BONE MINERAL DENSITY AND BODY COMPOSITION IN ELDERLY RUNNERS: SIX-YEAR FOLLOW-UP

Alonso, Angelica Castilho; Ernandes, Rita de Cássia; Pereira, Regina Helena Marques; Becker, Ricardo André; Machado-Lima, Adriana; Silva-Santos, Paulo Roberto; Greve, Julia Maria D'Andréa; Garcez-Leme, Luiz Eugênio

doi:10.1590/1413-785220192702214897

ABSTRACT

Objective:

To evaluate bone mineral density (BMD) and body composition over a six-year period in elderly long-distance runners.

Methods:

We analyzed the medical records of elderly athletes who were long-distance runners, were participants of the IOT-HCFMUSP Orthogeriatric Group, and had their BMD evaluated between 2001 and 2007; of these athletes, 11 were included in the study. Inclusion criteria: athletes should be long-distance runners, should not stop long-distance running during the six-year period, and should have undergone BMD and body composition evaluations. Body composition was evaluated using bone densitometry with dual-energy X-ray absorptiometry with a Lunar-DPX device.

Results:

Over the six-year period, body composition remained stable, but there was a significant increase only in the fat percentage (p = 0.003).

Conclusion:

Long-distance running may maintain BMD but may lead to an increase in the fat percentage in elderly runners. Level of Evidence II; Prognostic Study - Investigating the Effect of Patient Characteristics on Disease Outcome.

Keywords:
Bone mineral density; Body composition; Running; Elderly

RESUMO

Objetivo:

Acompanhar a densidade mineral óssea (DMO) e a composição corporal, ao longo de seis anos, em idosos corredores de longa distância.

Métodos:

analisamos os prontuários médicos de um grupo de atletas idosos, corredores de longa distância, participantes do Grupo de Ortogeriatria do IOT-HC-FMUSP, e reunimos todos os atletas que tiveram a DMO avaliada no ano de 2001 e de 2007, sendo destes, 11 prontuários selecionados. Critérios de inclusão: ser corredor de longa distância; não parar de correr ao longo dos seis anos e ter os dois exames de DMO e composição corporal avaliados. A composição corporal foi avaliada por meio de densitometria óssea, com uma dupla energia de absorção de raios-X (DEXA), em um aparelho LUNAR-DPX.

Resultados:

Ao longo dos seis anos, a composição corpórea se manteve estável, havendo apenas um aumento significante na gordura expressa em (%) (p=0,003).

Conclusão:

A corrida de longa distância parece conservar a DMO de idosos corredores, porém com aumento de gordura. Nível do Evidência II; Estudos prognósticos - Investigação do efeito de características de um paciente sobre o desfecho da doença.

Descritores:
Densidade mineral óssea; Composição corporal; Corrida; Idosos

INTRODUCTION

Bone mass accumulation starts right from the fetal period and steadily increases through to pregnancy. Bone mineral density (BMD) is the result of a dynamic process for the formation and reabsorption of bone tissue, known as remodeling, which takes place throughout life in cycles, each four to six months in length. BMD maintenance is very important for the prevention of osteoporosis, which, together with other factors associated with age, could lead to a higher occurrence of fractures. Although bone loss is more evident and more intense in women, men also show some decrease in bone mass with age.¹1. Burt LA, Naughton GA, Greene DA, Courteix D, Ducher G. Non-elite gymnastics participation is associated with greater bone strength, muscle size, and function in pre- and early pubertal girls. Osteoporos Int. 2012;23(4):1277-86.^,²2. Maïmoun L, Sultan C. Effects of physical activity on bone remodeling. Metabolism. 2011;60(3):373-88.

Among the different courses of treatment, physical exercise is still considered the most efficient of the nonpharmacological strategies for the maintenance or increase of BMD. Bone tissue is positively affected by exercises promoting adaptations through stimuli, mainly mechanical, which contribute to bone formation. Therefore, exercise regimes including resistance and impact training are considered as the main nonpharmacological strategies for bone formation and maintanence.³3. Aboarrage Junior AM, Teixeira CVLE, Santos RN, Machado AF, Evangelista AL, Rica RL, et al. A high-intensity jump-based aquatic exercise program improves bone mineral density and functional fitness in postmenopausal women. Rejuvenation Res. 2018 Dec;21(6):535-540. doi: 10.1089/rej.2018.2069. Epub 2018 Nov 28.
https://doi.org/10.1089/rej.2018.2069...

