期刊文献+

Changes of Stress-Strain Relationship of Rabbit Femoral Vein after Simulated Weightlessness 被引量:2

模拟失重下家兔股静脉的应力-应变关系的变化(英文)
下载PDF
导出
摘要 Objective: To observe the effect of simulated weightlessness on stress-strain relationship and the structural change of rabbit femoral vein. Methods: After seting up the Head-Down Tilt (-20°) (HDT) model to simulate weightlessness, 24 healthy male New-Zealand Rabbits were randomly divided into HDT-21d group, HDT-10d group and control group, with 8 in each. Femoral venous strips and rings were used to make uniaxial tensile test of the longitudinal and circumferential specimens of the vessels. At last we observed the microstructure of femoral vein wall in 3 groups. Results : With the increasing of load stress, both longitudinal and circumferential strains of vein samples from 3 groups increased significantly (P<0. 01). With the decrease of unload stress, strains decrease obviously (P<0. 01). The unloaded longitudinal and the circumferential strain from 3 groups increased much than those of the loaded. Under the same stress (longitudinal 0-2. 0 g, circumferential 0. 5-1. 0 g) , HDT-21d group and HDT-10d group increased obviously in tlie longitudinal or circumferential strain (load and unload) than control, and HDT-21d increased much than that of HDT-10d. The contents and structures of femoral vein walls of HDT-rabbits changed significantly. Some endotheli-um cells of femoral vein became short, columnar or cubic even fell off. Smooth muscle layers became thinner. Conclusion:The compliance of femoral venous increased significantly after weightlessness-simulation and increased much obviously after 21d-HDT than that of 10 d. The structure of femoral vein wall changed obviously. The changes may be one reason for the increase of femoral vein compliance. Objective:To observe the effect of simulated weightlessness on stress-strain relationship and the structural change of rabbit femoral vein. Methods:After sstiag up the Head-Doum Tilt (-20℃) (HDT) model to simulate weightlessness, 24 healthy male New-Zealand Rabbits were randomly divided into HDT-21d group, HDT 10d group and control group, with 8 in each. Femoral venous strips and rings were used to make uniaxial tensile test of the longitudinal and circumferential specimens of the vessels. At last we observed the microstructure of femoral vein wall in 3 groups. Results:With the increasing of load stress, both longitudinal and circumferential strains of vein samples from 3 groups increased significantly ( P<0. 01 ). With the decrease of unload stress, strains decrease obviously (P<0. 01). The unloaded longitudinal and the circumferential strain from 3 groups increased much than those of the loaded. Under the same stress (longitudinal 0-2. 0 g, circumferential 0. 5-1. 0 g), HDT-21d group and HDT-10d group increased obviously in the longitudinal or circumferential strain (load and unload) than control, and HDT-21d increased much than that of HDT-10d.The contents and structures of femoral vein walls of HI)T-rabbits changed siqnificantly. Some endothelium cells of femoral vein became short, columnar or cubic even fell off. Smooth muscle layers became thinner. Conclusion:The compliance of femoral venous increased significantly after weightlessness-simulation and increased much obviously after 21d-HDT than that of 10 d. The structure of femoral vein wall changed obviously. The changes may be one reason for the increase of femoral vein compliance.
出处 《Journal of Nanjing Medical University》 2003年第5期223-230,248,F003,共10页 南京医科大学学报(英文版)
基金 Supported by Grant from the National Natural Science Foundation of China(30000197)
关键词 weightlessness simulation COMPLIANCE femoral vein STRESS-STRAIN mi-crostructure tensile test 应力应变图 股动脉 模拟失重 动物实验
  • 相关文献

参考文献10

  • 1Dunbar SL,Berkowitz DE,Brooks-Asplund EM,et al.The effects of hindlimb unweighting on the capacitance of rat small mesenteric veins[].Journal of Applied Physiology.2000
  • 2Akira Setogawa,Yasuaki Kawai.Measurement of intraocular pressure by both invasive and noninvasive techniques in rabbits exposed to Head-Down Tilt[].Japanese Journal of Physiology.1998
  • 3Louisy F,Tran CC,Resch G,et al.The venous tone is not altered after three-week tail suspension in rats[].Journal of Gravitational Physiology.1998
  • 4Louisy F,Tran CC,Resch G,et al.The venous tone is not altered after three-week tail suspension in rats[].Journal of Gravitational Physiology.1998
  • 5Bonde-Petersen F,Suzuki Y,Kawakubo K,et al.Capillary filtration rate, venous compliance and blood flow in arms and legs do not change during bed rest for 20 days[].Journal of Gravitational Physiology.1994
  • 6Custaud MA,Millet C.No effect of venoconstrictive thigh cuffs on orthostatic hypotension induced by head-down bed rest[].Acta Physiologica Scandinavica.2000
  • 7Buckey JC Jr,Lane LD,Levine BD,et al.Orthostatic intolerance after spaceflight[].Journal of Applied Physiology.1996
  • 8Watenpaugh DE,Buckey JC,Lane LD,et al.Effect of space-fight on human calf hemodynamics[].Journal of Applied Physiology.2001
  • 9Dunbar SL,Tamhidi L,Berkowitz DE,et al.Hindlimb unweighting affects rat vascular capacitance function[].American Journal of Physiology Heart and Circulatory Physiology.2001
  • 10Louisy F,Schroiff P,Quezennec CY,et al.Venous distensibility and venous emptying in the legs during a 42-day head-down bedrest[].Journal of Gravitational Physiology.1995

同被引文献5

引证文献2

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部