Objective To study the feasibility of transplanting autologous venous endothelial cells, as the liner, to the allogenic vein and to investigate the patency rate after such transplantation. Methods Autologous endothelial cells were gained after the administration of 0.2% collagenase and the centrifugalization of the enzyme liquid. The cells were not cultivated in a 60 ml plastic culture until the presence of the second generation. The cultivated cells were confirmed as endothelial cells by factor Ⅷ related antigen. The multiplied cells were lined in vitro onto the luminal surface of allogenic vein that was disposed by freeze-drying and radiation. The orthotopic transplantation of autologous venous endothelial cells was performed after the 9-day incubation. Results (9.47±0.35)×106 endothelial cells were obtained after the cultivation. Three hours after cell seeding, the luminal surface of allogenic vein was covered with vast endothelial cells but still had not formed an intact endomembrane. On day 9, the luminal surface was covered with a continuous endothelial monolayer and the arrangement and the shape of the cells all showed the perfect condition of endothelial cells. Eight weeks later, all the transplanted veins kept unobstructed. Conclusion The approach of lining allogenic vein with autologous endothelial cells in vitro may keep the vein unobstructed in the long term.
周围静脉疾病是临床上的常见病和多发病,其发病率为20%~40%,皮肤营养障碍占2%~5%[1,2] ,发病率比动脉疾病约高10倍,发病机理比动脉疾病复杂,分类方法亦不一致,至今存在着争论。下肢慢性静脉功能不全(chronic venous insufficiency,CVI)按其病因可分为原发性、继发性及先天性; 按解剖范围可分为浅、深和交通静脉3个系统,亦即包括浅静脉曲张、深静脉瓣膜功能不全、深静脉血栓形成后遗症、交通静脉瓣膜功能不全等[3,4]。多年来下肢浅静脉曲张主张施行大隐静脉高位结扎加剥脱术,但术后复发者较多。近年来,随着国内、外学者对CVI的深入研究,尤其是对深静脉瓣膜功能不全的认识,使传统下肢浅静脉曲张的概念发生了根本转变。下肢浅静脉曲张已不再被认为是一个独立的疾病,而是一种可由多种不同病因引起的共同临床表现……
Objective To compare the effectiveness, complications, and follow-up results between endovascular recanalization (EVR) and open surgical revascularization (OSR) in the treatment of peripheral pseudoaneurysm, so as to provide a reference for choosing a appropriate surgical procedure. Methods Clinical data of 62 cases of peripheral pseudoaneurysm between January 2001 and January 2012 were analyzed retrospectively. EVR was performed in 28 patients (EVR group) and OSR in 34 patients (OSR group). There was no significant difference in gender, age, cause of injury, tumor location, and diameter of tumor between 2 groups (P gt; 0.05). Results The operation time, blood loss, ICU monitoring time, and hospitalization time in EVR group were significantly shorter than those in OSR group (P lt; 0.05). In OSR group, 12 cases (35.29%) had early postoperative complications, including 2 deaths due to acute respiratory distress syndrome, 5 cases of pulmonary infection, 3 cases of wound infection, and 2 cases of deep vein thrombosis; in EVR group, 2 cases (7.14%) had early postoperative complications, including 1 case of hematoma at puncture site and 1 case of thrombosis in stent. There was significant difference in early postoperative complication incidence between 2 groups (χ2=6.691, P=0.008). The patients were followed up 12-39 months (mean, 26 months). In OSR and EVR groups after operation, the patency rates of the reconstructed vessels were 96.88% (31/32) and 92.86% (26/28) respectively at 12 months, showing no significant difference (χ2=0.014, P=0.905); the patency rates were 89.29% (25/28) and 84.00% (21/25) respectively at 24 months, showing no significant difference (χ2=0.322, P=0.570). Conclusion Compared with OSR, EVR is a minimally invasive, safe, and effective therapy for peripheral pseudoaneurysm with the advantages of less bleeding, shorter hospitalization time, and less complications. Long-term effectiveness still needs further observation, and patients have to take antiplatelet drugs for long time after EVR.
Objective To observe the ultrastructure of theca interna of the de-endothelium allogenetic blood vessels in dogs by transmission and scanning electron microscope at different phases. Methods The endothelium of the allogenetic blood vessels were first removed and cryodensiccated, and were then end to end anastomosed to canine femoral artery. Samples were collected and observed with scanning and transmission electron microscope on the first, second, fourth, eighth, twelfth, sixteenth, and twentieth week after transplantation, respectively. Results A layer of cellulose membrane was formed on the surface of allogenetic blood vessels one week after transplantation; Fusiform cells were observed at the anastomotic stoma of the allogenetic blood vessels two weeks after transplantation, and theca interna, which was covered by fusiform cells and elliptical erythrocytes, was formed twelve weeks later; Slightly hyperplastic smooth muscle cells and collagenous fibers were observed under the endothelium twelve to twenty weeks after transplantation. Conclusion The endothelium cells could cover the surface of the allogenetic blood vessels without remarkable hyperplasia of intima during a short period of time, which may suggest the satisfactory histocompatibility of canine allogenetic blood vessels.
