Repairing diabetic rats with bone defect by VEGF165 gene modified adipose-derived stem cells / 中国骨伤

ABSTRACT

<p><b>OBJECTIVE</b>To explore repairing results of VEGF165 gene modified adipose-derived stem cells for diabetic rats with bone defect.</p><p><b>METHODS</b>Seventy-eight male Wistar rats weighted 180 to 220 g were selected, 72 rats were established diabetic animal models by streptozotocin inducement method, blood glucose level was more than 16.7 mmol/L. Experimental animals were randomly divided into 5 groups, 6 rats in normal group and each 18 rats in other groups. VEGF165 gene modified adipose-derived stem cells were implanted into normal group with bone defect; single diabetic rats with bone defect were named as diabetic group;vascular endothelial growth factor implanted into single diabetic rats with bone defect named as growth factor group; adipose-derived stem cells implanted into diabetic rats with bone defect names as stem cell group; VEGF165 gene modified adipose-derived stem cells implanted diabetic rats with bone defect named as experimental group. After combination of VEGF165-ADSCs (5×106) cells combined with gel sponge, implanted into diabetic rats with bone defect. On the forth week, general form of defect repairing tissue were observed by optical microscopy;local density of micro-vessel were detected by immunohistochemistry method; content of Ca, P and ALP of repairing callus were detected by IRIS Intrepid XSP inductively coupled plasma emission spectrometer. Efficacy of the VEGF165-ADSCs repairing function was evaluated by SPSS statistic software.</p><p><b>RESULTS</b>Fluorescent staining results showed that expression of VEGF165 located on cytoplasm of ADSCs, expression percentage was more than 87%; general histology results showed that callus formation and quality was near to normal group, repairing results in diabetes group, growth factor group and stem cell group were poor. On the Forth week after implantation, content of Ca, P and ALP of repairing callus in experimental group were higher than those in growth group and stem cell group, and without significant differences compared with normal group; blood vessel density in experimental group was lower than normal group, but higher than other groups.</p><p><b>CONCLUSIONS</b>VEGF165 gene modified adipose-derived stem cells for repairing diabetic rats with bone defect has advantages of osteogenesis and angiogenesis, and should be one of the effective method for repairing diabetic rats with bone defect.</p>