ObjectiveThis paper aimed to summarize the new progress in surgical indications regarding as maximum diameter from evidence-based medical evidence and morphological rupture-risk assessment of abdominal aortic aneurysms (AAA) and its clinical application value.MethodThe rupture-risk and its mechanism of AAA in specific population and morphological characteristics were reviewed.ResultsAsymptomatic patients in specific subgroups may also benefit from AAA repair by lowering the intervention threshold. Besides the maximum diameter of aneurysm, other morphological factors, such as the true geometric shape, the wall thickness, and mural thrombus also had important predictive value for AAA rupture risk.ConclusionRupture-risk assessment based on the actual individual situation of AAA patients can further facilitate the clinical diagnosis and treatment.
Objective To observe the clinical efficiency of the implantation of the autologous bone marrow mononuclear cells for treatment of lower limb ischemia after the bone marrow stimulation. Methods From May to December 2005, 43 ischemic limbs in 35 patients (23 males,12 females; aged 3490 years,averaged 71.3 year) were treated. Of the 35 patients, 30 had diabetic lowerlimb ischemia with 38 lower ischemic limbs, 2 had atherosclerosis obliterans with 2 ischemic lower limbs, and 3 had thromboangiitis obliterans with 3 ischemic lower limbs. Five patients with 5 ischemic limbs were in stage Ⅰ lower limb ischemia (intermittentclaudication), 15 patients with ischemic 19 limbs were in stage Ⅱ (rest pain),9 patients with 12 ischemic limbs were in stage Ⅲa(ulceration), and 6 patients with 7 ischemic lower limbs in stage Ⅲb (gangrene); 88.4% of all the ischemic lower limbs (38/43)had a pain, 79.1%(34/43) had coldness, and 69.8%(30/43)had limb numbness. The bone marrow of each patient was stimulated by an injection of the recombinant human granulocyte-macrophage colony-stimulatory factor 300 μg/d for 2-3 days. The bone marrow 130-200 ml was drawn from the iliac spine and the mononuclear cells were obtained. Each patient received implantation of the autologous bone marrow mononuclear cells by an intramuscular injection, an arterial intraluminal injection or a combined injection of the two routes.Results The pain relief was found in 94.7% of theischemic lower limbs, and pain improvement in 97.1% . Relived numbness was found in 93.3%. The distance of the claudication was increased by all the ischemic limbs. An increase in the ankle/ brachial index (ABI)was found in 47.9%. The transcutaneous oxygen pressure (TcPO2) increased in 92.3%. The ulcer heal rate was 9.1% (1/11). Markedlyreduced ulcer wound was found in 27.3% (3/11). The amputation rate was 6.3% (3/48). Arterial angiography revealed that there was a new collateral vessel formationin 91.2%. Complications were as follows: fever and mild fatigue-developed respectively in 1 patient after the bone marrow stimulation, but relieved by themselves. Acute but mild myocardial infarction was found in 1 patient with a slight precordial pain and elevation of myocardial enzymes 1 week after transplantation of the bone marrow mononuclear cells, but recovered after medical treatment. The follow-up averaged 5 months. According to the subjective criteria, the overall efficacy was90%. ABI increased in 62.5% of the patients after operation and the value of TcPO2 was higher in 90% of the patients after this kind of therapy. Arterial angiography revealed a new collateral vessel formation in 90.5% of the 21 ischemic limbs. The foot ulcer healed in 7 and obviously improved in 3. Three of the foot ulcer patients were discharged 2-3 months after the amputation was performed on the diseased toes. Conclusion Implantation of the autologous bone marrow mononuclear cells after the bone marrow stimulation of treatment of the lower limb ischemia has advantages of less marrow aspiration, more mononuclear cell content, satisfactory shortterm effect, and relatively high safety. Itis a new method of treating the lower limb ischemia besides the autologous bone marrow and peripheral blood mononuclear cell implantation. The longterm effect of this method needs a further study.
