no treatment at relieving dysmenorrhoea.

Benefits and harms

Relaxation treatment versus no treatment/waiting list control:

We found two systematic reviews (search date 2002, 4 RCTs; and search date 2005, 5 RCTs) assessing behavioural interventions in women with dysmenorrhoea. The systematic reviews did not carry out meta-analyses, and so we have reported the one RCT that met Clinical Evidence inclusion criteria (see comment for information on other studies).

Pain

Relaxation treatment compared with waiting list control Relaxation treatment may be more effective at reducing symptoms of dysmenorrhoea in women with spasmodic or congestive dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
3-armed trial
69 women with congestive or spasmodic dysmenorrhoea
In review
Dysmenorrhoeic symptoms
with relaxation treatment plus positive imagery regarding menstruation
with waiting list control
Absolute results not reported

P <0.01
Effect size not calculated relaxation treatment plus positive imagery regarding menstruation

RCT
3-armed trial
69 women with congestive or spasmodic dysmenorrhoea
In review
Pain
with relaxation treatment plus positive imagery regarding menstruation
with self-directed group discussion about menstruation
with waiting list control
Absolute results not reported

P <0.001 in women with spasmodic dysmenorrhoea
Effect size not calculated relaxation treatment plus positive imagery regarding menstruation in women with spasmodic dysmenorrhoea

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Further information on studies

In the RCT on relaxation, spasmodic dysmenorrhoea was defined as spasms of pain mainly in the abdomen, and congestive dysmenorrhoea was defined as a dull aching pain in the lower abdomen and other areas of the body. However, the classification of dysmenorrhoea into spasmodic and congestive categories is no longer commonly used and has little meaning.

Comment

The first systematic review identified one RCT comparing a training group that participated in 30 minutes of aerobic exercise 3 days a week for 3 months versus a sedentary control group. The RCT analysed results for the 26/36 (72%) women who completed the trial and so did not meet Clinical Evidence inclusion criteria. It found that aerobic exercise significantly lowered Menstrual Distress Questionnaire scores. The systematic review included three additional studies comparing different types of exercise that it described as RCTs; however, there was no mention of randomisation in the original publications. Therefore, we have not included these studies.

The second review identified one RCT, which examined the effectiveness of relaxation or relaxation plus imagery versus waiting list control in women with premenstrual or menstrual discomfort for at least 2 years. However, the review was unable to extract data suitable for analysis, and the original publication of the RCT did not give sufficient information to appraise this study for inclusion in this Clinical Evidence review. The RCT was an incomplete factorial design study. It analysed women with spasmodic symptoms (33 women) and congestive symptoms (29 women) separately. In the case of women with spasmodic symptoms, it compared three treatment arms: relaxation treatment, relaxation plus imagery, and waiting list control. In the case of women with congestive symptoms, it compared two treatment arms: relaxation treatment and waiting list control. It reported that 88 women were interviewed, but did not report how many women were randomised, or the method of randomisation, and so we could not determine the follow-up from this study. The review reported that the RCT did not present data suitable for meta-analysis. However, it commented that relaxation with imagery or relaxation alone were effective treatments for reducing symptom scores compared with control in women with spasmodic symptoms, but found no difference in women with congestive symptoms (no clear data other than MANOVA F scores presented in the RCT).

Although there is some evidence from RCTs that behavioural interventions may be effective for dysmenorrhoea, these results should be viewed with caution as they varied greatly between trials because of inconsistency in the reporting of data, small trial size, poor methodological quality, and age of the trials.

Substantive changes

Behavioural interventions New evidence added. Categorisation changed (from Unknown effectiveness to Likely to be beneficial).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Contraceptives (combined oral)

Summary

Combined oral contraceptives may be more effective at reducing pain in women with primary dysmenorrhoea compared with placebo; however, few trials have been of good quality.

Benefits and harms

Combined oral contraceptives versus placebo/no treatment:

We found one systematic review (search date 2008, 6 RCTs) comparing combined oral contraceptives versus placebo/no treatment for primary dysmenorrhoea. Two RCTs examined low-dose oestrogen plus progestogen and 4 RCTs examined medium-dose oestrogen plus progestogen.

