Objective To establish a model of deep venous thrombosis (DVT) in rats for dynamic study of antithrombotics or thrombolysis on thrombosis. Methods SD rats (n=60) were randomly divided into thrombosis model group (n=36), control group (n=18) and sham operation group (n=6). An improved method was used to make the inferior caval vein ligated in SD rats of thrombosis model group. After operation, rats in thrombosis model group and control group were divided into 6 period groups. The changes of thrombus and internal surface of vessels in each period were observed in thrombosis model group and were compared with those in other two groups, respectively. Results Stable venous thrombus were observed in all inferior caval vein in thrombosis model group, and the proximal part of venous thrombus was unobstructed and consistent with the pathological change of venous thrombosis during acute stage in human body. Conclusion The DVT model in rats was successfully established, which maybe helpful for dynamic study of the effect of antithrombotics or thrombolysis on thrombosis.
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 summarize the experience of treating lower extremity deep venous thrombosis (DVT) after repair of inguinal hernia. MethodThe clinical data of 1 812 patients who underwent herniorrhaphy from January 2002 to December 2012 were reviewed, and we analyzed such data as age, gender, and the formation of DVT. ResultsFive of them suffered from DVT (0.28%), including 2 cases involving both lower extremities, 1 right and 2 left extremity. All of them were discharged from hospital by anticoagulant therapy and there was no pulmonary embolism and death case. DVT recovered well in 4 cases half a year after being discharged from the hospital. One had a sequela of recurrent swelling of the left lower extremity. ConclusionsReasonable precautions and treatment against DVT are very important even though DVT rate after inguinal hernia repair is low.
【Abstract】 Objective To improve the knowledge of pulmonary embolism with normal D-dimer levels. Methods Nine consecutive patients of established pulmonary embolism with a normal D-dimer concentration admitted from January 2004 to December 2009 were analyzed retrospectively. Results Pulmonary embolism was confirmed in the 9 patients with a normal D-dimer concentration. Pulmonary embolismwas confirmed in only one patientwith an unlikely probability of pulmonary embolism. Wells score was 3 and the localization of the emboli was segmental emboli. In other 8 patients with a likely clinical probability of pulmonary embolism, the complaints of those patients existed between 1 hour and 2 months.Wells score was between 4. 5 and 7. 5, with a median of 6. 0. D-dimer concentration was between 0. 1 and 0. 5 mg/L, with a median of 0. 3 mg/L. The localization of the emboli was sub-segmental emboli in 3 cases,segmental emboli in 4 cases, and central emboli in 2 cases. Conclusions Our findings indicate that it is essential to examine the patient and assess the clinical probability at the first, then the D-dimer concentration should be taken into account. In patients with a likely clinical probability, a normal D-dimer test result can not exclude pulmonary embolism, and additional imaging testing is necessary.
ObjectiveTo investigate the clinical efficacy of catheter directed thrombolysis (CDT) through three different approaches combined with iliac venous endovascular therapy for acute deep venous thrombosis (DVT) complicated with Cockett syndrome of the lower extremities. MethodThe clinical data of 87 patients with CDT through three different approaches (small saphenous vein group, popliteal vein group, and posterior tibial vein group) combined with iliac venous endovascular therapy for DVT complicated with Cockett syndrome of the lower extremities were analyzed retrospectively. ResultsThe lower extremity swelling of all the patients were disappeared obviously within 72 h after surgery, there was no death related surgery and pulmonary embolism. The limb edema reduction rates had no significant differences among the small saphenous vein group, popliteal vein group, and posterior tibial vein group﹝(77±13)% versus (82±12)% versus (77±18)%, P > 0.05﹞. The recanalization rates of thrombolysis had no significant differences among the above three groups﹝(86.5±10.6)% versus (92.0±7.7)% versus (87.3±7.8)%, P > 0.05﹞. The time required for the cannulation in the posterior tibial vein group was significantly shorter than that of the small saphenous vein group or popliteal vein group﹝(15.14±3.62) min versus (32.62±9.36) min or (42.79±13.30) min, P < 0.01﹞. All the patients were performed by balloon dilatation and iliac vein stenting. Eighty-seven cases were followed-up for 1-24 months, the primary patency rate of iliac venous was 100%. ConclusionsCDT with iliac venous endovascular therapy is an effective method in treatment of acute DVT with Cockett syndrome. CDT through posterior tibial vein is an easier and effective method with less complications and time. This way could be acceptable in basal hospital.
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.
