Objective To evaluate the effectiveness and safety of surgical thrombectomy for acute deep venous thrombosis of lower extremities. Methods Randomized controlled trials of surgery versus conservative treatment were sought from MEDLINE (1966-Jun.2006), EMbase (1974-Jun.2006), The Cochrane Library (Issue 2, 2006), CBM (1989-Jun. 2006) and CMCC (1994-Jun. 2006). Collections of Chinese Congress on Vascular Surgery (1991-Jun.2006) and the journal of Vascular Surgery (2000-Jun. 2006) were handsearched. Two reviewers independently extracted data into a designed extraction form. The guidance in The Cochrane Collaboration’s Handbook was consulted for quality evaluation and data analysis. Results Six potentially eligible studies were identified. Six were included according to the inclusion criteria. The 6-month total patency was significantly higher in the surgical treatment group than in the conservative treatment group with OR 7.26 and 95%CI 2.40 to 21.94, while the 5-year total patency was not different between the two groups with OR 2.59 and 95%CI 0.88 to 7.67. At month 6 and year 5, the incidence of post-thrombosis syndrome (PTS) was significantly higher in the conservative treatment group than in the surgical treatment group with OR 0.11, 95%CI 0.59 to 1.59, OR0.18, 95%CI 0.06 to 0.60 respectively. The incidence of 10-year PTS and the results of valvular function measurements were similar between the two groups. The incidence of pulmonary thrombosis was also comparable between the two groups with OR 1.40 and 95%CI 0.39 to 4.97. Conclusion Surgical thrombectomy may improve the extent of patency and venous valvular sufficiency in the short term, but without increasing the patency rate. There is no enough evidence to assess whether surgical throbectomy improves long-term outcomes. It is safe to preform surgical thrombectomy. The small number of patients randomised and the low quality of the trials decreases the reliability of the current evidence. Therefore, more high quality randomised controlled studies should be done, to determine the long-term outcomes of surgical thrombectomy.
摘要:目的: 探討動脈硬化閉塞癥(ASO)和靜脈血栓形成(VT)患者同型半胱氨酸(Hcy)變化。 方法 :通過循環酶法對34例非動脈硬化閉塞癥(ASO)和靜脈血栓形成(VT)患者(對照組),30例動脈硬化閉塞癥(ASO)患者和26例靜脈血栓形成(VT)患者血液中Hcy進行測定。 結果 :循環酶法測定HCY的批內平均變異系數為2.23%,批間平均變異系數為1.59%。34例對照組,〖WTBX〗t =1135,〖WTBX〗P =0266gt;005;動脈硬化閉塞癥(ASO)組Hcy含量明顯高于對照組(〖WTBX〗P lt;O.05),靜脈血栓形成(VT)組Hcy含量高于對照組(〖WTBX〗P lt;0.O5)。 結論 :高同型半胱氨酸血癥可能是動脈硬化閉塞癥(ASO)和靜脈血栓形成(VT)及復發的致病因素。可將同型半胱氨酸作為動脈硬化閉塞癥(ASO)和靜脈血栓形成(VT)及復發的重要指標。Abstract: Objective: TO syudy the changes of the Homocysteine about Atherosclerosis obliterans and Venous thrombosis patients. Methods : To measure the Hcy in the blood of 34 healthy cases both non ASO and non VT(the comparison group),30 cases of ASO patients and 26 cases of VT patients respectively by enzymatic cycling assay。〖WTHZ〗Results :The average variation coefficient of Hcy within the groups was 223% and among the groups was 159% measured by enzymatic cycling assay.In the 34 cases of comparison group,t=1135,P=0266gt;005,The content of Hcy in the blood of ASO patients group were significantly higher than the comparision group (Plt;005),and the content of Hcy in the blood of VT patients group were also higher than the comparison group (Plt;005). Conclusion : Hyper Hcy may be the pathogenic diathesis to form or to recrudesce ASO and VT.So we can treat Hcy as the significant index to form or to recrudesce ASO and VT.
