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. 2021 Apr 16;14:1007–1025. doi: 10.2147/JPR.S283732

Bibliometric Analysis of Research Articles on Pain in the Elderly Published from 2000 to 2019

Yanqiao Zhao 1,2,*, Ziping Zhang 2,3,*, Suimin Guo 2, Beibei Feng 2,4, Xiaoyu Zhao 2,5, Xueqiang Wang 1,6,, Yuling Wang 2,
PMCID: PMC8058449  PMID: 33897259

Abstract

Background

Given the rapid growth of the global aging population, pain has become an unneglectable concern amongst the elderly. The quantity of scientific research outputs on pain in the elderly has increased over time, but only a small number of studies have used bibliometric methods to analyze scientific research in this field. This paper aimed to analyze scientific research on pain in the elderly published from 2000 to 2019 in a systematic manner using bibliometric methods.

Methods

Articles on pain in the elderly published from 2000 to 2019 were retrieved from the Web of Science (WoS). Abstracts were coded on the basis of predetermined items (eg, type of article, topic, type of subjects, pain characteristics), and relevant information on the first author, citation scores, and article keywords were collected.

Results

A total of 2105 articles were included in this study. Statistical analysis revealed that the publication of articles on pain in the elderly increased in frequency over time (P<0.001). Most of the publications were original articles. Amongst the countries identified, the United States published the largest number of papers on this topic. Pain characteristics (50.21%), pain intervention (35.68%), and pain assessment (9.69%) were the main topics of research on geriatric pain. Back pain (12.30%) appeared to be the most popular pain type described in the included papers.

Conclusion

This work provides researchers with an in-depth understanding of pain in the elderly by evaluating relevant publications in the past two decades. Researchers in this field are warranted to explore future directions on geriatric pain such as the transition from acute pain to chronic pain and the underlying mechanisms of pain in the elderly.

Keywords: elderly, pain, bibliometric analysis

Introduction

The elderly population is the fastest growing population in modern society. By 2050, one in six people in the world will be over 65 years old (16%), while this number was one in eleven (9%) in 2019.1 Related to the physiological characteristics of age group, the incidence of many diseases has increased and led to various dysfunctions in the elderly.2 Various conditions amongst the older persons are related to or accompanied by pain, such as musculoskeletal diseases,3 cancer4 and diabetes,5 all of which may increase the risk of pain in the elderly.

The prevalence of pain in the elderly, especially chronic pain, is fairly high (estimated at 25–85%),6,7 compared with that in younger group of adults (estimated at 7.3–68% in the age range of 40–66 years)8 and in children and adolescents (estimated at 11–38%).9 Thus, pain in the elderly is an issue worthy of concern. It is crucial for healthcare professionals to assess the pain of the elderly effectively and employ multidisciplinary intervention strategies to help address geriatric pain. Current studies on geriatric pain and its mechanisms could also improve the understanding of pain in the elderly and hence guide optimal treatment protocols.10–12 In short, research on pain in the elderly has attracted worldwide attention from scholars across the countries.

Bibliometrics, which refers to the application of mathematical and statistical methods to analyze scientific publications on a specific topic,13 serves to provide quantitative information on bibliographic properties, such as authors, journals, citation scores, and countries of distribution.14 Bibliometrics is an important tool to assess the impact or value in a specific field.15 Bibliometric analyses in the field of pain research usually involve a wide range of topics,16–21 such as specific disease-related pain.22,23 Only a limited number of bibliometric studies on the topic of pain among different age groups, especially in the elderly, have been conducted.

In view of the above-mentioned research gap, the purpose of the present study is to explore the scientific research trends in pain amongst the elderly as presented by related articles published between 2000 and 2019 in a systematic manner. This study used a bibliometric method similar to that employed by Mogil et al18 and Caes et al.24 The Web of Science (WoS) Core Collection was selected as the database to search and screen articles related to pain in the older population. CiteSpace V (Drexel University, Philadelphia, USA),25 which is frequently used for quantitative analysis, was adopted as an auxiliary tool. This visualization software is capable of producing node link maps and citation network maps, which allows an explicit manifestation of the development track, intellectual base, research hotspots, and other aspects of a discipline.26 CiteSpace V can also help detect keywords and references in citation bursts. Citation bursts are characterized by intensity and duration. The burst of citations indicates that attention to related research has increased over a period of time, which is a key indicator for identifying emerging trends.27–29 This article mainly uses CiteSpace for references cluster analysis and citation bursts detection, and keywords citation bursts detection. Information on authors, journals, and country of distribution was also obtained.

Methods

Source and Search Strategy

WoS, particularly the core collection Science Citation Index (SCI) Expanded, was selected as the search database. The keywords for this study were referred from two previous meta-analyses30,31 and selected under the advice of a professor with extensive meta-analysis writing experience. We searched for all titles containing at least one word or phrase related to “elderly” and one word or phrase related to “pain”. The keywords employed are provided in Supplement 1. We retained English articles only because of limitations in language mastery. Articles published in peer-reviewed journals from 2000 to 2019 were included for analysis in this study. We did not exclusively choose articles published in the journal PAIN because articles related to pain in the elderly may also be published in various medical-related journals. Besides original articles, we also considered reviews, theoretical articles and related guidelines. A total of 5096 articles were retrieved, and this step was completed on February 27, 2020.

