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. 2023 Feb 16;13:2807. doi: 10.1038/s41598-023-29921-1

Mexican traditional medicines for women’s reproductive health

Paulina Cabada-Aguirre 1,2, Alice M López López 1,2, Keila C Ostos Mendoza 2,3, Karen D Garay Buenrostro 2,3, Diego A Luna-Vital 4, Gail B Mahady 2,
PMCID: PMC9935858  PMID: 36797354

Abstract

Like China, Mexico has a traditional system of medicine dating back almost 5000 years that incorporates the healing practices of pre-Columbian civilizations, including the Maya and Aztec. Mexican Traditional Medicine (MTM) women depend on MTM practices and herbal medicines for their primary healthcare needs as limited access and high costs of Western medicine is a significant problem. The aims of this work were to determine the medicinal plants more commonly used in MTM for women’s reproductive health issues and assess the clinical data supporting their use. Data from multiple sources was compiled and information on plants commonly used by women in Mexico MTM for the treatment of fertility and menstruation issues, pregnancy, and menopause was analyzed. Analysis of the data show that 185 species of plants representing > 60 families were used for a wide range of reproductive health issues. Some of these plants have been used in MTM for fertility regulation in women of which 35 species were used as emmenagogues and abortifacients. Approximate 40 species were used for the symptoms of premenstrual syndrome, heavy menstrual bleeding, and dysmenorrhea. In terms of pregnancy, 35 species were used for postpartum care and to facilitate breastfeeding, 16 species were used as oxytocic agents to induce labor and speed birth, and six plant species were used to prevent miscarriage. Fourteen plant species were reported to treat infertility or promote fertility, and seven species were used to treat uterine prolapse. Three plants species were reported to treat menopause and two plants were used for osteoporosis. Analysis of the clinical data for commonly used medicinal plants showed some clinical support for the use of these plants in MTM. In Mexico, women use medicinal plants for almost every aspect of reproductive health. While some plants have clinical data, most medicinal plants used in MTM have no safety or efficacy data available and could serve as the basis of future investigations.

Subject terms: Endocrine system and metabolic diseases, Health care, Health policy

Introduction

For thousands of years, traditional systems of medicine have played an important role in primary healthcare for populations worldwide. Similar to China’s traditional medicine (TCM) system, the ancient civilizations of Mexico, including the Maya, Inca and Aztecs had medical practices dating back ~ 5000 years1,2. Combining historic pre-Colombian Aztec, Mayan, and Incan healing traditions, with more recent African and Spanish-Catholic influences, Mexican Traditional Medicine (MTM) is a holistic system that emphasizes a balance between physical, emotional, and mental health as playing an important role in overall healing1. Interestingly, in addition to China, the MTM system shares many similarities with other Central and Latin American traditional healing practices1,2.

In MTM, women play a significant role in the overall healthcare of the family and the community1,3. For example, the Señora/abuela (female elder/grandmother) often plays a primary role in the initial familial dealings with sickness, and may be consulted for common illnesses, as well as marital/childrearing advice3. In addition, there are community healthcare workers called Promotores de salud (health promoters) that have some basic healthcare training, and serve as a link between the communities, Western healthcare clinics and mental health centers35. There are also several levels of specialty healthcare practitioners in MTM including herbal medicine specialists, massage therapists, midwives, as well as others2,3,6. The most common medical intervention in MTM is usually the herbal medicine practitioners, known as herbolaria or yerbero/a, who employ a wide range of herbal medicines to treat almost every disease3,7. The partera are the traditional midwives who participate in childbirth, but their role is not limited to medical attendance and assistance with birth1. The partera also uses herbal treatments, massages, and other treatments to aid the woman through the pregnancy, labor, and delivery3. Finally, the curandero or curandera play an important role in MTM to facilitate the patient’s recovery by restoring balance and order, thereby preserving the participant, family, community, and culture7. The curandero has an extensive knowledge of the therapies used for treating mental and physical illnesses; the use of herbs and medicinal plants, prayers, chants, and other rituals to restore an individual’s physical, emotional, and spiritual balance3,7. Thus, like other traditional systems of medicine, MTM practices holistic medicine that emphasizes restoration of balance between physical, emotional, and mental health.

Although Mexico has a registry of traditional healers, the exact number is currently unknown. This information is collected and maintained by the registries of the National Institute of Indigenous Peoples (Instituto Nacional de los Pueblos Indígenas – INPI, formerly Instituto Nacional Indigenista—INI) or the Mexican Social Security Institute (Instituto Mexicano del Seguro Social—IMSS)8. Interestingly, of all the MTM specialists, the percentage of women participating is quite high, and make up approximately 80% of midwives, 50% for herbalists, 50% bone-setters, 50% for healers (curanderos), 20% for snake healers (culebreros), 50% for shamans, 20% prayers and 40% for massage therapists (sobadores)8. The INPI is also responsible for providing training and certification for MTM practitioners and programs. Some MTM practices have certification and licensure, including acupuncture, herbal medicine, and massage therapy, and many MTM providers hold certifications for those specific MTM practices. Likewise, some curanderos have received education and certification as Naturopathic Physicians or other types of alternative care providers, which allows a level of practice consistency and some potential for credentialing and reimbursement for practices and procedures9. Certification generally occurs at the higher levels of MTM practice, and some herbalists and sobadores have completed education and certifications complementary to their practice8.

Medicinal plants have always played a central role in MTM, and anthropological and archaeological data suggest that human populations in Mexico have used medicinal plants for the treatment of disease for more than 5000 years1,1012. Like other traditional systems of medicine, the use of these medicinal plants in MTM has been passed down by oral tradition, and many medicinal plants are still being used in the same manner as their historical use1,3,1012. In Mexico, it is estimated that approximately 4500 species of plants (both native and introduced) are used by more than 52 different ethnic groups throughout Mexico, and many of these plants are recognized and used by ~ 90–92% of the general population13. Approximately 85% of healthcare professionals are knowledgeable about herbal medicines and ~ 75% recommend their use3,13. These data still show that traditional herbal medicines continue to play an important role in treating illness in rural communities, and are especially important for indigenous populations, despite access to modern health care clinics and prescription drugs. In fact, Rocha-Buelvas14 has suggested that within traditional medicine, herbal medicines play an essential role in the provision of culturally sensitive and accessible healthcare. Support for this hypothesis comes from data on Mexican immigrants in the USA who often use alternative and herbal medicines due to a lack of formal health insurance and their cultural beliefs. In a 2003 study, Brown & Pena15 reported 68.3% of pharmacists in Texas–Mexico border cities said they had encountered patients who used complementary and alternative medicines.

