View clinical trials related to Deep Venous Thrombosis.
Filter by:The purpose of this study is to evaluate the effectiveness of a new leg compression device in preventing post-surgical deep vein thrombosis (blood clot) that can occur after major and complex spine surgery. The investigators aim to show that this new compression device is no worse than the standard sequential compression device (SCD) at preventing DVT and may be able to detect deep vein thrombosis in patients who are not typically screened for this diagnosis after surgery. This new device may be able to capture an important post-surgical complication while providing a more comfortable treatment option.
Although pharmacologic and mechanical methods to prevent VTE are safe, effective, cost-effective, and advocated by authoritative guidelines,many studies continue to demonstrate that these preventive methods are significantly underutilized, especially in China.A number of quality improvements (QI) program have been established in several countries or hospitals.However,no exit effective protocol has been demonstrated well enough or adequate to drive breakthrough levels of improvement. A reliable and practical QI that can support hospitals or physicians in China is warranted.To evaluate the multifaceted quality improvement intervention effect in clinical setting, we will conduct a cluster-randomized clinical trial among China PUlmonary Thromboembolism REgistry Study (CURES) group, aiming to test whether it's applicable to real-world practice in China. A multicenter, two-arms, open-label clinical trial has been designed to determine whether the system-wide multifaceted intervention could increase the rate of at-risk participants who received prophylaxis (RP) and decrease the incidence of any hospital-associated VTE in 90 days during and after hospital admission. .Selected hospital will be regarded as a cluster and randomized into interventional or control group.In interventional group, eligible hospitalized patients will receive a variety of the multifaceted quality improvement(QI) interventions since admitted in hospital.In control group, patients will receive no more than common recommended care or an existing policy.The primary outcomes are the proportion of appropriate prophylaxis in hospitalized patients and the incidence of HA-VTE in 90 days after hospital admission.
Venous thromboembolism (VTE) is a common complication of malignancies, in particular to lung cancer. Patients with lung cancer in surgical and medical departments are at high risk of VTE development. Prophylaxis is one major way to to prevent it. Currently, VTE prophylaxis is mainly based on VTE-risk assessment. However, all patients hospitalized for cancer are at intermediate or high risk of VTE but their bleeding risk vary. To improve effect of VTE prophylaxis and reduce bleeding events in patients with lung cancer, we will conduct an open-label parallel randomized clinical tria to assess the effect of bleeding risk based prophylaxis strategy among lung cancer patients. We hypothesize that VTE prophylaxis based on bleeding risk assessment with a short post-discharge treatment course is superior to VTE propohylaxis based on VTE risk assessment among hospitalized patients with lung cancer A sample of 3200 eligible patients will be randomized into experimental or control group with an allocation rate of 1:1. Stratified by medical/surgical units, block randomization with a varying block size of 4 or 6 will be adopted to randomize patients into experimental or control group. In experimental group, patients will undergo bleeding risk assessment and receive prophylaxis according to bleeding risk during hospitalization, and they will also receive an extended pharmacological prophylaxis of 5mg Rivaroxaban once daily for up to 15 consecutive days after discharge. In control group, patients will receive routine VTE prophylaxis, VTE risk assessment and prophylaxis if indicated during hospitalization according to current policies for hospitals in China but no further treatment prophylaxis after discharge. Patients in both groups will be followed up for 30 days. The primary outcome is symptomatic and asymptomatic objectively proven VTE (deep vein thrombosis (DVT) and/or pulmonary embolism (PE)) within 30 days after initiation of randomization. Ultrasound and CTPA will be performed to detect DVT and PE, respectively. Clinically relevant bleeding (non-major clinically relevant and major bleeding, HIT) and death are secondary outcomes.
Post-surgical bleeding is a major source of morbidity in cancer patients, and ramifications can include need for transfusion, increased length of hospital stay, unexpected return to the operating room, or even death. Current guidelines support that all cancer patients who require surgical procedures receive post-operative blood thinners to minimize risk for blood clots in the legs or lungs, known as venous thromboembolism (VTE), but these medications have an unfavorable risk/benefit relationship among patients at low risk for VTE. The proposed work will pilot a randomized, double blind, placebo controlled trial to critically examine the role of de-implementation of current guidelines that mandate blood thinning medications among cancer patients at low risk for VTE who require surgical procedures; the pilot trial will allow optimization of the design of a future pragmatic multicenter trial, which ultimately would maximize patient safety after surgical procedures for cancer.
