Research Article
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Year 2024, , 134 - 143, 25.01.2024
https://doi.org/10.33438/ijdshs.1362539

Abstract

References

  • Akihiro Kosoku, Iwai, T., Kazuya Kabei, Shunji Nishide, Machida, Y., & Uchida, J. (2023). #4089 Sarcopenia As A Predictor Of Mortality In Kidney Transplant Recipients. Nephrology Dialysis Transplantation, 38 (Supplement 1). [PubMed]
  • Ángela Santana Valenciano, Luz Divina Juez, Robin, A., Belén Porrero, Muñoz, J., Molina, J.-M., Luis Blázquez Hernando. (2023). OC-011 Sarcopenia In Complex Abdominal Wall Surgery: Impact On The Postoperative Complications. British Journal of Surgery, 110(Supplement 2). [CrossRef]
  • Azliyana A, Khairul H.A, Sri R, R, N., & Nornajehah T. (2023). Reshaping Healthcare: A Bibliometric Analysis of Lessons Learned in Post-COVID-19 Health Policy. Kesmas: Jurnal Kesehatan Masyarakat Nasional, 18(sp1), 18–18. [CrossRef]
  • Beaudart, C., McCloskey, E., Bruyère, O., Cesari, M., Rolland, Y., Rizzoli, R., Petermans, J. (2016). Sarcopenia in daily practice: assessment and management. BMC Geriatrics, 16. [PubMed]
  • Catherine Van Dongen, Paik, J., Harring, M., Youssef Younossi, Jillian Kallman Price, Kabbara, K., Younossi, Z. M. (2022). Sarcopenia, healthy living, and mortality in patients with chronic liver diseases. Hepatology Communications, 6(11), 3140–3153. [PubMed]
  • Chen, L.-K., Liu, L.K., Woo, J., Assantachai, P., Auyeung, T.W., Bahyah, K. S., Won, C. W. (2014). Sarcopenia in Asia: consensus report of the Asian Working Group for Sarcopenia. Journal of the American Medical Directors Association, 15(2), 95–101. [PubMed]
  • Chen, Z., Li, W.Y., Ho, M., & Chau, P.-H. (2021). The Prevalence of Sarcopenia in Chinese Older Adults: Meta-Analysis and Meta-Regression. Nutrients, 13(5), 1441. [PubMed]
  • Chun De Liao, Chen, H.C., Tsan Hon Liou, Lin, C.L., & Huang, S.-W. (2022). Impact of Sarcopenia and Obesity on Gait Speed After Total Knee Replacement. Journal of the American Medical Directors Association, 23(4), 631–637. [PubMed]
  • Cruz-Jentoft, A. J., Bahat, G., Bauer, J., Boirie, Y., Bruyère, O., Cederholm, T., Zamboni, M. (2019). Sarcopenia: revised European consensus on definition and diagnosis. Age and Ageing, 48(4), 601–601. [PubMed]
  • Cruz-Jentoft, A. J., Kiesswetter, E., Drey, M., & Sieber, C. C. (2017). Nutrition, frailty, and sarcopenia. Aging Clinical and Experimental Research, 29(1), 43–48. [PubMed]
  • Delmonico, M. J., & Beck, D. T. (2016). The Current Understanding of Sarcopenia. American Journal of Lifestyle Medicine, 11(2), 167–181. [PubMed]
  • Derstine, B. A., Holcombe, S. A., Ross, B. E., Wang, N. C., Su, G. L., & Wang, S. C. (2018). Skeletal muscle cutoff values for sarcopenia diagnosis using T10 to L5 measurements in a healthy US population. Scientific Reports, 8(1). [CrossRef]
  • Duggan, E., Knight, S. P., & Romero-Ortuno, R. (2023). Relationship between sarcopenia and orthostatic blood pressure recovery in older falls clinic attendees. European Geriatric Medicine, 14(3), 439–446. [PubMed]
  • Fujiwara, D., & Wakabayashi, H. (2017). Cut-off point for chair stand time when used as a surrogate for gait speed in sarcopenia diagnosis. Geriatrics & Gerontology International, 17(4), 667–668. [PubMed]
  • Fulle, S., Protasi, F., Di Tano, G., Pietrangelo, T., Beltramin, A., Boncompagni, S., Fanò, G. (2004). The contribution of reactive oxygen species to sarcopenia and muscle ageing. Experimental Gerontology, 39(1), 17–24. [PubMed]
  • Hilmi, M., Jouinot, A., Burns, R., Pigneur, F., Mounier, R., Gondin, J., … Goldwasser, F. (2019). Body composition and sarcopenia: The next-generation of personalized oncology and pharmacology? Pharmacology & Therapeutics, 196, 135–159. [PubMed]
