Portal vein blood flow is very important for the normal function of transplanted liver. The author reviewed the management methods of different portal vein thrombosis classification in the liver transplantation (LT). The prognosis of LT in the patients with Yerdel 1–3 thrombosis is similar to that the patients without thrombosis. The portal vein reconstruction of the patients with Yerdel 4 thrombosis can be realized by varicose vein to portal anastomosis, renoportal anastomosis or cavoportal hemitransposition. When anastomosis is made at the proximal side of a spontaneous shunt between the portal and cava system, the blood shunted from portal system can be reintroduced into the donor liver, which is crucial for the management of Yerdel 4 thrombosis. The establishments of artificial shunt by distal splenic vein, mesenteric vein or “multiple to one” anastomosis are effective attempts to drain the blood from portal system to the donor liver. For more severe diffuse thrombosis of portal vein system, multivisceral transplantation, including liver and small intestine, should be considered. The cases of LT in the patients with complex portal vein thrombosis are increasing, however the prognosis remains to be determined after accumulation of the cases.
ObjectiveTo summarize the new biomarkers of deep venous thrombosis (DVT) and their research progress, so as to provide new ideas for the prevention, diagnosis and treatment of DVT. MethodThe literature about biomarkers of DVT in recent 5 years was reviewed and summarized. ResultsAccording to the results of literature review, a variety of common DVT biomarkers such as serum microrna, fibrin monomer, neutrophil capture net, and E-selectin were sorted out, but most of them had not been used in clinical DVT management. At present, the clinical diagnosis of DVT required the combination of positive D-dimer test and positive imaging examination, and there was no single biomarker for the diagnosis of DVT. ConclusionsBiomarkers are valuable in the diagnosis and treatment of DVT, but their sensitivity and specificity need to be optimized. Therefore, finding biomarkers with more diagnostic value is one of the future directions. At the same time, we also can consider fully combined with a variety of existing biomarkers, to improve the efficiency to the diagnosis of DVT.
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 effects of intraoperative intermittent pneumatic compression (IPC) treatment on coagulation and fibrinolysis, lower extremity venous blood flow velocity, and deep venous thrombosis (DVT) in patients with gastric cancer (GC) after radical gastrectomy. MethodsThe patients with GC who underwent radical gastrectomy at Hebei Provincial People’s Hospital from July 2021 to July 2024 were retrospectively enrolled, then the patients were assigned into control group (the patients who did not receive intraoperative IPC) and study group (the patients who received intraoperative IPC), and the propensity score matching (PSM) method was used to conduct 1∶1 matching based on the basic characteristics such as age, gender, body mass index, comorbidities to ensure baseline comparability between the two groups. The incidences of postoperative DVT and lower extremity swelling, and coagulations [prothrombin time (PT), thrombin time (TT), activated partial thromboplastin time (APTT)] and fibrinolysis [D-dimer (D-D), fibrinogen (FIB), and fibrin degradation products (FDP)], as well as lower extremity venous blood flow velocity were analyzed after PSM. The locally weighted regression was used to analyze the correlation between the coagulation and fibrinolytic functions indexes and the lower extremity venous blood flow velocity. ResultsA total of 120 patients were matched (60 cases per group). The baseline characteristics of both groups were comparable (P>0.05). The incidences of DVT on day 7 and lower extremity swelling on day 1, 3, and 7 after surgery in the study group were significantly lower than those in the control group (P<0.05). The results of repeated-measures analysis of variance showed that there were statistically significant differences in the inter-group, time-related, and group-by-time interaction effects of coagulation and fibrinolysis indexes as well as lower extrimety venous blood flow velocities (P<0.05). The impact of the time factor on coagulation and fibrinolysis indexes and lower extrimety venous blood flow velocities varied with intraoperative IPC intervention measures. After surgery, the PT, TT, APTT, and lower extrimety venous blood flow velocities in the study group first decreased and then increased as compared with those before surgery, and the decrease degree was smaller and the increase degree was larger than those in the control group. After surgery, the D-D, FIB, and FDP in the study group first increased and then decreased as compared with those before surgery, and the increase degree was smaller and the decrease degree was larger than those in the control group. Both PT and TT were significantly positively correlated with femoral vein blood flow velocity (r=0.21, P=0.042; r=0.22, P=0.040), and both also showed significant positive correlations with popliteal vein blood flow velocity (r=0.25, P<0.001; r=0.20, P=0.032). APTT was only significantly positively correlated with popliteal vein blood flow velocity (r=0.33, P<0.001). D-D was negatively correlated with the flow velocities of the femoral vein, external iliac vein, and popliteal vein (r=–0.23, P=0.012; r=–0.22, P=0.047; r=–0.37, P<0.001). Both FIB and FDP were negatively correlated with the flow velocity of the femoral vein (r=–0.23, P=0.036; r=–0.27, P=0.002). FIB was also negatively correlated with the flow velocity of the popliteal vein (r=–0.26, P=0.038), and FDP was negatively correlated with the flow velocity of the external iliac vein (r=–0.31, P<0.001). ConclusionBased on the results of this study, intraoperative IPC treatment could improve coagulation and fibrinolytic functions of patients with GC after surgery, and has a certain preventive effect on occurrence DVT of lower extremity.