Preliminary Screening

Two authors independently checked articles on the basis of their title to initially screen out duplicate papers and articles that met the exclusion criteria (eg, case studies, protocols, letters, books and articles that were unrelated to the topic of interest). Disagreements on inconsistent content were discussed and resolved. Articles that could not be judged as to whether they met the inclusion criteria based on their title were retained to the next step of screening. In this step, a total of 1691 (33.18%) articles were excluded because of several reasons, such as other non-pain-related elderly studies (N=147, 8.69%) or non-elderly studies (N=1046, 61.86%) due to the phrase being cut off or other reasons, articles identified in searches due to irrelevant words captured by truncated search terms or misspelled (N=374, 22.12%), case studies (N=96, 5.68%), duplicates (N=5 or 0.30%) and protocol articles (N=23, 1.36%). This screening step was completed on March 5, 2020.

Access to Information

The citation information of all articles was exported from WoS.

Coding Strategy

The coding system we used was developed by Mogil et al18 and modified it according to the version used in the research of Caes et al24 to meet the needs of the information acquired in this study. Information on the years the articles were published, content related to the authors (names and numbers), journals and citation scores were collected. We also collected information on the countries of the first authors. The information obtained from the titles and abstracts mainly included the following categories: (1) type of article (ie, research article, theoretical article, guidelines and reviews [ie, narrative reviews or systematic reviews]); (2) topic of the article (eg, characteristics, assessment, intervention, risk factors of pain); (3) subjects (eg, healthy cases, patients recruited from the community or clinical setting); and (4) pain characterisation (eg, experimental pain or clinical pain). Experimental pain includes pain induced by an electrical, mechanical, thermal, or other stimulus, while clinical pain includes pain caused by disease or surgery. Details of the coding system are provided in Supplement 2. We did not categorise the articles according to age because we found during the precoding process that many studies on pain in the elderly included a relatively wide age range. Thus, we used inclusion and exclusion criteria to limit the age range of the articles reviewed (Table 1).

Table 1.

Inclusion and Exclusion Criteria

Inclusion Criteria Exclusion Criteria
✓ Articles from peer-reviewed journals ✗ Dissertation
✓ Research articles ✗ Letters
✓ Reviews (ie, narrative review and systematic review) ✗ Conference abstracts
✓ Clinical guidelines ✗ Case studies
✓ Theoretical articles ✗ Protocols
✓ English articles ✗ Books
✓ Abstract available ✗ Non-elderly subjects
✓ Articles on pain in elderly persons aged ≥65 years old (at least half of the main subjects) ✗ Articles not related to pain or whose main outcomes were not pain
✓ Pain was the main outcome or topic of interest ✗ The symptoms of the disease may include pain, but the study did not focus on pain
✓ Articles about pain in the elderly reported by medical staff, caregivers, etc. ✗ Article was retrieved because of a misspelling or truncation
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On the basis of the coding system developed by Mogil et al18, each article was assigned at least one code in a category but allowed multiple codes because an article may match with multiple codes; For example, in terms of pain characteristics, chronic pain may be caused by a disease. Prior to formal coding, all of the authors involved in the coding process discussed and adjusted the relevant content of the coding system.

Coding

All abstracts obtained were equally distributed amongst four coders, who subsequently applied the coding system described above. In this step, a total of 1300 articles were excluded for the following reasons: (1) the article was not related to pain or did not specify pain as the main outcome (N=882, 67.85%), (2) the article involved a non-elderly population (N=299, 23%), (3) the article did not include an abstract (N=58, 4.46%) or (4) the article was a case study (N=57 or 4.38%). Finally, 2105 articles were included in the final step of analysis. The coding step was completed on March 31, 2020.

To ensure internal reliability, we randomly selected 10% of the articles assigned to each coder and asked the first author to code them. The range of the intraclass correlation coefficient obtained by statistics was 0.86–0.97.

Data Analysis

The publication dates of the included articles were divided into periods of 4 years (ie, 2000–2003, 2004–2007, 2008–2011, 2012–2015, 2016–2019), each quantitative data were presented as a percentage. The time period was then considered an independent variable, and the categorical data were considered dependent variables. Linear regression was used to calculate changes in the percentage of categorical data over time. Because multiple codes are allowed for each category, the sum of all percentages in a category may exceed 100%. Microsoft Excel 2016 and CiteSpace V were used for data collection and trend analysis, and IBM SPSS Statistics 22.0 software (SPSS Inc., Chicago, USA) was used for statistical analysis. P values less than 0.05 were considered to indicate statistically significant differences.

The complete data acquisition process is illustrated in Figure 1.

Figure 1.

Figure 1

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Flow chart for article selection.

Results

Time Trend of Publication Outputs

A total of 2105 articles were included for analysis. The number of publications increased from 25 articles in 2000 to 207 articles in 2019, and statistical analysis showed a significant correlation (R2=0.936, P<0.001) between the year and number of publications. Details of the year distribution and time trends of the number of publications are shown in Figure 2.

Figure 2.

Figure 2

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Number of articles published and the mode fitting curve from 2000 to 2019.

Number of Citations

The top 20 articles with the highest total citation scores (ie, the total number of times cited) are shown in Table 2. The top 20 articles with the highest total citation scores focused on pain assessment (15%), pain intervention (25%), pain characteristics (55%), and model development (10%). The relative citation score is calculated as the total citation score divided by number of years after publication. Table 3 lists the top 20 articles with relative citation scores. In terms of the relative citation scores, the top 20 articles shared the similar research themes (ie, pain assessment: 20%, pain intervention: 45%, pain characteristics: 35% and model development: 5%).