  • Kaiser, M., & Kuckertz, A. (2023). Bibliometrically mapping the research field of entrepreneurial communication: where we stand and where we need to go. Management Review Quarterly. [CrossRef]
  • Kawakami, R., Tanisawa, K., Ito, T., Usui, C., Miyachi, M., Torii, S., … Oka, K. (2022). Fat-Free Mass Index as a Surrogate Marker of Appendicular Skeletal Muscle Mass Index for Low Muscle Mass Screening in Sarcopenia. Journal of the American Medical Directors Association, S1525-8610(22)006661. [PubMed]
  • Li, C., Yu, K., Shyh‐Chang, N., Li, G., Jiang, L., Yu, S., Li, D. (2019). Circulating factors associated with sarcopenia during ageing and after intensive lifestyle intervention. Journal of Cachexia, Sarcopenia and Muscle, 10(3), 586–600. [PubMed]
  • Liu, Y., Ji, F., & Nguyen, M. H. (2023). Sarcopenia in cirrhosis: epidemiology, diagnosis, management and prognosis. Current Opinion in Gastroenterology, 39(3), 131–139. [PubMed]
  • Malmstrom, T. K., Miller, D. K., Simonsick, E. M., Ferrucci, L., & Morley, J. E. (2015). SARC-F: a symptom score to predict persons with sarcopenia at risk for poor functional outcomes. Journal of Cachexia, Sarcopenia and Muscle, 7(1), 28–36. [PubMed]
  • Malmstrom, T. K., & Morley, J. E. (2013). SARC-F: A Simple Questionnaire to Rapidly Diagnose Sarcopenia. Journal of the American Medical Directors Association, 14(8), 531–532. [PubMed]
  • Marzetti, E., Anne Lees, H., Eva Wohlgemuth, S., & Leeuwenburgh, C. (2009). Sarcopenia of aging: Underlying cellular mechanisms and protection by calorie restriction. BioFactors, 35(1), 28–35. [PubMed]
  • Papadopoulou, S. K. (2020). Sarcopenia: A Contemporary Health Problem among Older Adult Populations. Nutrients, 12(5), 1293. [PubMed]
  • Roberto, J., Regina, A., Fontes, E., Neto, S., Henao, M., Elizabeth Fajardo Ramos, & Alves, V. (2023). Association between Sarcopenia, Falls, and Cognitive Impairment in Older People: A Systematic Review with Meta-Analysis. International Journal of Environmental Research and Public Health, 20(5), 4156–4156. [PubMed]
  • Rolland, Y., Czerwinski, S., van Kan, G. A., Morley, J. E., Cesari, M., Onder, G., … Vellas, B. (2008). Sarcopenia: Its assessment, etiology, pathogenesis, consequences and future perspectives. The Journal of Nutrition Health and Aging, 12(7), 433–450. [PubMed]
  • Ruiz-Rosero, J., Ramirez-Gonzalez, G., & Viveros-Delgado, J. (2019). Software survey: ScientoPy, a scientometric tool for topics trend analysis in scientific publications. Scientometrics, 121(2), 1165–1188. [CrossRef]
  • Salama, M. A., Elham Ahmed Hassan, Makhlouf, N. A., & Mohamed Eltaher Ibrahim. (2022). Usefulness of Gait Speed as a Screening Parameter for Sarcopenia in Cirrhotic Patients. The Egyptian Journal of Hospital Medicine, 89(1), 4626–4631. [CrossRef]
  • Studenski, S. A., Peters, K. W., Alley, D. E., Cawthon, P. M., McLean, R. R., Harris, T. B., Vassileva, M. T. (2014). The FNIH Sarcopenia Project: Rationale, Study Description, Conference Recommendations, and Final Estimates. The Journals of Gerontology: Series A, 69(5), 547–558. [PubMed]
  • Ticinesi, A., Lauretani, F., Milani, C., Nouvenne, A., Tana, C., Del Rio, D., … Meschi, T. (2017). Aging Gut Microbiota at the Cross-Road between Nutrition, Physical Frailty, and Sarcopenia: Is There a Gut–Muscle Axis? Nutrients, 9(12), 1303. [PubMed]
  • Tsekoura, M., Billis, E., Tsepis, E., Dimitriadis, Z., Matzaroglou, C., Tyllianakis, M., Gliatis, J. (2018). The Effects of Group and Home-Based Exercise Programs in Elderly with Sarcopenia: A Randomized Controlled Trial. Journal of Clinical Medicine, 7(12). [PubMed]
  • Walowski, C. O., Braun, W., Maisch, M. J., Jensen, B., Peine, S., Norman, K., … Bosy-Westphal, A. (2020). Reference Values for Skeletal Muscle Mass – Current Concepts and Methodological Considerations. Nutrients, 12(3), 755. [PubMed]

Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis

Year 2024, , 134 - 143, 25.01.2024
https://doi.org/10.33438/ijdshs.1362539

Abstract

Sarcopenia, characterized by progressive age-associated loss of skeletal muscle mass and function, has emerged as an impending public health threat. This bibliometric analysis elucidates the knowledge landscape of sarcopenia research by synthesizing growth trajectories, collaborative networks, and intellectual structures within the literature. Scientific publications spanning 1993–2023 were retrieved from the Web of Science and Scopus databases. VOSviewer, Biblioshiny, and ScientoPy software tools facilitated visualization and analysis of bibliometric trends. Results showed that after a seminal 2010 consensus definition paper, sarcopenia publications increased over 20-fold by 2021, following an initial gradual growth and then exponential expansion. China led in output volume; however, Western nations exhibited higher international collaboration. Prolific institutions clustered within Asia and Europe, although Australian and Canadian centers were also represented, reflecting expanding global networks. Core journals were dispersed across clinical medicine, gerontology, and nutrition. A co-occurrence network analysis of keywords delineated three predominant research domains: physical disability, muscle diagnostic metrics, and clinical prognostic outcomes. Keywords like “mobility” in the disability domain reflect sarcopenia's functional impacts. This novel perspective comprehensively maps sarcopenia's evolving knowledge landscape, despite limitations in incorporating citations and text mining. Practical contributions include identifying key areas for further research, including consolidating diagnostic methods through collaborative initiatives, exploring lifestyle interventions, and investigating sarcopenia across diverse specialties. By elucidating trends in growth, collaboration, and intellectual structure, this analysis offers data-driven perspectives to strategically combat this expanding public health challenge. The synthesis of publication trends provides both a novel scientometric perspective and practical insights to inform future sarcopenia research and guide public health policy.