As BMD is a measure of bone mineral status, it can also be influenced by various factors such as body composition,³3. Aboarrage Junior AM, Teixeira CVLE, Santos RN, Machado AF, Evangelista AL, Rica RL, et al. A high-intensity jump-based aquatic exercise program improves bone mineral density and functional fitness in postmenopausal women. Rejuvenation Res. 2018 Dec;21(6):535-540. doi: 10.1089/rej.2018.2069. Epub 2018 Nov 28.
https://doi.org/10.1089/rej.2018.2069... genetics, hormonal state, exposure to sunlight, eating habits, and lifestyle. BMD is also closely associated with sport practice, which plays an important role in the development and maintenance of lean and bone mass.⁴4. Maïmoun L, Lumbroso S, Manetta J, Paris F, Leroux JL, Sultan C. Testosterone is significantly reduced in endurance athletes without impact on bone mineral density. Horm Res. 2003;59(6):285-92.^,⁵5. Alwis G, Linden C, Ahlborg HG, Dencker M, Gardsell P, Karlsson MK. A 2-year school-based exercise programme in pre-pubertal boys induces skeletal benefits in lumbar spine. Acta Paediatr. 2008;97(11):1564-71.

In adult athletes, there is evidence that BMD is associated with sport practice during teenage years, and long-term training could lead to an increase in BMD.⁶6. Rantalainen T, Weeks BK, Nogueira RC, Beck BR. Effects of bone-specific physical activity, gender and maturity on tibial cross-sectional bone material distribution: A cross-sectional pQCT comparison of children and young adults aged 5-29years. Bone. 2015;72:101-8.

The effects of sport practice on BMD vary depending on the sport practiced and the intensity of the impact.⁷7. Ubago-Guisado E, Gómez-Cabello A, Sánchez-Sánchez J, García-Unanue J, Gallardo L. Influence of different sports on bone mass in growing girls. J Sports Sci. 2015;33(16):1710-8. Activities with body overload have the ability to boost the increment in bone mass, as the skeleton self-organizes itself according to the load coming from the specific sport. The involvement of different segments of the body also helps to increase BMD values.⁷7. Ubago-Guisado E, Gómez-Cabello A, Sánchez-Sánchez J, García-Unanue J, Gallardo L. Influence of different sports on bone mass in growing girls. J Sports Sci. 2015;33(16):1710-8.

Therefore, the purpose of this study was to evaluate BMD and body composition over a six-year period in elderly long-distance runners.

MATERIALS AND METHODS

This was a cohort study conducted over a six-year period and was developed by the Orthogeriatric Group at IOT-HCFMUSP (CAPesq no. 1167/06) in association with Universidade São Judas Tadeu.

Sample

We analyzed the medical records of elderly athletes who were long-distance runners, were participants of the Orthogeriatric Group of IOT-HCFMUSP, and had undergone BMD evaluation between 2001 and 2007; of these athletes, 11 were selected. The inclusion criteria were that the participants should be long-distance runners, should not stop long-distance running during the six-year period, and should have undergone BMD and body composition evaluations performed by the same physician by using the same machine in the Radiology Department of the IOT.

Evaluation of BMD and Body Composition

Body composition was evaluated using bone densitometry with dual-energy X-ray absorptiometry with a LUNAR-DPX device (Madison Corporation, USA) by trained professionals.

Statistical Analysis

Data were analyzed using SPSS 20 software and presented using means and standard deviations. The Shapiro-Wilk test was used to determine whether the continuous quantitative variables were normally distributed. The paired t-test was used to compare dependent samples. Statistical significance was set at 5%.

RESULTS

Over the six-year study period, the subjects maintained the same volume of training, and there was a significant difference only in their age and years of experience (Table 1).

Thumbnail

Table 1
Age, running experience, and training volume of elderly long-distance runners over a six-year follow-up period.

Moreover, BMD was maintained in the subjects (Figure 1 and Table 2), and no statistically significant differences were observed in BMD.

Figure 1
A six-year follow-up of bone mineral density (BMD) levels in elderly long-distance runners.

Thumbnail

Table 2
Bone mineral density and body composition in elderly long-distance runners over a six-year follow-up period.

In addition, body composition remained constant, but there was a significant increase in only the fat percentage in the subjects (Table 2). In 2001, there was no correlation between the number of training sessions per week and BMD; however, in 2007, there was a significantly positive correlation between the two variables, suggesting that BMD increased when the weekly training load increased. (Figure 2)

Figure 2
Correlation between bone mineral density (BMD) and the number of weekly training sessions between 2001 and 2007 in elderly long-distance runners.

