OBJECTIVES: Previous studies have demonstrated that hypertension and diabetes induce significant structural remodelling of resistance arteries from various vascular beds. The hypothesis of this study is that structural alterations of small coronary arteries may occur during hypertension and diabetes. This study is the first to compare human coronary small resistance artery structure from normotensive and hypertensive patients, with and without diabetes undergoing coronary arterial bypass graft surgery. METHODS: Small arteries were dissected from the atrial appendage removed from nondiabetic normotensive patients, nondiabetic hypertension and diabetic normotensive patients and hypertensive diabetic patients. Arteries were mounted in a pressure myograph and lumen diameter and wall thickness were measured across the pressure range of 3-100 mmHg to assess vessel structure and distensibility. RESULTS: There were no significant differences in the lumen diameter, wall thickness, wall-to-lumen ratio and cross-sectional area of arteries in all groups. Arteries from nondiabetic patients with hypertension demonstrated decreased distensibility compared with nondiabetic normotensive patients. There is no difference in distensibility between vessels from diabetic hypertensive patients and either diabetic or nondiabetic normotensive patients. CONCLUSION: Neither diabetes nor hypertension appears to have influenced arterial structure which may indicate that successful treatment of hypertension is associated with normal vascular structure in coronary small arteries.
OBJECTIVES: Previous studies have demonstrated that hypertension and diabetes induce significant structural remodelling of resistance arteries from various vascular beds. The hypothesis of this study is that structural alterations of small coronary arteries may occur during hypertension and diabetes. This study is the first to compare human coronary small resistance artery structure from normotensive and hypertensivepatients, with and without diabetes undergoing coronary arterial bypass graft surgery. METHODS: Small arteries were dissected from the atrial appendage removed from nondiabetic normotensivepatients, nondiabetic hypertension and diabetic normotensivepatients and hypertensive diabeticpatients. Arteries were mounted in a pressure myograph and lumen diameter and wall thickness were measured across the pressure range of 3-100 mmHg to assess vessel structure and distensibility. RESULTS: There were no significant differences in the lumen diameter, wall thickness, wall-to-lumen ratio and cross-sectional area of arteries in all groups. Arteries from nondiabeticpatients with hypertension demonstrated decreased distensibility compared with nondiabetic normotensivepatients. There is no difference in distensibility between vessels from diabetic hypertensivepatients and either diabetic or nondiabetic normotensivepatients. CONCLUSION: Neither diabetes nor hypertension appears to have influenced arterial structure which may indicate that successful treatment of hypertension is associated with normal vascular structure in coronary small arteries.
Authors: Jie Xu; Jayanti Mathur; Emilie Vessières; Scott Hammack; Keiko Nonomura; Julie Favre; Linda Grimaud; Matt Petrus; Allain Francisco; Jingyuan Li; Van Lee; Fu-Li Xiang; James K Mainquist; Stuart M Cahalan; Anthony P Orth; John R Walker; Shang Ma; Viktor Lukacs; Laura Bordone; Michael Bandell; Bryan Laffitte; Yan Xu; Shu Chien; Daniel Henrion; Ardem Patapoutian Journal: Cell Date: 2018-04-19 Impact factor: 41.582
Authors: Yi Xue; Min Wen Zheng; Yang Hou; Fan Zhou; Jian Hua Li; Yi Ning Wang; Chun Yu Liu; Chang Sheng Zhou; Jia Yin Zhang; Meng Meng Yu; Bo Zhang; Dai Min Zhang; Yan Yi; Lei Xu; Xiu Hua Hu; Guang Ming Lu; Chun Xiang Tang; Long Jiang Zhang Journal: Eur Radiol Date: 2022-01-12 Impact factor: 5.315
Authors: Agnes Jumar; Joanna M Harazny; Christian Ott; Stefanie Friedrich; Iris Kistner; Kristina Striepe; Roland E Schmieder Journal: PLoS One Date: 2016-12-09 Impact factor: 3.240