Active clinical trials for "Thrombophilia"

Patients with coronavirus disease (COVID) and non-COVID acute respiratory failure (ARF) may be at an increased risk of thrombosis due to increased clot formation and decreased clot lysis. This two stage study aims to utilise bedside coagulation technology to detect patients at increased risk and guide tPA treatment to maximise efficacy and safety through a personalised approach.

Cirrhosis is a condition in which the liver does not function properly due to long-term damage. This damage is characterized by the replacement of normal liver tissue by scar tissue. The liver carries out several necessary functions, including synthesis of proteins participating in blood coagulation process. Some of these proteins contribute to coagulation and others make blood more fluid. In healthy people there is a balance between the two. In cirrhotic patient, there is an imbalance inducing hypercoagulation (hypercoagulability state). Cirrhotic patients are so known to be at risk of vein thrombosis (for example portal vein thrombosis: clot in hepatic vein). Mechanisms leading to this imbalance are unclear. Studies need to be completed to improve patient's management. The EPCRs (Endothelial Protein C Receptor soluble) takes part in blood coagulation process. Previous studies have shown that blood levels of EPCRs are increased in patients with cirrhosis. The primary purpose of the study is to evaluate if the EPCRs could play a role in cirrhosis-associated hypercoagulability state.

COVID-19 clotting Safety

In parallel with the growth of American Thrombosis and Hemostasis Network's (ATHN) clinical studies, the number of new therapies for all congenital and acquired hematologic conditions, not just those for bleeding and clotting disorders, is increasing significantly. Some of the recently FDA-approved therapies for congenital and acquired hematologic conditions have yet to demonstrate long-term safety and effectiveness beyond the pivotal trials that led to their approval. In addition, results from well-controlled, pivotal studies often cannot be replicated once a therapy has been approved for general use.(1,2,3,4) In 2019 alone, the United States Food and Drug Administration (FDA) has issued approvals for twenty-four new therapies for congenital and acquired hematologic conditions.(5) In addition, almost 10,000 new studies for hematologic diseases are currently registered on www.clinicaltrials.gov.(6) With this increase in potential new therapies on the horizon, it is imperative that clinicians and clinical researchers in the field of non-neoplastic hematology have a uniform, secure, unbiased, and enduring method to collect long-term safety and efficacy data. As emphasized in a recently published review, accurate, uniform and quality national data collection is critical in clinical research, particularly for longitudinal cohort studies covering a lifetime of biologic risk.(7) The overarching objective of this longitudinal, observational study is to characterize the safety, effectiveness and practice of treatments for all people with congenital and acquired hematologic disorders in the US.

Background: Venous thromboembolism (VTE) includes the abnormal clotting of blood in a deep vein of the upper or lower limbs (deep vein thrombosis) that may travel to and block a blood vessel in the lung (pulmonary embolism). Some people with sickle cell disease (SCD)-a red blood cell disorder-seem to be at greater risk for developing these blood clots. Researchers want to study the blood of people with SCD and VTE as well as healthy people to develop better treatments to prevent blood clots. Objective: To study blood clotting in SCD because it is the most common cause of vascular death after a heart attack or stroke. Eligibility: People ages 18-80 who have SCD (with or without a history of blood clots) or the trait for SCD, and healthy volunteers Design: Participants will be screened with medical history, physical exam, and medical records review. They will give blood samples. Participants will have phone calls either every 3 months or once a year, for 2 years. They will give updates on their health. They may give additional medical records. The phone calls may last up to 30 minutes. If participants have a VTE or pain crisis episode, they may visit the Clinical Center. These visits may last up to 4 hours. They will repeat the screening tests and give blood samples. Some participants may be invited to take part in blood studies. After 2 years, some participants will have a follow-up visit at the Clinical Center. Participation will last for about 2 years.

