89 Clinical Trials for Various Conditions
Hospitalized patients are at risk of developing blood clots in the legs (Deep Vein Thrombosis or DVT), which can lead to death if those clots break off and migrate to the lungs. We know that if there is a blood clot in the large leg veins near the hips and in the thighs, treating these patients with high-doses of blood thinners reduces the risk of these deaths. It is unclear if treating blood clots in the calf with high doses of blood thinners is better than using low doses. In this study, after being diagnosed with a blood clot in the calf, patients will be treated with either low dose or high dose enoxaparin (Lovenox), a blood thinner. We will then see if low dose blood thinner has similar results as high dose blood thinner.
This study will evaluate the safety profile of GMI-1271 and its effect on thrombus resolution in patients with distal calf vein Deep Venous Thrombosis (DVT).
Emergency Medicine (EM) Residents routinely conduct bedside ultrasound exams in the Emergency Department (ED) employing the two point compression method. This study endeavors to investigate the accuracy and utility of bedside ultrasound for Deep Vein Thrombosis (DVT) in the ED by EM Residents by comparing the results of that exam against the gold standard of a DVT ultrasound performed in the Radiology Department and interpreted by a Radiologist.
Purpose of this study is to determine the incidence of deep venous thrombosis after partial knee replacement.
The Cothera VPulse(tm) mechanical compression device (MCD) combines rapid intermittent sequential compression with cold therapy and is designed for single patient use in the home. Additionally, it can track patient compliance. This study will examine if there is a difference in deep vein thrombosis (DVT) occurrence over 3 weeks after tourniquet-less total knee arthroplasty (TKA) and multimodal prophylaxis with or without extended MCD use in a cooling device/MCD system.
Study hypothesis: Subcutaneous enoxaparin is more effective than subcutaneous heparin in preventing the development of DVT in the general surgical intensive care unit population. Hospitalized patients are at increased risk for the development of blood clots in the legs, known as deep venous thrombosis (DVT). Surgical patients are in a higher risk category than the general hospital population due to a number of factors including undergoing surgery and increased risk of immobility. The highest risk patients are in the surgical intensive care unit, where their surgical risks for blood clots are combined with issues such as sepsis, acquired blood clotting disorders, and increasing age, each of which are factors that contribute to the risk of blood clot development. 1. Patients who develop these blood clots (DVTs) are at risk for chronic leg swelling, pain, and in some cases, chronic ulcer development on the leg. In the worst case scenario, these blood clots can break away and migrate to the lungs where they cause a pulmonary embolism (PE), a clot in the lungs that can cause significant breathing difficulty requiring intubation and mechanical ventilation, and in some cases, death. According to recent research, DVTs account for over 200,000 patient deaths each year nationwide. 2. A large amount of data has supported the use of medication called heparin or enoxaparin in low doses to prevent these blood clots from forming while in the hospital. Both of these medications are considered standard of care for use patients considered moderate and high risk for the development of DVT. 3. While both of these medications have been shown to significantly reduce the occurrence of DVT in appropriate doses, 4. there has never been a direct comparison of the two medications in the highest-risk population of the surgical intensive care unit. Our own preliminary data suggests patients may have a lower incidence of DVTs with the use of enoxaparin versus heparin. Part of the reason for this may be the requirement for three times daily dosing of the heparin compared to once daily dosing for enoxaparin. There may also be some inherent differences in the efficacy of the medications themselves.
The goal of this study is to fill the paucity of second line endovascular treatment for acute deep venous thrombus (DVT) by using catheter-directed thrombolysis (CDT) and mechanical thrombectomy (MT) as adjunctive second-line treatments for acute DVT patients who show no improvement after an initial anticoagulation trial for one week. The main questions the study aims to answer are: - Are adjunctive use of endovascular interventional treatments as second-line to DVT treatment safe and efficient? Participants will be followed with repeat US at 1 week after initial DVT to assess for response to anticoagulation treatment. If there is significant residual thrombus with minimal or no response to treatment, participants will be offered enrollment to the study in the office or inpatient setting. Enrolled participants will be randomized into control or intervention arms with 1:1 ratio. Researchers will compare follow-up Villalta and Marder scores between groups to see whether endovascular interventions are safe and efficient.
The primary purpose of this study is to conduct a multi-site clinical trial of the Recovery Force Movement and Compressions (RF MAC) System. The study is a randomized comparative study of DVT prophylaxis using either standard IPC (Group 1) or the RF MAC system (Group 2) in 300 patients after TJR surgery at two study sites: Tufts Medical Center (Boston, Massachusetts) and Eskenazi Hospital (Indianapolis, Indiana). This study is funded by a Phase II SBIR awarded to Recovery Force from the National Institutes of Health, National Heart, Lung and Blood Institute (R44-HL132624-02).
