Effects of a 12-week exercise intervention on glycated hemoglobin (HbA1c) levels in cancer patients

  1. Naiara Virto
  2. Paula Etayo Urtasun
  3. José Ramón Sánchez Isla
  4. Soledad Arrietaleanizbeaskoa Sarabia
  5. Nere Mendizabal Gallastegui
  6. Gonzalo Grandes Odriozola
  7. Borja Gutierrez Santamaría
  8. Aitor Coca
  9. Xabier Río
Aldizkaria:
Retos: nuevas tendencias en educación física, deporte y recreación

ISSN: 1579-1726 1988-2041

Argitalpen urtea: 2023

Zenbakia: 48

Orrialdeak: 153-160

Mota: Artikulua

DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Beste argitalpen batzuk: Retos: nuevas tendencias en educación física, deporte y recreación

Laburpena

Exercise has been associated with lower risk of cancer development and recurrence. Studies suggest that exercise is effective in reducing the risk of developing metabolic alterations. Due to the inconclusive results of previous studies, this research aims to evaluate the effects of a 12-week concurrent exercise programme on the reduction of glycated hemoglobin (HbA1c) levels in cancer patients. 22 non-diabetic patients were randomly assigned to a 12-week combined exercise intervention or to the control group. Baseline and 3-month assessments were performed to evaluate changes in HbA1c, fat and musculoskeletal mass for the 22 participants who completed the study. Analyzing the sample there were significant improvements in HbA1c (p=0.033), when excluding those over 65 years of age, the differences were greater (p=0.017). Although no significant differences were found between the reductions of subjects with different baseline HbA1c levels, those with higher levels reduced values by 6.8% and those with normal levels by 3.6%. Furthermore, no correlation was found between reductions in HbA1c and changes in body composition. This 12-week combined exercise intervention resulted in a reduction in HbA1c levels, but this change was not associated with changes in body composition.