Objective To explore the value of color Doppler ultrasonography and plasma D-dimer in diagnosis of lower limb deep venous thrombosis (DVT).Methods The clinical data of 70 cases of patients with lower limb DVT diagnosed clinically were retrospectively studied. The lower limb venous of each patient was examined by color Doppler ultrasonography and the plasma level of D-dimer were measured, furthermore the plasma levels of D-dimer in different phase and different type of thrombosis were compared. Results The sensitivity, specificity, positive predictive value, negative predictive value, and accuracy of plasma D-dimer and ultrasonography examination in lower limb DVT were 100%, 66.7%, 97.0%, 100%, and 97.1%, and 98.4%, 83.3%, 98.4%, 83.3%, and 97.1%, respectively. The plasma D-dimer in acute phase 〔(6 451±4 012.22) μg/L〕 and subacute phase 〔(2 063±1831.35) μg/L〕 of lower limb venous thrombosis were significantly higher than that in normal control group 〔(310±66.70) μg/L〕, Plt;0.01 and Plt;0.05, which was not different from that in chronic phase 〔(466±350.52) μg/L〕. Meanwhile, the plasma D-dimer in mixed limb venous thrombosis group 〔(4 464±3 753.16) μg/L〕 and central limb venous thrombosis group 〔(2 149±1 911.53) μg/L〕 were significantly higher than that in control group (Plt;0.05 and Plt;0.01), which was not different from that in peripheral limb venous thrombosis group 〔(560±315.62) μg/L〕. Conclusion Color Doppler ultrasonography is an optimal method and the plasma D-dimer is a predictive index in diagnosis of lower limb DVT.
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.
Objective To summarize the probability of pulmonary embolism (PE) induced by lower extremity deep venous thrombosis (DVT) and investigate the role of vena cava filter (VCF) in preventing from PE. Methods The clinical data of 1 058 patients with lower extremity DVT from January 2005 to January 2012 were analyzed retrospectively. Results The PE rate was 3.21% (34/1 058) and the death rate was 1.42% (15/1 058) in 1 058 patients with lower extremity DVT. The VCF was implanted in 171 of 1 058 patients. The VCFs of 151 patients were implanted from femoral vein, 20 patients were implanted from jugular vein. The PE rates were 3.61% (32/887) and 1.17% (2/171) and the death rates were 1.69% (15/887) and 0 (0/171) in patients without VCF and with VCF, respectively. Both of them occurred in the first ten days. PE could keep as long as 35 d. The PE rate and death rate in the patients without VCF were significantly higher than those in the patients with VCF (P<0.01). The PE rates and death rates in both lower extremities DVT were higher than those in patients with the right and left ones (P<0.05), which in the right lower extremity were higher than those in the left one (P<0.05). The PE rate and death rate in the patients with lower extremity DVT combined with vena cava thrombosis were significantly higher than those in the patients with central type (P<0.05), which in the central type were significantly higher than those in the peripheral type (P<0.05), there were no significant differences between peripheral type and mixed pattern. The follow-up time was from 1 month to 7 years with (39±19) months, the patency rate of VCF was 98.7%. There were no filter migration, declination, and failure of expansion. Conclusions VCF can prevent from PE effectively, but the indications must be controlled.
ObjectiveTo evaluate the value of clinical application of determination of lower venous pressure in the diagnosis and treatment of deep venous thrombosis (DVT). MethodsThe 90 patients with DVT of unilateral lower limb who were admitted by using color Doppler or deep veins of lower limb angiography in our hospital during the period of 2013 July to 2014 June were selected and as the research object (case group), 37 cases were male, 53 cases were female; the age was 18-84 years old, mean age was 59.48 years old. According to the development of disease, 90 cases were divided into acute 30 cases, subacute 30 cases, and chronic 30 cases; and according to the pathological types were divided into the central type in 30 cases, 30 cases of peripheral type, and 30 cases of mixed type. At the same time the without lower extremity DVT volunteers of 20 cases were selected as normal control group, including male 9 cases, female 11 cases; age was 21-65 years old, average age was 38.7 years old. The static venous pressure (P0), dynamic venous pressure (P00), and decreased pressure ratio (Pd) of double lower limbs of participants in 2 groups were determinated and comparative analyzed. ResultsThe P0 and P00 of patients with different development of disease and pathological types of the case group were higher than those of the normal control group (P < 0.01), and the Pd was lower than that of the normal control group (P < 0.01). In case group, the P0 and P00 of acute phase were higher than those of the normal control group (P < 0.01), the P0 of central type was higher than that of the peripheral type and mixed type (P < 0.01), and the Pd central type was lower than that of mixed type (P < 0.01). The above 3 indexes' differences of double lower limbs in the normal control group had no statistical significance (P > 0.01). In case group, the P0 and P00 of ipsilateral limb in different development of disease and pathological types were higher than those of the healthy limb, and the Pd were lower than that of the healthy limb (P < 0.01). ConclusionsLower extremity venous pressure measurements can be used in clinical detection for early lower limb DVT, and can be used as the objective index of clinical evaluation curative effect for the treatment of DVT. It is a simple and practical clinical detection method.