Currently, Mexico does not have a formal registry of traditionally used medicinal plants or herbal medications. However, many studies and medicinal plant collections have been performed by the INPI, the IMSS and the National Institute of Anthropology and History (INAH)8. In addition, some states maintain botanical and medicinal plant gardens. While traditional medicinal plants and medications are sold in specialized stores, quality control issues remain and there is little control over the production/collection of these products. The IMSS and BIENESTAR, formerly known as COPLAMAR (a government assistance program for rural and marginated communities) created a program to link traditional and Western medicine, that is operated by the same institutions. It was not until the late 1990s that the Ministry of Health established a classification of plants used in MTM to facilitate the scientifically review the safety and efficacy data for herbal medicines within its legal framework16. In 2013, the regulatory standard Norma Oficial Mexicana NOM-072-SSA1-2012 was enacted standardize these products, define legal usage, as well as the packaging of herbal remedies17. However, this regulatory law is not active in all parts of the country.

In this work, we have analyzed data from numerous databases, books, published scientific and medical works that reported the use of medicinal plants in MTM for the treatment of women’s reproductive health issues, including but not limited to menstruation, pregnancy, breast feeding, fertility, and menopause. The plant names were verified using official databases, corrected where needed, and then listed with uses and references. Experimental and clinical data are presented where available for the more commonly used medicinal plants in MTM.

Methods

For this work, extensive literature searches were conducted over the period of September 2021 to March 2022 by three authors ALL, PCA and GBM. This included comprehensive electronic bibliographic databases (INFLIBNET, SCOPUS, PUBMED, UNAM, MEDLINE, NAPRALERT, and Google Scholar) and as well as from literature searches and analyses of data from published sources, including classical textbooks, books, and peer-reviewed journals from 1975 to March 2022 for medicinal herbs used in Mexico for women’s reproductive health issues and other associated disorders. Data was collected without language restrictions, using relevant keywords in both free text and Medical Subject Headings (MeSH terms) format. Terms for the searches of the scientific and medical literature included Mexican, traditional medicines, alternative medicines, breastfeeding, contraception, dysmenorrhea, emmenagogue, fertility regulation, pregnancy, menopause, osteoporosis, uterine prolapse and women’s reproductive health. The literature and studies published in English or Spanish were considered for this review. The Boolean connectors used included AND, OR and NOT. We also conducted searches of the alternative literature from UIC repositories, catalogues (UIC) for books, abstracts, and websites (OpenGray, GetNet International), and included conference proceedings from both national and international conferences. Four researchers (PCA, ALL, GBM and DL) independently extracted data from the studies using and disagreement between them was resolved by consensus with two other researchers (KM, KB). The botanical Latin binomials were verified using http://www.worldfloraonline.org (accessed January-March 2022, and plant names were corrected where needed after verification from published literature. Data from collected sources were collated into tables with uses and references by PAC, ALL, KM, KB). Data from clinical trials for some of the more commonly used medicinal plants associated with women’s health was also collected and analyzed by two researchers (GBM, DL).

Results

Clinical data for commonly used herbs in MTM for anxiety, dysmenorrhea, menopause, excessive menstrual bleeding, and PMS

Mexican women, particularly indigenous and those living in rural areas, use numerous medicinal plants as part of their overall health care. The purpose of this work was to investigate the medicinal plants used in MTM for the management of women’s reproductive health and provide a brief overview of some of the clinical and pharmacological support for these traditional uses for some of the more commonly used plants.

Chamomile

Chamomile (Matricaria chamomilla L., Asteraceae) is a perennial flowering plant that is native to the Americas and is extensively used throughout Mexico and Central America1820. Chamomile is one of the most widely used medicinal plants worldwide and is listed in the pharmacopoeia of at least 26 countries20. Traditionally, chamomile (also known as manzanilla) is used by women in Mexico and other countries as a mild sedative and to reduce anxiety20,21. In this work, the data show that chamomile was not only used to manage anxiety and depression, but also for the treatment of dysmenorrhea and excessive menstrual bleeding12,22,23. In support of these uses, extracts of chamomile and some of its chemical components have reported experimental and clinical anxiolytic and antidepressant activities21,24. In one clinical trial, Amsterdam et al.21 reported that chamomile treatment significantly reduced the mean general anxiety symptom scores as compared with a placebo after 8 weeks of treatment. In a follow-up study, the same group performed a randomized, double-blind, placebo-controlled, long-term safety and efficacy study of chamomile therapy for Generalized Anxiety Disorder (GAD)25. The study included outpatients with a primary diagnosis of moderate-to-severe GAD that were recruited from primary care clinics and local communities. The study results showed that participants exhibited a reduction in GAD symptoms and a reduced relapse rate when treated with chamomile25. Furthermore, the same group performed a randomized, double-blind, placebo-controlled trial of chamomile extract for relapse prevention of generalized anxiety disorder24. The study included 179 subjects who were ≥ 18 years old and had primary diagnosis based on the DSM IV-TR diagnosis of GAD. The subjects were further subcategorized into two diagnostic categories: GAD without comorbid depression (n = 100) and GAD with comorbid depression (n = 79). The treatment group received 1500 mg of chamomile extract daily for 8 weeks. The results showed that the chamomile extract significantly reduced clinical depression (p < 0.02) in addition to its anxiolytic activity in subjects with GAD and comorbid depression24. In several other clinical trials, treatment with a chamomile extract significantly improved sleep quality (p < 0.05) in the elderly and patients with insomnia, with no serious adverse events reported2628. Thus, the traditional use of chamomile as a sedative and to reduce anxiety and improve sleep quality has been confirmed in clinical trials.

Furthermore, in support of its traditional use in MTM, chamomile was reported to reduce pain in dysmenorrhea and menstrual bleeding in clinical trials29. In a systematic review of the available data from seven clinical trials (n = 1033), two of the seven trials showed a significant reduction in the pain of primary dysmenorrhea (p < 0.01), while two studies showed a significant reduction in menstrual bleeding (p < 0.05), and three clinical trials showed significant improvements in both parameters after treatment with chamomile extract (p = 0.001)29. Thus, demonstrating that chamomile appears to be safe and efficacious for the management of primary dysmenorrhea and the reduction of excessive menstrual bleeding.

Cinnamon

Cinnamomum verum J.Presl (Lauraceae, syn. C. zeylandicum) belongs to a genus containing approximately 200 species, of which, at least 19 have been identified in Mexico30,31. Cinnamomum verum is a species widely used in the traditional medicine of Mexico, although this species is thought to originate in Asia. In Mexico, cinnamon is used for the treatment of a wide variety of ailments, including respiratory diseases, abdominal cramps, indigestion, and nausea. In terms of women’s reproductive health, cinnamon has been used traditionally in MTM for the treatment of dysmenorrhea, regulating the menstrual cycle, as well as an abortive and oxytocic plant23,3234.

Results from several clinical studies have shown that cinnamon administration significantly reduced the pain associated with menstruation32,35. One randomized, double-blind trial involving 76 female students with dysmenorrhea assessed the effects of cinnamon on pain and menstrual bleeding35. For inclusion in the study, the patients had to be 18–30 years old, with a regular menstrual cycle with primary dysmenorrhea, have no diagnosed chronic diseases, nausea or vomiting associated with primary dysmenorrhea, no pelvic inflammatory disease, tumors or fibroids, and a body mass index of 19–26. Exclusion criteria included intake of oral contraceptives, taking analgesics, and allergies to the medical or herbal extracts. The participants received placebo or a cinnamon product at a dose of 420 mg per day. The outcomes of the study showed significantly reduced menstrual bleeding in the cinnamon group as compared with the placebo group (p < 0.05 and p < 0.001, respectively). The mean pain severity score was also reduced in the cinnamon group as compared with placebo group. The mean severity of nausea and the frequencies of vomiting was also significantly decreased in the cinnamon group compared with the placebo group (p < 0.001, p < 0.05, respectively). No adverse effects were reported35.