ObjectiveTo study the clinical safety and effectiveness of paclitaxel-drug coated balloon (DCB) in treatment of Takayasu’s arteritis (TA) of renal artery. MethodsThe retrospective analysis was made on the clinical data of the three patients with severe stenosis of renal artery, who were treated in our hospital from January 2019 to August 2023. The patients underwent paclitaxel-DCB dilation therapy. ResultsSuccessful treatment was accomplished in all the three patients. The patients were followed up for 17, 38, and 40 months respectively, follow-up examination of ultrasound showed that the blood flow in renal artery was unobstructed. The serum creatinine level was changed from preoperative 53, 64, 55 μmol/L to 43, 70, 59 μmol/L on postoperative day 1. The systolic blood pressure was decreased from preoperative 180, 220, 150 mmHg to 116, 120, 110 mmHg on postoperative day 1. The peak systolic velocity of renal artery was reduced from preoperative 350, 377, 293 cm/s to 120, 135, 94 cm/s on postoperative day 1. ConclusionPaclitaxel-DCB is safe and effective for patients with renal artery stenosis of TA, but further researches with large sample are still needed.
The cultivation of clinical medical postgraduates is a way to provide qualified doctors for clinical practice, which is more focused on clinical practice. The cultivation of clinical medical postgraduates depends on their understanding of knowledge. In response to the problems existing in traditional education, the Department of Vascular Surgery, Xuanwu Hospital, Capital Medical University has introduced new media into the cultivation of clinical medical postgraduates. New media can concretize abstract content, which is more conducive to improve learning efficiency. This article combines practical experience to explain the advantages, teaching effectiveness, challenges faced of new media, and how to better apply new media teaching.
Objective To investigate the effectiveness of percutaneous transluminal renal artery stenting (PTRAS) in treating atherosclerotic renal artery stenosis (ARAS). Methods A total of 69 patients with severe ARAS were treated with PTRAS between January 2002 and December 2008. There were 47 males and 22 females with an average age of 66.2 years(range, 42-88 years), including 66 cases of unilateral ARAS (single functional kidney, 1 case) and 3 cases of bilateral ARAS. Renal angiography revealed that the degree of renal artery stenosis was 70%-99%. Concomitant diseases included hypertension (67 cases), atherosclerosis obl iterans (69 cases), coronary heart disease (34 cases), diabetes (44 cases), and hyperl ipidemia (36 cases). Blood pressure, serum creatinine (sCr), and patency of the renal artery were measured to assess the effectiveness of PTRAS after 12 months. Results The renal artery stent was successfully implanted in 68 patients and the technical success rate was 98.6%. One patient was converted to il io-renal bypass because of intra-operative acute renal artery occlusion. One patient died of heart failure at 6 months after PTRAS, and 1 patient was lost at 3 months after PTRAS. The other 66 patients were followed up 32 months on average (range, 13-60 months). The blood pressure decreased significantly at 1 month and gained a further decrease at 12 months after PTRAS when compared with the preoperative ones [systol ic blood pressure: (132 ± 24) mm Hg vs (163 ± 34) mm Hg, P lt; 0.05; diastol ic blood pressure: (78 ± 11) mm Hg vs (89 ± 17) mm Hg, P lt; 0.05; 1 mm Hg=0.133 kPa]. Hypertension was cured in 4 cases (6.3%), improved in 52 cases (81.2%), failure in 8 cases (12.5%), and the overall benefit rate was87.5%. The sCr level was stable after 12 months of PTRAS, showing no significant difference when compared with preoperative basel ine [(107.8 ± 35.4) μmol/L vs (104.1 ± 33.8) μmol/L, P gt; 0.05]. Renal function was improved in 9 cases (13.6%), stable in 48 cases (72.8%), deterioration in 9 cases (13.6%), and the overall benefit rate was 86.4%. Instent restenosis found in 2 patients (3.0%) at 12 months after operation. Conclusion PTRAS is a safe and effective method to treat ARAS. It can control the blood pressure and stabil ize the renal function in most ARAS patients. Long-term efficacy needs further investigation.
Objective To induce embryonic stem cell (ESC) to differentiate into endothel ioid cells using a simple adhesive culture method, and to provide a new cells seed source for vascular tissue engineering or cell therapy. Methods SV129-derived ESC were seeded at 2 × 104/cm2 and maintained undifferentiated on ESC culture medium in the presence of 1 000 U/mL leukaemia inhibitory factor (LIF). Embryoid body (EB) formatted when ESC cultured in suspension in the lack of LIF. At 4 days, EB was transferred to 0.1% gelatin coated dish and cultured with medium supplementary of VEGFto be induced differentiation. The characteristics of differentiated cells were determined by immunohistochemistry staining, flow cytometry (FCM), 1, 1-dioctadecyl-3, 3, 3, 3-tetramethyl indocarbocyanine-labeled acetylated low density l ipoprotein (DiIAc- LDL) takeup test, and TEM detection. Results Differentiated cells were morphologically characterized as endothel ial cells. They could takeup DiI-Ac-LDL, be stained positive by Flk-1 and CD31. The CD31 positive cells reached above 90% when measured by FCM. Furthermore, Weibel-Palade bodies were detected and tight junctions were found when differentiated cells were examined by TEM. Conclusion Using a simple adhesive culture method and by suppl ied with VEGF alone, ESCs can be induced to differentiate into endothel ioid cells. The differentiation method is simple and economic, and can provide seed cells for vascular tissue engineering or cell-therapy.