Table 2.

Top 20 Articles with the Highest Total Citation Scores

Rank Year Authors Title Journal Citation Score
1 2001 Peat et al40 Knee pain and osteoarthritis in older adults: a review of community burden and current use of primary health care Annals of the Rheumatic Diseases 725.00
2 2004 Messier et al41 Exercise and dietary weight loss in overweight and obese older adults with knee osteoarthritis - The arthritis, diet, and activity promotion trial Arthritis and Rheumatism 611.00
3 2010 Blagojevic et al42 Risk factors for onset of osteoarthritis of the knee in older adults: a systematic review and meta-analysis Osteoarthritis and Cartilage 528.00
4 2003 Lin et al43 Effect of improving depression care on pain and functional outcomes among older adults with arthritis - A randomized controlled trial JAMA 375.00
5 2007 Hadjistavropoulos et al44 An interdisciplinary expert consensus statement on assessment of pain in older persons Clinical Journal of Pain 331.00
6 2004 Thomas et al45 The prevalence of pain and pain interference in a general population of older adults: cross-sectional findings from the North Staffordshire Osteoarthritis Project (NorStOP) PAIN 314.00
7 2013 Abdulla et al45 Guidance on the management of pain in older people Age and Ageing 300.00
8 2004 Herr et al46 Pain intensity assessment in older adults - Use of experimental pain to compare psychometric properties and usability of selected pain scales with younger adults Clinical Journal of Pain 267.00
9 2001 Helme and Gibson.47 The epidemiology of pain in elderly people Clinics in Geriatric Medicine 255.00
10 2006 Herr et al48 Tools for assessment of pain in nonverbal older adults with dementia: A state-of-the-science review Journal of Pain and Symptom Management 254.00
11 2008 Morone et al49 Mindfulness meditation for the treatment of chronic low back pain in older adults: A randomized controlled pilot study PAIN 249.00
12 2001 Jones et al50 The effect of age on pain, function, and quality of life after total hip and knee arthroplasty Archives of Internal Medicine 236.00
13 2010 Solomon et al51 The comparative safety of analgesics in older adults with arthritis Archives of Internal Medicine 236.00
14 2001 Gibson and Helme52 Age-related differences in pain perception and report Clinics in Geriatric Medicine 235.00
15 2009 Leveille et al53 Chronic musculoskeletal pain and the occurrence of falls in an older population JAMA 228.00
16 2005 Gagliese et al54 The measurement of postoperative pain: A comparison of intensity scales in younger and older surgical patients PAIN 226.00
17 2004 Gibson and Farrell55 A review of age differences in the neurophysiology of nociception and the perceptual experience of pain Clinical Journal of Pain 212.00
18 2005 Lautenbacher et al56 Age effects on pain thresholds, temporal summation and spatial summation of heat and pressure pain PAIN 211.00
19 2015 Silverwood et al57 Current evidence on risk factors for knee osteoarthritis in older adults: a systematic review and meta-analysis Osteoarthritis and Cartilage 211.00
20 2003 Edwards et al58 Age-related differences in endogenous pain modulation: a comparison of diffuse noxious inhibitory controls in healthy older and younger adults PAIN 209.00
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Table 3.

Top 20 Articles with the Highest Relative Citation Scores

Rank Year Author Title Journal Relative Citation Scores
1 2010 Blagojevic et al42 Risk factors for onset of osteoarthritis of the knee in older adults: a systematic review and meta-analysis Osteoarthritis and Cartilage 52.80
2 2013 Abdulla et al6 Guidance on the management of pain in older people Age and Ageing 42.86
3 2015 Silverwood et al57 Current evidence on risk factors for knee osteoarthritis in older adults: a systematic review and meta-analysis Osteoarthritis and Cartilage 42.20
4 2004 Messier et al41 Exercise and dietary weight loss in overweight and obese older adults with knee osteoarthritis - The arthritis, diet, and activity promotion trial Arthritis and Rheumatism 38.19
5 2001 Peat et al40 Knee pain and osteoarthritis in older adults: a review of community burden and current use of primary health care Annals of the Rheumatic Diseases 38.16
6 2013 Patel et al58 Prevalence and impact of pain among older adults in the United States: Findings from the 2011 National Health and Aging Trends Study PAIN 29.57
7 2007 Hadjistavropoulos et al44 An interdisciplinary expert consensus statement on assessment of pain in older persons Clinical Journal of Pain 25.46
8 2010 Solomon et al51 The comparative safety of analgesics in older adults with arthritis Archives of Internal Medicine 23.60
9 2017 Avidan et al59 Intraoperative ketamine for prevention of postoperative delirium or pain after major surgery in older adults: an international, multicentre, double-blind, randomised clinical trial Lancet 23.33
10 2003 Lin et al43 Effect of improving depression care on pain and functional outcomes among older adults with arthritis - A randomized controlled trial JAMA 22.06
11 2008 Morone et al49 Mindfulness meditation for the treatment of chronic low back pain in older adults: A randomized controlled pilot study PAIN 20.75
12 2009 Leveille et al53 Chronic musculoskeletal pain and the occurrence of falls in an older population JAMA 20.73
13 2004 Thomas et al45 The prevalence of pain and pain interference in a general population of older adults: cross-sectional findings from the North Staffordshire Osteoarthritis Project (NorStOP) PAIN 19.63
14 2006 Herr et al48 Tools for assessment of pain in nonverbal older adults with dementia: A state-of-the-science review Journal of Pain and Symptom Management 18.14
15 2004 Herr et al46 Pain intensity assessment in older adults - Use of experimental pain to compare psychometric properties and usability of selected pain scales with younger adults Clinical Journal of Pain 16.69
16 2013 Langan et al61 Herpes zoster vaccine effectiveness against incident herpes zoster and post-herpetic neuralgia in an older US population: A cohort study PLoS Medicine 16.43
17 2016 Morone et al62 A mind-body program for older adults with chronic low back pain a randomized clinical trial JAMA Internal Medicine 16.25
18 2009 Vitiello et al63 Cognitive behavioral therapy for insomnia improves sleep and decreases pain in older adults with co-morbid insomnia and osteoarthritis Journal of Clinical Sleep Medicine 16.09
19 2014 Hadjistavropoulos et al32 Pain assessment in elderly adults with dementia Lancet Neurology 15.83
20 2014 Makris et al33 Management of persistent pain in the older patient a clinical review JAMA 15.67
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Journals