Objective To summarize the clinical manifestation and the causes of lower limb deep venous thrombosis (DVT) complicated with pulmonary embolism (PE). Method The clinical data of 45 cases of PE confirmed by CTPA from May 2009 to May 2012 in this hospital were summarized retrospectively. Results Five patients with PE had no obvious clinical manifestation, 9 patients (20.0%) had chest stuffiness and short of breath, 8 patients (17.8%) had cough. In the causes of thrombosis defluxion:11 patients (24.4%) had early mobilization after operation, 9 patients (20.0%) had functional exercise after operation, 7 patients (15.6%) had turn over or defecate on bed, 2 patients (4.4%) had sneeze, 14 patients (31.1%) had no definite causes. Conclusions Patients with lower limb DVT have high risk of thrombosis defluxion, although adequate anticoagulation. Early mobilization, functional exercise, and transient increased abdominal pressure are easy to lead to thrombosis defluxion, so lead to PE. Absence of the protection of inferior vena cava filter, patient should be required for bed ridden in order to avoid the thrombosis defluxion.
ObjectiveTo investigate the safety and effectiveness of using tranexamic acid in total knee arthroplasty (TKA). MethodsBetween May 2012 and May 2013, 88 patients (88 knees) with degenerative osteoarthritis underwent primary TKA and were divided into 2 groups (n=44) according to whether use of tranexamic acid (15 mg/kg) or not. Seventy-seven patients (39 in trial group and 38 in control group) were enrolled in this study except 11 patients who failed to be followed up. There was no significant difference in gender, age, disease duration, body mass index, osteoarthritis grading, and preoperative general data of laboratory examination between 2 groups (P > 0.05). The following indexes were recorded and compared between 2 groups: intraoperative tourniquet time, intraoperative blood loss, postoperative drainage volume during 24 hours, total drainage volume, hidden blood loss, total blood loss, the number of transfusion, postoperative haemoglobin (Hb) at 3 days, postoperative D-dimer at 24 hours, ecchymosis, and deep venous thrombosis (DVT). ResultsNo statistically significant difference was found in intraoperative tourniquet time and intraoperative blood loss between 2 groups (P > 0.05). The postoperative drainage volume during 24 hours, total drainage volume, hidden blood loss, total blood loss, and postoperative D-dimer at 24 hours in trial group were significantly lower than those in control group (P < 0.05). The postoperative Hb at 3 days in trial group was significantly higher than that in control group (t=4.815, P=0.000). Three cases (7.7%) of trial group and 4 cases (10.5%) of control group were given blood transfusion, showing no significant difference (P > 0.05); DVT occurred in 3 cases of 2 groups repectively (7.7%, 7.9%), showing no significant difference (P > 0.05). Extremity ecchymosis occurred in 1 case (2.6%) of trial group and in 7 cases (18.4%) of control group, showing significant difference (χ2=0.029, P=0.026). ConclusionUse of tranexamic acid can significantly reduce blood loss and does not increase the risk of DVT after TKA.
Little has been reported about deep venous thrombosis (DVT) that occurs after the implantation of the cardiac pacemaker. DVT affects the prognosis and quality of life of patients severely, or even causes fatal pulmonary embolism. Research on its risk factors, therapeutic strategy and secondary prevention does not coincide with one another. We have searched the systematic reviews and randomized controlled trials of DVT through PubMed, Cochrane Library and Guideline. Evidence has showed that previous DVT, over 40 years of age, and surgical history are the major risk factors. Initial treatment of DVT with heparin and maintenance therapy with oral anticoagulant are indispensable and effective, and could improve the prognosis of patients. If patients with previous DVT are at increased risk in the future, heparin and / or oral anticoagulant application may be used for prophylaxis.
【Abstract】ObjectiveTo detect the levels of homocysteine (Hcy) and anti-phospholipid antibodies (APLA) in the hematoplasma of the patients with deep venous thrombosis (DVT), discuss the reason of DVT recurrence and search for the predictors of it. MethodsSixty cases with DVT in our department from January 2001 to April 2003 were collected, which were divided equally into two groups as primary and recurrent, and first degree relative of the 30 DVT recurrent patients were also collected. The author established a control group using 30 cases of outpatient clinic without varicose veins of lower extremity or insufficient venae profundae. Hcy was detected with fluorescence polarization immunoassay (FPIA) and APLA 〔anticardiolipin antibody, ACLA (IgG, IgM); lupus antibody (LA)〕were detected with enzyme linked immunosorbent assay (ELISA). Odds ratios (OR) were also calculated to assess the relative risk of each study group. ResultsThe values of Hcy and ACLA (IgG, IgM) in the primary group and recurrent group were both significantly higher than those of control group and first degree relative group of DVT recurrent patients (Plt;0.01). The values of Hcy in first degree relative group of DVT recurrent patients was were also much higher than that of control group (Plt;0.05). The 90% quantity of Hcy in control group was 13.1 μmol/L and if taking it as the normal value, the number of cases exceeded this value in primary group, recurrent group and first degree relative group of DVT recurrent patients were 14, 21 and 13 and the OR of them were 2.31, 2.20 and 1.90, respectively. The positive rates of LA were not statistically significant in each group. Conclusion The values of Hcy and APLA both rise in the hematoplasma of DVT patients. There are close relationship between the levels of Hcy and APLA and DVT. The recurrence of DVT is related to high level of Hcy and Hcy is possibly a predictor of DVT.