89 Clinical Trials for Various Conditions
This clinical trial evaluates the effects of hemoglobin threshold-specific packed red blood cell (PRBC) transfusions on quality of life and functional outcomes in patients who have undergone chemotherapy or an allogeneic hematopoietic stem cell transplant for a high-grade myeloid neoplasm, acute myeloid leukemia, or B acute lymphoblastic lymphoma/leukemia. Some types of chemotherapy and stem cell transplants can induce low platelet counts and/or anemia that requires PRBC transfusions. Given critical shortages in blood supply, and risks associated with transfusion of PRBC, there has been much investigation into the "minimum" hemoglobin level that effectively balances safety and toxicity in patients. This clinical trial evaluates the effects of giving PRBC transfusions based on a more restrictive hemoglobin threshold (\> 7 gm/dL) compared to a more liberal hemoglobin threshold (\> 9 gm/dL) on quality of life and functional outcomes. A more restrictive threshold may be just as effective at maintaining patient quality of life and function while decreasing side effects from blood transfusions and helping to conserve blood supply resources.
The purpose of this pilot interventional study is to collect preliminary data on administering packed red blood cell (PRBC) during cardiac arrest (CA). The primary objective is to assess the feasibility of PRBC transfusion during cardiac CA to help optimize the methods required to augment cerebral and other vital organ oxygen delivery during cardiopulmonary resuscitation (CPR). The secondary objectives are to assess the effect of PRBC transfusion during prolonged cardiac arrests on cerebral oxygenation, end tidal carbon dioxide (ETCO2), return of spontaneous circulation (ROSC), survival to discharge, biomarkers of neural injury and inflammation, and neurological outcomes at hospital discharge, 30 days post-CA, and 90 days post-CA.
This clinical trial tests the the feasibility of testing a red blood cell transfusion threshold for improved quality of life for patients undergoing a pancreatectomy for pancreatic cancer. Pancreatectomy can be associated with significant blood loss. Blood loss can result in clinically important anemia causing fatigue. Pancreatic cancer itself can be associated with malnutrition and fatigue. Having a red blood cell transfusion threshold that results in a more liberal use of transfusions may improve quality of life for patients undergoing a pancreatectomy for pancreatic cancer.
The purpose of this Phase 3 study is to evaluate the efficacy and safety of Luspatercept compared with placebo in subjects with myeloproliferative neoplasm (MPN)-associated Myelofibrosis (MF) and anemia on concomitant Janus kinase 2 (JAK2) inhibitor therapy and who require red blood cell count (RBC) transfusions. The study is divided into Screening Period, a Treatment Phase (consisting of a Blinded Core Treatment Period, a Day 169 Response Assessment, a Blinded Extension Treatment Period, and an Open-label Extension Treatment Period), and a Posttreatment Follow-up Period. Following the Day 169 Response Assessment, subjects who did not show clinical benefit will have the option to unblind. Subjects who were on placebo during the Blinded Core Treatment Period will have the opportunity to crossover into the Open-Label Extension Treatment Period and receive Luspatercept.
The purpose of this study is to determine the effectiveness of luspatercept (ACE-536) compared to epoetin alfa on red blood cell (RBC) transfusion independence (for at least 12 weeks) with a concurrent hemoglobin increase of at least 1.5 g/dL in participants with anemia due to revised international prognostic scoring system (IPSS-R) very low, low, or intermediate risk myelodysplastic syndromes (MDS) who require RBC transfusions and have never been exposed to erythropoiesis stimulating agent (ESA).
There is a paucity of data on management of non-acute postpartum anemia. Although blood transfusions were historically initiated with 2 units, the most recent recommendation from the American Association of Blood Banks is to begin with 1 unit. As no randomized controlled trials have been performed in obstetrics, the investigators propose a randomized, controlled trial in non-acute postpartum anemia comparing single- versus multiple-unit transfusion by total numbers of units transfused and maternal morbidity.