Pain

Compared with placebo Combined oral contraceptives may be more effective at reducing pain in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
497 women with primary dysmenorrhoea
6 RCTs in this analysis
Proportion of women with pain improvement after 2 to 6 cycles
142/307 (46%) with combined oral contraceptives (OCP)
51/190 (27%) with placebo or no treatment

OR 2.01
95% CI 1.32 to 3.08
Significant statistical heterogeneity in this analysis, see further information on studies
Moderate effect size OCP

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
165 women with primary dysmenorrhoea
2 RCTs in this analysis
Proportion of people who experienced any adverse effect
44/87 (51%) with combined oral contraceptives (OCP)
36/78 (46%) with placebo or no treatment

OR 1.45
95% 0.71 to 2.94
Not significant

Further information on studies

Most of the RCTs identified by the systematic review had weak methodology, including inadequate blinding. RCTs included women with a range of severities of dysmenorrhoea and used different ways of assessing pain or pain relief. Follow-up length and the timing of outcome assessment also differed between RCTs. There was significant statistical heterogeneity in the analysis of proportion of women with pain improvement (I2 = 64%, P = 0.02). A sensitivity analysis, removing RCTs with inadequate allocation concealment, found that heterogeneity was no longer significant but did not affect the significance of the result.

Comment

None.

Substantive changes

Contraception (combined oral) New evidence added. Categorisation changed (from Unknown effectiveness to Likely to be beneficial).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Fish oil

Summary

We don't know whether fish oil reduces dysmenorrhoea.

Benefits and harms

Fish oil versus placebo:

We found one systematic review (search date 2000, 1 RCT) and one additional RCT, which compared fish oil versus placebo.

Pain

Compared with placebo We don't know whether fish oil is more effective than placebo at reducing pain in women with dysmenorrhoea at 3 months (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
42 women
Data from 1 RCT
Menstrual symptom scores
with fish oil capsules (twice daily for 1 month)
with placebo (twice daily for 1 month)
Absolute results not reported

P = 0.04
Effect size not calculated fish oil

RCT
4-armed trial
78 women with primary dysmenorrhoea Mean reduction in pain scores (measured on a 10 cm visual analogue scale)
0.15 cm with fish oil (0.5–1.0 g five times daily) for a minimum of 3 months
0.19 cm with placebo for a minimum of 3 months

P = 0.62
Not significant
Additional pain medication

Systematic review
42 women
Data from 1 RCT
Mean number of tablets of ibuprofen (200 mg) taken
4.7 tablets with fish oil capsules (twice daily for 1 month)
10.1 tablets with placebo (twice daily for 1 month)

P = 0.015
Effect size not calculated fish oil

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
42 women
Data from 1 RCT
Number of women reporting adverse effects
3 with fish oil capsules (twice daily for 1 month)
0 with placebo (twice daily for 1 month)

RCT
4-armed trial
78 women with primary dysmenorrhoea Adverse effects
with fish oil (0.5–1.0 g five times daily) for a minimum of 3 months
with placebo for a minimum of 3 months
Absolute results not reported

Further information on studies

Both RCTs included women with dysmenorrhoea and no additional health problems. This could include women with either primary or secondary dysmenorrhoea.

The results from the RCT identified by the review refer to the average of the two groups after the allocated treatments were crossed over, and should be interpreted with caution, as treatment effects may persist after crossover.

Comment

None.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Herbal remedies other than toki-shakuyaku-san

Summary

Iranian herbal remedy (saffron, celery, and anise) may reduce pain compared with placebo. We don't know whether Chinese herbal remedies are beneficial compared with placebo, but we found limited evidence that they may be effective compared with other treatments for dysmenorrhoea.

Benefits and harms

Chinese herbal medicine versus placebo/no treatment:

We found one systematic review (search date 2007, 4 RCTs, see further information on studies) and one subsequent RCT.

