等长收缩期间静息(对侧)手臂和腿部的血流情况。
Blood flow in resting (contralateral) arm and leg during isometric contraction.
作者信息
Eklund B, Kaijser L, Knutsson E
出版信息
J Physiol. 1974 Jul;240(1):111-24. doi: 10.1113/jphysiol.1974.sp010602.
Abstract
- Blood flow in resting forearm and calf were measured plethysmographically in healthy young men during isometric contraction performed both as a handgrip and as a dorsiflexion of the foot. The isometric contraction was maintained for 2 min at one third maximal voluntary contraction for the handgrip and half maximal voluntary contraction for the dorsiflexion of the foot. In some experiments the possible influence on blood flow of inadvertent muscle activation in the resting limb was checked by recording the e.m.g.2. Both handgrip and dorsiflexion of the foot produced substantial increases in heart rate and mean arterial pressure, the pressure rise being almost linear with time throughout the contraction.3. Isometric contraction produced a rapid increase in forearm blood flow which reached a maximum on average two and a half times the resting value after 1 min and then declined slightly. Similar increases in forearm blood flow were produced by handgrip and dorsiflexion of the foot.4. Unlike in the resting forearm, the blood flow in the resting calf increased only slightly during the first minute of contraction and then decreased again to the resting level.5. The flow increase in the resting limbs could not be ascribed to inadvertent muscle activation as judged from the e.m.g. recordings.6. It is concluded that isometric muscle contraction produces a rapid increase in blood flow in the resting forearm, but only a very slight flow increase in the calf. Since the flow increased faster than the arterial pressure it must to a certain extent be induced by active neurogenic vasodilatation. Similarly, the relative flow decrease during the latter half of the contraction concomitantly with a progressively rising arterial pressure suggests that the neurogenic effect on the resistance vessels changes character, becoming more vasoconstrictive, and this might be related to increased effort in sustaining the contraction.
摘要
在健康年轻男性进行等长收缩时,分别通过握力和足背屈两种方式,用体积描记法测量其静息状态下前臂和小腿的血流量。等长收缩在握力为最大自主收缩的三分之一、足背屈为最大自主收缩的一半的情况下持续2分钟。在一些实验中,通过记录肌电图来检查静息肢体中无意的肌肉激活对血流量的可能影响。
握力和足背屈均使心率和平均动脉压大幅升高,在整个收缩过程中,压力升高几乎与时间呈线性关系。
等长收缩使前臂血流量迅速增加,平均在1分钟后达到最大值,约为静息值的2.5倍,然后略有下降。握力和足背屈也会使前臂血流量产生类似的增加。
与静息前臂不同,静息小腿的血流量在收缩的第一分钟仅略有增加,然后又降至静息水平。
根据肌电图记录判断,静息肢体中的血流量增加并非由无意的肌肉激活所致。
研究得出结论,等长肌肉收缩会使静息前臂的血流量迅速增加,但对小腿血流量的增加影响很小。由于血流量的增加速度快于动脉压,在一定程度上它必定是由主动神经源性血管舒张引起的。同样,在收缩后半段血流量相对减少,同时动脉压逐渐升高,这表明神经源性对阻力血管的作用发生了变化,变得更具血管收缩性,这可能与维持收缩时用力增加有关。
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