OBJECTIVE: Promoting angiogenesis may be an effective treatment for patients with diffuse peripheral vascular disease. This study investigated whether estrogen can promote angiogenesis and perfusion in a rabbit model of chronic limb ischemia. METHODS AND RESULTS: Ischemia was induced in one hindlimb of 24 oophorectomized New Zealand White rabbits. Ten days later (day 0), they were randomized into 4 groups for intramuscular treatment in the ischemic limb: controls receiving saline at day 0; Estrogen-1 group receiving estradiol valerate, modified release (EVMR), 1 mg/kg at day 0; Estrogen-2 group receiving EVMR 1 mg/kg at days 0 and 15; and Estrogen-3 group receiving EVMR 2 mg/kg at day 0. Revascularization was evaluated by clinical indexes, such as ischemic/normal limb systolic blood pressure (BPR), and capillary density/muscle fiber in the abductor muscle of the ischemic limb at the time of death (day 30). At day 30 the BPR was increased in all groups (0.39+/-0.08 in the controls, 0.52+/-0.11 in the Estrogen-1 group, 0.65+/-0.13 in the Estrogen-2 group and 0.61+/-0.16 in the Estrogen-3 group, F=2.39, P=0.04). The capillary/muscle fiber at day 30 was 0.87+/-0.09, 1.08+/-0.15, 1.01+/-0.14 and 1.10+/-0.9 (F=5.01, P=0.01), respectively, in the 4 groups. The capillary/muscle fiber was related to BPR (r=0.48, P<0.02) and to 17-beta estradiol plasma levels of day 15 (r=0.58, P=0.003) and of day 30 (r=0.46, P<0.02). CONCLUSION: Administration of estrogen promotes angiogenesis and perfusion in ischemic rabbit hindlimbs. Thus, estrogen may represent a new therapeutic modality in the management of arterial insufficiency.
OBJECTIVE: Promoting angiogenesis may be an effective treatment for patients with diffuse peripheral vascular disease. This study investigated whether estrogen can promote angiogenesis and perfusion in a rabbit model of chronic limb ischemia. METHODS AND RESULTS:Ischemia was induced in one hindlimb of 24 oophorectomized New Zealand White rabbits. Ten days later (day 0), they were randomized into 4 groups for intramuscular treatment in the ischemic limb: controls receiving saline at day 0; Estrogen-1 group receiving estradiol valerate, modified release (EVMR), 1 mg/kg at day 0; Estrogen-2 group receiving EVMR 1 mg/kg at days 0 and 15; and Estrogen-3 group receiving EVMR 2 mg/kg at day 0. Revascularization was evaluated by clinical indexes, such as ischemic/normal limb systolic blood pressure (BPR), and capillary density/muscle fiber in the abductor muscle of the ischemic limb at the time of death (day 30). At day 30 the BPR was increased in all groups (0.39+/-0.08 in the controls, 0.52+/-0.11 in the Estrogen-1 group, 0.65+/-0.13 in the Estrogen-2 group and 0.61+/-0.16 in the Estrogen-3 group, F=2.39, P=0.04). The capillary/muscle fiber at day 30 was 0.87+/-0.09, 1.08+/-0.15, 1.01+/-0.14 and 1.10+/-0.9 (F=5.01, P=0.01), respectively, in the 4 groups. The capillary/muscle fiber was related to BPR (r=0.48, P<0.02) and to 17-beta estradiol plasma levels of day 15 (r=0.58, P=0.003) and of day 30 (r=0.46, P<0.02). CONCLUSION: Administration of estrogen promotes angiogenesis and perfusion in ischemicrabbit hindlimbs. Thus, estrogen may represent a new therapeutic modality in the management of arterial insufficiency.
Authors: Ewa K Stuermer; Marina Komrakova; Carsten Werner; Michael Wicke; Leila Kolios; Stephan Sehmisch; Mohammad Tezval; Clara Utesch; Orzala Mangal; Sebastian Zimmer; Christian Dullin; Klaus M Stuermer Journal: Calcif Tissue Int Date: 2010-06-09 Impact factor: 4.333