ObjectiveTo summarize diagnostic strategies of unilateral lower limb swelling. MethodThe clinical data of 357 patients hospitalized with unilateral lower limb swelling from March 2013 to October 2014 in our department were analyzed retrospectively. ResultsThree hundred and seven (86.0%) patients were admitted to hospital within 2 weeks since the symptom onset (acute swelling), the most common cause (281 cases) was lower extremity deep vein thrombosis (DVT), other causes included infection (11 cases), hematoma (7 cases), lymphatic obstruction (4 cases), iliac vein compression syndrome (2 cases), pelvic tumor compression (1 case), arteriovenous fistula (1 case). Etiology for chronic swelling contained lower extremity DVT (33 cases), arteriovenous fistula (5 cases), lymphatic obstruction (5 cases), Klippel-Trenaunay syndrome (3 cases), pelvic tumor compression (3 cases), iliac vein compression syndrome (1 case). Up to 60.5% (26/43) lower limb swelling which were not due to DVT had histories of misdiagnosis as DVT. Nine cases of lymphatic obstruction were secondary to malignant tumor itself or the sequel of treatment. Three hundred and thirty-eight (94.6%) patients were received lower limb doppler ultrasound, while 308 patients (91.9%) were diagnosed. Fifty-nine patients needed further CT venography (CTV) or CT angiography (CTA), 10 patients were received radionuclide lymphoscintigraphy to be diagnosed. ConclusionsAlthough DVT is the main cause of unilateral lower limb swelling, the lower limb swelling which is not due to DVT is frequently misdiagnosed and belatedly treated. Considering the complexity and reciprocal overlapping for the etiology of lower limbs swelling, developing a appropriate diagnosis strategy is important. Apart from history taking and physical examination, color doppler ultrasound for the lower limb is suggested to be the preferred imaging examination mean. Pelvic cavity screening for occupancy lesions and iliac vein should be evaluated synchronously if possible. For cases which can't be diagnosed by ultrasound, CTV, CTA, or radionuclide lymphoscintigraphy could be important supplement to assist the diagnosis.
ObjectiveTo investigate the research progress of diagnosis and treatment of iliac vein compression syndrome (IVCS) so as to find the optimal diagnosis and treatment method in clinic. MethodLiterature about etiology, pathophysiology, clinical manifestations, diagnosis and treatment of IVCS in recent years was reviewed. ResultsIVCS was one of the pelvic vein obstructive diseases. The compression of left common iliac vein by right common iliac artery was more common in clinic, and it could also cause partial or complete occlusion of the iliac vein due to other external pressures. Clinical manifestations mainly included venous pain, edema, varicose veins, venous ulcer, skin pigmentation, and other skin nutritional changes. The examination methods mainly included color Doppler ultrasound, computed tomography venography, magnetic resonance venography, intravascular ultrasound, and venography. The treatment method had been changed from the original open venous reconstruction to intravascular treatment. Endovascular treatment was included thrombolysis, thrombectomy, percutaneous mechanical thrombectomy, balloon angioplasty, and endovascular stent treatment or combination treatment according to whether they were combined with iliac-femoral venous thrombosis or not. ConclusionBased on the existing researches, intravascular ultrasound is the first choice to diagnose and guide the intravascular treatment, and iliac vein stenting is an effective method for the treatment of IVCS with a good long-term patency and obvious symptom improvement.
ObjectiveTo compare the improvement of clinical symptoms and patency of stents in patients with left and right non-thrombotic iliac vein compression syndrome (NIVCS) after endovascular stent therapy. MethodsThe clinical data of patients with NIVCS admitted to the First Affiliated Hospital of Chongqing Medical University from January 2016 to January 2021 were analyzed retrospectively. The venous clinical severity score of the patients’ veins before therapy and on month 12 after therapy was analyzed. At the same time, the patencies of stents on month 1, 3, 6, and 12 after stenting were also analyzed. ResultsA total of 164 patients with NIVCS were collected, including 144 left NIVCS and 20 right NIVCS. The surgical technique success rate of endovascular stent therapy was 100% (164/164). There was no statistical difference of the venous clinical severity score between the patients with left and right NIVCS on month 12 after therapy (t=1.265, P=0.208), but the venous clinical severity score of left and right NIVCS patients on month 12 after therapy were lower than those before therapy (t=27.534, P<0.001; t=10.047, P<0.001). The accumulative one-stage stent patency rate on month 12 after therapy was 96.5% and 94.7% in the patients with left and right NIVCS, respectively (χ2=0.160, P=0.689). After the stent was fully supported and completely covered the extent of the lesion, the short-term (within 12 months) stent patency rates of the patients with different compression site of the iliac vein, as well as type, diameter, and length of stent placement had no statistical differences (P>0.05). ConclusionFrom the results of this study, whether left NIVCS or right NIVCS, endovascular stent therapy is safe and effective.