Objective To investigate whether exogenic brain derived neurotrophic factor (BDNF) can permeate placental barrier into fetus and further through fetal blood brain barrier(BBB) after transient ischemia. Methods Seventeen day pregnant rats were selected. The uterine arteries of the rats were clamped for 30 minutes in experimental group. BDNF labeled with 125 I was injected into the rats through caudal veins. The radioactivity of BDNF in different fetal organs was measured at 24 h, 48 h and 72 h. Results 125 I BDNF was detected in amniotic fluid, placenta and fetal organs including brain, heart, lung, liver and kidney. This indicated that BDNF partly permeated placental barrier. The permeability of BDNF through placenta barrier and fetal BBB increased with the increased dose injected. BDNF reached the fetal brain through BBB under hypoxia eschemia condition. The rates of penetration of BDNF through placental barrier and BBB increased under the condition of fetal ischemia and hypoxia. Conclusions Exogenic BDNF may partly go through placental barrier and BBB into fetal brain, which makes it possible for BDNF to be a treatment for fetus suffered from ischemia and hypoxia.

Objective To investigate the influence of anti-angiogenesis therapy on proliferation and apoptosis of fibroblasts derived from keloids. Methods Thirty pieces of keloids from a patient were implanted into subcutaneous tissue of the nude mice, 24 pieces of which survived were divided into three groups which were treated with perilesional injection of vascular endothelial growth factor( VEGF) (0.4 mg/0.2 mL) , Endostar(0.125 g/0.2 mL) and physiological saline (0.2 mL)on the 21 d, 23 d, 25 d, 27 d after implantation. Sample were collected on the 10th day after perilesional injection, the proliferating fibroblasts in keloid tissue were immunohistochemically detected by proliferating cell nuclear antigen (PCNA) expression. The apoptotic cell was detected by terminal deoxynucleotidyl transferase dUTP-nick end labeling (TUNEL) staining. Results IHC staining indicated that PCNA expression of fibroblasts was significantly increased in keloid tissue after VEGF injection, PCNA expression of fibroblasts was significantly reduced in keloid tissue after Endostar injection,TUNEL assay revealed lower apoptotic cells expression in the keloid tissue after VEGF injection and higher in the Endostar group than control group. The rate of proliferative index (PI) , apoptotic index(AI) and AI/PI of fibroblasts in keloid after VEGF (PI:41.13 ±2.29,AI:5.75 ±1.28,AI/PI: 0.14 ± 0.04)or Endostar injection (PI:27.25 ±2.61,AI:11.00±1.31,AI/PI:0.41 ±0.09)and control group (PI: 34.75 ±3.62,AI:7. 88 ± 1.64,AI/PI:0. 23 ±0.07) showed statistical differences. Conclusion Anti-angiogenesis therapy is shown to induce keloid regression through suppression of keloid fibroblast proliferation,induction of apoptosis, which may be a new approach for the treatment of keloids.