Pain

Chinese herbal medicine compared placebo/no treatment We don't know whether Chinese herbal remedies are more effective at reducing pain in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
90 women with primary dysmenorrhoea
Data from 1 RCT
Proportion of women with pain relief at 3 months
5/60 (8%) with Chinese herbal medicine (data from 2 different regimens combined)
0/30 (0%) with placebo

RR 5.59
95% CI 0.32 to 97.87
Not significant

Systematic review
36 women with primary dysmenorrhoea
Data from 1 RCT
Maximum pain intensity score
61 with Chinese herbal medicine
60 with placebo

Mean difference +1.00
95% CI –17.95 to +19.95
Not significant

RCT
78 women with primary dysmenorrhoea Mean overall pain intensity over first 5 days of cycle 1
3.54 with Chinese herbal medicine (Four Agents Decoction [Si Wu Tang]) for 5 days starting from the onset of bleeding or pain
3.77 with placebo for 5 days starting from the onset of bleeding or pain

Reported as not significant
P value not reported
Not significant

RCT
78 women with primary dysmenorrhoea Mean overall pain intensity over first 5 days of cycle 2
3.91 with Chinese herbal medicine (Four Agents Decoction [Si Wu Tang]) for 5 days starting from the onset of bleeding or pain
3.25 with placebo for 5 days starting from the onset of bleeding or pain

Reported as not significant
P value not reported
Not significant

RCT
78 women with primary dysmenorrhoea Mean overall pain intensity over first 5 days of cycle 3
3.75 with Chinese herbal medicine (Four Agents Decoction [Si Wu Tang]) for 5 days starting from the onset of bleeding or pain
3.50 with placebo for 5 days starting from the onset of bleeding or pain

Reported as not significant
P value not reported
Not significant

RCT
78 women with primary dysmenorrhoea Peak pain (maximal single-day pain intensity) over first 5 days of cycle 1
4.49 with Chinese herbal medicine (Four Agents Decoction [Si Wu Tang]) for 5 days starting from the onset of bleeding or pain
4.56 with placebo for 5 days starting from the onset of bleeding or pain

Reported as not significant
P value not reported
Not significant

RCT
78 women with primary dysmenorrhoea Peak pain (maximal single-day pain intensity) over first 5 days of cycle 2
4.94 with Chinese herbal medicine (Four Agents Decoction [Si Wu Tang]) for 5 days starting from the onset of bleeding or pain
3.94 with placebo for 5 days starting from the onset of bleeding or pain

Reported as not significant
P value not reported
Not significant

RCT
78 women with primary dysmenorrhoea Peak pain (maximal single-day pain intensity) over first 5 days of cycle 3
3.75 with Chinese herbal medicine (Four Agents Decoction [Si Wu Tang]) for 5 days starting from the onset of bleeding or pain,
3.50 with placebo for 5 days starting from the onset of bleeding or pain

Reported as not significant
P value not reported
Not significant

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
166 women with primary dysmenorrhoea
3 RCTs in this analysis
Adverse effects
13/97 (13%) with Chinese herbal medicine
18/69 (26%) with placebo

RR 0.81
95% CI 0.61 to 1.07
Not significant

RCT
78 women with primary dysmenorrhoea Adverse effects (described as inner heat reaction, abnormal menses, PMS-like symptoms, respiratory disorder, and gastrointestinal disorder)
with Chinese herbal medicine (Four Agents Decoction [Si Wu Tang]) for 5 days starting from the onset of bleeding or pain, for 4 cycles
with placebo for 5 days starting from the onset of bleeding or pain, for 4 cycles
Absolute results not reported

Statistical analysis not reported

Chinese herbal medicine versus NSAIDs:

We found one systematic review (search date 2007, 14 RCTs) comparing Chinese herbal medicine versus conventional treatment (predominantly NSAIDs, see further information on studies).

