BACKGROUND: Hypertension and type-2 diabetes affect endothelial function, which in turn increases the expression of soluble adhesion molecules and lead to the development of vascular damage. The aim of this study was to assess soluble adhesion molecule levels among normotensive and hypertensive diabetic patients. MATERIAL AND METHODS: Serum levels of soluble VCAM1, ICAM1 and e-selectin were measured in 80 type-2 diabetic patients, (40 normotensive and 40 hypertensive), and in 40 normotensive non-diabetic subjects by ELISA (RyDSystems Minneapolis). Statistical analysis was performed with ANOVA. RESULTS: Among diabetic patients, levels of all three soluble adhesion molecules were significantly increased when compared with non-diabetic patients (p < 0.001 for all three molecules), In diabetic hypertensive patients, higher levels of ICAM1 were detected in comparison to normotensive diabetic patients (316 vs. 295 ng/ml p < 0.01), VCAM1 and e-selectin levels were not different between diabetic patients with and without hypertension. CONCLUSIONS: Diabetes is associated with increased levels of soluble adhesion molecules, suggesting a role of these molecules may play in endothelial damage. ICAM1 is further increased when hypertension and diabetes are present. The latter may explain why diabetic-hypertensive patients displayed more complications than normotensive patients.
BACKGROUND:Hypertension and type-2 diabetes affect endothelial function, which in turn increases the expression of soluble adhesion molecules and lead to the development of vascular damage. The aim of this study was to assess soluble adhesion molecule levels among normotensive and hypertensive diabeticpatients. MATERIAL AND METHODS: Serum levels of soluble VCAM1, ICAM1 and e-selectin were measured in 80 type-2 diabeticpatients, (40 normotensive and 40 hypertensive), and in 40 normotensive non-diabetic subjects by ELISA (RyDSystems Minneapolis). Statistical analysis was performed with ANOVA. RESULTS: Among diabeticpatients, levels of all three soluble adhesion molecules were significantly increased when compared with non-diabeticpatients (p < 0.001 for all three molecules), In diabetic hypertensivepatients, higher levels of ICAM1 were detected in comparison to normotensive diabeticpatients (316 vs. 295 ng/ml p < 0.01), VCAM1 and e-selectin levels were not different between diabeticpatients with and without hypertension. CONCLUSIONS:Diabetes is associated with increased levels of soluble adhesion molecules, suggesting a role of these molecules may play in endothelial damage. ICAM1 is further increased when hypertension and diabetes are present. The latter may explain why diabetic-hypertensivepatients displayed more complications than normotensive patients.
Authors: Alberto Francisco Rubio-Guerra; Hilda Vargas-Robles; Alberto Maceda Serrano; Jose Juan Lozano-Nuevo; Bruno Alfonso Escalante-Acosta Journal: Cell Adh Migr Date: 2009-10-07 Impact factor: 3.405