Establishment and evaluation of animal models of intracranial venous sinus thrombosis under plateau hypoxia
10.3760/cma.j.cn115354-20240205-00092
- VernacularTitle:高原缺氧条件下颅内静脉窦血栓形成动物模型的建立与评价
- Author:
Hasmul AIHEMATI
1
;
Gang ZHENG
;
Kaiyuan ZHANG
;
Xiaosheng HOU
;
Zhihao ZOU
Author Information
1. 中国人民解放军新疆军区总医院神经外科,乌鲁木齐 830000
- Keywords:
Intracranial venous sinus;
Thrombosis;
Plateau;
Hypoxia;
Ferric chloride wet dressing
- From:
Chinese Journal of Neuromedicine
2024;23(5):443-449
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To construct the intracranial venous sinus thrombosis (CVST) models under plateau hypoxia by simulating plateau hypoxic condition, and further clarify the role of plateau hypoxa in CVST.Methods:Forty-eight 8-week-old male SD rats were randomly divided into sham-operated group, plateau sham-operated group, CVST group, and plateau CVST group ( n=12). CVST models in the CVST group and plateau CVST group were established by ferric chloride wet dressing, and rats in the plateau CVST group were kept in a low-pressure oxygen chamber for 2 d immediately after modeling to simulate plateau hypoxic condition at an altitude of 5,000 m (barometric pressure of 54.047 kPa, oxygen concentration of 10%-11%, and temperature of 18-23 °C). Only the bone flap and dura mater were separated in rats of the sham-operated group, without low-pressure oxygen condition or filter paper dressing. Only the bone flap and dura mater were separated in rats of the plateau sham-operated group, with plateau hypoxic condition at an altitude of 5,000 m for 2 d and without filter paper dressing. Intracranial venous sinus blood flow was detected by Doppler flowmetry before and 48 h after modeling. At 6, 24, and 48 h after modeling, 4 rats in each group were sacrificed; blood vessels at the thrombus of superior sagittal sinus (blood vessels at the superior sagittal sinus in the sham-operated group and plateau sham-operated group) were cut out and weighed; meanwhile, water contents of the brain tissues were calculated. HE staining was employed in the brain, heart, liver, lung, and kidney tissues and veins, and toluidine blue staining was peformed in the brain tissues only at 48 h after modeling. Results:(1) Doppler flowmetry indicated that intracranial venous sinus blood flow was normal in the 4 groups before modeling; intracranial venous sinus blood flow signals were normal in the sham-operated group and plateau sham-operated group and obviously weakened in the CVST group and plateau CVST group 48 h after modeling. (2) No thrombus was formed in the sham-operated group 48 h after modeling. At 6, 24 and 48 h after modeling, the thrombus in the CVST group ([15.44±1.90] mg, [12.63±1.26] mg, and [7.85±0.68] mg) and plateau CVST group ([20.38±1.67] mg, [24.93±2.37] mg, and [20.90±1.30] mg) weighted significantly heavier than those in the plateau sham-operated group ([2.55±0.38] mg, [2.19±0.30] mg, [1.75±0.31] mg), and that in the plateau CVST group weighted significantly heavier than that in the CVST group ( P<0.05); the thrombus weight in both plateau sham-operated group and CVST group decreased sequentially at 6, 24 and 48 h after modeling, with significant differences ( P<0.05); whereas, the thrombus weight in the plateau CVST group at 24 h after modeling increased compared with that at 6 h after modeling, and that at 48 h after modeling decreased compared with that at 24 h after modeling, with significant differences ( P<0.05). (3) At 6 h after modeling, the brain water contents in the sham-operated group, plateau sham-operated group, CVST group and plateau CVST group were (77.56±0.52)%, (77.57±0.92)%, (78.91±0.53)%, and (78.90±0.63)%, respectively, with statistical differences ( P<0.05); the CVST group and plateau CVST group had increased water content compared with the sham-operated group and plateau sham-operated group without significant differences ( P>0.05). At 24 and 48 h after modeling, the brain water content among the 4 groups was not statistically different ( P>0.05). (4) HE staining and toluidine blue staining indicated limited infarction, neuronal edema, and necrotic apoptosis in the brain tissues of plateau CVST group at 24 h after modeling. HE staining showed no obvious pathological changes in the myocardium, liver, lung, or kidney tissues in the 4 groups. Conclusion:CVST models can be successfully established by simulating plateau hypoxic condition through ferric chloride wet dressing and feeding in low-pressure oxygen chamber.