An encapsulated cinnamon power was investigated for the treatment of polycystic ovary syndrome (PCOS) in a clinical trial involving 66 women with PCOS as diagnosed by the Rotterdam Criteria36. Administration of cinnamon was reported to restore the cyclicity and ovary morphology, as well as improve metabolic factors related to menstruation, specifically, it helps regulate insulin resistance. PCOS has been correlated to insulin resistance, which might be the reason why it helps with menstruation cyclicity. Outcomes measured included insulin resistance, anthropometric measurements, glucose and lipid profiles, and androgens. Each of the participants took medroxyprogesterone acetate 10 mg/day for the last 10 days of their menstrual cycles and, in the treatment group, women also received 1500 mg of cinnamon daily for 12 weeks. The results of this study showed that fasting insulin (p = 0.02) and insulin resistance (p = 0.014) were significantly reduced after 12 weeks of treatment with cinnamon as compared with the placebo group. A significant reduction in low-density lipoprotein in cinnamon group (p = 0.004) was also observed36. One meta-analysis of five clinical studies assessing the effects of cinnamon on PCOS did not find any significant effect on body weight or body mass index37. However, a significant decrease of fasting blood sugar and fasting insulin was observed as well as a reduction of serum level of LDL-C, total cholesterol, and triacylglycerol37. Interestingly, specific nutrients from food plants have also been reported to be important in the management of PCOS, and supplementation of inositol, combinations of vitamins D and E, probiotics, omega 3 fatty acids, and coenzyme Q10, with B vitamins improved glucose homeostasis and restored ovarian function and menstrual cyclicity38,39.

Fennel

Foeniculum vulgare Mill (Apiaceae) is an aromatic plant native to the Mediterranean region of Southern Europe, that was introduced into Mexico and is now cultivated across the Sierra Madre40. In MTM, fennel has been used traditionally for the management of dysmenorrhea and heavy menstrual bleeding, to increase breast milk, as well as an analgesic and anti-inflammatory to manage menopausal symptoms4143. Traditionally, fennel has also been used for the treatment of respiratory disorders, indigestion, PMS, osteoporosis, cardiovascular disease, as well as to increase breastmilk production and libido43. Clinical support for these uses is reported in a double blind, randomized clinical trial involving 60 postmenopausal women44. Treatment with a vaginal cream containing a fennel extract significantly (p < 0.05) reduced itching, dryness, pallor, and dyspareunia in women with vaginal atrophy as compared with the placebo group44. In another controlled clinical trial, 80 menopausal women (45–60 y) were randomized to receive treatment with encapsulated fennel seed powder (2 gr) or placebo capsules (2 gr) daily for 8 weeks43. Menopausal symptoms and sexual desire were evaluated using Kupperman index and Hurlbert index of sexual desire. Serum estradiol levels were measured at the beginning and at the end of the trial. The results of the study showed that menopausal symptoms were significantly (p < 0.05) reduced in the treatment group but there was no change in sexual desire43. In a triple-blind, placebo-controlled randomized trial involving 90 postmenopausal women aged 45 to 60 years45. The participants were included if they were 45 to 60 years old, married and in year 1–5 of the postmenopausal period (1 year after her last menstrual period). A minimum Menopause Rating Scale (MRS) questionnaire of 9 was also required, as well as no history of pathology, hormone replacement therapy or use of other herbal medicines, allergies to herbal medicine, sedative or anti-depressant drug use, addiction, or smoking. Treatment with the fennel extract significantly (p < 0.05) reduced the mean Menopausal Rating Scale score as compared with placebo. The results of the Friedman test showed significant differences between the mean score at baseline and the results at 4, 8, and 10 weeks (p < 0.001), indicating that the fennel extract was effective for the treatment of menopausal symptoms45.

In terms of premenstrual syndrome (PMS), clinical data suggests that oral administration of a fennel extract reduced the symptoms of PMS including stress, cluster and somatic symptoms, excitement, and depression46,47. One meta-analysis investigated the effects of fennel on pain associated with primary dysmenorrhea and compared these data with that of mefenamic acid48. Twelve clinical trials were included in the analysis, and the results showed that ingestion of fennel extracts significantly (p < 0.01) reduced the pain intensity of dysmenorrhea as compared with placebo. The effect of fennel versus mefenamic acid did not differ, suggesting that fennel supplements were as effective as mefenamic acid48. Thus, these results support the MTM use of fennel for dysmenorrhea.

Rosemary

Rosmarinus officinalis L. (rosemary, Laminaceae) is native to the Mediterranean region of Europe and has been used in traditional systems of medicine as an antibacterial, antitumor, anticancer, antidiabetic, anti-inflammatory, antinociceptive, antioxidant and antithrombotic agent49. In MTM, rosemary has been traditionally used as an antispasmodic to treat dysmenorrhea, as well as a postnatal bath and to treat vaginal infections22,5053. Lemonica et al.54 reported that rosemary extracts may have anti-implantation activities, but these extracts did not have abortive effects, nor did they impact the normal development of the embryo after implantation (no embryotoxic effects). Rosemary extracts have been used as antimicrobial agents against vaginal infections in pregnant women55. One in vitro study showed that essential oils of rosemary had antimicrobial activities against five Gram-positive and Gram-negative bacteria strains and two Candida strains obtained from pregnant women with vaginal infections56.

In one clinical trial, a rosemary extract was tested in a randomized double-blinded study involving 82 female students with primary dysmenorrhea57. To be included in the study, the participants had to have moderate dysmenorrhea with normal menstrual bleeding. Treatment with the extract significantly (p < 0.001) reduced the pain intensity score and the menstrual bleeding score, thus rosemary was effective for the treatment of primary dysmenorrhea, having similar activity to 250 mg of mefenamic acid capsules57. Several phytocompounds have been identified in rosemary extracts, such as caffeic acid, carnosic acid, chlorogenic acid, monomeric acid, oleanolic acid, rosmarinic acid, ursolic acid, alpha-pinene, camphor, carnosol, eucalyptol, rosmadial, rosmanol, rosmaquinones A and B, secohinokio, and derivatives of eugenol and luteolin. Eugenol, rosmanol, cirsimaritin and salvigenin appear to be some of the compounds in rosemary that are responsible for the antinociceptive effects, as they can act on the γ-aminobutyric acid (GABA-A) receptor57.

