体育锻炼和食物限制对老龄雄性大鼠股骨生物力学特性的影响。

Thomsen Jesper Skovhus, Skalicky Monika, Viidik Andrus

Department of Connective Tissue Biology, Institute of Anatomy, University of Aarhus, Arhus, Denmark.

Gerontology. 2008;54(1):32-9. doi: 10.1159/000113502. Epub 2008 Jan 15.

BACKGROUND

Voluntary running in wheels as well as food reduction increase the life spans of rats. Disparate parameters such as the collagen biomarker of ageing and the development of kidney pathologies are decreased by voluntary exercise. There are few reports on the influence of physical exercise and food restriction on the skeleton of male rats. Most investigations initiated rather short-term interventions in 4- to 5-week-old animals and thus studied more the influence of growth than the influence of ageing on the skeleton.

OBJECTIVE

To compare the effects of physical exercise and food restriction on the biomechanical properties of bone tissue of ageing male rats with the interventions starting at the age of 5 months with the end point at 23 months. This enables the study of the influence of these interventions on the ageing of the skeleton.

METHODS

Five groups of male Sprague-Dawley rats were used: baseline (BL), voluntarily running in wheels (RW), food restriction to attain pair weight with RW animals (PW), forced running in treadmills (TM), and sedentary controls (SE). The biomechanical properties of femoral neck, diaphysis, and distal metaphysis were measured.

RESULTS

While the body weights and fat-free mass increased from BL to SE group, the occiput-sacrum length did not increase and the length of the femur increased marginally. These lengths were slightly retarded in RW and PW groups compared to the SE group. The strength of the distal femoral metaphysis decreased from BL to SE group. This decrease was counteracted by physical exercise (RW and TM groups) as well as by food restriction (PW group). In contrast, the strength of the femoral mid-diaphysis did not differ between BL and SE groups.

CONCLUSIONS

The distal metaphysis in the male rat femur is more prone to decreasing biomechanical strength than the diaphysis during ageing. Physical exercise, when started at the age of 5 months, when the skeleton has reached its adult size, is somewhat effective in counteracting these changes. There is also some retarding effect of food restriction.

背景

大鼠自愿在轮中奔跑以及减少食物摄入均可延长其寿命。诸如衰老的胶原蛋白生物标志物和肾脏病理发展等不同参数可通过自愿运动而降低。关于体育锻炼和食物限制对雄性大鼠骨骼影响的报道较少。大多数研究在4至5周龄的动物中开展的是相当短期的干预措施，因此更多地研究了生长而非衰老对骨骼的影响。

目的

比较体育锻炼和食物限制对5月龄开始干预、23月龄为终点的衰老雄性大鼠骨组织生物力学特性的影响。这有助于研究这些干预措施对骨骼衰老的影响。

方法

使用五组雄性斯普拉格-道利大鼠：基线组（BL）、自愿在轮中奔跑组（RW）、食物限制以达到与RW组动物相同体重组（PW）、强制在跑步机上跑步组（TM）和久坐对照组（SE）。测量股骨颈、骨干和远端干骺端的生物力学特性。

结果

从BL组到SE组，体重和去脂体重增加，而枕骨-骶骨长度未增加，股骨长度略有增加。与SE组相比，RW组和PW组的这些长度略有缩短。从BL组到SE组，股骨远端干骺端的强度降低。体育锻炼（RW组和TM组）以及食物限制（PW组）可抵消这种降低。相比之下，BL组和SE组之间股骨骨干中部的强度没有差异。

结论

雄性大鼠股骨的远端干骺端在衰老过程中比骨干更容易出现生物力学强度下降。在5月龄骨骼达到成年大小时开始的体育锻炼，在一定程度上可有效抵消这些变化。食物限制也有一定的延缓作用。

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