This is a study of a medical procedure that utilizes a commercially available catheter (the Bullfrog® Micro-Infusion Device) to locally deliver a commercially available anti-inflammatory drug (dexamethasone sodium phosphate injection) around the deep veins after DVT recanalization, where DVT symptoms were present for up to 14 days prior to recanalization. The goal of the study is to see if local anti-inflammation helps prevent re-thrombosis of the blood vessel and improvement in symptoms for up to 24 months after the initial DVT recanalization procedure.
This is a study of a medical procedure that utilizes a commercially available catheter (the Bullfrog® Micro-Infusion Device) to locally deliver a commercially available anti-inflammatory drug (dexamethasone sodium phosphate injection) around the deep veins after DVT recanalization, where DVT symptoms were present for at least 14 days and no more than 60 days prior to recanalization. The goal of the study is to see if local anti-inflammation helps prevent re-thrombosis of the blood vessel and improvement in symptoms for up to 24 months after the initial DVT recanalization procedure.
The goal of this study is to determine the safety and tolerability or efficacy of adjunctive treatments (including rosuvastatin 20 mg daily) in combination with standard anticoagulation therapy (Factor Xa inhibitors) in patients with lower extremity deep vein thrombosis (DVT). The efficacy of adjunctive treatments to prevent the development of post thrombotic syndrome (PTS) after DVT will be evaluated.
Investigators are building an empirical evidence base for real world data through large-scale replication of randomized controlled trials. The investigators' goal is to understand for what types of clinical questions real world data analyses can be conducted with confidence and how to implement such studies.
The purpose of this study is to demonstrate the safety and efficacy of thrombolysis in combination with endhole aspiration in the treatment of acute deep vein thrombosis (DVT). Secondarily, the study team hope to illuminate the financial implications of single session catheter directed therapy versus a potential 48 hour lysis procedure (Lysis is an approach in which vascular specialists deliver clot-dissolving drugs directly to the site of the clot through a catheter).
This study aims to investigate a novel positron emission tomography(PET)-probe for imaging of fresh intravascular blood clots in pulmonary embolism (PE) and deep venous thrombosis (DVT).
The Researchers are studying whether a vascular boot warming program plus standard of care anticoagulation can be a safe and effective method to resolve Deep Vein Thrombosis (DVT) ±Pulmonary Embolism (PE) earlier and prevent development of post-thrombotic syndrome (PTS). Additionally, to learn whether a more detailed imaging of the affected lower extremities will provide a more accurate and reliable method to guide treatment for this condition.
A preliminary clinical usability study to assess design, comfort, wearability, and acceptance of Recovery Force's Deep vein thrombosis (DVT) cuff
The goal of this study is to develop strategies that will improve outcomes for patients with deep vein thrombosis (DVT), using in vivo FDG-PET inflammation imaging to better predict the development of the post-thrombotic syndrome (PTS). New approaches are needed to improve the outcomes of patients with DVT, a disease that affects up to 600,000 patients per year in the US alone. DVT acutely places patients at risk of death from pulmonary embolism and causes 50,000 deaths annually in the US. Moreover, up to 30-50% of patients will develop PTS, an illness characterized by inflammation-driven fibrotic vein wall injury, and persistent thrombus obstruction. PTS occurs despite anticoagulant therapy, and produces chronic disability from leg pain, heaviness, edema, skin pigmentation, and ulcers; some patients may even require amputation. PTS impairs quality of life to the same extent as chronic obstructive pulmonary disease or diabetes. Therefore new diagnostic insights into PTS are urgently needed. There are several major challenges to improve outcomes in PTS: A) Limited in vivo knowledge regarding inflammation and the development of PTS; B) L Lack of predictive approaches to identify patients at high risk for PTS that will preferentially benefit from novel therapies. Recently, our laboratories have harnessed FDG-PET molecular imaging to illuminate DVT inflammation in vivo, and to provide a new strategy to diagnose recurrent DVT, a vexing clinical problem (Hara et al. Circulation 2014). We now propose to further develop FDG-PET to improve outcomes in DVT and PTS. The objective of this application is to develop FDG-PET as an inflammation imaging approach to assess DVT inflammation and predict risk of developing PTS in human subjects; Hypothesis 1A: Inflammatory activity in DVT (quantified acutely, using FDG-PET imaging within 0-7 days after DVT) will predict PTS incidence (primary) and severity (secondary) within a 24 month follow-up period. Hypothesis 1B: Inflammatory activity in DVTs (quantified sub-acutely, using FDG-PET imaging within 21-28 days after DVT), will predict PTS incidence and severity. Eighty patients with DVT will be imaged using FDG-PET/CT acutely (0-7 days of DVT diagnosis), and sub-acutely (21-28 days after diagnosis). Subjects will be evaluated repeatedly for up to 2 years to detect clinical evidence of PTS (Villalta score), ultrasound findings for structural venous injury, and soluble biomarkers of systemic inflammation. Subsequently, we will evaluate the relationship between FDG DVT activity and the development of PTS.