DISCUSSION

The main finding in the present study was that in elderly long-distance runners, BMD and body composition were maintained, but the fat percentage increased over a six-year period. This suggests that long-distance running seems to have a positive effect on the maintenance of these variables, and it is necessary to increase the stimulus in order to increase BMD.

BMD is reported to decrease with age,³3. Aboarrage Junior AM, Teixeira CVLE, Santos RN, Machado AF, Evangelista AL, Rica RL, et al. A high-intensity jump-based aquatic exercise program improves bone mineral density and functional fitness in postmenopausal women. Rejuvenation Res. 2018 Dec;21(6):535-540. doi: 10.1089/rej.2018.2069. Epub 2018 Nov 28.
https://doi.org/10.1089/rej.2018.2069... but in the present study, BMD remained stable, showing just a slight nonsignificant increase over a six-year period. Moreover, none of the athletes showed any signs of osteopenia or osteoporosis in a study by Nowak et al.,⁸8. Nowak A, Hubbard RE. Falls and frailty: Lessons from complex systems. J R Soc Med. 2009;102(3):98-102. comparing male long-distance runners and male nonathletes. Further, sport practice induced beneficial effects and helped maintain BMD.⁹9. Mackelvie KJ, Taunton JE, Mckay HA, Khan KM. Bone mineral density and serum testosterone in chronically trained, high mileage 40 – 55 year old male runners. Br J Sports Med. 2000;34(4):273-8.

Bone mass may be maintained and its decrease may be prevented in athletes who participate in endurance activities such as middle-distance and long-distance running and undergo training for long periods,¹⁰10. Feldman S, Capozza RF, Mortarino PA, Reina PS, Ferretti JL, Rittweger J, et al. Site and sex effects on tibia structure in distance runners and untrained people. Med Sci Sports Exerc. 2012;44(8):1580-8. because the distribution of plantar pressure occurs through a “mata-borrão” movement, in which the body weight of the athlete travels across the entire foot, from the heel to the tips of the toes.¹¹11. Borin JP, Rodrigues A, Dallemole C, Ferreira CKO, Donato F, Leite GS, et al. Buscando Entender a Preparação Desportiva a Longo Prazo a Partir Das Capacidades Físicas Em Crianças. Arq em Mov. 2007;3(1):87-102.

It should be considered that athletes and people who engage in physical exercise have better bone mass than those who do not engage in physical exercise; this is owing to the mechanical overload on the bone, inducing the formation of osteoblasts, piezoelectric effect, and the same mechanism of traction of the muscles on the bone.³3. Aboarrage Junior AM, Teixeira CVLE, Santos RN, Machado AF, Evangelista AL, Rica RL, et al. A high-intensity jump-based aquatic exercise program improves bone mineral density and functional fitness in postmenopausal women. Rejuvenation Res. 2018 Dec;21(6):535-540. doi: 10.1089/rej.2018.2069. Epub 2018 Nov 28.
https://doi.org/10.1089/rej.2018.2069... However, studies have shown that after a certain BMD peak is reached, there is no further improvement in bone mineralization unless there is an increase and modification of the stimulus.¹²12. Karlsson KM, Karlsson C, Ahlborg HG, Valdimarsson Ö, Ljunghall S. The Duration of Exercise as a Regulator of Bone Turnover. Calcif Tissue Int. 2003;73(4):350-5. Indeed, results of the present study show that only an increase in the stimulus leads to an improvement of BMD. In contrast, cessation of training leads to worsening of the quantity and quality of bone tissue.¹³13. Lehtonen-Veromaa M, Möttönen T, Kautiainen H, Heinonen OJ, Viikari J. Influence of physical activity and cessation of training on calcaneal quantitative ultrasound measurements in peripubertal girls: A 1-year prospective study. Calcif Tissue Int. 2001;68(3):146-50.

With regard to body composition, we observed an increase in the fat percentage, which is in line with the findings reported by Alonso et al.,¹⁴14. Alonso AC, Gonçalves A, Alves De Almeida JK, Machado-Lima A, Ernandes RC, Greve JMD, et al. Relationship Between Bone Mineral Density and Body Composition in Elderly. Acta ortop bras. 2018;26(1):2017-9. who affirmed that body composition changes significantly in elderly individuals, including the increase and redistribution of adipose tissue. This distribution increases progressively within the abdominal cavity and is less pronounced in the limbs.