ObjectiveTo evaluate the safety and mid-to-long term outcomes of catheter-directed thrombolysis (CDT) in combination with percutaneous mechanical thrombectomy (PMT) followed by stent placement treatment for acute proximal deep vein thrombosis (DVT) complicated by iliac vein compression syndrome (IVCS), and to identify risk factors relevent to primary stent restenosis. MethodsA retrospective study was conducted. The patients diagnosed with acute proximal DVT and concurrent IVCS who underwent CDT in combination with PMT followed by stent placement at the First Affiliated Hospital of Chongqing Medical University from January 2018 to December 2021 were included. The demographics, clinical history, and procedural data were collected. The postoperative follow-up using color Doppler ultrasound were scheduled at 3, 6, and 12 months, and annually thereafter. The primary and secondary stent patency rates were evaluated. The univariate and multivariate Cox proportional hazards regression models were employed to assess risk factors for primary stent restenosis. ResultsA total of 188 patients who met the inclusion and exclusion criteria were enrolled, underwent CDT combined with PMT and stent implantation, and completed follow-up. During the follow-up, the restenosis occurred in 26 patients. The cumulative primary patency rates at 3, 6, 12, 24, 36, and 48 months after surgery were 100%, 98.9%, 92.5%, 88.3%, 86.7%, and 86.2%, respectively. The multivariate Cox proportional hazards regression analysis confirmed that a history of previous DVT [HR (95%CI)=4.21 (1.73, 10.28), P=0.002], implantation of two or more stents [HR (95%CI)=11.85 (1.66, 84.63), P=0.014], stent crossing the inguinal ligament [HR (95%CI)=9.92 (1.87, 52.78), P=0.007], and stent length [HR (95%CI)=0.98 (0.97, 0.99), P=0.003] were the affecting factors for primary restenosis. ConclusionsThe findings of this study suggest that CDT combined with PMT and stent implantation is a safe and effective strategy for treating acute proximal DVT complicated by IVCS. Close attention should be paid to the occurrence of restenosis in patients with two or more stents, stent crossing the inguinal ligament, and a history of previous DVT.
Objective To establish and validate a risk prediction model for post-thrombotic syndrome (PTS) in patients after interventional treatment for acute lower extremity deep vein thrombosis (LEDVT). MethodsA retrospective study was conducted to collect data from 234 patients with acute LEDVT who underwent interventional treatment at Xuzhou Central Hospital from December 2017 to June 2022, serving as the modeling set. Factors influencing the occurrence of PTS were analyzed, and a nomogram was developed. An additional 98 patients from the same period treated at the Xuzhou Cancer Hospital were included as an external validation set to assess the reliability of the model. ResultsAmong the patients used to establish the model, the incidence of PTS was 25.2% (59/234), while in the validation set was 31.6% (31/98). Multivariate logistic regression analysis of the modeling set identified the following factors as influencing PTS: age (OR=1.076, P=0.001), BMI (OR=1.163, P=0.004), iliac vein stent placement (OR=0.165, P<0.001), history of varicose veins (OR=5.809, P<0.001), and preoperative D-dimer level (OR=1.341, P<0.001). These 5 factors were used to construct the risk prediction model. The area under the receiver operating characteristic (ROC) curve (AUC) of the model was 0.869 [95%CI (0.819, 0.919)], with the highest Youden index of 0.568, corresponding to a sensitivity of 79.7% and specificity of 77.1%. When applied to the validation set, the AUC was 0.821 [95%CI (0.734, 0.909)], with sensitivity of 77.4%, specificity of 76.1%, and accuracy of 76.6%. ConclusionsThe risk prediction model for PTS established in this study demonstrates good predictive performance. The included parameters are simple and practical, providing a useful reference for clinicians in the preliminary screening of high-risk PTS patients.
ObjectiveTo explore the effect of catheter directed thrombolysis (CDT) in treatment of acute deep venous thrombosis (ADVT) in lower extremity. MethodsLimb circumference at 15 cm above and below the knee at affected side, as well as patency improvement score of 46 patients with ADVT in lower extremity, who received treatment in The Rocket Army General Hospital of PLA between January 2014 and October 2015, were colleted retrospectively, to analyze the effect of CDT in treatment of ADVT in lower extremity. ResultsAll patients were placed catheter successfully, 5 patients were placed catheter by 'contralateral mountain' technique retrograde, 40 patients were placed catheter through the limb popliteal vein at affected side anterograde, guiding by ultrasound, 1 patient was placed catheter through femoral vein at affected side. All of 46 patients got successful thrombolysis, and thrombolysis time was (4.7±1.8) d (3-12 d). There were 8 patients suffered from complications in different situation, and got treatment of drug withdrawal or tube drawing all ease, no one died. Compared with before CDT treatment in same group, the limb circumference at 15 cm above (P=0.028, P=0.017, P=0.031) and below (P=0.035, P=0.038, P=0.047) the knee at affected side, and patency improvement score (P=0.023, P=0.028, P=0.031) in all patients group, 22-45 years group, and 46-74 years group were all lower after CDT treatment. The limb circumference at 15 cm above (P=0.073, P=0.387, P=0.358) and below (P=0.416, P=0.625, P=0.253) the knee at affected side after CDT treatment were not differed with corresponding indexes of healthy side in the same group of all patients group, 22-45 years group, and 46-74 years group. Ultrasound after treatment showed that, blood vessel recanalization occurred in 15 patients (32.6%), partial blood vessel recanalization occurred in 28 patients (60.9%), but thrombus of 3 patients (6.5%) didn't removed, the total effective rate was 93.5% (43/46). Forty three patients were followed up for 1-24 months, the median is 18-month. During follow-up period, skin color obviously deepened after the activity occurred in 5 patients, obvious limb acid bilges occurred in 19 patients, vein thrombosis (DVT) recurred in 9 patients of 28 patients with partial blood vessel recanalization, in addition, thrombosis syndrome (PTS) occurred in 11 patients. ConclusionCDT is the most direct and effective way to treat ADVT.