Ginger

Ginger (Zingiber officinale Roscoe, Zingiberaceae) is a perennial herb with a subterranean, branched rhizome (root) that has a characteristic aromatic odor, a pungent and aromatic taste and are internally pale yellow to brown in color58. The plant is native to South-east Asia and is cultivated in the tropical regions in both the eastern and western hemispheres, and it is cultivated in Africa, China, India, and Jamaica, and India58. Ginger products widely used globally as teas, capsules, syrups, and dried rhizomes for the management of digestive diseases, inflammation and the nausea and vomiting of pregnancy. Oral administration of ginger-containing products has been used for the treatment of many gastrointestinal ailments including motion sickness, chemotherapy-induced nausea, post-surgical nausea and vomiting, and morning sickness5963. In MTM, ginger is used for the management of nausea and vomiting in pregnancy. Clinical studies suggest that ginger may be useful for the management of morning sickness, as oral ginger reduced the severity of nausea and vomiting in some pregnant women5964. The phenolic chemical constituents vary among the different forms of ginger and have a variety of pharmacological properties including antibacterial (including against Helicobacter pylori), antipyretic, analgesic, and anti-inflammatory activities, maybe explaining the effects of ginger on the gastrointestinal track. Viljoen et al.64 performed a meta-analysis and systematic review of the randomized controlled trials for ginger in the treatment of nausea and vomiting associated with pregnancy. Twelve randomized controlled clinical trials involving 1278 pregnant women were included in the review. The results of this analysis showed that ginger significantly (p = 0.0002) improved the symptoms of nausea at a dose of < 1500 mg/day as compared with placebo but did not reduce the incidence of vomiting. Ginger appears to be safe and did not increase the risk of spontaneous abortion compared with placebo64. Ginger was shown to be more effective than vitamin B6 in two studies, and its use was preferred over dimenhydrinate due to fewer adverse events. The overall safety of ginger use in pregnancy was confirmed by several of the trials that followed patients through childbirth. No significant adverse events were observed with ginger versus placebo. The limitations of these studies are due to the subjectivity in the measurement of nausea and the fact that the treatment times were short (one week at most), since most women experience longer period of nausea during their first trimester of pregnancy. The data suggest that ginger may have potential benefit for reducing nausea in pregnancy64.

Herbal medicines used in MTM for women’s health with little or no clinical data

Beyond commonly used herbal medicines with experimental or clinical data, many of the plants used by women in MTM have little in the way of supporting pharmacological data. This is critically important as herbal medicines are commonly used by Mexican women during pregnancy (Tables 1 and 2)22,51,6571. Alonso-Castro et al.51 reported a statistically significant (p < 0.05) use of both medicinal plants and allopathic medicines by Mexican women during the prenatal and postnatal periods. Herbal use during pregnancy was most often associated with prenatal symptoms including anxiety, nausea, fatigue, constipation, migraine, and common cold (p < 0.05)51. The results of this study suggested that 59.4% of pregnant women were self-medicating with herbal or allopathic medicines. Most recommendations for use of these herbs did not come from healthcare practitioners but from information provided by friends and family. Herbal products were most often obtained from pharmacies, local markets and supermarkets (45.2%), and the most common herbs used included Matricaria chamomilla L. (chamomile, 15.8%); Citrus limon (L.) (lemon, 9.1%), Mentha piperita (peppermint, 6.6%); Arnica montana L. (arnica, 4.8%); Aloe vera (aloe, 4.3%); and Zingiber officinale Roscoe (ginger, 3.9%), that were used to treat the symptoms of anxiety, backache, constipation, fatigue, infection, gastritis, and nausea (Table 2)51. Except for ginger and chamomile, most of these plants have no safety or efficacy data for use during pregnancy or delivery.

Table 1.

Plants used in Mexican traditional medicine with emmenagogue and abortive properties, or used to treat menstrual cycle disorders.

Scientific name Family Common name Emmenagogue and abortive properties Menstrual cycle regulation References
Adiantum tricholepis Fée Pteridaceae Fuzzy maidenhair E, A 53
Allium sativum L. Amaryllidaceae Garlic A 23,33,72
Ananas comosus (L.) Merr Bromeliaceae Pineable A 23,33,72
Anoda cristata (L.) Schltdl Malvaceae Crested anoda D M MH 33
Aphelandra aurantiaca (Scheidw.) Lindl Acanthaceae Fiery spike (espiga ardiente) Orange scarlet D M MH 23,33
Artemisia ludoviciana Nutt Compositae White sagebrush D 50
Baccharis salicina Torr. & A. Gray Compositae Sleep willow E D M MH 23
Bignonia sp. Bignoniaceae Begonia M MH 23,33
Bignonia potosina (K.Schum. & Loes.) L.G.Lohmann Bignoniaceae A 42
Brickellia secundiflora (Lag.) A.Gray Compositae Jara Blanca D M MH 23,33
Cedrela odorata L. Meliaceae Cedro A 34,42,73
Cestrum noctutnum L. Solanaceae Huele de noche A 42,73
Cinnamomum verum J.Presl Lauraceae Cinnamon A D, MH 23,3234,74
Citrus aurantiifolia (Christm.) Swingle Rutaceae Key lime E A D 33
Citrus × aurantium L. Rutaceae Bitter orange A D 12,23
Citrus limon (L.) Osbeck Rutaceae Lemon E A D 23
Columnea schiedeana Schltdl Gesneriaceae Mazorquita M 23,33
Coriandrum sativum L. Lauraceae Coriander A 23
Cymbopogon citratus (DC.) Stapf Poaceae Lemongrass E 42
Desmodium incanum DC. Fabaceae Zarzabacoa comun A 22
Dodonaea viscosa (L.) Jacq Sapindaceae Native hop bush M MH 23,33
Dysphania ambrosioides (L.) Mosyakin & Clemants Amaranthaceae Epazote E A 23,33,73
Epiphyllum crenatum (Lindl.) Don Cactaceae Climbing orchid cactus A 22
Foeniculum vulgare Mill. Apiaceae Fern D, MH 42,73
Galium mexicanum Kunth. Rubiaceae Pegarropa A M MH PM 23,33,42,74
Gaultheria acuminata Schltdl. & Cham Ericaceae Wintergreen D M MH 23,33
Gossypium barbadense L. Malvaceae Cotton E, A 42
Hamelia patens Jacq. Rubiaceae Scarlet bush A MH 22,34,70,72
Hybanthus brevis (Dowell) Standl Violaceae Green violet M MH 23
Hydrocotyle mexicana Schltdl. & Cham Araliaceae Native pennywort MH 23,33
Indigofera miniata Ortega Leguminosae Scarlet pea D 23,33
Justicia spicigera Schltdl. Acanthaceae Mohintli E 42,73
Lippia umbellata Cav. Verbenaceae Hierba dulce E 53
Manilkara zapota (L.) P.Royen Sapotaceae Sapodilla MH 70
Matricaria chamomilla L. Compositae Chamomille D, MH 12,22,23,50
Melia azedarach L. Meliaceae Chinaberry E 42,50
Mentha × piperita L. Lamiaceae Peppermint D M MH 23,33
Mentha spicata L. Lamiaceae Spearmint D 23,33
Origanum vulgare L. Lamiaceae Oregano A D 23,33
Phyla scaberrima (Juss. ex Pers.) Moldenke Verbenaceae Aztec sweet herb E IP AM 42,73
Plumeria rubra L. Apocynaceae Frangipani alhelí A 72
Pinus sp. Pinaceae Pinus M MH 23
Persea americana Mill. Lauraceae Avocado E D M MH 23,33,34,50,52,70
Piper auritum Kunth. Piperaceae Hoja santa E 23,33
Pleopeltis polypodioides (L.) E.G. Andrews & Windham Polypodiaceae Resurrection fern E 53
Pluchea odorata (L.) Cass Compositae Marsh fleabane D 23,33,52
Psittacanthus calyculatus (DC.) G.Don Loranthaceae Injerto de huizache M MH 23
Psidium guajava L. Myrtaceae Guava D 50,51
Rosmarinus officinalis L. Lamiaceae Rosemary E D 22,50,52,53
Ruta graveolens L. Rutaceae Salab E A NS 22,34
Rudbeckia laciniata L. Compositae Dormilón E 42,73
Salvia microphylla Kunth Lamiaceae Baby sage D 75
Sambucus canadensis L. Adoxaceae American elder, elderberry MH 23
Selaginella pallescens (C. Presl) Spring Selaginellaceae Moss fern MH 23
Solanum nudum Dunal Solanaceae Forest nightshade MH 70
Struthanthus quercicola (Schltdl. & Cham.) D.Don Loranthaceae Seca palo MH 23
Styrax argenteus C.Presl. Styracaceae Styrax E A 23,33
Tagetes lucida Cav. Compositae Day flower E 23,33
Tagetes micrantha Cav. Compositae Licorice marigold D 50
Tanacetum parthenium (L.) Sch.Bip Compositae Feverfew, Santamaría E, A D 33,50,72,74
Tillandsia recurvata (L.) L. Bromeliaceae Small ballmoss MH 70
Turnera diffusa Willd ex Schultz Passifloraceae Damania, oreganillo MD 76
Zaluzania triloba (Ortega) Pers. Compositae Hierba amarga A 42,73,74
Zea mays L. Poaceae Corn MH 23,33
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A abortifacient, E Emenagogue, MH Menstrual hemmorage, D dysmenorrhea, NS. Non specified, M menorrhagia, IP induces menstrual period, MD Menstrual disorders unspecified.

