解剖学上的椎动脉发育不全和供血不足会损害动态血流调节。
Anatomical vertebral artery hypoplasia and insufficiency impairs dynamic blood flow regulation.
作者信息
Sato Kohei, Yoneya Marina, Otsuki Aki, Sadamoto Tomoko, Ogoh Shigehiko
机构信息
Research Institute of Physical Fitness, Japan Women's College of Physical Education, Tokyo, Japan.
Department of Biomedical Engineering, Toyo University, Saitama, Japan.
出版信息
Clin Physiol Funct Imaging. 2015 Nov;35(6):485-9. doi: 10.1111/cpf.12179. Epub 2014 Jun 30.
Recent studies have suggested that vertebral artery (VA) hypoplasia is a predisposing factor for posterior cerebral stroke. We examined whether anatomical vertebrobasilar ischemia, i.e., unilateral VA hypoplasia and insufficiency, impairs dynamic blood flow regulation. Twenty-eight female subjects were divided into three groups by defined criteria: (i) unilateral VA hypoplasia (n = 8), (ii) VA insufficiency (n = 6), and (iii) control (n = 14). Hypoplastic VA criterion was VA blood flow of 40 ml min(-1) , whereas VA insufficiency criterion was net (left + right) VA blood flow of 100 ml min(-1) or less. We evaluated left, right, and net VA blood flows by ultrasonography during hypercapnia, normocapnia, and hypocapnia to evaluate VA CO2 reactivity. The unilateral VA hypoplasia group showed lower CO2 reactivity at hypoplastic VA than at non-hypoplastic VA (2.65 ± 0.58 versus 3.00 ± 0.48% per mmHg, P = 0.027) and net VA CO2 reactivity was preserved (Unilateral VA hypoplasia, 2.95 ± 0.48 versus Control, 2.93 ± 0.42% per mmHg, P = 0.992). However, the VA insufficiency group showed a lower net VA CO2 reactivity compared to the control (2.29 ± 0.55 versus 2.93 ± 0.42% per mmHg, P = 0.032) and the unilateral VA hypoplasia (P = 0.046). VA hypoplasia reduced CO2 reactivity, although non-hypoplastic VA may compensate this regulatory limitation. In subjects with VA insufficiency, lowered CO2 reactivity at the both VA could not preserve normal net VA CO2 reactivity. These findings provide a possible physiological mechanism for the increased risk of posterior cerebral stroke in subjects with VA hypoplasia and insufficiency.
近期研究表明,椎动脉发育不全是后脑卒中的一个诱发因素。我们研究了解剖学上的椎基底动脉缺血,即单侧椎动脉发育不全和供血不足,是否会损害动态血流调节。28名女性受试者根据既定标准分为三组:(i)单侧椎动脉发育不全组(n = 8),(ii)椎动脉供血不足组(n = 6),以及(iii)对照组(n = 14)。椎动脉发育不全的标准是椎动脉血流量为40 ml·min⁻¹,而椎动脉供血不足的标准是双侧椎动脉净血流量为100 ml·min⁻¹或更低。我们通过超声检查在高碳酸血症、正常碳酸血症和低碳酸血症期间评估左右椎动脉及双侧椎动脉净血流量,以评估椎动脉二氧化碳反应性。单侧椎动脉发育不全组在发育不全侧椎动脉的二氧化碳反应性低于非发育不全侧(分别为2.65±0.58与3.00±0.48%/mmHg,P = 0.027),且双侧椎动脉净二氧化碳反应性得以保留(单侧椎动脉发育不全组为2.95±0.48,对照组为2.93±0.42%/mmHg,P = 0.992)。然而,椎动脉供血不足组与对照组相比双侧椎动脉净二氧化碳反应性较低(分别为2.29±0.55与2.93±0.42%/mmHg,P = 0.032),与单侧椎动脉发育不全组相比也较低(P = 0.046)。椎动脉发育不全降低了二氧化碳反应性,尽管非发育不全侧椎动脉可能会补偿这种调节限制。在椎动脉供血不足的受试者中,双侧椎动脉二氧化碳反应性降低无法维持正常的双侧椎动脉净二氧化碳反应性。这些发现为椎动脉发育不全和供血不足的受试者后脑卒中风险增加提供了一种可能的生理机制。
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