In the present study, despite the significant increase in the fat percentage over the six-year period, the athletes had low body weight, characteristic of long-distance runners, and the fat percentage was a borderline value of the normal range. In a study performed by Prouteau et al.,¹⁵15. Prouteau S, Benhamou L, Courteix D. Relationships between serum leptin and bone markers during stable weight, weight reduction and weight regain in male and female judoists. Eur J Endocrinol. 2006;154(3):389-95. low body weight and weight loss were associated with a low BMD level, caused by a decrease in the mechanical load on the skeleton;¹⁶16. Zanker CL, Swaine IL. Responses of bone turnover markers to repeated endurance running in humans under conditions of energy balance or energy restriction. Eur J Appl Physiol. 2000;83(4-5):434-40.^,¹⁷17. Ihle R, Loucks AB. Dose-response relationships between energy availability and bone turnover in young exercising women. J Bone Miner Res. 2004;19(8):1231-40. compared to men with a sedentary lifestyle, runners and cyclists were reported to have a fairly low body weight and inconsistent BMD levels.¹⁸18. Nichols JF, Palmer JE, Levy SS. Low bone mineral density in highly trained male master cyclists. Osteoporos Int. 2003;14(8):644-9.

In the present study, we evaluated the subjects from a gerontological perspective over a six-year period. These elderly athletes may have a reduced risk of osteopenia and osteoporosis because of their healthy lifestyle.¹⁹19. Lazarus NR, Harridge SDR. Exercise, physiological function, and the selection of participants for aging research. J Gerontol A Biol Sci Med Sci. 2010;65(8):854-7.^,²⁰20. Michaëlsson K, Olofsson H, Jensevik K, Larsson S, Mallmin H, Berglund L, et al. Leisure physical activity and the risk of fracture in men. PLoS Med. 2007;4(6):1094-100.

The main contribution of this study is related to understanding the applicability of exercises to BMD. Long-distance running is a good activity for maintaining bone mass; however, it is necessary to increase the stimulus in order to improve BMD.

CONCLUSION

Long-distance running may maintain BMD but may lead to an increase in the fat percentage in elderly runners.

The study was conducted at the Universidade de São Paulo, Faculdade de Medicina, Hospital das Clinicas (HCFMUSP), Department of Orthopedics and Traumatology, Laboratory of Movement Studies, São Paulo, in association with Universidade São Judas Tadeu, Department of Postgraduate Studies in Ageing Sciences, São Paulo, Brazil.