Erreferentzia bibliografikoak

  • American College of Sports Medicine (2018). ACSM’s guidelines for exercise testing and prescription. Philadelphia: Wolters Kluwer.
  • American Diabetes Association (2013). Standards of medical care in diabetes - 2013. Diabetes Care, 36(Suppl), 11-66. https://doi.org/10.2337/dc13-S011
  • Arietanizbeaskoa, M. S., Gil-Rey, E., Mendizabal Gallastegui, N., Garcia-Álvarez, A., De la Fuente, I., Domínguez-Martínez, S., Pablo, S., Coca, A., Gutierrez-Santamaría, B. & Grandes, G. (2020). Implementing exercise in standard cancer care (Bizi Orain hybrid exercise program): protocol for a randomized controlled trial. JMIR Research Protocols, 10, e24835.
  • Barua, R., Templeton, A. J., Seruga, B., Ocana, A., Amir, E., & Ethier, J. L. (2018). Hyperglycaemia and survival in solid tumours: a systematic review and meta-analysis. Clinical Oncology, 30(4), 215–224. https://doi.org/10.1016/j.clon.2018.01.003
  • Biolaster (n. d.). Quo-Lab Analizador Hemoglobina Glicosilada. https://www.biolaster.com/productos/Analizador-de-Hemoglobina/Quo-Lab-Analizador-Hemoglobina-Glicosidada/
  • Boniol, M., Dragomir, M., Autier, P., & Boyle, P. (2017). Physical activity and change in fasting glucose and HbA1c: a quantitative meta-analysis of randomized trials. Acta Diabetologica, 54(11), 983-991. https://doi.org/10.1016/j.clon.2018.01.003
  • Bourke, L., Stevenson, R., Turner, R., Hooper, R., Sasieni, P., Greasley, R., Morrissey, D., Loosemore, M., Fisher, A., Payne, H., Taylor, S. J. C., & Rosario, D. J. (2018). Exercise training as a novel primary treatment for localised prostate cancer: a multi-site randomised controlled phase II study. Scientific Reports, 8(1), 8374. https://doi.org/10.1016/j.clon.2018.01.003
  • Cavero-Redondo, I., Peleteiro, B., Álvarez-Bueno, C., Artero, E. G., Garrido-Miguel, M., & Martinez-Vizcaíno, V. (2018). The effect of physical activity interventions on glycosylated haemoglobin (HbA1c) in non-diabetic populations: a systematic review and meta-analysis. Sports Medicine, 48(5), 1151-1164. https://doi.org/10.1016/j.clon.2018.01.003
  • Christensen, J. F., Sundberg, A., Osterkamp, J., Thorsen-Streit, S., Nielsen, A. B., Olsen, C. K., Djurhuus, S. S., Simonsen, C., Schauer, T., Ellingsgaard, H., Østerlind, K., Krarup, P. M., Mosgaard, C., Vistisen, K., Tolver, A., Pedersen, B. K. & Hojman, P. (2019). Interval walking improves glycemic control and body composition after cancer treatment: a randomized controlled trial. The Journal of Clinical Endocrinololgy & Metabolism, 104(9), 3701–3712. https://doi.org/10.1210/jc.2019-00590
  • De Beer, J. C., & Liebenberg, L. (2014). Does cancer risk increase with HbA1c, independent of diabetes? British Journal of Cancer, 110(9), 2361-2368. https://doi.org/10.1210/jc.2019-00590
  • Dieli-Conwright, C. M., Courneya, K. S., Demark-Wahnefried, W., Sami, N., Lee, K., Sweeney, F. C., Stewart, C., Buchanan, T. A., Spicer, D., Tripathy, D., Bernstein, L., & Mortimer, J. E. (2018a). Aerobic and resistance exercise improves physical fitness, bone health, and quality of life in overweight and obese breast cancer survivors: a randomized controlled trial. Breast Cancer Research, 20(1), 124. https://doi.org/10.1186/s13058-018-1051-6
  • Dieli-Conwright, C. M., Parmentier, J. H., Sami, N., Lee, K., Spicer, D., Mack, W. J., Sattler F., & Mittelman, S. D. (2018b). Adipose tissue inflammation in breast cancer survivors: effects of a 16-week combined aerobic and resistance exercise training intervention. Breast Cancer Research Treatment, 168(1), 147-157. https://doi.org/10.1007/s10549-017-4576-y
  • Global Cancer Observatory (2020). Cancer Tomorrow. Lyon: International Agency for Research on Cancer. https://gco.iarc.fr/tomorrow/en/dataviz/bars?mode=population&years=2030&types=1
  • Guinan, E., Hussey, J., Broderick, J. M., Lithander, F. E., O'Donnell, D., Kennedy, M. J., & Connolly, E. M. (2013). The effect of aerobic exercise on metabolic and inflammatory markers in breast cancer survivors-a pilot study. Supportive Care in Cancer, 21(7), 1983–1992. https://doi.org/10.1007/s00520-013-1743-5
  • Hope, C., Robertshaw, A., Cheung, K. L., Idris, I., & English, E. (2016). Relationship between HbA1c and cancer in people with or without diabetes: a systematic review. Diabetic Medicine, 33(8), 1013-1025.
  • InBody (2014). InBody 770. https://www.composicion-corporal-inbody.com/InBody-770.html
  • Iyengar, N. M., & Jones, L. W. (2019). Development of exercise as interception therapy for cancer: a review. JAMA Oncology, 5(11), 1620-1627. https://doi.org/10.1001/jamaoncol.2019.2585
  • Kang, D. W., Lee, E. Y., An, K. Y., Min, J., Jeon, J. Y., & Courneya, K. S. (2018). Associations between physical activity and comorbidities in Korean cancer survivors. Journal of Cancer Survivorship, 12(4), 441-449. https://doi.org/10.1007/s00520-013-1743-5