All included articles were published in 535 journals, and 261 journals published two or more of these articles. The top three journals with the greatest number of publications related to pain in the elderly were Pain Medicine, PAIN, and Journal of the American Geriatrics Society. Details of the top 20 journals with the highest number of pain-related articles published are shown in Table 4. The average impact factor (IF) of all journals was 3.053 (median, 2.930; range, 1.595–5.483, 2019), and the total number of citations of PAIN reached 4337 (publications, 78; IF, 2019 =5.483; citations per paper, 55.60), which was the journal with the largest total number of citations and the journal with the most citations per article. In addition, over half of the top 20 journals that published articles on pain were from the United States.

Table 4.

Top 20 Journals with the Highest Number of Published Articles

Rank Journal Country IF (2019) Count Citation Scores Citations per Paper
1 Pain Medicine USA 2.513 105 2477 23.59
2 PAIN USA 5.483 78 4337 55.60
3 Journal of the American Geriatrics Society USA 4.180 70 3099 44.27
4 Pain Management Nursing USA 1.595 50 670 13.40
5 Drugs & Aging New Zealand 2.824 48 1016 21.17
6 European Journal of Pain England 3.492 39 729 18.69
7 Journal of Pain USA 4.621 38 1531 40.29
8 Clinical Journal of Pain USA 2.893 38 1803 44.45
9 Clinics in Geriatric Medicine USA 2.966 32 1064 33.25
10 Bmc Geriatrics England 3.077 31 232 7.48
11 Bmc Musculoskeletal Disorders England 1.879 30 648 21.60
12 Archives of Gerontology and Geriatrics Ireland 2.128 30 314 10.47
13 Journals of Gerontology Series a-Biological Sciences and Medical Sciences USA 5.236 27 700 25.93
14 Journal of Pain and Symptom Management USA 3.077 26 969 37.27
15 SPINE USA 2.646 24 716 29.83
16 Aging Clinical and Experimental Research Italy 2.697 24 154 6.42
17 Journal of Clinical Nursing England 1.972 23 345 15.00
18 Clinical Interventions in Aging New Zealand 3.023 22 268 12.18
19 PLoS One USA 2.740 20 160 8.00
20 Geriatrics & Gerontology International Japan 2.022 20 103 5.15
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Authors

The percentage of articles in which two or more authors collaborate gradually increased over time. Author collaborations increased from 91.39% in 2000–2003 to 97.90% in 2016–2019 (R2=0.886, P<0.05). Conversely, the proportion of articles published by a single author declined over this same period (R2=0.882, P<0.05). Details of our analysis on authors are provided in Figure 3. No articles in which the authors were anonymous or not listed were obtained.

Figure 3.

Figure 3

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Percentage of papers published by single and multiple authors.

The articles included in this analysis were published in 48 countries (Supplement 3), but most came from the United States (N=741, 35.20%), Australia (N=175, 8.31%) and the United Kingdom (N=167, 7.93%). The distribution of articles published per country is shown in Figure 4.

Figure 4.

Figure 4

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World map of total country outputs.

Keywords

CiteSpace was used to detect burst keywords which were identified as indicators of emerging trends. The burstiness of a keyword was obtained by calculating the weighted sum of its frequency in one- or multiple-time windows. If the probability of these occurrences is higher than a data-dependent global threshold, that keyword is considered to have a burst. All keywords of the included papers were obtained by CiteSpace V. The top 68 keywords with the strongest citation bursts are shown in Table 5. The burst keywords in the beginning of 2000 were “migraine”, ‘osteoarthritis’, “rheumatoid”, “gender”, “nursing home” and “physical disability”. By comparison, the most recent burst keywords included “balance” (2014–2019), “burden” (2015–2019), “cognitive impairment” (2015–2019), ‘meta-analysis’ (2015–2019), “impact” (2016–2019), “mortality” (2016–2019), “predictor” (2017–2019) and “persistent pain” (2017–2019).

Table 5.