BACKGROUND: Worldwide, 2 million patients aged 18-50 years suffer an ischemic stroke each year with an increasing trend over the past decade due to yet unknown reasons. Whereas prognosis and antithrombotic treatment in older patients with cardiovascular disease are among the best studied topics in clinical medicine, this does not hold true for patients at young age. It is of great importance to treat these patient groups correctly to prevent recurrence and bleeding complications. However, previous research have shown that there is a long-term increased risk of recurrent ischemic events despite the secondary prevention and a subsequent increased bleeding risk. To tailor effective antithrombotic therapy to the individual patient, it is essential to understand the underlying pathogenesis and identify modifiable risk factors in young patients for recurrence or bleeding. It is thought that abnormalities of hemostasis may play a key role in early-onset ischemic stroke. First, prothrombotic conditions are associated with an increased risk for ischemic stroke at young age. In addition, disturbance of the hemostatic balance due to one or several triggers can activate the coagulation cascade, which on its turn can lead or contribute to clot formation and subsequent arterial occlusion. In previous study, there were indications that trigger factors such as fever and/or an infection in the days prior to the stroke may play a role in the pathogenesis. This suggests that an interaction between inflammation, endothelial damage and coagulation may lead to the formation of a clot. In this observational study we aim to investigate the role of the immune system, endothelial damage and coagulation in the pathogenesis and prognosis of stroke in young patients. OBJECTIVE: To investigate the role of hemostasis, inflammation and endothelial activation in the etiology and prognosis in an acute ischemic stroke (or TIA) in young stroke patients. STUDY DESIGN: Multicentre prospective observational study STUDY POPULATION: All patients aged between 18 and 50 years old with a first-ever ischemic stroke or TIA who are admitted to the neurology ward or seen at the outpatient clinic of one of the participating centers. Main exclusion criteria are: history of clinical TIA, ischemic stroke or intracerebral hemorrhage. A intracerebral hemorrhage resulting from trauma, known aneurysm or underlying intracerebral malignancy. A venous infarction, retinal infarction and amourosis fugax. Inadequate control of the Dutch language to reliably sign an informed consent from and/or participate in the follow-up. Patients are excluded if they have a contra indication for 3T MRI. In addition 60 healthy controls (18-50 years old) will be included. MAIN STUDY ENDPOINTS: Baseline and 3 months coagulation profile: Whole blood and platelet poor plasma thrombin generation, platelet function tests, and coagulation biomarkers, screening for thrombophilia. Baseline and 3 months inflammation/endothelial activation profile: Cytokines/chemokines, expression of receptors/cofactors related to hemostasis on peripheral blood mononuclear cells (PBMCs), stimulation tests of PBMC's to assess trained immunity. Vessel wall enhancement on 3 Tesla MRI Questionnaire trigger factors

Sickle cell disease (SCD) is an inherited haemoglobinopathy disorder caused by mutations in HBB gene with amino-acid substitution on β globin chain. The consequence is synthesis of altered haemoglobin S (HbS) which polymerises in red blood cell (RBC) at deoxygenated state. SCD is associated with chronic haemolytic anaemia, vaso-occlusive crisis (VOC) leading to frequent hospitalisation. The aim of the study was to to investigate whether a combination of routine laboratory biomarkers of haemolysis could be used to predict VOC development in confirmed SCD patients.

Malignant tumors are closely related to deep vein thrombosis, Pulmonary embolism and other diseases. Tumor patients usually have a hypercoagulable state (HCS) in their blood, and the proportion of thrombosis caused by HCS is more than 10 times that of non tumor patients. Conventional clinical testing methods such as coagulation function, blood routine, and thromboelastography are difficult to directly evaluate the hypercoagulable state of tumor patients. In addition, the widely used Khorana score and Caprini score systems in clinical practice need to be improved in accurately reflecting the hypercoagulable state of tumor patients. Our team has established a complete new coagulation time measurement system, including general clotting time (GCT), platelet rich plasma clotting time (PRP-CT), and platelet poor plasma clotting time (PPP-CT), which may be a new and accurate method for evaluating tumor hypercoagulability. The GCT study aims to evaluate: 1. The time of GCT, PRP-CT, and PPP-CT for malignant tumors is shorter than that of normal individuals, and some patients are in a hypercoagulable state; 2. The shortened time of GCT, PRP-CT, and PPP-CT may be associated with future thrombosis; 3. Evaluating the relationship between shortened GCT system time and overall tumor survival Therefore, the GCT system evaluation may identify patients who are truly in a hypercoagulable state, providing monitoring indicators for subsequent anticoagulation; It can also be evaluated whether GCT time can reflect the prognosis of tumor patients.

This retrospective study aims to assess the input of thrombophilia screening in pregnant women with severe intra-uterine growth restricted babies.

Effective patient education improves health literacy and engagement thus improving long-term health outcomes. Health literacy is imperative to make informed health decisions and relies on the ability to obtain, process and understand health information; and is the cornerstone of safe health management. It is necessary to evaluate educational initiatives to determine their effectiveness in knowledge translation. A more effective way to provide patient education is to utilize media technology. Current education styles do not teach patients in the best way as they are not consistent with how people of all ages currently learn (through technology). In addition, patient teaching most commonly occurs during highly stressful times like hospital visits with new diagnoses. Current patient educational methods are costly given the amount of health provider time required. Electronic KITE teaching modules are infographic visual representations that present information quickly and clearly, integrating words and graphics to tell a story to reveal information. Infographic presentations are tools which facilitate self-directed learning with understandable, accessible information presented in an engaging way with an aim to enhance learning for children and their families. Patients are able to learn at a pace consistent with their learning style to facilitate knowledge development and health literacy.