Objective To evaluate repair and reconstructionof the femoral pseudoaneurysm caused by drug injection. Methods From May 2000 to May 2005, 15 cases of femoral pseudoaneurysm caused by drug injection underwent operation treatment. All patients were male, aging 20-36 years. The disease course was 18-52 days(mean 35 days) and the course of druginjection was 3-17 months. The locations were the left side in 5 cases and theright side in 10 cases. After having been bandaged with pressure and supportedwith nutrition, they had been all operated. One case received fistula repair, and 14 cases received vascular grafting with ePTFE man-made blood vessel. Results The wounds healed by the first intention in 14 cases. All limbs survived. The complexion, temperature and response of involved leg were in gear. The postoperative color ultrasound Doppler detection showed that all the vascular grafts were of patency. The function of the involved limbs restored to normal. Conclusion Complete debridement, vascular reconstruction and better microsurgery skill were the key factors of treating successfullythe femoral pseudoaneurysm caused by drug injection.
Since Oct. 1990, the 2nd metatarso-phalangeal joint and big-toe nail composite graft with the neuro-vascular bundle was transplanted to reconstruct the thumb in 4 cases. The transplants were all survived. The follow-up through 5 months, a comparatively good function and appearance were achieved.The applied anatomy, the surgical technique and the matters needing attention were detailed.
Objective To evaluate which is better method zymogen or low temperature frozen in removing vascular endothelial cell so as to lay a foundation for creating a kind of brace which is not to be rejected and the same as own blood vessel. Methods Fresh and not damaged umbilical blood vessel was collected from natural labour women, human umbilical blood vessel was remove carefully from normal foetus, then was put into disinfectant at 37℃ for 24 hours. They were divided into 3 groups:normal group(NG),zymogen group(ZG) and low temperature frozen group(LG). ZG: 0.1% collagenⅡ enzyme was addedin umbilical blood vessel and closed the both sides and the vascular endothelialcell was removed in 37℃ water. LG:Umbilical blood vessel was put into liquidnitrogen for 24 hours after frozened step by step, and then it was put into 37℃ water for 30-60 s and the vascular endothelial cells were washed away by normal saline. NG:Umbilical blood vessel was kept into 4℃ Kerb’s liquid. The bacteria were culturedin each group. The samples were stained by HE,elastic fiber and collagen fiberwere observed by light and scanning electron microscope. The difference of compliance was compared. Human leukocyte antigen ABC(HLA-ABC) and HLA-DR were observed by immunohistochemical method and the expression of antigen of umbilical blood vessel was analysed. Results In LG, umbilical vascular endothelial cells were removed completely; artery showed vertical smooth muscle and vein showed elastic membrane. InZG, umbilical vascular endothelial cells were removed completely after 20 minutes;artery showed vertical smooth muscle cells and vein showed lower endothelial layer. The vascular compliance in LG was higher than that in NG, and the latter was also higher than that in ZG,but showing no significant differences (Pgt;0.05). The compliance of umbilical vein was 2-3 times as much asthat of umbilical artery.The expression of HLA-ABC and HLA-DR in LG andZG were lower than that in NG, showing significant differences (Plt;0.01). Conclusion Low temperature frozen methodand zymogen method(0.1% collagen Ⅱ enzyme for 20 min) can remove vascular endothelial cells of human umbilical blood vessel completely.Low temperature frozenmethod was better than zymogen method.
From March 1979 to February 1987, 500 cases of firearm wounds of blood vessels were treated. Of them, 465 cases were recovered, 15 cases were disabled, 13 cases had amputation, and 7 cases died. The article presented the clinic materials. The following problems were discussed: (1) The characteristics of firearm wounds of blood vessels. (2) Emergency treatment of injuries of major blood vessels of limbs. (3) Indications of repair of blood vessels. (4) The methods of repair of defect in blood vessel. (5)Factors influencing the survival of extremities, and (6) Active prevention and treatment of complication.
Standard venographies were pcrformed to evaluate the endothelial damage by the contrast medium. After different time intervals, the local veins were prepared for transmission and scanning electron microscopy (TEM and SEM) investigation. The veins were in a dilated state after the angiographies, which lasted for about two days. The endothelial damage was most severe 1 day after the venography. Besides the lesions of extensive endothelial tissurs, dcsquamations, and the exposure of subendothelial tissues, microthrombi somethimes were found. Healing occurred within 3 days. The results this study has also verifieed that it was more valuable to study venogqaphic effects on veins with TEM and SEM.
OBJECTIVE To compare the permeability and incidence rate of complication of arteriovenous internal fistula made by autogenous, homologous, and artificial Teflon blood vessels. METHODS Two hundred and forty one cases with arteriovenous internal fistula made by autogenous, homologous, and artificial Teflon blood vessels were followed up to compare the permeability and incidence rate of complication at 6 months, 1 year, 3 years, and 5 years. RESULTS The incidence rate of complication of autogenous blood vessels was lowest, it had no statistical differences compared with arteriovenous internal fistula made by homologous blood vessels. The permeability of arteriovenous internal fistula made by homologous blood vessels was highest, and it had no statistical differences compared with autogenous blood vessels. The permeability of arteriovenous internal fistula made by artificial Teflon blood vessels was lowest, but the incidence rate of complication was highest, and it had significantly statistical differences compared with arteriovenous internal fistula made by autogenous blood vessels (P lt; 0.01). CONCLUSION Arteriovenous internal fistulas made by autogenous and homologous blood vessels have high permeability and low incidence rate of complication, they are superior to the arteriovenous internal fistula made by artificial Teflon blood vessels.
