Increased incidence of venous thromboembolism associated with inferior vena cava filter placement in patients diagnosed with isolated calf deep vein thrombosis after intracranial hemorrhage or intracranial operation.

In this study, we sought to investigate the effectiveness of inferior vena cava (IVC) filter placement in reducing the incidence of venous thromboembolism (VTE) in patients diagnosed with isolated calf deep vein thrombosis (DVT) after an intracranial hemorrhage or intracranial operation. A retrospective chart review (January 2000-December 2019) was performed to identify patients diagnosed with calf DVT after intracranial hemorrhage or intracranial operation. A total of 100 patients met the study criteria and were divided into groups based on treatment: IVC filter placement (n = 22), prophylactic anticoagulation (n = 42), or imaging surveillance (n = 36). Treatment-related complications were identified, and differences between groups in the primary endpoint (VTE occurrence after DVT diagnosis) were assessed using logistic regression. VTE occurred in 15 patients after calf DVT diagnosis. The rate of VTE was higher in the IVC filter group (9/22; 41%) than in the anticoagulation (2/42; 5%; p = 0.002) and surveillance (4/36; 11%; p = 0.013) groups. These treatment effects remained significant after adjustments were made for baseline characteristics (IVC filter vs anticoagulation, p = 0.009; IVC filter vs surveillance, p = 0.019). There was a single occurrence of pulmonary embolism in the surveillance group (3%). A single case of IVC filter thrombus was identified; no anticoagulation-related complications were reported. The findings of this study do not support IVC filter placement as a primary and solitary treatment for isolated calf DVT occurring after intracranial hemorrhage or intracranial operation.

Narrative review of portal vein thrombosis in cirrhosis: pathophysiology, diagnosis, and management from an interventional radiology perspective.

Objective: This paper examines the incidence, clinical presentation, and pathophysiology of portal vein thrombosis (PVT) in cirrhosis. Additionally, we have reviewed the literature regarding the current status of medical and interventional radiology management of PVT and have proposed a novel algorithm for the management given different clinical scenarios. Lastly two representative cases displaying endovascular treatment options are provided. Background: Portal vein thrombus in the setting of cirrhosis is an increasingly recognized clinical issue with debate on its pathophysiology, natural course, and optimal treatment. Approximately one-third of patients are asymptomatic, and detection of the thrombus is an incidental finding on imaging performed for other reasons. In 30% to 50% of patients, PVT resolves spontaneously. However, there is increased post-transplant mortality in patients with completely occlusive PVT, therefore effective early revascularization strategies are needed for patients with complete PVT who are expected to undergo liver transplant. Additionally, no consensus has been reached regarding PVT treatment in terms of timing and type of interventions as well as type and duration of anticoagulation. Methods: Computerized literature search as well as discussion with experts in the field. Conclusions: Management of PVT is complex, as many variables affect which treatments can be used. Anticoagulation appears to be the optimal first-line treatment in patients with acute PVT but without bleeding varices or mesenteric ischemia. Minimally invasive treatments include various methods of mechanical thrombectomy, chemical thrombolysis, and transjugular intrahepatic portosystemic shunt (TIPS) placement with or without variceal embolization. Definitive recommendations are difficult due to lack of high quality data and continued research is needed to evaluate the efficacy of different anticoagulants as well as the timing and use of various minimally invasive therapies in specific circumstances.