The primary purpose of this study is to compare the Celect and Denali filters in terms of complicated filter retrieval and indwelling complications after a 2-month indwelling time.
Open and multicenter randomized clinical trial (1:1) comparing limited screening with extended screening with the performance of Positron emission tomography-computed tomography (PET-CT) scan in the search for neoplasms in patients with unprovoked venous thromboembolic disease at high risk of developing cancer at follow-up. Introduction: Cancer screening in patients with unprovoked venous thromboembolic disease (VTE) is controversial. In the last years, a score has been developed that selects patients at high risk of developing cancer during follow-up. Objective: To estimate the impact of an active cancer search strategy using 18-fluordesoxiglucose (FDG) PET-CT in unprovoked VTE with high-risk to develop cancer. Specific Objectives: 1) Number of neoplasms diagnosed in the screening process: 2) number of neoplasms diagnosed at an early stage, 3) impact on survival of the strategy; and 4) impact on the quality of life. Cancer will be considered from 30 days up to 12 months after the diagnosis of VTE. Scope: 20 Spanish hospitals. Design: Open-label, multicentre Randomized clinical trial (1: 1) comparing the performance of PET-CT versus limited screening for cancer. Population: Patients older than 18 years with unprovoked VTE at high risk of presenting cancer at follow-up (≥3 points in the score of Jara-Palomares et al., Chest 2017). Follow-up: 12 months after VTE. Sample: The sample size calculated is 650 patients, to obtain a power of 80%, with a level of significance of 5%, and taking into account a 10% loss of follow-up.
This study aims to analyze the post-operative functional training on the prevention of deep venous thrombosis (DVT) in the patients who have accepted major surgeries for the gynecological malignancies. The functional training consists of: (1) active and passive ankle pump motions including flexion and extension, circumduction; (2) abdominal breathing training. The primary end is the incidence of DVT happened 30 days from surgery. The secondary ends include the patients satisfaction about functional training.
Despite of preventive measures, the incidence of deep venous thrombosis (DVT) in ICU patients is estimated to range from 5-31%. While clinical diagnostics is unreliable, ultrasound compression test (UCT) has proven to be a highly sensitive and specific modality for the recognition of lower extremity DVT. Delegating this competence to ICU nurses can increase UCT availability and enable preventive DVT screening. Therefore, the investigators decided to conduct a clinical study to evaluate the sensitivity and specificity of UCT performed by general ICU nurse in ICU patients compared to an investigation by ICU physician certified in ultrasound. Prior to the study, each nurse-investigator participating in the study undergo one-hour training in UCT and examine 5 patients under supervision. Then, ICU patients without known DVT will be investigated by UCT in the femoral and popliteal region of both lower extremities by trained general ICU nurse-investigators. On the same day, the examination will be repeated by an ICU physician-investigator. The results of the examinations of each patient will be blinded to each other for both investigators until both tests are performed. The sensitivity and specificity of the test performed by general nurse will be calculated in comparison with the examination by a specialist.
In this study we are going to measure the blood flow in the lower limbs under cast immobilisation and also under mobilisation with an orthosis. The aim is to evaluate how the aforementioned modalities affect the blood flow and also to compare between the two.
This VA QUERI Partnered Evaluation Initiative will evaluate the impact of an immersive Point-of-care Ultrasound (POCUS) Training Course on provider skill acquisition and retention; the frequency of POCUS use by trained providers; and the barriers/facilitators to POCUS in the VHA. Data sources include pre- and post-course assessment tools, medical coding data, and course evaluations. Providers that participate in the POCUS Training Course will be compared to control providers from wait-listed facilities. Additionally, participating facilities vs. wait-listed facilities for the POCUS Training Course will be compared. Findings from this project will guide ongoing efforts of the investigators' operating partners, VA Specialty Care Centers of Innovation (SCCI) and the VA Simulation Learning and Research Network (SimLEARN), to develop a national POCUS training program and facilitate implementation of POCUS use system-wide in the VA healthcare system.