Pain

Chinese herbal medicine compared with NSAIDs Chinese herbal medicine may be more effective than conventional treatments (predominantly NSAIDs) at improving pain relief and overall symptoms in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
1441 women with primary dysmenorrhoea
14 RCTs in this analysis
Proportion of women with pain relief
538/768 (70%) with Chinese herbal medicine
244/673 (36%) with conventional treatment (predominantly NSAIDs, see further information on studies)

RR 1.99
95% CI 1.52 to 2.60
The review found significant statistical heterogeneity in this analysis (I2 = 82%, P <0.00001), which was not explained by the herbal formula, RCT quality, or follow-up time
Small effect size Chinese herbal medicine

Systematic review
482 women with primary dysmenorrhoea
6 RCTs in this analysis
Proportion of women with improvement in overall symptoms
150/253 (59%) with Chinese herbal medicine
63/229 (28%) with conventional treatment (predominantly NSAIDs, see further information on studies)

RR 2.17
95% CI 1.73 to 2.73
Moderate effect size Chinese herbal medicine

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
Women with primary dysmenorrhoea Adverse effects
with Chinese herbal medicine
with conventional treatment (predominantly NSAIDs, see further information on studies)

Chinese herbal medicine versus acupuncture:

We found one systematic review (search date 2007, 2 RCTs) comparing Chinese herbal medicine with acupuncture.

Pain

Chinese herbal medicine compared with acupuncture Chinese herbal medicine may be more effective at improving pain relief in women with primary dysmenorrhoea (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
156 women
2 RCTs in this analysis
Pain relief
40/88 (45%) with Chinese herbal medicine
18/68 (26%) with acupuncture

RR 1.75
95% CI 1.09 to 2.82
The review reported that the RCTs did not state the method of randomisation, blinding, or follow-up
Small effect size Chinese herbal medicine

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Chinese herbal medicine versus topical heat:

We found one systematic review (search date 2007, 1 RCT) comparing Chinese herbal medicine with heat compression (using a hot-water bottle).

Pain

Chinese herbal medicine compared with topical heat Chinese herbal medicine may be more effective than heat compression (using a hot-water bottle) at improving pain relief in women with primary dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
55 women
Data from 1 RCT
Proportion of women with cure (defined as disappearance of abdominal pain symptoms and no relapse during 3 cycles of follow-up)
27/35 (77%) with Chinese herbal medicine
0/20 (0%) with heat compression (using a hot-water bottle)

RR 32.08
95% CI 2.06 to 499.18
The review reported that the RCT did not state the method of randomisation or follow-up
Large effect size Chinese herbal medicine

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
55 women
Data from 1 RCT
Adverse effects
with Chinese herbal medicine
with heat compression (using a hot-water bottle)

Chinese herbal medicine versus acupressure:

See option on acupressure.

Iranian herbal medicine versus placebo/no treatment:

We found one RCT comparing Iranian herbal medicine (highly purified saffron, celery seed, and anise) and mefenamic acid versus placebo.

Pain

Iranian herbal medicine compared with placebo Iranian herbal medicine seems more effective at reducing pain scores and duration of pain after 2 or 3 months in women with dysmenorrhoea (moderate-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain scores, assessed by visual analogue scale (VAS; scale 0–10, higher scores indicating more severe pain) 2 months
3 with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
5 with placebo

P <0.001
Effect size not calculated Iranian herbal medicine

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain scores, assessed by VAS (scale 0–10, higher scores indicating more severe pain) 3 months
0.5 with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
6 with placebo

P <0.001
Effect size not calculated Iranian herbal medicine

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain duration 2 months
2.3 with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
16.2 with placebo

P <0.001
Effect size not calculated Iranian herbal medicine

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain duration 3 months
2.4 hours with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
15.4 hours with placebo

P <0.001
Effect size not calculated Iranian herbal medicine

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Adverse effects
with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
with placebo

Iranian herbal medicine versus mefenamic acid:

We found one RCT comparing Iranian herbal medicine (highly purified saffron, celery seed, and anise) and mefenamic acid versus placebo (see above). The RCT did not present a direct comparison between herbal medicine and mefenamic acid for the outcome of pain.

