ObjectiveTo investigate the significance of catheter thrombolysis combined with one-stage iliac vein percutaneous transluminal angioplasty (or stent implantation) in the treatment of acute left lower extremity deep venous thrombosis secondary to Cockett syndrome.MethodsForty-one cases of Cockett syndrome complicated with acute left lower extremity deep vein thrombosis were retrospectively analyzed and summarized in our hospital from January 2016 to June 2019. Catheter directed thrombolysis was performed under the protection of filter, and percutaneous transluminal angioplasty or stent implantation was performed in the first stage of the iliac vein stenosis or occlusion after thrombolysis. Compared the circumference of upper and lower legs of 15 cm above and below patella of the healthy and affected limbs, before and after treatment, and analyzed the venous patency rate.ResultsThe average time of using thrombolytic catheter were (7±3) days, and the average dosage of urokinase was (358.32±69.38) ×104 U. A total of thirty-five Bard stents were implanted (35 cases), four cases underwent percutaneous transluminal angioplasty, and two cases gave up treatment. Before and after treatment, the circumference difference of the higher leg, the circumference difference of the lower leg, and the venous patency were significantly different before and after thrombolysis (P<0.01). The venous patency rate was 58%–75% in this group, and the average venous patency rate was (61±10)%. There was no severe bleeding complication occurred. Thirty-five patients were followed up for 3–26 months, the preservation rate of the valve was 82.86% (29/35), and the first patency rate of iliac vein was 100% (39/39). During the follow-up period, thrombosis recurred in one case of untreated iliac vein, and acute thrombosis in the right side of one case was caused by long iliac vein stent entering the inferior vena cava. No pulmonary embolism was found.ConclusionOn the basis of catheter thrombolysis, one stage removal of iliac vein obstruction in the treatment of acute left lower extremity deep venous thrombosis can relieve the clinical symptoms, reduce the recurrence rate of thrombosis, and reduce the occurrence of deep vein thrombosis syndrome after catheter thrombolysis.
Objective To evaluate the therapeutic efficacy of percutaneous transhepatic portal vein catheterization and thrombolysis on acute superior mesenteric vein thrombosis. Methods The treatment and therapeutic efficacy of 7 cases of acute superior mesenteric vein thrombosis underwent percutaneous transhepatic portal vein catheterization and thrombolysis under ultrasound guidance from August 2005 to April 2009 were analyzed. Results All the patients succeeded in portal vein catheterization and no bile leakage or abdominal bleeding occurred during the procedure. The clinical symptoms such as abdominal pain, abdominal distension, and passing bloody stool relieved were relieved and liquid diet began at postoperative of day 2-5. Emergency operation was done in one case and there was no intestinal fistula. The angiography after the operation showed that the majority of thrombosis were cleared and the blood of portal vein and superior mesenteric vein flowed smoothly. During the follow-up of 3 months to 3 years, all the patients’ status maintained well and no recurrence occurred. Conclusion Treatment of acute superior mesenteric vein thrombosis by percutaneous transhepatic portal vein thrombolysis is safe and effective.
ObjectiveTo investigate the main influence factors of microbubble-enhanced sono-thrombolysis by an orthogonal array experimental design (OAD) and to confirm the optimal parameters of microbubble-enhanced sono-thrombolysis in vitro. Methods The peripheral blood was collected from 50 female Sprague Dawley rats to prepare the standard plasma, and then 100 μL standard plasma and 25 μL thrombin (0.15 U/μL) were mixed and incubated in 37℃ water bath for 3, 6, 12, and 24 hours respectively to prepare corresponding standardized thrombus. The physical parameters for the designed experiments included transmit powers of ultrasound (factor A: 5%, 25%, 50%, and 100%), microbubble volume (factor B: 50, 100, 200, and 400 μL), urokinase (UK) concentration (factor C: 100, 200, 400, and 800 U/mL), and thrombolysis time (factor D: 10, 20, 30, and 40 minutes), respectively. Then an OAD based on four parameters and four levels [L16(45)] was employed to optimize the thrombolysis conditions. The ultrasound frequency was 1.82 MHz. HE staining and scanning electron microscope (SEM) were used to observe the clots before and after thrombolysis. The thrombolysis rate was measured. ResultsHE staining and SEM observation showed that the fibrin was dissolved after thrombolysis. According to the OAD, the optimal parameter combination was C4-D4-A1-B4, indicating UK concentration 800 U/mL, thrombolysis time 40 minutes, transmit power of ultrasound 5%, and microbubble volume 400 μL, respectively. The four factors above had significant influence on thrombolysis (P lt; 0.05), and UK concentration was the most significant. There were significant differences in thrombolysis between different thrombolysis time (P lt; 0.05). ConclusionUnder the condition of fixed ultrasound frequency, microbubble-enhanced sono-thrombolysis efficiency is better in lower transmit power of ultrasound, higher UK concentration, longer thrombolysis time, higher microbubble volume, and shorter thrombolysis time
ObjectiveTo investigate therapeutic strategy of acute pulmonary embolism. MethodsClinical data of 48 patients with acute pulmonary embolism who were treated in Affiliated Hospital of North Sichuan Medical College form January 2009 to May 2014 were analyzed retrospectively. ResultsOf the 48 cases, 14 cases of low risk (low risk group) were treated with anticoagulation, 24 cases of middle risk (middle risk group) were treated with anticoagulation and systematic thrombolysis or interventional therapy (local thrombolysis after thrombus fragmentation or thrombolytic catheter placement in pulmonary artery), 10 cases of high risk (high risk group) were treated with anticoagulation and interventional therapy. In low risk group, 12 cases (85.7%) were cured and 2 cases (14.3%) were markedly effective, and total effective rate was 100%. In middle risk group, 16 cases (66.7%) were cured and 8 cases (33.3%) were markedly effective, and total effective rate was 100%. In high risk group, 1 case died, 3 cases were cured, 2 cases were markedly effective, and 4 cases were better, and the total effective ratio was 9/10. All cases suffered from no complication such as hemorrhage of cerebral and digestive system. Forty-eight cases were followed up for 3-12 months, with a median time of 8 months. During the follow-up period, there was no complication occurred such as dyspnea, pulmonary embolism, placement change of filter net, and thrombosis. ConclusionsCorresponding therapeutic strategy would be taken according to risk stratification of the acute pulmonary embolism.