This study will evaluate the hypothesis that the use of pediatric size phlebotomy tubes reduces red blood cell (RBC) transfusions in adult intensive care unit (ICU) patients compared with the use of adult size tubes.
The purpose of this study is to determine whether FG-4592 is safe and effective in the treatment of anemia in participants with lower risk MDS and low red blood cell transfusion burden.
This is a Phase 2, multicenter, open-label study to evaluate the efficacy and safety of luspatercept in subjects with MPN-associated myelofibrosis and anemia with and without RBC-transfusion dependence. The study is divided into a Screening Period, a Treatment Period (consisting of a Primary Phase, a Day 169 Disease Response Assessment, and an Extension Phase), followed by a Posttreatment Follow-up Period.
This phase II trial studies how well deferasirox works in treating patients with very low, low, or intermediate-risk anemia or myelodysplastic syndrome that depends on red blood cell transfusions. Deferasirox may treat too much iron in the blood caused by blood transfusions.
Do ambulatory RBC transfusions improve home functional status?
This is a Phase 3, double-blind, randomized, placebo-controlled, multicenter study to determine the efficacy and safety of luspatercept (ACE-536) plus Best supportive care (BSC) versus placebo plus BSC in adults who require regular red blood cell transfusion due to (β)-thalassemia. The study is divided into the following periods: * Historical Period, * Screening/Run-in Period, * Double-blind Treatment Period (48 weeks), * Double-blind Long-term Treatment Period, (at the investigator's discretion an additional 48 weeks), * Open-Label Phase post unblinding and upon Data Monitoring Committee positive recommendation * Post-treatment Follow-up Period
Transfusion of red blood cells is often used in critically ill patients with low red blood cell counts to prevent disease progression and death. Recent studies suggest that the use of "aged" versus "fresh" red blood cells are associated with worse clinical outcomes. There is evidence that red blood cells work with the cells lining our blood vessels to produce a variety of substances that normally cause arteries to relax and increase blood supply. Two of these substances are called nitric oxide (NO) and endothelium-derived hyperpolarizing factor (EDHF). The investigators are trying to determine the nature of these substances in human beings when they are transfused "aged" versus "fresh" red blood cells. The purpose of the study is to test the effects of transfusing "aged" versus "fresh" red blood cells in volunteers with traditional cardiovascular risk factors (high blood pressure, diabetes, high cholesterol, and tobacco use) on 1) the degree of relaxation in the arteries and subsequent changes in blood flow, 2) blood levels of oxidant molecules, 3) inflammation, and 4) stem cells. A similar study with healthy volunteers are further described in NCT00838331.
The investigators hypothesize that the storage-damaged red cells are responsible for some of the adverse effects of transfusion. In this observational study, the investigators will measure various laboratory parameters both before and after transfusion in a pediatric intensive care unit to determine at what duration of storage is there laboratory evidence of refrigerator storage damage. The investigators hypothesize that increasing storage time of packed red blood cells (PRBCs) transfused will be associated with increasing non-transferrin-bound iron (NTBI), pro-inflammatory cytokine concentrations, and enhanced microbial growth in vitro in pediatric patients.
The purpose of the study is to determine whether packed red blood cell (PRBC) transfusion affects intestinal blood flow of premature infants during feedings and if so, whether return of normal intestinal blood flow pattern occurs within 48 hours of blood transfusion. Abnormal intestinal responses to the feedings (insufficient postprandial blood flow increase in order to digest given feeding volume or overall decrease of intestinal blood flow) may predispose infants to feeding intolerance and to serious intestinal disease called necrotizing enterocolitis (NEC). Patent ductus arteriosus (PDA) is a relatively common heart condition found in young preterm infants that can lead to decreased blood flow in different organs, including intestines. Thus, the determination of the presence or absence of PDA is an important part of the study, since it can be a relevant confounding variable. In this study, the investigators will assess intestinal blood flow by using sonogram to measure velocity through the superior mesenteric artery (SMA), the artery supplying most of the intestine, both pre- and 45 minutes post feeding. The investigators will also use echocardiogram to determine the presence or absence of PDA. Each set of measurements will be done immediately before and after the transfusion, and again 24 and 48 hours after the transfusion. Specific Hypothesis: The investigators hypothesize that infants will have attenuated postprandial blood flow velocities in immediate posttransfusion state when compared to the pretransfusion values. The investigators further hypothesize that normal, pretransfusion postprandial blood flow velocities will be achieved 48 hrs after the blood transfusion.