Pain

Iranian herbal medicine compared with NSAIDs We don't know how effective Iranian herbal medicine and mefenamic acid are, compared with each other, at improving pain relief and duration of pain in women with dysmenorrhoea (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain scores, assessed by visual analogue scale (VAS; scale 0–10, higher scores indicating more severe pain) 2 months
3 with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
3.6 with mefenamic acid

Significance not reported

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain scores, assessed by VAS (scale 0–10, higher scores indicating more severe pain) 3 months
0.5 with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
2.4 with mefenamic acid

Significance not reported

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain duration 2 months
2.3 hours with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
3 hours with mefenamic acid

Significance not reported

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Pain duration 3 months
2.4 hours with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
3 hours with mefenamic acid

Significance not reported

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

RCT
3-armed trial
180 women, aged 18 to 30 years, with primary dysmenorrhoea Adverse effects
with Iranian herbal medicine (highly purified saffron, celery seed, and anise)
with mefenamic acid

Further information on studies

Chinese herbal medicine versus placebo/no treatment: The review did not pool the data for pain relief from three RCTs comparing Chinese herbal medicine versus placebo. However, it reported details of study design and absolute numbers from the included RCTs. It reported that one RCT did not provide data suitable for meta-analysis. The fourth RCT identified by the review compared Chinese herbal medicine (rose tea) versus no treatment. However, this RCT was open label, and so does not fulfil Clinical Evidence inclusion criteria and we have not reported it further. Chinese herbal medicine versus NSAIDs: Conventional treatments included indometacin alone (8 RCTs), indometacin plus vitamin B6 with or without heat (2 RCTs), indometacin plus atropome (1 RCT), ibuprofen (2 RCTs), piroxicam (1 RCT).

Comment

Ginger versus NSAIDs:

We found one blinded comparative trial (150 women with primary dysmenorrhoea, aged >18 years) comparing ginger rhizome powder (250 mg), mefenamic acid (250 mg), and ibuprofen (400 mg), each taken 4 times a day for 3 days at onset of menstrual periods. Women were alternately allocated into each of the three groups. There were no significant differences between groups in baseline characteristics (P >0.05). A verbal multidimensional scoring system was used to assess the severity of primary dysmenorrhoea after one menstruation. At the end of treatment, severity of dysmenorrhoea decreased in all groups with no differences between the groups in severity of dysmenorrhoea, pain relief, or satisfaction with the treatment (P >0.05). No severe adverse effects were reported.

Substantive changes

Herbal remedies other than toki-shakuyaku-san New evidence added. Categorisation changed (from Unknown effectiveness to Likely to be beneficial).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Magnets

Summary

We don't know whether magnets reduce dysmenorrhoea.

Benefits and harms

Magnets:

We found no systematic review. We found one RCT (written in Korean); however, we were unable to access the full text of this RCT (see comment).

Further information on studies

None.

Comment

The RCT (English abstract only; 23 women with primary dysmenorrhoea) compared an applied magnet (800–1299 gauss for 3 hours on the first day of pain) versus a control group that applied a non-magnet to the suprapubic area, lumbar area, and inner ankles. The RCT found that magnet treatment significantly improved pain and symptom scores compared with control immediately after treatment. Magnet treatment also improved pain and symptom scores compared with control 3 hours after treatment. The English language abstract of the RCT did not present any information on adverse effects.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Surgical interruption of pelvic nerve pathways

Summary

Surgical interruption of pelvic nerve pathways is not beneficial in treating dysmenorrhoea, and may be associated with adverse effects including constipation.

Laparoscopic presacral neurectomy has been associated with constipation and advanced laparoscopic skills are needed to perform the procedure.

Benefits and harms

Laparoscopic uterine nerve ablation versus diagnostic laparoscopy:

We found one systematic review (search date 2004) reported in two publications, which examined surgical pelvic nerve interruption for primary and secondary dysmenorrhoea. Two RCTs identified by the review compared laparoscopic uterine nerve ablation (LUNA) versus diagnostic laparoscopy for women with primary dysmenorrhoea.