Top 68 Keywords with the Strongest Citation Bursts in Publications on Pain in the Elderly

Keywords Year Strength Begin End 2000–2019
Migraine 2000 4.2682 2000 2008 graphic file with name JPR_A_283732_O_ILF0001.jpg
Osteo arthritis 2000 7.9365 2000 2001 graphic file with name JPR_A_283732_O_ILF0002.jpg
Rheumatoid arthritis 2000 14.2934 2000 2011 graphic file with name JPR_A_283732_O_ILF0003.jpg
Gender 2000 3.8488 2000 2005 graphic file with name JPR_A_283732_O_ILF0004.jpg
Nursing home 2000 10.8974 2000 2005 graphic file with name JPR_A_283732_O_ILF0005.jpg
Physical disability 2000 4.2917 2000 2003 graphic file with name JPR_A_283732_O_ILF0006.jpg
Severity 2000 4.0377 2002 2005 graphic file with name JPR_A_283732_O_ILF0007.jpg
Pain assessment 2000 4.3778 2002 2006 graphic file with name JPR_A_283732_O_ILF0008.jpg
Mini mental state 2000 4.5985 2002 2008 graphic file with name JPR_A_283732_O_ILF0009.jpg
Mobility 2000 5.3971 2003 2011 graphic file with name JPR_A_283732_O_ILF0010.jpg
Geriatrics 2000 4.2576 2003 2006 graphic file with name JPR_A_283732_O_ILF0011.jpg
Validity 2000 3.8645 2003 2007 graphic file with name JPR_A_283732_O_ILF0012.jpg
Questionnaire 2000 7.0498 2003 2005 graphic file with name JPR_A_283732_O_ILF0013.jpg
Headache 2000 3.4825 2003 2004 graphic file with name JPR_A_283732_O_ILF0014.jpg
Health status 2000 5.2123 2003 2008 graphic file with name JPR_A_283732_O_ILF0015.jpg
Depressive symptom 2000 6.7369 2003 2007 graphic file with name JPR_A_283732_O_ILF0016.jpg
Elderly people 2000 6.1618 2003 2008 graphic file with name JPR_A_283732_O_ILF0017.jpg
Surgery 2000 3.5827 2003 2010 graphic file with name JPR_A_283732_O_ILF0018.jpg
Attitude 2000 3.5439 2003 2005 graphic file with name JPR_A_283732_O_ILF0019.jpg
Postoperative pain 2000 5.1525 2003 2009 graphic file with name JPR_A_283732_O_ILF0020.jpg
Communication 2000 3.7038 2004 2009 graphic file with name JPR_A_283732_O_ILF0021.jpg
Disease 2000 3.5381 2004 2008 graphic file with name JPR_A_283732_O_ILF0022.jpg
Arthroplasty 2000 4.1529 2004 2006 graphic file with name JPR_A_283732_O_ILF0023.jpg
Assessment 2000 4.1674 2004 2009 graphic file with name JPR_A_283732_O_ILF0024.jpg
Experience 2000 3.2414 2005 2011 graphic file with name JPR_A_283732_O_ILF0025.jpg
Minimum data set 2000 3.1373 2005 2006 graphic file with name JPR_A_283732_O_ILF0026.jpg
Nursing home resident 2000 5.7317 2006 2008 graphic file with name JPR_A_283732_O_ILF0027.jpg
Intensity 2000 5.7697 2006 2008 graphic file with name JPR_A_283732_O_ILF0028.jpg
Follow up 2000 3.7993 2007 2011 graphic file with name JPR_A_283732_O_ILF0029.jpg
Validation 2000 7.6445 2007 2012 graphic file with name JPR_A_283732_O_ILF0030.jpg
Morphine 2000 5.7343 2008 2010 graphic file with name JPR_A_283732_O_ILF0031.jpg
Patient 2000 3.3089 2008 2013 graphic file with name JPR_A_283732_O_ILF0032.jpg
Disorder 2000 6.8295 2008 2011 graphic file with name JPR_A_283732_O_ILF0033.jpg
Knee pain 2000 3.1164 2008 2009 graphic file with name JPR_A_283732_O_ILF0034.jpg
General population 2000 3.2829 2008 2009 graphic file with name JPR_A_283732_O_ILF0035.jpg
Nurse 2000 3.6281 2009 2011 graphic file with name JPR_A_283732_O_ILF0036.jpg
Cancer 2000 5.4605 2009 2013 graphic file with name JPR_A_283732_O_ILF0037.jpg
Barrier 2000 3.6625 2009 2013 graphic file with name JPR_A_283732_O_ILF0038.jpg
Alzheimer’s disease 2000 5.5734 2010 2012 graphic file with name JPR_A_283732_O_ILF0039.jpg
Guideline 2000 5.5734 2010 2012 graphic file with name JPR_A_283732_O_ILF0040.jpg
Knee 2000 4.4126 2010 2013 graphic file with name JPR_A_283732_O_ILF0041.jpg
Fibromyalgia 2000 5.0512 2010 2011 graphic file with name JPR_A_283732_O_ILF0042.jpg
Diagnosis 2000 3.1101 2011 2013 graphic file with name JPR_A_283732_O_ILF0043.jpg
Nonsteroidal anti-inflammatory drug 2000 3.1223 2011 2014 graphic file with name JPR_A_283732_O_ILF0044.jpg
Pain management 2000 4.176 2012 2013 graphic file with name JPR_A_283732_O_ILF0045.jpg
Efficacy 2000 5.8437 2012 2015 graphic file with name JPR_A_283732_O_ILF0046.jpg
Analgesia 2000 3.6708 2012 2013 graphic file with name JPR_A_283732_O_ILF0047.jpg
Cancer pain 2000 3.3727 2012 2013 graphic file with name JPR_A_283732_O_ILF0048.jpg
Program 2000 3.8164 2012 2014 graphic file with name JPR_A_283732_O_ILF0049.jpg
Safety 2000 4.0307 2012 2015 graphic file with name JPR_A_283732_O_ILF0050.jpg
Outcome 2000 9.3702 2013 2016 graphic file with name JPR_A_283732_O_ILF0051.jpg
Anxiety 2000 4.8392 2013 2016 graphic file with name JPR_A_283732_O_ILF0052.jpg
Elderly patient 2000 5.3176 2013 2014 graphic file with name JPR_A_283732_O_ILF0053.jpg
Double blind 2000 3.3266 2013 2015 graphic file with name JPR_A_283732_O_ILF0054.jpg
Neuropathic pain 2000 3.6078 2014 2015 graphic file with name JPR_A_283732_O_ILF0055.jpg
Perception 2000 3.389 2014 2015 graphic file with name JPR_A_283732_O_ILF0056.jpg
Balance 2000 3.5721 2014 2019 graphic file with name JPR_A_283732_O_ILF0057.jpg
Performance 2000 3.167 2014 2015 graphic file with name JPR_A_283732_O_ILF0058.jpg
Burden 2000 6.4995 2015 2019 graphic file with name JPR_A_283732_O_ILF0059.jpg
Cognitive impairment 2000 3.3577 2015 2019 graphic file with name JPR_A_283732_O_ILF0060.jpg
Cohort 2000 5.8722 2015 2017 graphic file with name JPR_A_283732_O_ILF0061.jpg
Clinical trial 2000 3.4816 2015 2017 graphic file with name JPR_A_283732_O_ILF0062.jpg
Meta-analysis 2000 12.6695 2015 2019 graphic file with name JPR_A_283732_O_ILF0063.jpg
Impact 2000 3.5607 2016 2019 graphic file with name JPR_A_283732_O_ILF0064.jpg
Physical function 2000 4.5148 2016 2017 graphic file with name JPR_A_283732_O_ILF0065.jpg
Mortality 2000 7.3694 2016 2019 graphic file with name JPR_A_283732_O_ILF0066.jpg
Predictor 2000 5.339 2017 2019 graphic file with name JPR_A_283732_O_ILF0067.jpg
Persistent pain 2000 7.4243 2017 2019 graphic file with name JPR_A_283732_O_ILF0068.jpg
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Subject Category in Web of Science

