TY - JOUR
T1 - The endothelium-dependent response of human hepatic artery after preservation with the UW solution
AU - Jeng, Long Bin Benjamin
AU - Lin, Pyng Jing
AU - Yao, Pei Chin
AU - Chen, Miin Fu
AU - Chang, Chau Hsiung
PY - 1996/3
Y1 - 1996/3
N2 - The University of Wisconsin's (UW) solution has been used commonly for current liver transplantation. However, its effect on the vascular endothelium remains unclear. Experiments were designed to study the effects. Human hepatic arteries harvested from patients with hepatocellular carcinoma undergoing liver resection were preserved in 4°C physiological solution (group 1, the content showed on the text) and UW solution (group 2) for 1 hr. Segments of preserved and control (group 3) hepatic arteries were suspended in organ chamber to measure the isometric force. The relaxations to acetylcholine (ACH) and adenosine diphosphate in segments of hepatic artery with endothelium were significantly greater than those segments without endothelium. The maximal relaxation to ACH in arterial segments with endothelium of group 2 was significantly different from those of group 1 and 3 (group 1 to group 3, 82 ± 2%, 57 ± 6%, and 83 ± 4% of the initial tension contracted by norepinephrine (3 x 10-7 mole/l, P < 0.05). The maximal relaxation to adenosine diphosphate was similar to the response to ACH. Perfusate hypoxia (oxygen tension 30 ± 5 mmHg) caused endothelium- dependent contraction of the arterial segments (group 1 to group 3, 233 ± 32%, 276 ± 35%, and 251 ± 40% of the initial tension, P > 0.05). Endothelium-independent relaxation and contraction of human hepatic artery to sodium nitroprusside and norepinephrine were not altered by UW solution. In summary, the impaired endothelium-dependent relaxation by UW solution and prominent endothelium-dependent contraction to hypoxia of human hepatic artery would favor vasospasm and thrombus formation after liver transplantation.
AB - The University of Wisconsin's (UW) solution has been used commonly for current liver transplantation. However, its effect on the vascular endothelium remains unclear. Experiments were designed to study the effects. Human hepatic arteries harvested from patients with hepatocellular carcinoma undergoing liver resection were preserved in 4°C physiological solution (group 1, the content showed on the text) and UW solution (group 2) for 1 hr. Segments of preserved and control (group 3) hepatic arteries were suspended in organ chamber to measure the isometric force. The relaxations to acetylcholine (ACH) and adenosine diphosphate in segments of hepatic artery with endothelium were significantly greater than those segments without endothelium. The maximal relaxation to ACH in arterial segments with endothelium of group 2 was significantly different from those of group 1 and 3 (group 1 to group 3, 82 ± 2%, 57 ± 6%, and 83 ± 4% of the initial tension contracted by norepinephrine (3 x 10-7 mole/l, P < 0.05). The maximal relaxation to adenosine diphosphate was similar to the response to ACH. Perfusate hypoxia (oxygen tension 30 ± 5 mmHg) caused endothelium- dependent contraction of the arterial segments (group 1 to group 3, 233 ± 32%, 276 ± 35%, and 251 ± 40% of the initial tension, P > 0.05). Endothelium-independent relaxation and contraction of human hepatic artery to sodium nitroprusside and norepinephrine were not altered by UW solution. In summary, the impaired endothelium-dependent relaxation by UW solution and prominent endothelium-dependent contraction to hypoxia of human hepatic artery would favor vasospasm and thrombus formation after liver transplantation.
UR - http://www.scopus.com/inward/record.url?scp=0343773387&partnerID=8YFLogxK
U2 - 10.1006/jsre.1996.0150
DO - 10.1006/jsre.1996.0150
M3 - 文章
C2 - 8656629
AN - SCOPUS:0343773387
SN - 0022-4804
VL - 61
SP - 477
EP - 481
JO - Journal of Surgical Research
JF - Journal of Surgical Research
IS - 2
ER -