Exercise as it relates to Disease/Exercise, an inexpensive way of preventing osteoporosis in later life?
This is a critical analysis on the original journal article "Effects of high-impact exercise on bone mineral density: a randomized controlled trial in premenopausal women" - Aki Vainionpää, Juhani Leppäluoto, Raija Korpelainen, Timo Jämsä (2005)
What is the background to this research?Edit
Osteoporosis may be one of the most undiagnosed conditions in the Western world, with 10% of Australians reported of having the disease according to the Australian Bureau of Statistics in 2015. Osteoporosis has no overt symptoms, therefore the condition is often undiagnosed until a fracture occurs. Osteoporosis is defined as a condition that causes bones to become weak and fragile, in so making the risk of fracture more prevalent . Pre-menopausal women may be at the greatest risk with 1 in 3 women over the age of 50 likely to experience osteoporosis in their remaining life.
A vast amount of research has suggested that exercise enhances the bone development pathways thus improving overall bone density. Further reading specifies that high-impact exercise, in particular, was most effective in increasing BMD. Regular exercise during adolescence may contribute to the reduced risk of fractures if a fall were to occur later in life
Where is the research from?Edit
All contributors to this study are staff from the University of Oulu, Finland. The four authors pooling their expertise from a range of departments including Medical Rehabilitation and Biomedicine. Aki Vainionpää and Juhani Leppäluoto both have research involved with menopausal women and the role exercise plays with that population. Raija Korpelainen and Timo Jämsä are both particularly invested in the research of fracture mechanics and the role of bone mineral density in at-risk populations and are both currently tied in with projects involving these matters.
What kind of research was this?Edit
This study was unique at the time in that it was assumed to be the first randomized controlled trial performed on a population-based cohort, to the knowledge of the authors.
What did the research involve?Edit
The study set out to determine the effects of high-impact exercise on BMD at several common stress sites in premenopausal women. A population of 120, criteria appropriate women, were randomized into either an exercise group (n=60, age=38.1±1.7) or a control group (n=60, age=38.5±1.6 ) .
Participants submitted a self-reported questionnaire regarding their history of exercise exposure and an assortment of female-specific information. Body fat and lean mass percentages were measured using bioimpedance equipment (BodyStat 1500) which is often the first choice for reliable and accurate body composition measurements.
The exercise regimen consisted of a home program plus a supervised, progressive, high-impact session. Both programs were analyzed and modified bimonthly while non-exercise participants were advised to maintain their current physical activity. There was vague reporting on whether non-exercisers complied with this advice, perhaps more frequent check-ups would have been beneficial.
It is widely suggested that self-reported physical activity (or any self-reported data) is often an unreliable way to gather information. It may have been more beneficial for this study to conduct more thorough questionnaires than self-reports, even if that lengthened the process. This study reported a drop out rate of 33%. Several other studies reported a similar drop out rate amongst exercise related studies (~38%), therefore this drop out rate is not unusual for this type of study.
Analysis of DataEdit
Mean with standard deviation (SD) or confidence interval of 95%(CI) was used to report findings. Independent t-test and x-square tests were used to assess the differences between study subjects and those women who did not participate in the study.
What were the basic results?Edit
|BMD Site||Control (base vs. 12 months)||Exercise (base vs. 12 months)||P-Value (<0.05)|
|L1 BD||-0.4%||2.2%||0.002 |
Significant gain in BMD occurred at the femoral neck, intertrochantric and total femoral sites. In the lumbar area, a change was significant in the L1 BMD both compared to control groups and within the exercise group (2.2%), although there were no exercise-induced effects in other vertebrae.
What conclusions can we take from this research?Edit
The study has suggested that high-impact exercise has a significant effect on BMD in the lower extremities of premenopausal women, yet seems to only affect BMD in the upper region of the lumbar spine. This sort of physical intervention may be an effective and cheap benefactor for the prevention of osteoporosis. This correlates with more recent data, which suggests progressive, high-impact exercise compiled with sufficient nutrition will prevent osteoporosis to at least some degree.
It is imperative to highlight that exercise must be appropriately prescribed only after pre-screening has been undertaken. It is also vital to note that exercise prescriptions, although not mentioned in this particular study, must be complemented by an adequate diet including calcium and vitamin D to reap full musculoskeletal health benefits. Additionally, consistent supervision is required for individuals at high risk of low trauma fracture and those who have not participated in high-intensity exercise prior to prescription.
- High-impact exercise vs. Stretching →A two-year program of aerobics and weight training enhances bone mineral density of young women.
- 18 months of high-impact training →Randomised controlled trial of effect of high-impact exercise on selected risk factors for osteoporotic fractures.
- Does high-impact effect Post-menopausal equally? →Pre‐ and Postmenopausal Women Have Different Bone Mineral Density Responses to the Same High‐Impact Exercise
- Vainionpää A, Leppäluoto J, Korpelainen R, Jämsä T. Effects of high-impact exercise on bone mineral density: A randomized controlled trial in premenopausal women. Osteoporosis International. 2005 March; 16(2): p. 191-197.
- AIHW. Osteoporosis Snapshot. [Online].; 2018. Available from: https://www.aihw.gov.au/reports/chronic-musculoskeletal-conditions/osteoporosis/contents/who-gets-osteoporosis.
- Moreira L, Oliveira M, Lirani-Galvão A, Marin-Mio R, Santos R, Lazaretti-Castro M. Physical exercise and osteoporosis: effects of different types of exercises on bone and physical function of postmenopausal women. Arquivos Brasileiros de Endocrinologia & Metabologia. 2014;58(5):514-522
- Cambell AJ, Robertson MC, Gardner MM, Norton RN, Tilyard MW, Buchner DM. Randomised controlled trial of a general practice programme of home based exercise to prevent falls in elderly women. BMJ. 1997; 315: 1065-1069
- Snow-Harter C, Bouxsein ML, Lewis BT, Carter DR, Marcus R. Effects of resistance and endurance exercise on bone mineral status of young women: a randomized exercise intervention trial. J Bone Miner Res. 1992; 7: 761-769
- Friedlander AL, Genant HK, Sadowsky S, Byl NN, Glüer CC. A two-year program of aerobics and weight training enhances bone mineral density of young women. J Bone Miner Res. 1995; 10: 574-585
- Belinda R. Becka, Robin M. Daly, Maria A. Fiatarone Singh, Dennis R.Taaffede. Exercise and Sports Science Australia (ESSA) position statement on exercise prescription for the prevention and management of osteoporosis. J Sci and Med in Sport. 2017; 20(5); 438-445