Objective To investigate the feasibility and efficacy of transcatheter directed thrombolysis (TDT) approach in treatment for deep venous thrombosis (DVT) of lower limbs and as compared with trans-dorsal pedis vein thrombolysis (TPVT) approach. Methods The clinical data of 437 patients with acute DVT (184 males and 253 females) at the age of (43±12) years (range 19-76 years) from July 2008 to January 2012 in the First Affiliated Hospital of Zhengzhou University were analyzed retrospectively. Patients in the group TDT received TDT were 293 cases, 32 inferior vena cava filters were implanted. Patients in the group TPVT received TPVT were 65 cases, 4 inferior vena cava filters were implanted. Results The resolution time of thrombus in the group TDT was shorter than that in the group TPVT (6 d versus 9 d, P<0.05). The circumference difference of leg or upper leg before and after treatment in the TDT group was significantly greater than that in the TPVT group (P<0.05). The rate of venous patency was (65.2±15.4)% and preservation rate of valvular function was (78.2±12.6)% in the group TDT, and which was (63.8±16.3)% and (91.1±10.7)% in the group TPVT, respectively. The differences of venous patency rate was not statistically significant(P>0.05) between two groups, but the prevervation rate of valvular function was significant difference (P<0.05) .Hematomas in 3 cases and gross hematuria in 4 cases were observed, and displacement of inferior vena cava filter occurred in 1 patient in the group TDT. The gums bleed or gross hematuria in 5 cases were observed in the group TPVT. Conclusions Both TDT and TPVT can effectively relieve symptoms. TDT can shorten the course of disease, but itincreases functional damage of the deep vein valvular.
ObjectiveTo investigate the safety and efficacy of intermittent pneumatic compression (IPC) in the treatment of deep venous thrombosis (DVT). MethodsThe clinical data of 496 patients with DVT who were treated in our hospital from January 2010 to October 2014 were analyzed retrospectively, to compare the time of venous pressure decreased to normal (T1) and time of circumference difference decreased to normal (T2) in patients received pure therapy (control group) and pure therapy combined with IPC (combination group), according to different types of patients in acute, sub-acute, and chronic phase. In addition, comparison of the remission rate of pulmonary embolism (PE), incidence of PE, and recurrence of DVT was performed between the control group and combination group too. Results① For DVT patients in acute stage, the time of T1 and T2 of patients in central type, peripheral type, and mixed type who received anticoagulant therapy/systemic thrombolysis/catheter thrombolysis+IPC, were significantly shorter than those patients who received only anticoagulant therapy/systemic thrombolysis/catheter thrombolysis (P<0.05). For DVT patients in sub-acute stage, the time of T1 and T2 of patients in central type and mixed type who received anticoagulant therapy/systemic thrombolysis+IPC, were significantly shorter than those of patients who received only anticoagulant therapy/systemic thrombolysis (P<0.05), the time of T1 of patients in peripheral type who received anticoagulant therapy/systemic thrombolysis+IPC, were significantly shorter than those of patients who received only anticoagulant therapy/systemic thrombolysis (P<0.01), but the time of T2 of patients in peripheral type didn't differed between patients who received only anticoagulant therapy/systemic thrombolysis and anticoagulant therapy/systemic thrombolysis +IPC (P>0.05). For DVT patients in chronic stage, the time of T1 and T2 of patients in central type and mixed type didn't differed between patients who received only anticoagulant therapy and anticoagulant therapy +IPC (P>0.05); the time of T1 of patients in peripheral type who received anticoagulant therapy+IPC, were significantly shorter than those of patients who received only anticoagulant therapy (P<0.05), but the time of T2 didn't differed with each other (P>0.05). ② There were 63 patients in control group and 47 patients in combination group had PE before treatment. After the treatment, the PE symptom of control group relieved in 56 patients (88.89%, 56/63) and maintained in 7 patients (11.11%, 7/63), the symptom of combination group relieved in 44 patients (93.62%, 44/47) and maintained in 3 patients (6.38%, 3/47), so the remission rate of PE symptom in combination group was higher (P<0.05). There were 6 patients suffered from new PE in control group[4.26% (6/141)] and 0 in combination group[0 (0/245)] after treatment in patients who hadn't PE before treatment, and the incidence of PE was lower in combination group (P<0.05). ③ There were 325 patients were followed up for 3-36 months with the median time of 27 months, including 157 patents in control group and 168 patients in combination group. During the follow-up period, 74 patients recurred[47.13% (74/157)] in control group and 46 patients recurred[27.38% (46/168)] in combination group, and the recurrence rate was lower in combination group (P<0.05). In addition, 41 patients suffered from post-thrombotic syndrome[26.11% (41/157)] in control group and 27 patients[16.07% (27/168)] in combination group, and the incidence of post-thrombotic syndrome was lower in combination group (P<0.05). ConclusionsIPC can significantly shorten the time of venous pressure and the circumference difference decreased to normal for DVT patients in acute stage and majority DVT patients in sub-acute stage, and it can relieve the clinical symptoms of PE, reduce the incidence rate of PE and recurrence rate of DVT. Therefore, IPC is a safe, reliable, and effective treatment for DVT patients in acute stage and majority DVT patients in sub-acute stage.
