12 Clinical Trials for Various Conditions
Assess the functionality of the Versus Catheter for catheter-directed thrombolysis of pulmonary blood clots, including advanced imaging assessment. An evaluation of patient outcomes from the cases included in this study will also be conducted.
The purpose of this study is to see if there is any benefit in adding saline irrigation through a chest tube to the standard course of treatment for people diagnosed or suspected of having a pleural space infection.
We hypothesize that delayed graft function and ITBS events may be related to small blood clots (microthrombi) that collect in the kidneys and liver after cardiac death. Treatment of the DCD organs with a thrombolytic agent prior to implantation may reduce post-transplant morbidity and mortality, and may ultimately result in a greater number of transplantable livers and kidneys.
The objective of this study is to determine if the implementation of guidelines utilizing immediate CT Perfusion and CT Angiography in addition to non-contrast CT alters (reduces or increases) the time to decision-making for or against rt-PA in acute ischemic stroke, and by extension, time to therapy in treated patients and time to transfer from the department for all patients. A secondary objective is to determine if using CTP/CTA-inclusive hyperacute stroke guidelines improves safety by decreasing symptomatic intracerebral hemorrhage and mortality in patients who receive rt-PA.
The PATCAR study has been designed to test the hypothesis that the strategy of pre-hospital use of a "clot busting" (thrombolytic) drug followed with emergent heart catheterization including stenting of the problematic coronary artery, will result in a lower mortality and reduced repeat heart attack rates. Early identifying and treating heart attacks patients prior to the arriving at the hospital, in those patients who qualify for the "clot busting" drugs will lower the size of the heart attack damage. This smaller heart attack will lead to fewer problems with less repeat heart attacks and death in the future.
This single site study evaluates the efficacy of ultrasound accelerated thrombolysis using EKOS Endovascular Device with a standard infusion of thrombolytics for treatment of PE
This study will test the effectiveness of low-dose recombinant tissue plasminogen activator (rtPA, or alteplase) in dissolving blood clots in major arm or neck veins. rtPA is given to patients with heart attacks to dissolve blood clots in blocked coronary arteries. Blood clots that develop in major arm or neck veins usually develop after a venous access device (VAD) or catheter has been placed in the vein. The clot often causes arm, shoulder or neck swelling and pressure or discomfort. Current treatments include removing the VAD, using blood thinners such as heparin and warfarin, or using rtPA to dissolve the clot. All these options have disadvantages, however, including the risk of abnormal bleeding. This study will evaluate whether lower doses of rtPA can effectively dissolve clots without requiring an extended hospital stay, as is needed with the current higher-dose regimen. Patients 18 years of age and older who are enrolled in or are being evaluated for a Clinical Center study and who have a blocked jugular, axillary, subclavian, or brachiocephalic vein may be eligible for this study. The blockage may or may not be associated with use of a VAD. Participants will have one or two treatments with a low dose of rtPA, followed by a blood thinner taken by mouth or by injection for 5 to 7 weeks. On the first treatment day, the patient has a venogram, in which a catheter is placed in an arm vein and passed up to and through the blood clot that is blocking the blood flow in the vein. This is done under an x-ray machine so the radiologist can see exactly where the tube is going. Then, rtPA is injected into the clot about every 30 seconds for 15 to 30 minutes. The catheter is kept in place to maintain access to the vein for additional treatment the next day, if needed. The patient then begins treatment with heparin, either as an outpatient or an inpatient. A second venogram is done the next day. If the venogram shows that the vein is open, anti-clotting treatment with heparin or warfarin continues. If the venogram shows that the vein is still blocked, the rtPA treatment is repeated while the blood thinner treatment continues. The patient has a third venogram the following day. If the vein has opened, heparin and warfarin treatment continues. If the vein is still blocked, the patient's participation in the study ends. Although the patient is no longer formally in the study, he or she may choose to receive additional treatments with rtPA in higher doses at NIH or to continue using blood thinners under the direction of the primary physician. Blood tests are done during blood thinning therapy to monitor and adjust the dosage. Additional blood samples are taken before and at timed intervals after each rtPA treatment to measure the response to therapy. Patients who benefit from rtPA treatment remain on blood thinners for 5 to 7 weeks and then return to NIH for a follow-up venogram to see if the vein is still open. During warfarin therapy, blood tests are done every few days during the first week or two and every 2 weeks thereafter to ensure the optimal drug dose is being administered. If the repeat venogram at 5 to 7 weeks shows that the vein has closed, the blood thinners (warfarin or heparin) will be stopped and the patient's participation in this study will end. If the vein has remained open, the patient's doctor will decide whether or not to continue anti-clotting therapy.
Aim: To determine the impact of wireless transmission of prehospital ECGs to a hand-held computer on time to treatment and myocardial salvage in acute MI patients. Background: The TIME-1 investigators documented a 27% (109 to 80 minutes) reduction of time from EMT arrival at the scene to successful primary PCI implementing pre-hospital ECG transmission to the ED. ECG transmission directly to a physician's cellular phone/PDA through a wireless modem has only recently become an option. The recently completed TIME-NorthEast (NE) study tested the Welch Allyn version of this system and the results show a reduction in time to reperfusion for acute MI patients by 66 minutes (116 to 50). Methods: This study will involve approximately 20 sites around the country. The study will be divided into two phases: a consecutive control data collection phase (Phase I) and an intervention with concurrent control phase (Phase II). Phase II will begin after installation of Welch Allyn ECG transmission equipment. The primary end-point will be time to reperfusion and secondary end-points will include myocardial salvage, aborted infarction and hospital mortality. ECG measurements will be made at a central ECG core lab by a blinded investigator. Data Analysis: Patient characteristics for the three periods were compared with the chi-square statistic for categorical variables and one-way analysis of variance for age. The Wilcoxon rank-sum statistic was used to compare time-to-reperfusion in the pre-study and study periods as well as in the Group 1 post-study period. Comparisons were performed separately for EMS and self-transport groups.
Acute stroke afflicts nearly 700,000 patients in the US and is the number 3 cause of death. Only 2-9% of this large number is treated with t-PA if they arrive within 4.5 hours. An equally small percentage of patients with large vessel occlusion undergo thrombectomy. The thrombectomy patients may or may not receive t-PA. Some of these patients rarely receive intravenous GPIIB/IIIa inhibitors. Many lines of evidence suggest that GP IIb/IIIa inhibitors, a class of FDA approved potent platelet inhibitors that have been used extensively along with heparin for acute coronary syndromes (heart attacks) and unstable angina (chest pain), may be safe enough to give in these circumstances.
The primary goal of this trial is to determine if individuals with acute ischemic stroke treated with a full dose of IV recombinant tissue plasminogen activator (rt-PA) plus IV eptifibatide started within 3 hours of symptom onset are more likely to have a better outcome than individuals treated with standard IV rt-PA alone.
The primary goal of this trial is to determine if individuals with acute ischemic stroke treated with a medium dose of IV rt-PA plus IV eptifibatide started within 3 hours of symptom onset are more likely to have a better outcome than individuals treated with standard IV rt-PA alone.
The purpose of the study is to determine whether desmoteplase is effective and safe in the treatment of patients with acute ischaemic stroke when given within 3 to 9 hours from onset of stroke symptoms.