References

  • Akihiro Kosoku, Iwai, T., Kazuya Kabei, Shunji Nishide, Machida, Y., & Uchida, J. (2023). #4089 Sarcopenia As A Predictor Of Mortality In Kidney Transplant Recipients. Nephrology Dialysis Transplantation, 38 (Supplement 1). [PubMed]
  • Ángela Santana Valenciano, Luz Divina Juez, Robin, A., Belén Porrero, Muñoz, J., Molina, J.-M., Luis Blázquez Hernando. (2023). OC-011 Sarcopenia In Complex Abdominal Wall Surgery: Impact On The Postoperative Complications. British Journal of Surgery, 110(Supplement 2). [CrossRef]
  • Azliyana A, Khairul H.A, Sri R, R, N., & Nornajehah T. (2023). Reshaping Healthcare: A Bibliometric Analysis of Lessons Learned in Post-COVID-19 Health Policy. Kesmas: Jurnal Kesehatan Masyarakat Nasional, 18(sp1), 18–18. [CrossRef]
  • Beaudart, C., McCloskey, E., Bruyère, O., Cesari, M., Rolland, Y., Rizzoli, R., Petermans, J. (2016). Sarcopenia in daily practice: assessment and management. BMC Geriatrics, 16. [PubMed]
  • Catherine Van Dongen, Paik, J., Harring, M., Youssef Younossi, Jillian Kallman Price, Kabbara, K., Younossi, Z. M. (2022). Sarcopenia, healthy living, and mortality in patients with chronic liver diseases. Hepatology Communications, 6(11), 3140–3153. [PubMed]
  • Chen, L.-K., Liu, L.K., Woo, J., Assantachai, P., Auyeung, T.W., Bahyah, K. S., Won, C. W. (2014). Sarcopenia in Asia: consensus report of the Asian Working Group for Sarcopenia. Journal of the American Medical Directors Association, 15(2), 95–101. [PubMed]
  • Chen, Z., Li, W.Y., Ho, M., & Chau, P.-H. (2021). The Prevalence of Sarcopenia in Chinese Older Adults: Meta-Analysis and Meta-Regression. Nutrients, 13(5), 1441. [PubMed]
  • Chun De Liao, Chen, H.C., Tsan Hon Liou, Lin, C.L., & Huang, S.-W. (2022). Impact of Sarcopenia and Obesity on Gait Speed After Total Knee Replacement. Journal of the American Medical Directors Association, 23(4), 631–637. [PubMed]
  • Cruz-Jentoft, A. J., Bahat, G., Bauer, J., Boirie, Y., Bruyère, O., Cederholm, T., Zamboni, M. (2019). Sarcopenia: revised European consensus on definition and diagnosis. Age and Ageing, 48(4), 601–601. [PubMed]
  • Cruz-Jentoft, A. J., Kiesswetter, E., Drey, M., & Sieber, C. C. (2017). Nutrition, frailty, and sarcopenia. Aging Clinical and Experimental Research, 29(1), 43–48. [PubMed]
  • Delmonico, M. J., & Beck, D. T. (2016). The Current Understanding of Sarcopenia. American Journal of Lifestyle Medicine, 11(2), 167–181. [PubMed]
  • Derstine, B. A., Holcombe, S. A., Ross, B. E., Wang, N. C., Su, G. L., & Wang, S. C. (2018). Skeletal muscle cutoff values for sarcopenia diagnosis using T10 to L5 measurements in a healthy US population. Scientific Reports, 8(1). [CrossRef]
  • Duggan, E., Knight, S. P., & Romero-Ortuno, R. (2023). Relationship between sarcopenia and orthostatic blood pressure recovery in older falls clinic attendees. European Geriatric Medicine, 14(3), 439–446. [PubMed]
  • Fujiwara, D., & Wakabayashi, H. (2017). Cut-off point for chair stand time when used as a surrogate for gait speed in sarcopenia diagnosis. Geriatrics & Gerontology International, 17(4), 667–668. [PubMed]
  • Fulle, S., Protasi, F., Di Tano, G., Pietrangelo, T., Beltramin, A., Boncompagni, S., Fanò, G. (2004). The contribution of reactive oxygen species to sarcopenia and muscle ageing. Experimental Gerontology, 39(1), 17–24. [PubMed]
  • Hilmi, M., Jouinot, A., Burns, R., Pigneur, F., Mounier, R., Gondin, J., … Goldwasser, F. (2019). Body composition and sarcopenia: The next-generation of personalized oncology and pharmacology? Pharmacology & Therapeutics, 196, 135–159. [PubMed]
  • Kaiser, M., & Kuckertz, A. (2023). Bibliometrically mapping the research field of entrepreneurial communication: where we stand and where we need to go. Management Review Quarterly. [CrossRef]
  • Kawakami, R., Tanisawa, K., Ito, T., Usui, C., Miyachi, M., Torii, S., … Oka, K. (2022). Fat-Free Mass Index as a Surrogate Marker of Appendicular Skeletal Muscle Mass Index for Low Muscle Mass Screening in Sarcopenia. Journal of the American Medical Directors Association, S1525-8610(22)006661. [PubMed]
  • Li, C., Yu, K., Shyh‐Chang, N., Li, G., Jiang, L., Yu, S., Li, D. (2019). Circulating factors associated with sarcopenia during ageing and after intensive lifestyle intervention. Journal of Cachexia, Sarcopenia and Muscle, 10(3), 586–600. [PubMed]
  • Liu, Y., Ji, F., & Nguyen, M. H. (2023). Sarcopenia in cirrhosis: epidemiology, diagnosis, management and prognosis. Current Opinion in Gastroenterology, 39(3), 131–139. [PubMed]
  • Malmstrom, T. K., Miller, D. K., Simonsick, E. M., Ferrucci, L., & Morley, J. E. (2015). SARC-F: a symptom score to predict persons with sarcopenia at risk for poor functional outcomes. Journal of Cachexia, Sarcopenia and Muscle, 7(1), 28–36. [PubMed]
  • Malmstrom, T. K., & Morley, J. E. (2013). SARC-F: A Simple Questionnaire to Rapidly Diagnose Sarcopenia. Journal of the American Medical Directors Association, 14(8), 531–532. [PubMed]
  • Marzetti, E., Anne Lees, H., Eva Wohlgemuth, S., & Leeuwenburgh, C. (2009). Sarcopenia of aging: Underlying cellular mechanisms and protection by calorie restriction. BioFactors, 35(1), 28–35. [PubMed]
  • Papadopoulou, S. K. (2020). Sarcopenia: A Contemporary Health Problem among Older Adult Populations. Nutrients, 12(5), 1293. [PubMed]
  • Roberto, J., Regina, A., Fontes, E., Neto, S., Henao, M., Elizabeth Fajardo Ramos, & Alves, V. (2023). Association between Sarcopenia, Falls, and Cognitive Impairment in Older People: A Systematic Review with Meta-Analysis. International Journal of Environmental Research and Public Health, 20(5), 4156–4156. [PubMed]
  • Rolland, Y., Czerwinski, S., van Kan, G. A., Morley, J. E., Cesari, M., Onder, G., … Vellas, B. (2008). Sarcopenia: Its assessment, etiology, pathogenesis, consequences and future perspectives. The Journal of Nutrition Health and Aging, 12(7), 433–450. [PubMed]
  • Ruiz-Rosero, J., Ramirez-Gonzalez, G., & Viveros-Delgado, J. (2019). Software survey: ScientoPy, a scientometric tool for topics trend analysis in scientific publications. Scientometrics, 121(2), 1165–1188. [CrossRef]
  • Salama, M. A., Elham Ahmed Hassan, Makhlouf, N. A., & Mohamed Eltaher Ibrahim. (2022). Usefulness of Gait Speed as a Screening Parameter for Sarcopenia in Cirrhotic Patients. The Egyptian Journal of Hospital Medicine, 89(1), 4626–4631. [CrossRef]
  • Studenski, S. A., Peters, K. W., Alley, D. E., Cawthon, P. M., McLean, R. R., Harris, T. B., Vassileva, M. T. (2014). The FNIH Sarcopenia Project: Rationale, Study Description, Conference Recommendations, and Final Estimates. The Journals of Gerontology: Series A, 69(5), 547–558. [PubMed]
  • Ticinesi, A., Lauretani, F., Milani, C., Nouvenne, A., Tana, C., Del Rio, D., … Meschi, T. (2017). Aging Gut Microbiota at the Cross-Road between Nutrition, Physical Frailty, and Sarcopenia: Is There a Gut–Muscle Axis? Nutrients, 9(12), 1303. [PubMed]
  • Tsekoura, M., Billis, E., Tsepis, E., Dimitriadis, Z., Matzaroglou, C., Tyllianakis, M., Gliatis, J. (2018). The Effects of Group and Home-Based Exercise Programs in Elderly with Sarcopenia: A Randomized Controlled Trial. Journal of Clinical Medicine, 7(12). [PubMed]
  • Walowski, C. O., Braun, W., Maisch, M. J., Jensen, B., Peine, S., Norman, K., … Bosy-Westphal, A. (2020). Reference Values for Skeletal Muscle Mass – Current Concepts and Methodological Considerations. Nutrients, 12(3), 755. [PubMed]
There are 32 citations in total.