REFERENCES

¹
Burt LA, Naughton GA, Greene DA, Courteix D, Ducher G. Non-elite gymnastics participation is associated with greater bone strength, muscle size, and function in pre- and early pubertal girls. Osteoporos Int. 2012;23(4):1277-86.
²
Maïmoun L, Sultan C. Effects of physical activity on bone remodeling. Metabolism. 2011;60(3):373-88.
³
Aboarrage Junior AM, Teixeira CVLE, Santos RN, Machado AF, Evangelista AL, Rica RL, et al. A high-intensity jump-based aquatic exercise program improves bone mineral density and functional fitness in postmenopausal women. Rejuvenation Res. 2018 Dec;21(6):535-540. doi: 10.1089/rej.2018.2069. Epub 2018 Nov 28.
» https://doi.org/10.1089/rej.2018.2069
⁴
Maïmoun L, Lumbroso S, Manetta J, Paris F, Leroux JL, Sultan C. Testosterone is significantly reduced in endurance athletes without impact on bone mineral density. Horm Res. 2003;59(6):285-92.
⁵
Alwis G, Linden C, Ahlborg HG, Dencker M, Gardsell P, Karlsson MK. A 2-year school-based exercise programme in pre-pubertal boys induces skeletal benefits in lumbar spine. Acta Paediatr. 2008;97(11):1564-71.
⁶
Rantalainen T, Weeks BK, Nogueira RC, Beck BR. Effects of bone-specific physical activity, gender and maturity on tibial cross-sectional bone material distribution: A cross-sectional pQCT comparison of children and young adults aged 5-29years. Bone. 2015;72:101-8.
⁷
Ubago-Guisado E, Gómez-Cabello A, Sánchez-Sánchez J, García-Unanue J, Gallardo L. Influence of different sports on bone mass in growing girls. J Sports Sci. 2015;33(16):1710-8.
⁸
Nowak A, Hubbard RE. Falls and frailty: Lessons from complex systems. J R Soc Med. 2009;102(3):98-102.
⁹
Mackelvie KJ, Taunton JE, Mckay HA, Khan KM. Bone mineral density and serum testosterone in chronically trained, high mileage 40 – 55 year old male runners. Br J Sports Med. 2000;34(4):273-8.
¹⁰
Feldman S, Capozza RF, Mortarino PA, Reina PS, Ferretti JL, Rittweger J, et al. Site and sex effects on tibia structure in distance runners and untrained people. Med Sci Sports Exerc. 2012;44(8):1580-8.
¹¹
Borin JP, Rodrigues A, Dallemole C, Ferreira CKO, Donato F, Leite GS, et al. Buscando Entender a Preparação Desportiva a Longo Prazo a Partir Das Capacidades Físicas Em Crianças. Arq em Mov. 2007;3(1):87-102.
¹²
Karlsson KM, Karlsson C, Ahlborg HG, Valdimarsson Ö, Ljunghall S. The Duration of Exercise as a Regulator of Bone Turnover. Calcif Tissue Int. 2003;73(4):350-5.
¹³
Lehtonen-Veromaa M, Möttönen T, Kautiainen H, Heinonen OJ, Viikari J. Influence of physical activity and cessation of training on calcaneal quantitative ultrasound measurements in peripubertal girls: A 1-year prospective study. Calcif Tissue Int. 2001;68(3):146-50.
¹⁴
Alonso AC, Gonçalves A, Alves De Almeida JK, Machado-Lima A, Ernandes RC, Greve JMD, et al. Relationship Between Bone Mineral Density and Body Composition in Elderly. Acta ortop bras. 2018;26(1):2017-9.
¹⁵
Prouteau S, Benhamou L, Courteix D. Relationships between serum leptin and bone markers during stable weight, weight reduction and weight regain in male and female judoists. Eur J Endocrinol. 2006;154(3):389-95.
¹⁶
Zanker CL, Swaine IL. Responses of bone turnover markers to repeated endurance running in humans under conditions of energy balance or energy restriction. Eur J Appl Physiol. 2000;83(4-5):434-40.
¹⁷
Ihle R, Loucks AB. Dose-response relationships between energy availability and bone turnover in young exercising women. J Bone Miner Res. 2004;19(8):1231-40.
¹⁸
Nichols JF, Palmer JE, Levy SS. Low bone mineral density in highly trained male master cyclists. Osteoporos Int. 2003;14(8):644-9.
¹⁹
Lazarus NR, Harridge SDR. Exercise, physiological function, and the selection of participants for aging research. J Gerontol A Biol Sci Med Sci. 2010;65(8):854-7.
²⁰
Michaëlsson K, Olofsson H, Jensevik K, Larsson S, Mallmin H, Berglund L, et al. Leisure physical activity and the risk of fracture in men. PLoS Med. 2007;4(6):1094-100.

Publication Dates

Publication in this collection
Mar-Apr 2019

History

Received
02 Oct 2018
Accepted
15 Oct 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] The study was conducted at the Universidade de São Paulo, Faculdade de Medicina, Hospital das Clinicas (HCFMUSP), Department of Orthopedics and Traumatology, Laboratory of Movement Studies, São Paulo, in association with Universidade São Judas Tadeu, Department of Postgraduate Studies in Ageing Sciences, São Paulo, Brazil.

	2001	2007	p
Age (years)	65.5(5.2)	71.5(4.9)	≤0.001*
Frequency/week (days)	4.2(0.9)	4.0(0.7)	0.465
km/day	9.9(1.2)	9.3(1.6)	0.258
km/week	43.3(14.1)	38.0(11.3)	0.322
Experience (years)	17.1(4.3)	23.1(4.0)	≤0.001*

	2001	2007	p
BMD	1.15(0.1)	1.18(0.1)	0.536
Fat (%)	16.7(5.7)	19.0(4.5)	0.003*
Tissue (g)	60762.9(5087.7)	56317.7(16729.3)	0.390
Fat (g)	10255.1(4017.0)	10684.2(4357.6)	0.756
Lean (g)	50507.8(4268.9)	45633.5(13637.2)	0.209
BMC (g)	2709.0(408.9)	2462.1(748.6)	0.206
Total Calcium	1029.0(155.3)	934.9(284.5)	0.204

Brasil