Table 2.

Medicinal plants used in Mexican traditional medicine for conception, pregnancy, delivery, post-partum care, menopause and uterine prolapse.

Scientific name Common name Family Uses References
Adiantum poiretii Wikstr. Yaru chaqui Pteridaceae Postpartum care 23,33
Adiantum tenerum Sw. Brittle maidenhair fern Pteridaceae Postpartum care 70
Agave atrovirens Karw. ex Salm-Dyck Maguey peluquero Asparagaceae Postpartum care 74
Ageratina ligustrina (DC.) R.M.King & H.Rob Privet-leaved ageratina Compositae Postpartum care 23,33
Allium sativum L. Garlic Amaryllidaceae Oxytocic/Induces labor/Speeds birth 23
Aloe vera (L.) Burm.f Aloe Xanthorrhoeaceae Unspecified Obstetric problems 50
Anoda cristata (L.) Schltdl Crested anoda Malvaceae Treats infertility 33
Arbutus xalapensis Kunth Texas madrone Ericaceae Postpartum care 23,33
Arnica montana L Mountain arnica Compositae Unspecified Obstetric problems 50
Arundo donax L. Cana-brava Poaceae Postpartum care 23,70
Baccharis salicina Torr. & A.Gray Pineable Compositae Oxytocic/Induces labor/Speeds birth; Treats infertility; Prevents miscarriages 23
Bidens pilosa L. Black-jack Compositae Promotes fertility 52
Brickellia secundiflora (Lag.) A.Gray Jara blanca Compositae Postpartum care; Treats infertility; Prevents miscarriage 23,33
Buddleja cordata Kunth Tepozán Scrophulariaceae Postpartum care 53
Buxus sempervirens L. Boxwood Buxaceae Postpartum care 53
Byrsonima crassifolia (L.) Kunth Golden spoon Malpighiaceae Inflamed uterus 22
Calea ternifolia Kunth Zacatechichi Asteraceae Bercht. & J.Presl Postpartum care 52
Chenopodium incisum Poir Goosefoot Amaranthaceae Oxytocic/Induces labor/Speeds birth 53
Chromolaena odorata (L.) R.M.King & H.Rob Siam weed Compositae Postpartum care 52
Chrysactinia mexicana A.Gray Damianita daisy Asteraceae Promotes fertility 77
Citrus aurantiifolia (Christm.) Swingle Key lime Rutaceae Contraceptive 33
Clidemia setosa (Triana) Gleason Santa Marta Melastomataceae Treats infertility 33
Cocos nucifera L. Coconut palm Arecaceae Stops hemorrhage during labor 34
Critonia quadrangularis (DC.) R.M.King & H.Rob Tabaquillo Compositae Postpartum care 23,33
Crescentia cujete L. Cujete Bignoniaceae Oxytocic/Induces labor/Speeds birth 23,33
Cuminum cyminum L. Cumin Apiaceae Oxytocic/Induces labor/Speeds birth 33
Desmodium incanum DC Zarzabacoa comun Fabaceae Antiabortifacient 22
Dioscorea composita Hemsl. Barbasco Dioscoreaceae Contraceptive 42,73
Dodonaea viscosa (L.) Jacq. Native hop bush Sapindaceae Postpartum care; Spasmolytic activity; Treats infertility; Prevents miscarriage 23,33
Dysphania ambrosioides (L.) Mosyakin & Clemants Epazote Amaranthaceae Oxytocic/Induces labor/Speeds birth 23,33
Epiphyllum crenatum (Lindl.) Don Climbing orchid cactus Cactaceae Anti-abortifacient 22
Erigeron karvinskianus DC. Mexican fleabane Asteraceae Bercht. & J.Presl Osteoporosis 12,50
Erythrina caribaea Krukoff & Barneby Coral-tree Leguminosae Oxytocic 34
Euphorbia pulcherrima Willd. ex Klotzsch Christmas-flower Euphorbiaceae Contraceptive 23
Euphorbia tithymaloides L. Red bird flower Euphorbiaceae Uterine prolapse 70
Eysenhardtia polystachya (Ortega) Sarg Kidney-wood Leguminosae Contraceptive 23
Fleischmannia pycnocephala (Less.) R.M.King & H.Rob Flor de octubre Compositae Postpartum care 52
Foeniculum vulgare Mill. Fern Apiaceae Breast feeding, menopause 53
Gaultheria acuminata Schltdl. & Cham Wintergreen Ericaceae Postpartum care; treat infertility; Prevents miscarriage 23,33
Guazuma ulmifolia Lam. West Indian Elm Malvaceae Expel placenta 22
Helianthemum glomeratum (Lag.) Lag. ex Dunal Damiana Cistaceae Osteoporosis 12,50
Heliocarpus glanduliferus B.L. Rob. Ex Rose Malvaceae Oxytocic/Induce labor/Speed delivery
Heliocarpus mexicanus (Turcz.) Sprague Majaguillo Malvaceae Oxytocic/Induce labor/Speed delivery 70
Hibiscus rosa-sinensis L. Chinese hibiscus Malvaceae Menopause 70
Hybanthus attenuatus (Humb. & Bonpl. ex Schult.) Schulze-Menz Western Green violet Violaceae Sterilizer 70
Hydrocotyle mexicana Schltdl. & Cham Native pennywort Araliaceae Postpartum care 23,33
Hylocereus undatus (Haw.) Britton & Rose Night-blooming ceresus Cactaceae Postpartum care 70
Iostephane trilobata Hemsl. Hierba del manso Compositae Postpartum care; treats infertility; speeds birth 23,33
Lippia alba (Mill.) N.E.Br. ex Britton & P.Wilson Bushy Matgrass Verbenaceae Postpartum care 12,23,33
Liquidambar styraciflua L. Sweet gum Altingiaceae Obstetric problems 75
Litsea glaucescens Kunth Mexican bay leaf Lauraceae Postpartum care; treats infertility 33
Loeselia mexicana (Lam.) Brand Mexican false calico Polemoniaceae Postpartum care 52,53
Matricaria chamomilla L. Chamomile Compositae Oxytocic/induces labor/speeds birth; insomnia; reduce stress 12,22,23,33,50
Melia azedarach L. Chinaberry Meliaceae Venereal diseases 42,73
Mentzelia aspera L. Tropical stickleaf Loasaceae Uterine prolapse 70
Miconia argentea (Sw.) DC. Capirote Melastomataceae Oxytocic/induces labor/speeds birth 22
Mimosa albida Willd. Mimosa Leguminosae Oxytocic/induces labor/speeds birth;treats infertility 23,33,52
Montanoa tomentosa Cerv. Zoapatle Compositae Oxytocic/induces labor/speeds birth 23,33,53
Musa sp Plantain/Banana Musaceae Postpartum care 70
Nectandra sp. Lauraceae Oxytocic/induce labor/speed delivery 70
Nopalea cochenillifera (L.) Salm-Dyck Cochineal cactus Cactaceae Postpartum care 70
Ocimum basilicum L. Sweet basil Lamiaceae Labor pains; uterine prolapse 50,70
Peperomia granulosa Trel. Baby rubber plant Piperaceae Breastfeeding 34
Phragmites australis (Cav.) Trin. ex Steud Phragmites communis Poaceae Postpartum care 33