All articles included in the analysis were divided into 52 categories in WoS. Most of the published articles described topics related to Geriatrics & Gerontology (N=508), followed by Neurosciences & Neurology (N=464) and Clinical Neurology (N=406). The top 10 subject categories with the strongest citation bursts in the last 20 years are shown in Table 6. Whilst the subject category with the strongest citation bursts at the beginning of 2000 was Neurosciences (2000–2005), the top 10 subject categories with the strongest citation bursts by the end of 2019 included Multidisciplinary Sciences (2015–2019) and Science & Technology–Other Topics (2015–2019).

Table 6.

Top 10 Subject Categories of Articles on Pain in the Elderly with the Strongest Citation Bursts in Web of Science

Subject Categories Year Strength Begin End 2000–2019
Neurosciences 2000 5.0467 2000 2005 graphic file with name JPR_A_283732_O_ILF0069.jpg
Gerontology 2000 3.285 2004 2005 graphic file with name JPR_A_283732_O_ILF0070.jpg
Rheumatology 2000 3.2323 2004 2007 graphic file with name JPR_A_283732_O_ILF0071.jpg
Anesthesiology 2000 3.1168 2007 2008 graphic file with name JPR_A_283732_O_ILF0072.jpg
Oncology 2000 6.4401 2008 2010 graphic file with name JPR_A_283732_O_ILF0073.jpg
Pharmacology & Pharmacy 2000 4.058 2012 2014 graphic file with name JPR_A_283732_O_ILF0074.jpg
Health Policy & Services 2000 3.646 2013 2014 graphic file with name JPR_A_283732_O_ILF0075.jpg
Obstetrics & Gynecology 2000 3.6245 2014 2016 graphic file with name JPR_A_283732_O_ILF0076.jpg
Multidisciplinary Sciences 2000 3.9403 2015 2019 graphic file with name JPR_A_283732_O_ILF0077.jpg
Science & Technology - Other Topics 2000 3.9403 2015 2019 graphic file with name JPR_A_283732_O_ILF0078.jpg
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References

Reference analysis is an essential aspect of bibliometric research in a specific field. CiteSpace V was used to obtain citation data from the included articles, and the top 19 clusters are displayed in a timeline view in Figure 5; the scientific relevance of the included articles is also shown in the map. “Hip fracture” formed the largest cluster #0, “elderly patient” formed the second largest cluster #1, and “community-based” (#2) and “functional self-efficacy” (#3) respectively formed the third and fourth largest clusters.

Figure 5.