Objective To observe the changes in the number and function of bone marrow-derived endothel ial progenitor cells (EPCs) after bone-marrow stimulation, and to investigate the possible mechanism of improving ischemicl imb disease after bone-marrow stimulation through autologue bone-marrow stem cell implantation. Methods Twelvemale Lewis rats, weighing 200-250 g, were classified into the bone marrow stimulation group (n=6) and the control group(n=6). In the stimulation group, the bone marrow of each rat was stimulated by injection of recombinant human granulocytemacrophage colony-stimulatory factor. Mononuclear cells were harvested from bone marrow and cultured in EBM-2 medium. After 7-day culture, EPCs were stained by 1, 1-dioctadecyl-3, 3, 3, 3-tetramethyl indocarbocyanine-labbled acetylated low density l ipoprotein/fluorescein isothiocyanate-ulex europaeus agglutinin 1, and the double positive cells were counted by the fluorescent microscope. The adhesive abil ity of EPCs was determined by counting the number of re-cultured EPCs. The unilateral ischemia hindl imb model was made with 12 Lewis rats. Three days later, EPCs were transplanted into the ischemic tissues. According to different sources of EPCs, the 12 rats were divided into 2 groups: the stimulation group (n=6) and the control group (n=6). At 3 weeks after EPCs transplantation, the quantity of the collateral vascular was observed by digital subtraction angiography (DSA). Results After 7-day culture, the number of EPCs in the stimulation and control groups was (145.2 ± 37.0)/HP and (95.2 ± 39.4)/HP, respectively, and there was significant difference between the two groups (P lt; 0.05). Meanwhile, the number of adhesive EPCs in the stimulation and control groups was (21.8 ± 4.3)/HP and (15.0 ± 5.2)/HP, respectively, and the difference between the two groups was significant (P lt; 0.05). At 3 weeks after the EPCs implantation, the number of the collateral vascular was significantly larger in the stimulation group (4.2 ± 1.2) compared with the control group (2.7 ± 0.8), (P lt; 0.05). Conclusion Bone marrow stimulation increases the number of EPCs and improves the function concurrently, which may be the reason why autologue bone-marrow stem cell implantation improves the curative effect of ischemic l imb diseases after bone-marrow stimulation.
【Abstract】ObjectiveSome studies have demonstrated that recombinant adenoviruses are efficient vectors for gene transfer to the venous wall and AdCMV.tk encoded thymidine kinase can be used to reduce restenosis. In this study AdCMV.tk was apply to human vein smooth muscle cells (SMC) and organ cultured saphenous veins to study its effects on proliferation of SMCs and reduction of intimal hyperplasia. MethodsThe adenovirus vector transferred tk gene and mark gene lacZ to the SMC of human saphenous veins and organ cultured vein segments. Various concentrations ganciclovir (GCV) were contained in culture media. The efficiency of gene transfer was studied by using Xgal staining. The proliferation of SMC was monitored by the method of trypan blue exclusion. The bystander effect was observed by mixed cell culture. After vein segments treated by AdCMV.tk+GCV and cultured for 14 days, HE and VG staining were carried out and intimal thickness was analysis by computer image system. ResultsAdenovirus vector could infect saphenous vein SMC efficiently both in cultured SMCs and organ cultured vein segments. Gene expression sustained 14 d at least. The inhibition of SMCs proliferation in vitro was a positive correlation in GCV concentrations and the levels of tk expression. The proliferation of SMCs transfectered lacZ wasn’t restrained by GCV (P<0.05). In mixed cell experiment there was at least 55% reduction in total cell number when as few as 10% of the cells express tk. Assessment of this “suicide gene strategy” in saphenous vein organ culture model demonstrated that veins treated with AdCMV.tk+GCV had a significant reduction at 14 days in the intimal thickness compared to control group (P<0.01). ConclusionThe results suggest that adenovirusmediated gene transfer of tk along with GCV administration may be a useful strategy to treat the proliferation of intimal hyperplasia of transplanting saphenous veins. Bystander effects are amplified by AdCMV.tk/GCV gene therapy system.