Objective To explore the influence of different stress environmentson the growth of tissue engineering blood vessels in vivo. Methods The engineering vascular scaffolds were prepared with the porcine small intestinal submucosa(SIS) wrapping vascular endothelial cells and smooth muscle cells,which were implanted into the subcutaneous tissue(subcutaneous group), the femoral quadriceps(intramuscular group), and sheathed the femoral artery(perivascular group) respectively. Four weeks postoperatively, these cultured tissues were harvested, and evaluated by macroscopic observation and histology detection. Results The cultivated tissues in different stress environments had obvious difference in respectof the tubular configuration, cellular proliferation and tissue shape. In subcutaneous group, the wall structure integrity, seed cell proliferation and SIS scaffold decomposition were poor, lumen surface was covered without endothelial cells; in intramuscular group, integrity tubular structure had formed, seed cell proliferation was found to a certain extent, lumen surface was covered with sparseendothelial cells, and a little SIS scaffold was found, cellular and fiber structured arranged irregularly; in perivascular group, vascular-like structure formed, the seed cell growth and proliferation were good, the lumen surface was completely covered with endothelial cells, the smooth muscle cells were in good morphologicaldistribution, the antihydrostatic pressure was 247.0±35 kPa,showingsignificant differences when compared with subcutaneous group(67.0±5.8 kPa) and intramuscular group(104.0±7.6 kPa) (Plt;0.01).The total scoring of tissue engineering blood vessel formation in subcutaneous group, intramuscular group and perivascular group were 5.529±0.272,8.875±0.248 and 14.824±0.253 respectively, and the differences among them were significant (P lt; 0.05). Conclusion Stress excitation has a great influence on the cellular proliferation and the growth of tissue engineering blood vessel in vivo.
Objective To investigate the application and clinical efficacy of orthotopic autologous renal transplantation combined with inferior vena cava (IVC) resection and reconstruction in retroperitoneal tumor. Methods The clinical data of a patient with complex retroperitoneal tumor was analyzed retrospectively. Abdominal CT examination showed that the tumor originated from IVC and invaded the retrohepatic IVC and bilateral renal vein trunks. Intraoperative ultrasound exploration revealed mechanized thrombosis in the IVC and bilateral renal vein trunks. After blocking the left renal vein, no significant hemodynamic changes were seen before and after intraoperative ultrasound exploration and contrast-enhanced ultrasound. Results After complete removal of the left renal vein and suture of the severed end, the right renal vein was successfully reconstructed with an orthotopic autologous right kidney graft combined with IVC resection after removal of the mechanized thrombus. The patient recovered well after surgery, and a repeat CT showed that the reconstructed artificial IVC was patent, and the color Doppler ultrasonography of both kidneys showed good perfusion and no obstruction of return. The patient was given oral rivaroxaban anticoagulant therapy after operation, and discharged at 19 days after operation. The postoperative pathological findings suggested inferior vena cava smooth muscle sarcoma. Conclusion Orthotopic autologous renal transplantation combined with IVC resection and reconstruction for complex retroperitoneal tumor is safe and feasible, and the left renal vein can be ligated and dissected intraoperatively, but a comprehensive evaluation with intraoperative ultrasound (imaging) is required.
PURPOSE:To observe tbe development of structure of the retinal blood vessels in human fetuses. METHODS:The retinas of 134 human fetuses from 12-weeks of fertilization to full term and of 4 adults were collected,and examined with immunohlstoebemical method. RESULTS:The examinations showed:(1)The spindle ceils only existed in the retinas of fetuseslt;27 weeks. Till full term,the vessels in ganglion cell layer(GCL)was still budding. (2)BM of all arterioles,venules and capillaries within the retinas of all fetuses and adults,was immunostained after exposure to antlsera against fibronectin.The laminin(LN)and type Ⅳ collagen(COL-Ⅳ)immunoreactive product appeared outside tbe endothelial cells of blood vessels in GCL at 25 weeks and 29 weeks,and tile b LN and COL-Ⅳ immunostaining around four layers of the retinal vessels in tile shape of sbeath appeared at 29 weeks and 32 weeks respectively. (3)As soon as the cords of the endothelial cells were canaized,the smooth muscle cells and perieytes appeared outside the walls. (4)While four layers of the retinal vasculature was spreading to the ora serrata,the glial limitans was formed outside the endothelial cells by the processes of astrocytes and Muuml;ller cells. CONCLUSIONS:Comparing with the adults,certain de fleieneies of the structure of the retinal vessels exisl in the human fetus,and tile endnthelial cells in the retina of the full lerm fetus arc still in proliferation and migration. (Chin J Ocul Fundus Dis,1997,13:153-156)
We aimed to establish an optical coherence tomography (OCT) system to measure the strain of blood vessels. A general OCT system was constructed firstly and its reliability was confirmed by comparing the OCT imaging of the porcine coronary and the corresponding histological slices. The strain of the porcine coronary was induced by static flow pressure and correlation algorithm was used to calculate the strain field of blood vessels within OCT images. The results suggest that bright-dark stratification of blood vessels displayed in OCT images is consistent with the intima and media layers of histological image. Furthermore, the strain of media layer is greater than that of the intima layer under the same static pressure. The optical coherence imaging system could not only measure the histological structure of the blood vessels, but also qualify the vessel strain under flow pressure.