Figure 5

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Co-citation map (timeline view) of references from publications on pain in the elderly. The size of the nodes reflects the number of publications or frequency; the larger the node, the higher the number of publications or frequency. The different colors within the nodes represent different times, the connection lines between the nodes reflect the relationship between the co-operation or co-citation, and the color of the line reflects the years when the co-operation or co-citation first appeared. Nodes with a larger centrality are more likely to become the key nodes in the network and are represented by purple on the node ring in the knowledge network map.

Type of Article

Original research articles were the dominant article type published and consistently made up 80.37–88.38% of the total number of articles published in each time period. By comparison, review articles made up 11.26–16.67% of the published articles. The percentage of theoretical articles and guidelines was relatively small (Figure 6A). Narrative reviews (N=197, 74.06%) accounted for the largest proportion of all review articles. Whilst the proportion of systematic reviews was initially low, this article type showed an upward trend over time (R2=0.729, P=0.065).

Figure 6.

Figure 6

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(A) Average percentage of each article type published from 2000 to 2019; (B) average percentage of topics discussed in articles published from 2000 to 2019.

Topic of Article

Figure 6B shows the distribution of all included articles by topic (refer to Supplement 4 for detailed coding rules of topics). Articles on pain characteristics (42.56–53.90%), pain intervention (30.74–39.23%) and pain assessment (7.53–13.85%) accounted for the largest proportion of all articles published from 2000 to 2019. All topic categories showed a relatively stable distribution percentage over time (all R2<0.638, n.s.).

Subject Type

Approximately 49% of all articles did not mention the source of their subjects. Other articles recruited subjects from the clinical (23.82%) and community (18.95%) settings. Healthy subjects (3.17%), nursing home residents (3.07%), health professionals (2.22%), and animals accounted for a small proportion of the subjects described in the articles (Figure 7).All studies subjects did not reveal significant changes over time. We found that, besides traditional clinical samples, a large proportion of the subjects came from the community. Studies in which subjects were recruited from the community were published in 31 countries. Figure 8 shows the proportion of published research involving community-based subjects relative to the total number of studies published in each country. Nigeria, Bosnia–Herzegovina and Bangladesh published only one article each including community-based subjects. The countries with the highest percentages of published studies involving community-based subjects were Finland (50%), Thailand (44.44%) and Japan (34.02%).

Figure 7.

Figure 7

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Trends of the percentage of subject type.

Figure 8.

Figure 8

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Percentage of community sample-based research studies amongst all research articles in each country (ie, in each country, the proportion of research studies in which subjects come from the community to the total number of studies in the country).

Pain Characteristics

Studies on disease-related pain in the elderly were highly popular at all period studied and showed an increasing trend over time (R2=0.973, P<0.01). These studies made up 47.02% of all studies published in 2000–2003 and 57.46% of all studies published in 2016–2019. The types of pain with the largest number of publications were back pain (N=259, 12.30%), arthritis (N=241, 11.45%) and postsurgical pain (N=98, 4.66%). Moreover, in all periods studied, the proportion of studies related to chronic pain was higher than the proportion of studies related to acute pain (Figure 9A). Studies on elderly surgery-related pain showed fair stability over time and varied between 4.47% and 5.55% from 2000 to 2019 (Details of the coding rules for pain characteristics can be found in Supplement 4).

Figure 9.

Figure 9

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(A) Trends in the percentage of pain characteristics reported every 4 years; (B) average percentage of experimental designs reported every 4 years.

Experiments on humans or animals have been applied to pain-related studies on the elderly (N=110, 5.23%). Whereas thermal (41.53%) and mechanical (37.76%) stimuli were the most frequently used types of pain stimuli, injury pain stimuli were used the least (1.43%; Figure 9B).

Discussion

This review presents a bibliometric analysis of published articles on pain in the elderly over the last 20 years. A total of 2105 related articles were included, and the article types that made up the largest proportion of these publications are research articles (84.89%, N=1787) and review articles (12.64%, N=266). The overall number of articles published over time revealed an unstable upward trend, especially after 2012. This growth trend is consistent with previous growth trends observed in the fields of general pain,18,19 pediatric pain field,24 and overall biomedical publications.34

Bradford’s law can be used to identify the “core” journals in a field. Table 7 shows the Bradford zones of scattering for articles on elderly pain. All journals were sorted by number of articles into three zones, each with approximately 33% of the total number of articles, and the number of journals in each zone was proportional to 1: n: n2. The top 20 journals accounted for 36.72% of the total number of publications in this field (773 publications), and the distribution of these articles is in accordance with Bradford’s law. The IFs of all top 20 journals were below 10. Journals with 3≤IF<5 contributed 20% of these articles, and journals with 5≤IF<10 contributed 10% of these articles. Pain Medicine published the greatest number of studies in the field of elderly pain, followed by PAIN, Journal of the American Geriatrics Society, Pain Management Nursing and Drugs & Aging. Interestingly, these findings differ from the results of previous general pain studies.18,19 This ranking shows that researchers in the field of pain in the elderly are highly inclined to focus on elderly audiences in addition to the broader pain field. Amongst the top 100 journals that published articles on pain, 26 were related to old age or aging and 14 focused on pain. This result is also consistent with previous findings. In terms of the disciplinary classification of journals, journals related to nursing (N=11) and rehabilitation (N=7) appeared to publish more articles on pain than other types of journals. Such a finding is consistent with the age characteristics of the elderly and a previous study.35

Table 7.