ObjectiveTo investigate the incidence of perioperative deep venous thrombosis (DVT) of lower extremities and its risk factors in elderly patients with femoral neck fracture. Methods The clinical data of 4 109 elderly patients with femoral neck fracture admitted between August 2012 and November 2020 and met the selection criteria were retrospectively analyzed. Among them, there were 1 137 males and 2 972 females; their ages ranged from 65 to 101 years, with an average of 77.0 years. The time from fracture to admission ranged from 1 to 360 hours, with an average of 35.2 hours. There were 1 858 cases of hemiarthroplasty, 1 617 cases of total hip arthroplasty, and 634 cases of internal fixation surgery. The preoperative age-adjusted Charlson comorbidity index (aCCI) was 4 (3, 5). Perioperative DVT occurred in 857 cases (20.9%). Univariate analysis was performed on age, gender, body mass index, fracture side, time from fracture to admission, operation type, anesthesia type, blood transfusion, blood pressure after admission, and preoperative aCCI in patients with and without perioperative DVT, and logistic regression analysis was used to screen the risk factors of perioperative DVT in elderly patients with femoral neck fracture. ResultsUnivariate analysis showed that there were significant differences in age, gender, time from fracture to admission, operation type, and preoperative aCCI between the two groups (P<0.05). Further logistic regression analysis showed that age>75 years, female patients, time from fracture to admission>24 hours, and preoperative aCCI>5 were risk factors for perioperative DVT (P<0.05). Conclusion Elderly patients with femoral neck fracture have a higher incidence of perioperative DVT. The advanced aged and female patients, patients with longer fracture time and more comorbidities need to pay special attention to the prevention of perioperative DVT to minimize the occurrence of DVT during femoral neck fractures.
ObjectiveTo evaluate the efficacy and safety of intracavitary treatment for iliac vein compression syndrome(IVCS)with acute lower extremity deep venous thrombosis (DVT).MethodsThe clinical data of 57 patients with IVCS and lower extremity DVT, who undergoing with stent implantation, balloon expansion and Angiojet rheolytic thrombectomy from June 2015 to June 2018, were retrospectively analyzed. The effect of treatment was evaluated by the changes of thigh circumference difference between the affected side and the healthy side, and the thrombosis clearance rate in the operating. In addition, the incidence of post-thrombotic syndrome (PTS) and stent patency rate were analyzed after long-term follow-up based on the change of Villaita scale score and ultrasound examination of lower extremity veins.ResultsThe success rate of surgical technique was 100%, and there was no pulmonary embolism during operating and postoperative. Lower extremity deep vein thrombosis clearance levels Ⅲ 48 cases (84.2%), Ⅱ 9 cases (15.8%), the changes of thigh circumference difference between the affected side and the healthy side from preoperative (5.8±1.7) cm to (3.7±1.0) cm. One year follow-up after operation, the primary patency rate of stent was 86.0% and PTS occurred in 8 patients (14.0%).ConclusionStent implantation, balloon expansion and Angiojet rheolytic thrombectomy for IVCS with acute lower extremity DVT is a safe, effective with low incidence of complications and efficient thrombus clearance.