Pain

Laparoscopic uterine nerve ablation compared with diagnostic laparoscopy We don't know how laparoscopic uterine nerve ablation and diagnostic laparoscopy (control) compare for at reducing pain at 6 months but laparoscopic presacral neurectomy may be more effective at reducing pain at 12 months (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
68 women with primary dysmenorrhoea
2 RCTs in this analysis
Pain relief 6 months' follow-up postoperatively
12/30 (40%) with laparoscopic uterine nerve ablation (LUNA)
11/38 (29%) with diagnostic laparoscopy

OR 1.43
95% CI 0.56 to 3.69
Not significant

Systematic review
68 women with primary dysmenorrhoea
2 RCTs in this analysis
Pain relief 12 months
13/30 (43%) with LUNA
4/38 (11%) with diagnostic laparoscopy

OR 6.12
95% CI 1.78 to 21.03
Large effect size LUNA

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

No data from the following reference on this outcome.

Laparoscopic uterine nerve ablation versus laparoscopic presacral neurectomy:

We found one systematic review (search date 2004) reported in two publications, which examined surgical pelvic nerve interruption for primary and secondary dysmenorrhoea. One RCT identified by the review compared laparoscopic uterine nerve ablation (LUNA) with laparoscopic presacral neurectomy (LPSN).

Pain

Laparoscopic uterine nerve ablation compared with presacral neurectomy We don't know how effective laparoscopic uterine nerve ablation and presacral neurectomy are, compared with each other, at reducing pain at up to 6 months. However, laparoscopic presacral neurectomy may be more effective at reducing pain at 12 months (low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
68 women with primary dysmenorrhoea
Data from 1 RCT
Pain relief up to 6 months' follow-up
29/35 (83%) with laparoscopic uterine nerve ablation (LUNA)
29/33 (88%) with laparoscopic presacral neurectomy (LPSN)

OR 0.67
95% CI 0.17 to 2.61
Not significant

Systematic review
68 women with primary dysmenorrhoea
Data from 1 RCT
Pain relief at 12 months' follow-up
11/35 (31%) with LUNA
27/33 (82%) with LPSN

OR 0.10
95% CI 0.03 to 0.32
Large effect size LPSN

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
68 women with primary dysmenorrhoea
Data from 1 RCT
Constipation
0/35 (0%) with LUNA
31/33 (94%) with LPSN

OR 0.02
95% CI 0.01 to 0.06
Large effect size LUNA

Further information on studies

The review identified 6 additional RCTs that included women with dysmenorrhoea associated with endometriosis or uterine myomas, which is not the focus of this review. Laparoscopic uterine nerve ablation versus diagnostic laparoscopy: The review found no significant difference between groups in satisfaction rates at 12 months (1 RCT; 15/18 [83%] with LUNA v 22/32 [69%] with control; P >0.05).

Comment

We found one subsequent RCT, which did not fulfil Clinical Evidence inclusion criteria because of low follow-up (<80%). However, we have included a brief comment on this study because of the paucity of data on surgical treatments. The RCT (487 women with chronic pelvic pain [dysmenorrhoea, non-cyclical pain, dyspareunia, or multiple types of pain]) compared LUNA versus diagnostic laparoscopy alone. The RCT did not present a subgroup analysis in women with primary dysmenorrhoea; however, it reported on dysmenorrhoea pain as an outcome. It found no significant difference between LUNA and diagnostic laparoscopy in dysmenorrhoea pain at 12 months.

Clinical guide:

The current NICE guidance has stated that evidence on LUNA for chronic pelvic pain suggests that it is not efficacious and therefore should not be used.

Substantive changes

Surgical interruption of pelvic nerve pathways Evidence reassessed. Categorisation changed (from Unknown effectiveness to Likely to be ineffective or harmful).

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Vitamin B12

Summary

We don't know whether vitamin B 12 reduces dysmenorrhoea.

Benefits and harms

Vitamin B12 versus placebo:

We found no systematic review or RCTs.

Further information on studies

None.

Comment

None.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Spinal manipulation

Summary

Spinal manipulation may be no more effective than placebo at reducing pain after 1 month in women with primary dysmenorrhoea.