  • Kang, X. Y., Xu, Q. Y., Yu, Z., Han, S. F., Zhu, Y. F., & Lv, X. (2020). The effects of physical activity on physiological markers in breast cancer survivors: a meta-analysis. Medicine, 99(20), e20231. https://doi.org/10.1007/s00520-013-1743-5
  • Ling, C. H., de Craen, A. J., Slagboom, P. E., Gunn, D. A., Stokkel, M. P., Westendorp, R. G., & Maier, A. B. (2011). Accuracy of direct segmental multi-frequency bioimpedance analysis in the assessment of total body and segmental body composition in middle-aged adult population. Clinical Nutrition, 30(5), 610–615. https://doi.org/10.1016/j.clnu.2011.04.001
  • Masuch, A., Friedrich, N., Roth, J., Nauck, M., Müller, U. A., & Petersmann, A. (2019). Preventing misdiagnosis of diabetes in the elderly: age-dependent HbA1c reference intervals derived from two population-based study cohorts. BMC Endocrine Disorders, 19(20). https://doi.org/10.1016/j.clnu.2011.04.001
  • Matthews, C. E., Moore, S. C., Arem, H., Cook, M. B., Trabert, B., Håkansson, N., Larsson, S. C., Wolk, A., Gapstur, S. M., Lynch, B. M., Milne, R. L., Freedman, N. D., Huang, W., Berrington de Gonzalez, A., Kitahara, C. M., Linet, M. S., Shiroma, E. J., Sandin, S., Patel, A. V., & Lee, I. (2019). Amount and intensity of leisure-time physical activity and lower cancer risk. Journal of Clinical Oncology, 38(7), 686-697. https://doi.org/10.1200/JCO.19.02407
  • McArdle, W. D., Katch, F. I., & Katch, V. L. (2015). Fisiología del Ejercicio: Nutrición, Rendimiento y Salud. Spain: Wolters Kluwer Health.
  • Raun, S. H., Buch-Larsen, K., Schwarz, P., & Sylow, L. (2021). Exercise - A panacea of metabolic dysregulation in cancer: physiological and molecular insights. International Journal of Molecular Sciences, 22(7), 3469. https://doi.org/10.3390/ijms22073469
  • Río, X., González-Pérez, A., Larrinaga-Undabarrena, A., & Coca, A. (2020). Analysis of quality of life parameters in a health-promoting program for a population with cardiovascular risk factors: a preliminary study. SN Comprehensive Clinical Medicine, 2, 2221–2229. https://doi.org/10.1007/s42399-020-00512-9
  • Rodwell, V. W., Bender, D. A., Botham, K. M., Kennelly, P. J., & Weil, P. A. (2016). Harper bioquímica ilustrada. McGraw-Hill Interamericana Editores.
  • Sanchez, A., Grandes, G., Cortada, J. M., Pombo, H., Balague, L., & Calderon, C. (2009). Modelling innovative interventions for optimising healthy lifestyle promotion in primary health care: "Prescribe Vida Saludable" phase I research protocol. BMC Health Services Research, 9(103). https://doi.org/10.1186/1472-6963-9-103
  • Schmidt, T., Schwarz, M., Van Mackelenbergh, M., Jonat, W., Weisser, B., Röcken, C., & Mundhenke, C. (2017). Feasibility study to evaluate compliance of physical activity over a long time period and its influence on the total activity score, glucose metabolism and physical and psychological parameters following breast cancer. Molecular and Clinical Oncology, 6(3), 397-402. https://doi.org/10.3892/mco.2017.1144
  • Sénéchal, M., Swift, D. L., Johannsen, N. M., Blair, S. N., Earnest, C. P., Lavie, C. J., & Church, T. S. (2013). Changes in body fat distribution and fitness are associated with changes in hemoglobin A1c after 9 months of exercise training: results from the HART-D study. Diabetes Care, 36(9), 2843–2849. https://doi.org/10.2337/dc12-2428
  • Singh, B., Hayes, S. C., Spence, R. R., Steele, M. L., Millet, G. Y., & Gergele, L. (2020). Exercise and colorectal cancer: a systematic review and meta-analysis of exercise safety, feasibility and effectiveness. International Journal of Behavioral Nutrition and Physical Activity, 17(122). https://doi.org/10.2337/dc12-2428
  • Sjøberg, K. A., Frøsig, C., Kjøbsted, R., Sylow, L., Kleinert, M., Betik, A. C., Shaw, C. S., Kiens, B., Wojtaszewski, J., Rattigan, S., Richter, E. A., & McConell, G. K. (2017). Exercise increases human skeletal muscle insulin sensitivity via coordinated increases in microvascular perfusion and molecular signaling. Diabetes, 66(6), 1501–1510. https://doi.org/10.2337/db16-1327
  • Wang, Y., Jin, B., Paxton, R. J., Yang, W., Wang, X., Jiao, Y., Yu, C., & Chen, X. (2020).The effects of exercise on insulin, glucose, IGF-axis and CRP in cancer survivors: meta-analysis and meta-regression of randomized controlled trials. European Journal of Cancer Care, 29(1), e13186. https://doi.org/10.1111/ecc.13186
  • World Health Organization (2022). Cancer. https://www.who.int/news-room/fact-sheets/detail/cancer.
  • World Health Organization (2021). Obesity and overweight. https://www.who.int/news-room/fact-sheets/detail/obesity-and-overweight
Datuen iturria: Dialnet