Eun Key Kim1, Guang Li, Taik Jong Lee, Joon Pio Hong. 1. Seoul, Korea From the Department of Plastic Surgery, Asan Medical Center, and the Laboratory of Immunology and Transplantation, Asan Institute for Life Science, University of Ulsan College of Medicine.
Abstract
BACKGROUND: Among hundreds of pathophysiologic factors that impair healing of the diabetic foot, diminished perfusion and neovascularization are critical. This study aimed to show the effect of human adipose-derived stem cells on healing of ischemic wounds in diabetic nude mice and thus to estimate the possibilities of adipose-derived stem cells for diabetic wound care. METHODS: Sixty nude mice were assigned randomly into group Ia (diabetic control, n = 20), group Ib (diabetic experimental, n = 20), or group II (nondiabetic control, n = 20). After creation of an ischemic limb, human adipose-derived stem cells were injected locally. Gross and histologic observations were made after 3, 7, and 25 days, and plasma and tissue levels of vascular endothelial growth factor were quantified. RESULTS: Group Ia animals typically showed gangrene formation with a delayed and sustained inflammatory reaction, which led to a high rate of autoamputation and a lower survival rate. Group Ib animals had a tendency for earlier and abundant neovessel formation and better tissue remodeling rather than fibrotic cicatrization, resulting in lower rate of autoamputation and a survival rate comparable to group II. Surviving stem cells were identified at day 25, but no specific differentiation was observed. Plasma and tissue vascular endothelial growth factor level in group Ib was higher than in group Ia and comparable to that in group II. CONCLUSIONS: This study demonstrated the beneficial effect of human adipose-derived stem cells on healing of ischemic wound in diabetic nude mice. Elevation of vascular endothelial growth factor levels in plasma and tissue suggests the importance of secretory factor, which regulates local angiogenesis and triggers a systemic response.
BACKGROUND: Among hundreds of pathophysiologic factors that impair healing of the diabetic foot, diminished perfusion and neovascularization are critical. This study aimed to show the effect of human adipose-derived stem cells on healing of ischemic wounds in diabeticnude mice and thus to estimate the possibilities of adipose-derived stem cells for diabetic wound care. METHODS: Sixty nude mice were assigned randomly into group Ia (diabetic control, n = 20), group Ib (diabetic experimental, n = 20), or group II (nondiabetic control, n = 20). After creation of an ischemic limb, human adipose-derived stem cells were injected locally. Gross and histologic observations were made after 3, 7, and 25 days, and plasma and tissue levels of vascular endothelial growth factor were quantified. RESULTS: Group Ia animals typically showed gangrene formation with a delayed and sustained inflammatory reaction, which led to a high rate of autoamputation and a lower survival rate. Group Ib animals had a tendency for earlier and abundant neovessel formation and better tissue remodeling rather than fibrotic cicatrization, resulting in lower rate of autoamputation and a survival rate comparable to group II. Surviving stem cells were identified at day 25, but no specific differentiation was observed. Plasma and tissue vascular endothelial growth factor level in group Ib was higher than in group Ia and comparable to that in group II. CONCLUSIONS: This study demonstrated the beneficial effect of human adipose-derived stem cells on healing of ischemic wound in diabeticnude mice. Elevation of vascular endothelial growth factor levels in plasma and tissue suggests the importance of secretory factor, which regulates local angiogenesis and triggers a systemic response.
Authors: Vivian Capilla-González; Javier López-Beas; Natalia Escacena; Yolanda Aguilera; Antonio de la Cuesta; Rafael Ruiz-Salmerón; Franz Martín; Abdelkrim Hmadcha; Bernat Soria Journal: Mol Ther Date: 2018-08-16 Impact factor: 11.454
Authors: Shasha Yu; Nattawat Klomjit; Kai Jiang; Xiang Y Zhu; Christopher M Ferguson; Sabena M Conley; Yasin Obeidat; Todd A Kellogg; Travis McKenzie; Julie K Heimbach; Amir Lerman; Lilach O Lerman Journal: J Cardiovasc Transl Res Date: 2022-05-26 Impact factor: 4.132