ObjectiveTo compare the differences of incidence rate and severity of postthrombotic syndrome (PTS) of patients with lower extremity deep venous thrombosis (DVT) treated by catherter-directed thrombolysis (CDT) or via peripheral vein thrombolysis (PVT).MethodsThe patients with unilateral lower extremity DVT who had received anticoagulant and thrombolytic therapy in the Nanchong Central Hospital from January 2012 to January 2015 were collected. These patients were divided into CDT group and PVT group according to the different thrombolysis methods, and then the thrombolytic rates, thrombolytic complications, and the incidence rate and severity of PTS of 5-year follow up results were calculated and compared.ResultsA total of 137 cases of DVT were collected, 79 in the CDT group and 58 in the PVT group. There were no significant differences in the gender, age, course of disease, thrombus type, and other baseline data between the two groups (P>0.05). The thrombolytic rate of the CDT group was (78.6±16.3)% and PVT group was (27.3±12.1)%, the difference was significant (t=21.14, P<0.001). The rate of thrombolytic complications between the PVT group and CDT group had no statistical significance (32.8% versus 21.5%, χ2=2.18, P=0.134). The 5-year follow up was completed in 116 cases, 74 patients from the CDT group and 42 patients from the PVT group respectively, the result showed that the incidence rate of the PTS in the CDT group was lower than that in the PVT group (35.1% versus 88.1%, χ2=30.28, P<0.001), and theseverity of PTS in the CDT group was milder than that in the PVT group too (Z=16.52,P<0.001).ConclusionFrom the results of this study, CDT is able to increase thrombolytic rate and effectively reduce incidence rate and severity of PTS.
目的 探索缺血性脑卒中患者溶栓前血压管理和预后的相关性,并分析溶栓前血压管理考虑颅内外血管状态的必要性。 方法 计算机检索PUBMED数据库,并辅以其他检索,对所有涉及溶栓前血压的文献进行整理,并根据“溶栓类型、是否进行溶栓前血压管理、是否进行溶栓前血管评估”对文献进行分类,对其溶栓后的症状性颅内出血率进行分析对比。 结果 大多数静脉溶栓文献无血管评估的数据,其出血率波动于较高水平;进行了血管评估,而未提及血压管理或虽未进行血压管理,但所有患者的血压符合指南中对于血压的要求的文献也呈现了较高的出血率;有1篇进行了血管评估的动脉溶栓文献没有症状性颅内出血事件发生。 结论 当前证据表明现有的溶栓前血压管理模式还不够完善,这也在一定程度上可以解释目前较高的溶栓后症状性出血率。合理的溶栓前血压管理模式有待进一步探索。溶栓前血压管理考虑颅内外血管状态,根据血管病变程度对溶栓前血压进行分级管理可能会成为一个较佳的血压管理模式。
【摘要】 目的 对脑梗死患者施行静脉溶栓治疗前后的相关状况和指标进行评价分析。 方法 2003年1月-2010年11月对神经内科收治的29例脑梗死患者予以静脉溶栓治疗及护理,并就治疗前后各相关时间点血压监测及美国国立卫生研究院卒中量表(National Institute of Health stroke scale,NIHSS)评分情况进行分析。 结果 溶栓前后血压对比显示:溶栓后2 h收缩压相对于溶栓前和溶栓后24 h升高(Plt;0.05);溶栓前后NIHSS评分差异有统计学意义(Plt;0.05)。 结论 溶栓后患者收缩压出现升高,护理上应该加强血压监控,为临床治疗提供支持。【Abstract】 Objective To investigate the correlated condition and clinical index changes before and after the intravenous thrombolysis of the cerebral infarction patients. Methods The blood pressure and the National Institutes of Health stroke scale (NIHSS) score of 29 cerebral infarction patients with the intravenous thrombolysis treatment between January 2003 and November 2010 were measured and analyzed. Results Two hours after the thrombolysis, the systolic blood pressure significantly increased compared with those before the intravenous thrombolysis and 24 hours after intravenous thrombolysis (P<0.05). NIHSS score was significantly decreased after the thrombolysis (P<0.05). Conclusions Systolic blood pressure significantly increases after the intravenous thrombolysis. Intensive blood pressure monitoring and controlling may be beneficial to the treatment and prognosis.