Pimenta dioica (L.) Merr. Allspice Murtaceae Inflamed uterus 22
Piper sanctum (Miq.) Schltdl. ex C.DC. Hierba santa Piperaceae Postpartum care 34
Piper auritum Kunth Hoja Santa Piperaceae Oxytocic/induces labor/speeds birth 23,33
Piper umbellatum L. Cordoncillo Piperaceae Oxytocic/induces labor/speeds birth; uterine prolapse 33,70,78
Pleurothallis cardiothallis Rchb.f The Heart Shaped Growth Pleurothallis Orchidaceae Treats infertility 33
Pluchea odorata (L.) Cass Marsh Fleabane Compositae Postpartum care 23,33,52
Podocarpus matudae Lundell Palmilla Podocarpaceae Contraceptive 23,33
Pouteria sapota (Jacq.) H. E. Moore et Stearn Mamey Sapote Sapotaceae Uterine prolapse 22
Priva lappulacea (L.) Pers. Mozote Verbenaceae Prevents miscarriage 70
Pseudobombax ellipticum (Kunth) Dugand Xiloxochitl Malvaceae Induces sterilization 42,70,73
Psittacanthus calyculatus (DC.) G.Don Injerto de huizache Loranthaceae Treats infertility; prevents miscarriage 23,33
Punica granatum L. Pomegranate Lythraceae Stops hemorrhage during labor 52
Quercus elliptica Née Encino blanco Fagaceae Postpartum care 23,33
Quercus oleoides Schltdl. & Cham Encino Fagaceae Inflamed uterus 22
Rhynchosia pyramidalis (Lam.) Urb. Virility-vine Fabaceae Contraceptive 22
Ricinus communis L. Castor oil plant Euphorbiaceae Treats infertility 23,33
Rosa chinensis Jacq. China rose Rosaceae Menopause 53
Rosmarinus officinalis L. Rosemary Lamiaceae Postpartum care; treat vaginal infections 22,50,52,53
Russelia sarmentosa Jacq. Russelia sarmentosa Plantaginaceae Contraceptive 23,33
Ruta chalepensis L. Rue Rutaceae Oxytocic/induces labor/speeds birth 23,33,52,72,74
Ruellia sp. Cuaimate Acanthaceae Postpartum care 42,73
Salix bonplandiana Kunth Bonpland willow Salicaceae Postpartum care 52
Salix humboldtiana Willd Humboldt’s willow Salicaceae Postpartum care 52
Sambucus nigra L. Eldelberry Adoxaceae Obstetric problems 75
Selaginella pallescens (C. Presl) Spring Moss fern Selaginellaceae Postpartum care 23
Sesamum indicum L. Sesame Pedaliaceae Breastfeeding 34
Solanum nudum Dunal Forest nightshade Solanaceae Not stated 70
Styrax argenteus C.Presl Styrax Styracaceae Contraceptive; oxytocic/induces labor/speeds birth 23
Tagetes erecta L. Amapola Compositae Postpartum care 70
Tagetes lucida Cav. Dayflower Compositae Oxytocic/induces labor/speeds birth 23,33
Tecoma stans (L.) Juss. ex Kunth Trumpet bush Bignoniaceae Postpartum care 12
Tectaria sp Tectariaceae Postpartum care 70
Thelypteris kunthii (Desv.) C.V. Morton Fern (Helecho macho) Thelypteridaceae Contraceptive 42,73
Thelypteris tetragona (Sw.) Small Freetip maiden fern Thelypteridaceae Postpartum care 70
Tonduzia longifolia (A.DC.) Markgr. Palo blanco Apocynaceae Postpartum care 52
Turbina corymbosa (L.) Raf. Ololiuhqui Convolvulaceae Oxytocic/induces labor/speeds birth 23,33
Vanilla planifolia Jacks. ex Andrews Vanilla Orchidaceae Menopause 34
Zea mays L. Corn Poaceae Postpartum care; treats infertility 23,33
Zingiber officinale Roscoe Ginger Zingiberaceae Nausea and vomiting; obstetric problems 50
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Smith-Oka70,78 reported on the use of medicinal plants by the Nahua women in Northern Veracruz, Mexico. The results of these studies showed that approximately 80 plant species were used medicinally, and women had the most knowledge about medicinal plants, particularly married women with children. Twenty-six of the plant species collected were used to treat reproductive health issues, including contraception, conception, menstruation, pregnancy, and the postpartum period. Five medicinal herbs were used to increase conception, foster pregnancy, or contraception. Priva lappulacea (L.) Pers. was a plant used to prevent miscarriages69,70,78. Hamelia patens Jacq. [syn. Hamelia erecta] and Bombax ellipticum Kunth (Malvaceae) were combined and ingested as a tea to induce complete sterility in women (Table 1). Another plant, Cydista potosina was prepared as a tea and used for the same purpose, while the use of a preparation of Hybanthus attenuatus (Humb. & Bonpl. ex Schult.) Schulze-Menz (Malpighiales) was reported to facilitate conception. Five plants were used by the Natau women for treating heavy menstruation, specifically Tillandsia recurvata (Bromeliaceae), H. patens, Manikara zapota (L.) P Royen (Sapotaceae), Solanum nudum, and Persea americana69,70,78. Two plants were administered to speed up the birthing process-namely Nectandra sp. (species not specified) and Heliocarpus glanduliferus B.L. Rob. Ex Rose (Malvaceae). Four plants were used to treat uterine prolapse, a condition common to these women. A tea of Mentzelia aspera L. (Loasaceae) was taken orally, while for the other plants Ocimum basilicum, Piper umbellatum, and Pedilanthus thytimaloides were used as a steam or vaginal wash. In terms of the postnatal period, seven plants, namely Arundo donax, Adiantum tenerum, Hylocereus undatus, Nopalea cochenillifera, Tagetes erecta, Tectaria sp., Musa sp. and sometimes Thelypteris tetragona were combined in water and used to bathe mother and newborn after birth69,70,78. In addition, two plants, Solanum nudum and Hibiscus rosa-sinensis, were used to reduce crying in infants. Interestingly, many of the medicinal plants used by women were cited in pre-Columbian codices, suggesting that their historical use in Mexico exceeded 500 years, and that these medicinal plants were more broadly used across large regions in Mexico69,70,78. However, most of these plants have no safety or efficacy data to support their use during pregnancy.