Objective To explore the method of preparing the electrospinning of synthesized triblock copolymers of ε-caprolactone and L-lactide (PCLA) for the biodegradable vascular tissue engineering scaffold and to investigateits biocompatibil ity in vitro. Methods The biodegradable vascular tissue engineering scaffold was made by the electrospinning process of PCLA. A series of biocompatibil ity tests were performed. Cytotoxicity test: the L929 cells were cultured in 96-wellflat-bottomed plates with extraction media of PCLA in the experimental group and with the complete DMEM in control group, and MTT method was used to detect absorbance (A) value (570 nm) every day after culture. Acute general toxicity test: the extraction media and sal ine were injected into the mice’s abdominal cavity of experimental and control groups, respectively, and the toxicity effects on the mice were observed within 72 hours. Hemolysis test: anticoagulated blood of rabbit was added into the extracting solution, sal ine, and distilled water in 3 groups, and MTT method was used to detect A value in 3 groups. Cell attachment test: the L929 cells were seeded on the PCLA material and scanning electron microscope (SEM) observation was performed 4 hours and 3 days after culture. Subcutaneous implantation test: the PCLA material was implanted subcutaneously in rats and the histology observation was performed at 1 and 8 weeks. Results Scaffolds had the characteristics of white color, uniform texture, good elasticity, and tenacity. The SEM showed that the PCLA ultrafine fibers had a smooth surface and proper porosity; the fiber diameter was 1-5 μm and the pore diameter was in the range of 10-30 μm. MTT detection suggested that there was no significant difference in A value among 3 groups every day after culturing (P gt; 0.05). The mice in 2 groups were in good physical condition and had no respiratory depression, paralysis, convulsion, and death. The hemolysis rate was 1.18% and was lower than the normal level (5%). The SEM showed a large number of attached L929 cells were visible on the surface of the PCLA material at 4 hours after implantation and the cells grew well after 3 days. The PCLA material was infiltrated by the inflammatory cells after 1 week. The inflammatory cells reduced significantly and the fiber began abruption after 8 weeks. Conclusion The biodegradable vascular tissue engineering scaffold material made by the electrospinning process of PCLA has good microstructure without cytotoxicity and has good biocompatibil ity. It can be used as an ideal scaffold for vascular tissue engineering.
Objective To investigate the feasibil ity of preparing the porous extracellular matrix (ECM) by use of some chemicals and enzymes to decellularize the porcine carotid artery. Methods The porcine carotid artery was procured, and warm ischemia time was less than 30 minunts. The porcine carotid artery was decellularized with 1% sodium dodecyl sulfate (SDS) for 60 hours to prepare common ECM; then common ECM was treated with 0.25% trypsin (for 6 hours) and 0.3 U/ mL collagenase (for 24 hours) to prepare porous ECM. The common ECM and porous ECM were stained with HE,Masson’s trichrome, and Orcein to evaluate the histological features. Then the mechanical property, cytotoxicity, and pore size of ECMs were determined. After 4 weeks of subcutaneous implantation in dogs, the histological examination was used for the study. Results Histological observation confirmed that 2 kinds of ECMs were decellularized completely and more porous structure was observed in porous ECM. Scanning electron microscope showed the pores in porous ECM were greater and the length of shorter axis in porous ECM ranged from 5 to 30 μm, the length of longer axis from 40 to 100 μm. The porosity of porous ECM (99.25%) was greater than that of common ECM (91.50%). The burst pressure of porous ECM decreased when compared with common ECM, showing significant difference [(0.154 3 ± 0.012 7) MPa vs [0.305 2 ± 0.015 7) MPa, P lt; 0.05]. There was no significant difference in suture retention strength between 2 kinds of ECMs (P gt; 0.05). The cytotoxicity test showed no obvious cytotoxicity in 2 kinds of ECMs. In vivo implantation test showed that the deeper host cells infiltration and more neo-microvessels in porous ECM were observed than in common ECM. Conclusion SDS and some enzymes can be used to prepare porous ECM as the scaffold for tissue engineered blood vessels.