Benefits and harms

Spinal manipulation versus sham manipulation or no treatment:

We found one systematic review (search date 2006, 3 RCTs meeting Clinical Evidence inclusion criteria), which compared spinal manipulation versus placebo or no treatment. The review did not perform a meta-analysis because of heterogeneity among the trials in methods of spinal manipulation used, parts of the spine manipulated, and duration of treatment.

Pain

High-velocity low-amplitude spinal manipulation compared with placebo manipulation We don't know whether high-velocity low-amplitude spinal manipulation is more effective at reducing pain in women with primary dysmenorrhoea at 1 month (very low-quality evidence).

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Pain

Systematic review
137 women
Data from 1 RCT
Pain (as measured by mean change in 100 mm visual analogue scale [VAS] pain score) after 1 menstrual cycle
10.09 with high-velocity, low-amplitude (HVLA) manipulation
8.01 with placebo manipulation

WMD +2.08
95% CI –3.20 to +7.36
Not significant

Systematic review
44 women
Data from 1 RCT
Pain intensity, as measured by a 10 cm VAS pain score after 1 treatment and 1 menstrual cycle
3.78 with HVLA manipulation
5.19 with placebo manipulation

WMD –1.41
95% CI –2.55 to –0.27
Effect size not calculated HVLA manipulation

Systematic review
26 women
Data from 1 RCT
Pain intensity, assessed on a 10 cm VAS scale at 3 months
5.6 with Toftness manipulation for 3 months
3.4 with placebo manipulation for 3 months

WMD 2.20
95% CI 1.38 to 3.02
Effect size not calculated placebo manipulation

Systematic review
26 women
Data from 1 RCT
Pain intensity, assessed on a 10 cm VAS scale at 6 months
1.7 with Toftness manipulation for 3 months
3.1 with placebo manipulation for 3 months

WMD –1.40
95% CI –2.21 to –0.59
Effect size not calculated Toftness manipulation

Daily activities and work

No data from the following reference on this outcome.

Adverse effects

Ref (type) Population Outcome, Interventions Results and statistical analysis Effect size Favours
Adverse effects

Systematic review
138 women
Data from 1 RCT
Proportion of women experiencing soreness in the lower back region within 48 hours of the intervention
3/69 (4%) with HVLA manipulation
2/69 (3%) with placebo manipulation

RR 1.50
95% CI 0.26 to 8.70
Not significant

Further information on studies

Two of the three RCTs included in the review had small sample sizes and methodological weaknesses, such as inadequate allocation concealment and lack of blinding of outcome assessors. The study receiving the highest methodological score was also the largest study, and was therefore considered to be the most reliable.

Comment

None.

Substantive changes

No new evidence

BMJ Clin Evid. 2011 Feb 21;2011:0813.

Progestogens (intrauterine)

Summary

We don't know whether intrauterine progestogens reduce dysmenorrhoea.

Benefits and harms

Intrauterine progestogens:

We found one systematic review (search date 2005), which found no RCTs examining the effectiveness of intrauterine progestogens in women with primary dysmenorrhoea (see comment).

Further information on studies

None.

Comment

A 3-year observational study examined the acceptability of a long-term contraceptive levonorgestrel-releasing intrauterine system. This study did not fulfil Clinical Evidence inclusion criteria as it was not an RCT, and included women who required long-term contraception, rather than women with dysmenorrhoea. However, we have included a brief comment on it because it reported on the outcome of menstrual pain. It found that the proportion of women reporting menstrual pain was significantly reduced at 3 years compared with baseline (165 women in analysis: proportion of women with menstrual pain reduced from 60% at baseline to 29% at 3 years, P = 0.025).

Levonorgestrel-releasing intrauterine system was originally developed as a method of contraception but is now licensed for use in menorrhagia. There are no RCTs looking at dysmenorrhoea as a primary outcome.

Substantive changes

Progestogens (intrauterine) New option added. Categorised as Unknown effectiveness as we found no RCTs to assess its effects in women with primary dysmenorrhoea.


Articles from BMJ Clinical Evidence are provided here courtesy of BMJ Publishing Group

RESOURCES