ObjectiveTo investigate the early diagnosis and proper treatment of acute mesenteric venous thrombosis (AMVT). MethodsThe clinical data of 105 cases of AMVT treated from January 2000 to December 2013 were analyzed retrospectively. ResultsThe diagnostic accuracy of ultrasonography and abdominal contrast-enhanced CT was 67.6% (71/105), 88.0% (81/92) respectively. The accuracy rate of abdominal cavity puncture or abdominal drainage in the diagnosis of intestinal necrosis was 100% (38/38). All cases received anticoagulation and thrombolysis as soon as the definite diagnosis of AMVT were made. Twenty-five cases underwent emergency operation due to the bowel necrosis at the visiting time, Anticoagulation and thrombolysis were performed in 80 patients, of which 7 patients received surgical treatment because of ineffective anticoagulation and thrombolytic therapy. Thrombectomy was performed in 15 cases simultaneously. Surgical treatment of 32 cases, 30 cases were cured and 2 patients died of multiple organ failure or short bowel syndrome within 1 month after operation. Seventy-three cases were treated with anticoagulation therapy alone, 72 patients were cured and discharged, the effective rate was 90.0%, another 1 case died due to cerebral hemorrhage within 1 month after operation. ConclusionsEarly diagnosis of AMVT and bowel necrosis, timely and accurate anticoagulation and thrombolysis, and proper surgical intervention can often achieve satisfactory results.
ObjectiveTo evaluate the treatment effective of deep vein thrombosis (DVT) of low extremities. MethodsThe clinical data of 86 patients with DVT were analyzed retrospectively, which were divided into thromboectomy group (12 patients) and thrombolysis group (74 patients) according to the therapy methods. The thromboectomy group patients were treated by thromboectomy using Fogarty balloon catheter plus thrombolytie, thrombolysis group patients were treated by thrombolysis (urokinase or antithrombus enzyme of viper). ResultsThere were 8 cases healed, 4 cases relieved, 0 invalidated in the thromboectomy group and 15 cases healed, 50 cases relieved, 9 cases invalidated in the thrombolysis group at discharge. During 3-100 months of following up with an average 27 months, 10 cases and 62 cases were examined by Bultrasonic in the thromboectomy group and thrombolysis group, respectively, 6 cases were not damaged in the function of valves of the thromboectomy group, 9 cases were not damaged in the function of valves of the thrombolysis group. The rates of acute response, longtime patency, and normal valve in the thromboectomy group were higher than those in the thrombolysis group (Plt;0.05), the rate of post-thrombotic syndrome in the thromboectomy group was lower than that in the thrombolysis group (Plt;0.05). ConclusionsEarly thromboectomy is an effective way of restoring the fluency of deep vein and protecting the efficiency of the vein value organization, and reducing the sequela of DVT. Thrombolysis can only relieve the symptomation, but it can not protect the crawling and relapsing of thrombus.
ObjectiveTo evaluate the effect of percutaneous mechanical thrombectomy (PMT) with AngioJet mechanical thrombus aspiration system for the acute deep venous thrombosis (DVT) of lower extremities. MethodsThe clinical data of 72 patients (72 limbs) with acute DVT who underwent PMT with AngioJet system from December 2015 to June 2018 in our hospital were analyzed retrospectively. ResultsOf the 72 cases, 30 cases underwent PMT alone, while 42 cases underwent PMT combined with catheter directed thrombolysis (CDT). Thrombus clearance rate of grade Ⅲ was obtained in 49 cases (68.05%), grade Ⅱ in 20 cases (27.78%), and grade Ⅰ in 3 cases (4.17%). Thirty-five cases were found with May-Thurner syndrome, and 34 cases were treated with stenting while 1 case complicated with iliac bleeding. The rates of PTS were 1.41% (1/71), 3.57% (2/56), 4.55% (2/44), and 20.00% (3/15) at 3-month, 6-month, 1-year, and 2-year after intervention, respectively. The deep vein patency rates were 86.36% (38/44) and 80.00% (12/15) at 1-year and 2-year after intervention, respectively. The iliac stent patency rates were 100% (23/23) and 87.50% (7/8) at 1-year and 2-year after intervention, respectively. ConclusionThe effect of PMT assisted with CDT for the acute DVT of lower extremities is satisfactory, but its long-term efficacy needs to be further observed.