Bradford’s Law of Scattering for Journals That Published Articles on Elderly Pain Research from 2000 to 2019

n n/N(%)
Zone1 17 3.18
Zone2 77 14.39
Zone3 441 82.43
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Notes: Each zone represents about 33% of the total articles (2105); n, the number of journals in each zone; N, the number of all journals (535).

The United States appeared to be the primary source country of articles in this field with the most publications. In addition, 8 of the 20 articles with the highest citation scores and 11 of the top 20 journals in the number of published papers were from the United States. Although the choice of database may affect this specific result, this finding is similar to that of a previous general pain study.19 The top 10 countries with the largest number of published articles included were from three American countries, three Pacific countries and four European countries.

Our research found that researchers of pain in the elderly often focus on disease-related pain and chronic pain. These results are consistent with the general trend of adult pain literature, which mainly discusses chronic and disease-related pain.16,18 Previous studies reported that the most common types of pain in the elderly are low back or neck pain (65%), musculoskeletal pain (40%) and peripheral neuropathic pain (40%).36–38 Similarly, the present study found that the types of pain receiving the greatest research attention are back pain (12.30%), arthritis (11.45%) and postsurgical pain (4.66%). This observation may be related to the characteristics of this age group (such as the acceleration of aging and more susceptibility). Research on pain in the elderly has increased over time and may reflect the upward trends life expectancy, quality of life and social and economic development.

It is found that the most popular pain research topics include pain characteristics, intervention and assessment, which was supported by the fact that over half of the top 20 articles cited were related to pain characteristics. This result indicates that descriptions of pain in the elderly are a popular research topic in this field. These studies formed the basis for further basic or mechanistic studies and clinical intervention studies, and also indicated that evidence from animal and laboratory studies were not sufficient. Future preclinical research should be recommended to explore the related risk factors in the elderly and to establish animal models for mechanistic research. Experimental human research has been conducted, but these studies are relatively infrequent on account of reasons such as ethical challenges and experimental costs. In addition, we noticed that among the top 20 original articles in terms of total citation score or relative citation score, articles related to pain caused by arthritis received more attention (Supplement 5 and Supplement 6), but the citation score was relatively lower than the reviews of the same topic. This may imply that more innovative and breakthrough original research is needed. For musculoskeletal pain with a high prevalence in the elderly, such as low back pain, the citation score is significantly lower than that of original studies on this topic in the general population.39 Hence, the field of elderly pain deserves more appeal from future studies. According to our analysis of the keywords with strongest citation bursts and the subject categories in WoS, the strongest citation bursts changed from Neurosciences to the recent Multidisciplinary Sciences and Science & Technology–Other Topics, as can be seen, the development of elderly pain research has gradually transitioned from phenomenon to mechanism and evolved from a single discipline to multiple disciplines.

There exist several strengths of value presented in this bibliometric analysis. First, the source of the literature was not limited to one journal, such as PAIN. Specifically, we collected articles from 535 journals to enrich the data. Second, we performed a detailed analysis of the general information, including author, year and journal, and abstracts of all included articles. Data indicators were not restricted to the properties such as the number of publications and citation scores. Therefore, the results of our analyses provide a rather precise description of publication trends. Furthermore, this study used two bibliometric analytical methods (ie, literature coding and CiteSpace Ⅴ software) to produce more comprehensive analyses.

This review also possessed some limitations that may affect the interpretation of the results. Firstly, we merely used the SCI Expanded core collection of WoS to retrieve articles, and only those articles containing abstracts were included in this work. Moreover, non-English articles were excluded from the analysis. The adoption of a single database with English language restriction may probably lead to selection bias. We also excluded a number of conference abstracts that may describe novel content in the field. These omissions might lead to incomplete information acquisition. In addition, subjects were not grouped by age because the age range involved in the retrieved studies was fairly wide. Some articles did not mention details of their source of subjects in their abstracts.

Conclusions

Our study showed a significant increase in the number of elderly pain-related articles published in the past decades. This review, to a large extent, is a representative reflection of research trends on pain in the elderly. The research topics of articles included in this work generally focused on pain characteristics, pain intervention and assessment, chronic pain in the elderly, and the main types of pain included back pain, arthritis and postsurgical pain. Little is known about the transition from acute to chronic pain and the mechanisms of pain in the elderly population remain not clear. Therefore, future studies concerning chronic pain evolution and the underlying pain mechanisms are warranted.

Acknowledgments

The authors thank Haolan Liang, Shanshu Yang, Shanshan Xie and Feng Liu for their help with coding and data input. They also thank Linman Weng and Wangwang Yan for their help in image editing.

Funding Statement

This study was supported by the grants from the Guangdong Hopson-Pearl River Education Development Foundation (No. H20190116202012724), the Shanghai Key Lab of Human Performance (Shanghai University of Sport) (No. 11DZ2261100); The Guangzhou Municipal Technological Major Tackling Plan Modern Industrial Technology Project of China (No. 201802010039), and the scientific and technological research program of the Shanghai Science and Technology Committee (No. 19080503100).

Author Contributions

All authors made substantial contributions to conception and design, acquisition of data, or analysis and interpretation of data; took part in drafting the article or revising it critically for important intellectual content; agreed to submit to the current journal; gave final approval of the version to be published; and agree to be accountable for all aspects of the work.

Disclosure

The authors have no conflicts of interest to declare.

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