The purpose of the study is to prospectively assess the prevalence of venous thrombosis in women hospitalized for Cesarean Section, vaginal delivery or extended antepartum hospitalization by using Compression ultrasound of the entire proximal venous system of the lower limb veins.
RE-COVERY is a large, multi-national, multi-center observational study based on new data collection. The study will enroll and characterize patients within 30 days of being diagnosed with an acute DVT and/or PE. The study has two main objectives. Objective 1 will characterize the DVT / PE patient population. All patients with a DVT and/or PE will be enrolled for cross-sectional characterization of the VTE patient population. Objective 2 will compare the safety and effectiveness of dabigatran etexilate regimens for treatment of VTE in comparison to VKA regimens. Patients treated with dabigatran etexilate or VKA will be followed up for the occurrence of outcome events for up to one year.
Standardize the approach to outpatient Pulmonary Embolism (PE) and Deep Vein Thrombosis (DVT) treatment.
To evaluate the efficacy of ultrasound accelerated thrombolysis using the EkoSonic® Endovascular System with standard infusion of thrombolytic drug for post-thrombotic syndrome from chronic venous occlusion.
This prospective controlled study examines the use of Doppler ultrasound as a means to screen elective plastic surgery patients for the presence of deep venous blood clots both before and after surgery. This is a noninvasive technique that is known to be both sensitive and specific for the detection of deep venous thromboses in the lower extremities. This method may make it unnecessary to select patients for prophylactic anticoagulation, which poses additional risks to the patient.
The purpose of this study is to see if a compression device on the arm where a peripherally inserted central catheter (PICC) line has been inserted can prevent the formation of a blood clot around the PICC line.
We propose an observational study to assess the ability of intensivists to evaluate for deep vein thrombosis using 2 point compression ultrasonography.
1. The use of LMWH following open reduction and internal fixation of ankle fractures will reduce the number of thrombi formed. 2. The rates of clinically significant DVT will be equivalent between two groups.
Blood clots contribute to the death of at least 100,000 Americans each year. Because many of these deaths occur suddenly where treatment is impossible, the best treatment is prevention. With this grant, researchers in Missouri, New York, Utah, Illinois, and Texas are developing strategies to improve the safety and effectiveness of clot prevention by customizing a popular blood thinner (warfarin) to each person's genetic and clinical profile. They hypothesize that the use of genetics to guide warfarin therapy will reduce the risk of venous thromboembolism (VTE) postoperatively. They further hypothesize that using a target international normalized ratio (INR) of 1.8 is non-inferior to using a target INR of 2.5 in VTE prevention.
The purpose of this research is to find a better way to prevent the post operative development of clots in the deep veins of the legs (also called Deep Vein Thrombosis or DVT). DVT causes redness, swelling, and pain in the involved leg(s). Long-term complications may include permanent swelling and pain of the leg(s), and even skin ulcers around the ankle. If clots form in a leg after surgery, and break off, they can move to the lungs and block the pulmonary artery (also called Pulmonary Emboli or PE). With PE there can be chest pain, chest tightness, shortness of breath, coughing up blood, heart failure, and occasionally death. Doctors have studied ways to reduce these complications. These studies led to the development of drugs which interfere with your body's clotting processes. However, it is still unclear which drug and which drug schedule is best. This study will evaluate two of the standard FDA approved drugs using different dosing schedules.
Deep vein thrombosis(DVT) is a common complication in hospitalized medical patients. Consensus guidelines recommend using medications such as heparin or low-molecular-weight heparins (LMWH) to prevent DVT in these patients. Generally, these medications are given in a fixed dose that is the same for everyone. The appropriate dose of medication in patients with severe obesity is uncertain. There is some evidence that the use of standard fixed-doses in severely obese patients may not provide adequate protection against DVT. The purpose of this study is to evaluate a weight-based dose(0.5 milligrams per kilogram of body weight) of the commonly prescribed LMWH, enoxaparin in severely obese patients to determine if predictable levels of blood thinning can be achieved. We hypothesize that dosing enoxaparin 0.5mg/kg once daily in severely obese patients will lead to predictable blood levels.
This trial studies how well dalteparin works in preventing deep vein thrombosis (DVT) (blood clots) in participants with cancer. Dalteparin is a blood thinner that can treat blood clots and may prevent them from forming.
This is a multicenter, randomized, open-label, assessor-blind, event-driven, non-inferiority program for efficacy with a study treatment duration of 3, 6 or 12 months in patients with confirmed acute symptomatic DVT without symptomatic PE (Einstein-DVT).