View clinical trials related to Ischemia.
Filter by:Using gene therapy to express active telomerase (hTERT) in human cells has the potential to treat many diseases related to aging, including critical limb ischemia (CLI). This study will entail treating subjects with hTERT delivered via transduction using AAV. The goal is to extend the telomeres to prevent, delay, or even reverse the development of the pathology of CLI. It is expected to have a direct consequence on function and quality of life in patients with Peripheral artery disease (PAD); in this case a subgroup of patients with CLI, the worst presentation of PAD.
Non-randomized, multicenter, combined prospective and retrospective cohort analysis consisting of a single arm treated with the MicroStent™ System.
Cerebral small vessel disease is a common cause of cognitive impairment. Remote ischemic pre-conditioning (RIC) is a technique to induce brief periods of limb ischemia-reperfusion that is hypothesized to increase tolerance of the brain to hypoperfusion and increase cerebral blood flow. Patients with cognitive impairment, preserved basic activities of daily living, and brain computed tomography (CT) or magnetic resonance imaging (MRI) evidence of confluent white matter hyperintensities or multiple brain infarcts will be randomized to either RIC performed once a day on one arm, or twice per day on one arm, for 30 days, to test tolerability and effects on MRI markers of blood flow.
wide range of diagnoses may present like stroke, called stroke mimics as well as transient ischemic attacks .
To evaluate the safety and performance of the Sundance™ DCB in subjects with occlusive disease of the infrapopliteal arteries.
The goal of the study is to correlate the effect of ischemic mitral regurgitation on the outcome of STEMI patients treated with successful primary PCI using clinical data and echocardiography on presentation and during short term follow up after 3 months
Acute cerebral infarction is a common type of ischemic stroke, causing brain dysfunction in patients with high morbidity and disability. With the changes in people's diet, lifestyle patterns and population aging, the incidence of acute cerebral infarction has increased year by year, which has become an important cause of disability and death in middle-aged and elderly patients. The human urinary kallidinogenase (HUK) was used in China in the management of acute ischemic stroke (AIS) in recent years. However, the mechanism of HUK on AIS has not been systematically investigated. This study aimed to assess the effect of HUK on motor functional outcome and relative corticospinal tract recovery in the patients with AIS. Diffusion tensor imaging(DTI) and diffusion tensor tractography(DTT) have all been used to observe features of cerebral white matter fibrous structures. In addition, diffusion tensor tractography which is used to trace fiber bundle and evaluate white matter fiber bundle integrity and direction is the only non-invasive imaging method to display the corticospinal tract in vivo.
The objective is to ensure the pro-active collection of information on quality, safety and performance of FlowOx™ after it is placed on the market. The study will be carried out in a patient population with peripheral artery disease (claudicatio intermittens) to confirm its usefulness and in particular gather information for further improvements of the device related to this patient population. The data collected from the use of the CE-marked FlowOX™ device are change of walking distance, quality of life, and the patient's compliance.
This study aims to gather information to what extent patients follow the treatment regimen of low-dose aspirin for primary and secondary prevention of diseases of the heart and blood vessels. Researcher will collect information about the percentage of time a patient has access to the medication, how long patients continue with the medication and of the proportion of patients who switch from dual-antiplatelet therapy (including low-dose aspirin) to a single antiplatelet therapy. The study will make use of secondary healthcare data sources converted in to Observational Medical Outcomes Partnership (OMOP) common data model within the Observational Health Data Sciences and Informatics (OHDSI) network.
The clinical study with UMC119-06 is designed to investigate the safety in patients with acute ischemic stroke ("AIS"). This will be a dose escalation, open-label, single-center study in adult with acute ischemic stroke. UMC119-06 is ex vivo cultured human umbilical cord tissue-derived mensenchymal stem cells product which is intended for treatment of acute ischemic stroke.