Details

Primary Language English
Subjects Rehabilitation
Journal Section Original Article
Authors

Azliyana Azizan 0000-0002-0548-3975

Early Pub Date December 25, 2023
Publication Date January 25, 2024
Published in Issue Year 2024

Cite

APA Azizan, A. (2024). Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis. International Journal of Disabilities Sports and Health Sciences, 7(1), 134-143. https://doi.org/10.33438/ijdshs.1362539
AMA Azizan A. Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis. International Journal of Disabilities Sports and Health Sciences. January 2024;7(1):134-143. doi:10.33438/ijdshs.1362539
Chicago Azizan, Azliyana. “Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis”. International Journal of Disabilities Sports and Health Sciences 7, no. 1 (January 2024): 134-43. https://doi.org/10.33438/ijdshs.1362539.
EndNote Azizan A (January 1, 2024) Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis. International Journal of Disabilities Sports and Health Sciences 7 1 134–143.
IEEE A. Azizan, “Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis”, International Journal of Disabilities Sports and Health Sciences, vol. 7, no. 1, pp. 134–143, 2024, doi: 10.33438/ijdshs.1362539.
ISNAD Azizan, Azliyana. “Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis”. International Journal of Disabilities Sports and Health Sciences 7/1 (January 2024), 134-143. https://doi.org/10.33438/ijdshs.1362539.
JAMA Azizan A. Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis. International Journal of Disabilities Sports and Health Sciences. 2024;7:134–143.
MLA Azizan, Azliyana. “Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis”. International Journal of Disabilities Sports and Health Sciences, vol. 7, no. 1, 2024, pp. 134-43, doi:10.33438/ijdshs.1362539.
Vancouver Azizan A. Mapping the Muscle Mass: A Birds-Eye View of Sarcopenia Research Through Bibliometric Network Analysis. International Journal of Disabilities Sports and Health Sciences. 2024;7(1):134-43.

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