高海拔地区正常成年人椎基底动脉的GSI CTA评估
GSI CTA evaluation of the vertebrobasilar artery in normal adults at high altitude.
作者信息
Wei Jia, Hu Huiying, He Xin, Bao Haihua
机构信息
Department of Medical Imaging Center, Qinghai University Affiliated Hospital, Xining, China.
出版信息
Front Cardiovasc Med. 2023 May 24;10:1094401. doi: 10.3389/fcvm.2023.1094401. eCollection 2023.
OBJECTIVE
Vascular geometry is influenced by several factors during its growth and development. Here, we compared the differences in vertebrobasilar geometry among residents of a plateau region at different altitudes and investigated the relationship between vascular geometry and altitude.
METHODS
Data of some adults in the plateau region who experienced vertigo and headache as the main symptoms but had no evident abnormalities found during imaging examination were collected. They were divided into three groups based on an altitude gradient: group A (1,800-2,500 masl), group B (2,500-3,500 masl), and group C (over 3,500 masl). They underwent head-neck energy-spectrum computed tomography angiography with a gemstone spectral imaging scanning protocol. The following indices were observed: (1) vertebrobasilar geometric configurations (walking, tuning fork, lambda, and no confluence), (2) vertebral artery (VA) hypoplasia, (3) the bending number of bilateral VA intracranial segment, (4) length and tortuosity of the basilar artery (BA), and (5) anteroposterior (AP)-mid-BA angle, BA-VA angle, lateral-mid-BA angle, and VA-VA angle.
RESULTS
Of the 222 subjects, 84 of them were included in group A, 76 in group B, and 62 in group C. The number of participants in walking, tuning fork, lambda, and no confluence geometries was 93, 71, 50, and 8, respectively. As altitude increased, the tortuosity of the BA also increased (1.05 ± 0.06 vs. 1.06 ± 0.08 vs. 1.10 ± 0.13, = 0.005), as did the lateral-mid-BA angle (23.18° ± 9.53° vs. 26.05° ± 10.10° vs. 31.07° ± 15.12°, = 0.007) and the BA-VA angle (32.98° ± 17.85° vs. 34.51° ± 17.96° vs. 41.51° ± 19.22°, = 0.024). There was a relatively weak positive correlation between the altitude and the tortuosity of the BA (= 0.190, = 0.005), the lateral-mid-BA angle (= 0.201, = 0.003), and the BA-VA angle (= 0.183, = 0.006) which showed a significant difference. Compared with groups A and B, there were more multibending groups and fewer oligo-bending groups in group C (< 0.001). There was no difference found in the vertebral artery hypoplasia, actual length of the BA, VA-VA angle, and AP-mid-BA angle among the three groups.
CONCLUSION
As the altitude increased, the tortuosity of the BA and the sagittal angle of the vertebrobasilar arterial system also increased. The increase in altitude can lead to changes in vertebrobasilar geometry.
目的
血管几何形态在其生长发育过程中受多种因素影响。在此,我们比较了不同海拔高原地区居民椎基底动脉几何形态的差异,并研究了血管几何形态与海拔之间的关系。
方法
收集高原地区一些以眩晕和头痛为主要症状但影像学检查未发现明显异常的成年人的数据。根据海拔梯度将他们分为三组:A组(海拔1800 - 2500米)、B组(海拔2500 - 3500米)和C组(海拔超过3500米)。他们采用宝石光谱成像扫描方案进行头颈部能谱计算机断层血管造影。观察以下指标:(1)椎基底动脉几何形态(走行型、叉型、λ型和无汇合型),(2)椎动脉发育不全,(3)双侧椎动脉颅内段的弯曲数,(4)基底动脉的长度和迂曲度,(5)基底动脉中份前后角、基底动脉 - 椎动脉角、基底动脉外侧中份角和椎动脉 - 椎动脉角。
结果
222名受试者中,A组84人,B组76人,C组62人。走行型、叉型、λ型和无汇合型几何形态的参与者人数分别为93人、71人、50人和8人。随着海拔升高,基底动脉的迂曲度增加(1.05±0.06 vs. 1.06±0.08 vs. 1.10±0.13,P = 0.005),基底动脉外侧中份角(23.18°±9.53° vs. 26.05°±10.10° vs. 31.07°±15.12°,P = 0.007)和基底动脉 - 椎动脉角(32.98°±17.85° vs. 34.51°±17.96° vs. 41.51°±19.22°,P = 0.024)也增加。海拔与基底动脉迂曲度(r = 0.190,P = 0.005)、基底动脉外侧中份角(r = 0.201,P = 0.003)和基底动脉 - 椎动脉角(r = 0.183,P = 0.006)之间存在较弱的正相关,差异有统计学意义。与A组和B组相比,C组多弯曲组更多,少弯曲组更少(P < 0.001)。三组之间椎动脉发育不全、基底动脉实际长度、椎动脉 - 椎动脉角和基底动脉中份前后角无差异。
结论
随着海拔升高,基底动脉的迂曲度和椎基底动脉系统的矢状角也增加。海拔升高可导致椎基底动脉几何形态发生改变。
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