EXERT: Exercise Physiology After Thrombosis
Venous Thrombosis Deep (Limbs)Post Thrombotic SyndromeDeep vein thrombosis (DVT) can cause long-term scarring and narrowing of veins. When there is extensive damage to the veins in the legs, groin or abdomen it can affect the way that blood is able to flow back up to the heart. Some patients are left with severe symptoms such as pain, leg swelling and ulcers, and have surgical treatment with nitinol stents to re-open the veins and relieve symptoms. The primary aim of this study is to investigate venous blood flow to the heart during exercise in patients with extensive damage to the veins in the groin and abdomen after DVT, and changes that happen after stenting.
FUVID Study: Functional Characterization of Children With Chronic Venous Thromboembolic Disease...
Deep Venous ThrombosisPulmonary EmbolismThis is a multi-center prospective cohort study of patients with first-episode deep venous thrombosis and pulmonary embolism.
Prospective Cohort Study for Varicose Veins Incidence and Natural Course
Varicose Veins of Lower LimbThromboses2 moreA prospective study of individuals without varicose veins and who have primary varicose veins to assess the morbidity, risk factors and natural course of chronic lower limb vein disease.
A Prospective Study to Assess the Risk Factors That Contribute to Thrombosis in Patients With Lower...
ThrombosesVenous1 moreThis study is aimed at identifying patients at high risk for Venous Thrombo-Embolism (VTE) (clots in the veins of legs or clots in the lungs) who have lower limb injuries treated with immobilisation of the lower limb. The study aims to identify high risk patients, who may benefit from thromboprophylaxis (blood thinning medication) to prevent such clots forming. To do this we will collect data on 3500 patients who present with lower limb injury requiring immobilisation to the Emergency Departments of the six hospitals named. We will assess their risk factors for venous thrombosis at the time of presentation and contact them at twelve weeks to assess if they have had a VTE in order to develop a risk scoring system which can be used to predict the likelihood of VTE development This risk scoring system can then be used to identify high risk patients who may benefit from thromboprophylaxis.
Collection of the Thrombo-VaxCov Cohort
Covid19SARS-CoV Infection3 moreIn the context of anti-Covid19 vaccination, atypical thrombosis have occured and potential link with vaccination is under investigation. This study collect clinical and biological data of all atypical thrombosis occurring within 4 weeks after antiCovid vaccination.
A Performance Evaluation of the LumiraDx Point Of Care D-dimer Assay
Deep Vein ThrombosisPulmonary Embolism1 moreIn patients with symptoms of Venous Thromboembolism (VTE) (mainly deep vein thrombosis (DVT) or pulmonary embolism (PE)), the study will evaluate the agreement between the D-Dimer measurements from the LumiraDx POC D-Dimer assay and a reference method, as an aid in diagnosis, assessment and exclusion of DVT and PE.
A Study of the IJV or the SCV Approach for Ultrasound-guided Implantation of TIVAD
Venous ThrombosisCatheter-Related Infections1 moreTo compare IJV and SCV as the implantation site of TIVAD and its associated thrombotic or occlusion rate, our study plans to enroll 240 patients with cancer who require central line TIVADs and randomizes them with 1:1 ratio to receive the TIVAD implantation at SCV or IJV. After the implantation, the patients will be regularly followed through phone contact and chart review for 2 years, and any symptomatic thrombosis or occlusion will be found during chemotherapy injection or regular push-pull heparin saline flush every 6 weeks as our hospital care protocol. To detect any asymptomatic thrombosis, the patients will also receive screening vascular ultrasound at 2 weeks, 2 months, and 6 months postoperatively. The study primary endpoints include any infection, asymptomatic thrombosis found by screen ultrasound, and clinically symptomatic thrombosis or occlusion and major mechanical failure/dislocation of TIVAD.
New Clinical Score for Deep Vein Thrombosis
Deep Vein ThrombosisA new Clinical Score (CS) to rule out Deep Vein Thrombosis (DVT) has to be derived and internally validated (with bootstrap method), from patients suspected of DVT in Italy. Primary care physicians (general practitioners) in Lombardy will be instructed to inform patients suspected of DVT about this research and get in touch with the team to get details and, eventually, volunteer for the study. The CS includes categorical variables and a continuous variable: the differential leg skin temperature measured with a low-cost handheld infrared thermometer in object surface mode.
Six Years of Follow-up After Idiopathic Venous Throbmoembolism
Pulmonary EmbolismProximal Deep Vein ThrombosisBeyond the first 6 months of anticoagulation, patients with a first episode of unprovoked venous thromboembolism have a high risk of recurrence after stopping anticoagulations. Extending anticoagulant therapy for an additional 18 months is associated with a major reduction of recurrent VTE; however this benefit tended to be lost after stopping anticoagulation during a follow-up period of two years. This risk of recurrentce is likely to continuously increase over the years as well as the risk of chronic thromboembolic pulmonary hypertension (after pulmonary embolism) or the risk of post-thrombotic syndrome (after deep vein thrombosis). The aim of the PADIS-EXTENSION trial is to estimate these risks over 6 years of follow-up in patients who have been initially treated during 6 months or 24 months (patients included in the PADIS PE and PADIS DVT trial).
Registry of Patients Prescribed Anticoagulation
Acute Deep Vein ThrombosisAcute Pulmonary EmbolismThe Gonda Vascular Center- Thrombophilia Clinic at Mayo Clinic in Rochester, Minnesota utilizes a standardized, guideline-directed, yet patient-oriented approach for treating patients diagnosed with venous thromboembolism (VTE).This study is the ongoing registry of clinical practice with standardized approach to patient assessment and therapy. As most of registries it does not have any definite number of recruited subjects or the date of study completion but provides anticipated number of recruited subjects and the time of anticipated enrolment which was provided only because of formal requirement related to structure of ClinicalTrials.gov website. This number will be updated and upgraded as we continue this registry. The rates of VTE recurrence, major bleeding, clinically relevant non-major bleeding (CRNMB) and survival in patients treated with anticoagulation for acute VTE are assessed during prospective observation. VTE cases include an acute deep vein thrombosis (DVT) of lower or upper extremities, splanchnic veins, gonadal, renal, cerebral veins thrombosis and pulmonary embolism (PE). Therapy includes the whole spectrum of FDA approved anticoagulants such as "classic" agents: warfarin and heparinoids and the newer direct oral anticoagulants (DOACs) such as rivaroxaban, dabigatran, apixaban, and edoxaban.