Pérez-Nicolás et al.75 investigated the relationship between sociodemographic factors, including age, economic activity, education, socioeconomic levels, gender, and language proficiency with medicinal plant knowledge and use in a Zapotec community in Santiago Camotlán, Sierra Norte of Oaxaca. Analysis of the data showed that 180 species of plants representing more than 60 families were reportedly used in women’s health. Some of these plants were used in MTM for fertility regulation in women, of which numerous medicinal plants were used as emmenagogues and abortifacients. Approximately forty plant species were used for the symptoms of premenstrual syndrome, heavy menstrual bleeding, and dysmenorrhea. Thirty-five species were used for postpartum care and to facilitate breastfeeding, 16 species were used as oxytocic agents to induce labor and speed birth, and six plant species were used to prevent miscarriage. Fourteen plant species were reported to treat infertility or promote fertility, and seven species were used to treat “inflamed” uterus or uterine prolapse75. In terms of menopause, three plants species were reported to treat menopause and two plants were used for osteoporosis. These researchers further described several medicinal plants used by mid-wives in Santiago Camotlán, Oaxaca for labor and delivery, as well as childcare. These plant species included Sambucus nigra subsp. canadensis (L.) Bolli, and Liquidambar styraciflua L. (Table 2)75.

Our analysis of the data from multiple sources showed that more than 185 species of plants representing over 60 plant families were commonly used in MTM for women’s reproductive health, including menstrual cycle issues, pregnancy, induction of labor, post-partum recovery, menopause and uterine prolapse (Tables 1 and 2). Some plants were used in MTM for fertility regulation in women, of which numerous medicinal plants were used specifically as emmenagogues and abortifacients. Approximately forty plant species were used for the management of the symptoms of premenstrual syndrome, heavy menstrual bleeding, and dysmenorrhea (Table 1). In terms of pregnancy, 35 plant species were used for postpartum care and to facilitate breastfeeding, 16 species were used as oxytocic agents to induce labor and speed birth, and six plant species were used to prevent miscarriage (Table 2). Fourteen plant species were reported to treat infertility or promote fertility, and seven species were used to treat “inflamed” uterus or uterine prolapse. In terms of menopause, three plants species were reported to treat menopause and two plants were used for osteoporosis (Table 2). While there are some experimental and clinical data for some of the more commonly used medicinal plants, many of the plant species have not been scientifically investigated.

Discussion

Depending on their geographical location within Mexico, it is estimated that between 12 to 60% of Mexican women depend on MTM practices and herbal medicines for their primary healthcare needs8,51,6568,70,71,7983. The use of MTM is more prevalent in rural areas where access to modern clinics and healthcare is limited, especially during pregnancy. Thus, having access to MTM in these regions is critical for the overall health of these women8,12,65,68. MTM is also important to rural indigenous women who are often victims of extreme poverty, gender inequality, ethnic discrimination, and lack the financial resources and authority to seek prenatal and obstetric care68. They tend to fear or mistrust Western medical clinics as these clinics and healthcare workers may lack the cultural sensitivity, language, local knowledge and understanding of indigenous traditional medicines needed to provide adequate healthcare66,82,83. One study, the Salud Mesoamérica 2015 Initiative, showed that when compared with national averages, the poor, indigenous, and rural patient populations in Mexico and Central America exhibited worse health outcomes83. The IMSS and the Mexican Ministry of Health and Welfare operate most of the healthcare clinics, and the lack of staffing of community healthcare workers and physicians, may make the quality of care inconsistent, and not culturally sensitive79. Language is also an important aspect of healthcare, and since many Western trained health workers do not speak indigenous languages, indigenous women often have difficulty explaining their symptoms66,67,83. Many Mexican women prefer MTM healers, as well as birthing services offered by midwives rather than nurses and doctors, because midwives incorporate traditional beliefs and medicinal plants into their work, thus preserving the connection with their culture. The caveat is that midwives often are not trained for complicated pregnancy and deliveries, which may result in serious complications and death6668,79.

The aim of this investigation was to facilitate the medical recognition of medicinal plants in MTM that have been reported to be used for women's reproductive health conditions by correlating the available clinical data supporting their use. In addition, we have listed other medicinal plants that are also used in MTM for women´s reproductive healthcare that have no clinical data but may serve as a foundation for future scientific and clinical studies. Our review of the medicinal plants and herbal medicines used in MTM showed approximately 185 different species of plants in 60 plant families were used in the management of women’s reproductive disorders. Of these species, 125 were used as emmenagogues and abortifacients, and to treat PMS, heavy menstrual bleeding, dysmenorrhea, and pregnancy. Approximately 16 species were used as oxytocic agents to induce labor and speed birth. Our study differed from previous investigations that focused on specific regions of study or specific areas of women’s health, such as pregnancy22,23,33,5153,70,71,74,78. Our study covered all regions of Mexico for which there were published data and included medicinal plant information covering all women’s reproductive health conditions. Our study had some similarities to those published from Central America such as Guatemala, Costa Rica, and Belize where women (particularly indigenous and rural) are also dependent on plant-based medicines for a wide range of reproductive cycle issues including PMS, pregnancy, and menopause18,19,6567,84. For example, in Guatemala and Costa Rica, Pimenta diocia, Piper sanctum, Piper auritum, Hibiscus rosa-sinensis, Zingiber officinale and Citrus aurantium are also used for the management of PMS, pregnancy and menopause18,19,6567,82. In Guatemala, Zingiber officinale rhizomes are used to prepare a tea that is taken to reduce hot flashes and night sweats; while a tea made from the leaves and flowers of Hibiscus rosa-sinensis is used to reduce sweating and treat nervous conditions18,19. Furthermore, chamomile (Matricaria chamomilla) tea is used to treat nervousness and insomnia and bitter orange (Citrus aurantium) is used in a bath to relieve night sweats and insomnia18,19. The wide-spread use of these plants throughout Mexico and Central America for similar purposes is suggestive of efficacy.

