Poole D C, Mathieu-Costello O, West J B
Department of Medicine, University of California, San Diego, La Jolla 92093.
Am J Physiol. 1989 Apr;256(4 Pt 2):H1110-6. doi: 10.1152/ajpheart.1989.256.4.H1110.
The total capillary length available for blood-tissue transfer is determined by the number and orientation of the capillaries. Therefore, whether capillary tortuosity changes with exercise training has important implications for peripheral gas exchange. To determine the effects of exercise training on capillary orientation and capillary length per volume of muscle fiber [Jv(c,f)] female rats were trained by treadmill running (30 m/min, up to 60 min/day, 5 days/wk) for 4 wk. Muscles from control and trained rats were perfusion fixed at sarcomere lengths (l) ranging from 1.59 to 2.15 microns, and morphometric techniques were used to estimate capillary orientation and Jv(c,f). Training increased (P less than 0.05) musculus soleus oxidative capacity 35% [as estimated from citrate synthase activity: 24.7 +/- 1.4 to 34.7 +/- 1.0 (SE) mumol.g-1.min-1], capillary-to-fiber ratio 30% (2.17 +/- 0.06 to 2.83 +/- 0.05), and Jv(c,f) 32% (1,886 +/- 73 to 2,496 +/- 180 mm-2). Capillary tortuosity (as determined from comparisons of transverse and longitudinal sections) was a direct function of l in control and trained rats and contributed 17-73% of capillary length above that estimated from capillary counts on transverse sections. We conclude that capillary tortuosity in m. soleus is unchanged by training. Therefore, Jv(c,f) increases as a consequence of increased capillary number. M. soleus citrate synthase activity is best correlated with Jv(c,f) and not with capillary counts on transverse sections. We hypothesize that training-induced muscle changes of capillary geometry improve O2 delivery to skeletal muscle and may therefore alter the metabolic response (e.g., lactate accumulation) to exercise after training.(ABSTRACT TRUNCATED AT 250 WORDS)
可用于血液与组织间物质交换的毛细血管总长度由毛细血管的数量和走向决定。因此,毛细血管迂曲度是否会随运动训练而改变对外周气体交换具有重要意义。为了确定运动训练对毛细血管走向以及每单位肌纤维体积的毛细血管长度[Jv(c,f)]的影响,对雌性大鼠进行了为期4周的跑步机跑步训练(速度30米/分钟,每天最多60分钟,每周5天)。将对照组和训练组大鼠的肌肉在肌节长度(l)为1.59至2.15微米的范围内进行灌注固定,并用形态测量技术估算毛细血管走向和Jv(c,f)。训练使比目鱼肌的氧化能力提高了35%[根据柠檬酸合酶活性估算:从24.7±1.4增至34.7±1.0(标准误)微摩尔·克⁻¹·分钟⁻¹],毛细血管与纤维的比例提高了30%(从2.17±0.06增至2.83±0.05),Jv(c,f)提高了32%(从1886±73增至2496±180毫米⁻²)。在对照组和训练组大鼠中,毛细血管迂曲度(通过横切面和纵切面比较确定)是l的直接函数,其长度比横切面上毛细血管计数估算出的长度多出17% - 73%。我们得出结论,训练不会改变比目鱼肌的毛细血管迂曲度。因此,Jv(c,f)的增加是毛细血管数量增加所致。比目鱼肌柠檬酸合酶活性与Jv(c,f)的相关性最佳,而与横切面上的毛细血管计数无关。我们推测,训练引起的毛细血管几何形态变化改善了氧气向骨骼肌的输送,因此可能会改变训练后运动的代谢反应(例如乳酸积累)。(摘要截选于250词)