Unlike previous studies of medicinal plants used in MTM for women’s reproductive health, this study correlated data from commonly used medicinal plants with available published clinical data supporting their use. While many of the cited plant species have little experimental pharmacological support for their traditional uses, for some of the more commonly used plant species there was considerable amount of supportive clinical and experimental data. Particularly medicinal plants that are used in other countries for similar purposes, such as ginger, chamomile and fennel. Extracts of these plants are commonly used by women in Europe, the Middle East and China for the management of anxiety, pregnancy, PCOS and the symptoms of PMS2429. Many of the clinical trials for these herbal medicines were performed in the Middle East and the USA showing continued global interest in medicinal plants to treat a wide range of conditions including PCOS, PMS, menopause, and General Anxiety Disorders2429,3236. Some of the limitations of this study include the fact that it relies on data obtained from secondary sources such as peer-reviewed journals, books, and databases, and not from direct field work. Thus, our study relies on the integrity of previously published researcher’s methodology, and their interpretation of the results. Furthermore, MTM is a complex healthcare system that incorporates many aspects of religion, spirituality, and culture, that were not included in the current work.

While Mexican women regularly use herbal medicines and medicinal plants to treat women’s reproductive health issues including pregnancy, for most of these plant species there is little pharmacological data to support their safety and efficacy. Since pregnancy appears to be one of the more common uses of medicinal plants in MTM, it is critical that at least basic studies should be performed to validate at least the safety of these medicinal plants. Other issues posed include the use of many plant species in MTM to treat amenorrhea or those directly used as an abortifacient, indicating that these medicinal plants may have direct effects on the uterus and ovaries, or may exert toxic effects in women or the fetus. Therefore, it is essential that some in vivo scientific investigations be performed to assess toxicity.

The highest prevalence of MTM use appears to occur in the states of Chiapas, Morelos, Oaxaca, Veracruz, Guerrero, Chihuahua, Yucatan, and Veracruz, where the use of MTM and medicinal plants for the management of reproductive health issues by women appears to be extensive. Considering the population of the country is > 128 million and women make up 51.08%, it is essential that more research be performed to assess the safety and efficacy of the medicinal plants currently being used, especially during pregnancy. Fortunately, within Mexico there are numerous private and public institutions that are responsible for the preservation and development of traditional medicine, including the National Institute of Indigenous Peoples (Instituto Nacional de los Pueblos Indígenas- INPI), the Mexican Social Security Institute—Solidarity (Instituto Mexicano del Seguro Social- IMSS/Solidaridad), and the National Council of Traditional Indigenous Medicine Men (Consejo Nacional de Médicos Indígenas Tradicionales—CONAMIT)8. Some of these institutions work together to prevent the loss of MTM information. The IMSS/Solidaridad works to promote healthcare in rural/indigenous populations in conjunction with allopathic and Indigenous doctors, traditional healers, and midwives; to develop and maintain medicinal gardens; and to protect traditional healing methods, as well as prevent disease. The IMSS-Solidarity also offers training to health service personnel in the form of workshops on traditional medicine practices, medical anthropology, and other topics. CONAMIT’s responsibility is to legislate MTM8.

Conclusions

Currently, Mexican traditional medicine is a holistic system that combines the ancient healing traditions of the Maya and Aztecs, with that of Spanish and African practices. MTM is essential for healthcare in Mexico and has survived conquest, colonization, and the introduction of Western medicine practices because many MTMs require little if any equipment, are easily transported and obtained. MTM information has been passed down to each generation orally, most often without documentation, although documentation has been increasing over the last 50 years. Although some commonly used medicinal plants and practices in MTM have Asian, European, or Middle Eastern roots, they were incorporated into indigenous Mexican healing practices during colonization and continue to be used today. As in most countries, Mexican women play a central role in family healthcare and are traditionally the providers of medical care and the transmitters of medical knowledge and beliefs. Thus, they are critical for the health of the entire community, particularly the children, all of whom are taken care of exclusively by their female family members. Complications to women’s health are attitudes that prevent women from seeking modern medical services for themselves or their children, due to cultural and religious practices within indigenous communities. Gender inequality is still a serious problem in all countries, including Mexico65,68, where many women are poor and lack the financial resources and authority to seek healthcare. In this work, we have shown that medicinal plants in MTM play an essential role in the provision of culturally sensitive and accessible healthcare for the management of women’s reproductive health conditions. Plant-based medicines are used for all aspects of reproductive health including the management of menstrual cycles, PMS, pregnancy, labor, and delivery, as well as menopause. Interestingly, while many plants have no supporting experimental pharmacology, some of the more commonly used plants have significant clinical and experimental data to support their use. Thus, for those medicinal plants with no experimental support, the data presented here may be used as a foundation for future research investigations.

Mexican traditional medicine and associated medicinal plants provide culturally appropriate healthcare interventions that are accessible, inexpensive and, where clinically validated for safety and efficacy, may be integrated into Western clinical care. While some medicinal plants have been scientifically investigated, many MTM medicinal plants, including those used during pregnancy have not been extensively studied for safety and efficacy. Considering the critical role that MTM plays in the health of women and their families, research and development of these practices and medicinal plants is essential to validate their safety and efficacy and should be used as the basis for future research. Continued scientific investigations into Mexican traditional medicines will make these products safer, improve healthcare initiatives and allow for the development of industry and accessibility for MTM medicinal plant products.

Acknowledgements

This work was funded in part by the UIC-TEC Seed Fund International Research Collaboration to GBM and DLV. PCA, ALL, KOM, and KGB participated as part of a Research Internship Program at the University of Illinois at Chicago, Chicago, Illinois in collaboration with Tecnologico de Monterrey, Monterrey, Mexico. The contents are solely the responsibility of the authors and do not necessarily represent the official views of the funding agencies. The funding agency had no role in the design of the study and collection, analysis, or in interpretation of data and in writing the manuscript.

Author contributions

G.B.M., D.L.V. designed and conducted the research, collected, and analyzed data. P.C.A., K.O.M., A.L.L., K.G.B. collected data and prepared tables. All authors contributed significantly to the writing, review and editing of the manuscript.

Funding

This work was supported in part by a grant from the UIC-TEC Seed Fund International Research Collaboration to GBM and DLV. The contents are solely the responsibility of the authors and do not necessarily represent the official views of the funding agencies.

Data availability

All data and cited studies are peer-revied journal articled, preprints and books available in the public domain; some may require relevant database or journal subscriptions for access. All data used for the foundation of the manuscript are included in the article and may be obtained by contacting the corresponding author at: mahady@uic.edu.

Competing interests

The authors declare no competing interests.

Footnotes

Publisher's note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

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