Delayed cord clamp of at least 30 seconds in neonates under 37 weeks has shown that these infants have higher circulating blood volume in the first 24 hours, less need for blood transfusions, and less incidence of intraventricular hemorrhage. Delayed umbilical cord clamping has also been shown to increase the initial hematocrit and decrease the need for red blood cell (RBC) transfusions compared with no intervention in infants born between 27 and 33 weeks' gestation. However, a delay in cord clamping of 30-45 seconds may theoretically interfere with neonatal resuscitation. There have been few studies that addressed the active milking of the cord and its effect on neonatal resuscitation. Active milking of the umbilical cord towards the baby prior to clamping (rather than passive) should take less than 5 seconds to perform and should not interfere with neonatal resuscitation. Umbilical cord milking, as an alternative to delayed cord clamping, has been shown to increase the circulatory blood volume expressed as the hemoglobin value. Active milking of the cord prior to clamping, however, is not considered standard of care and only 1 Japanese randomized control study has reported that umbilical cord milking reduces the need for RBC transfusions, thus reducing the number of infants requiring a RBC transfusion as compared with control conditions. Our study aims to test the hypothesis that active milking of the umbilical cord will reduce the need for transfusion in preterm infants.
Patients with a low blood count (anemia) with stable or unstable coronary artery disease consistently show worse clinical outcomes. It is unclear whether this association is confounded since anemic patients tend to be also sicker i.e. have lower ejection fractions or more comorbidities and this would be the reason for the worse outcomes rather than anemia. The coronary arteries are a unique vascular bed insofar that across the cardiac circulation oxygen extraction is close to maximal at rest. Thus increases in demand can only be met by increases in blood flow and hemoglobin concentration since oxygen extraction is maximal at rest. It is natural to assume that maximization of oxygen delivery in the setting of active coronary syndrome (ACS) is beneficial to the patient since oxygen extraction and coronary blood flow is fixed. In fact, in most intensive care units patients with ACS are transfused to a HCT of 30%. However, retrospective analysis of trial data showed at best mixed results in clinical outcome when patients with ACS were transfused and in fact in some studies showed consistently worse outcomes than non-transfused patients. Similar disappointing results have recently published in patient who underwent coronary artery bypass grafting (CABG). This study is designed to determine the effect of red blood cell (RBC) transfusion on oxygen consumption, cardiac, microcirculatory and endothelial function in patients with active coronary artery disease. For this study active coronary artery disease will be defined as the patient having undergone within the past 4 days of recruitment either a myocardial infarction due to atherothrombosis (AHA type I myocardial infarction) or surgery for coronary artery bypass grafting. In specific this study will test the hypothesis whether RBC transfusions improves cardiac and vascular function in patients with a hematocrit of less than 30% with active coronary artery disease. Aims of this study are to determine whether RBC transfusion in patients with active coronary artery disease and anemia: * increases oxygen delivery to the peripheral tissues. * increases whole-body oxygen consumption. * decreases nitric oxide bioavailability, endothelial, microcirculatory, and myocardial function, and/or increases platelet aggregation
The purpose of this study is to look at red blood cell (RBC) transfusions in trauma patients and evaluate for any differences between the age of the RBCs and how they were stored. The investigators will specifically look for the following differences between study groups: 1. the transfused red blood cells' ability to delivery oxygen to the tissues 2. differences in biochemical markers in subjects and units transfused, and 3. how the subject's internal organs are working and if they develop any infections
The purpose of this study is to determine if giving blood transfusions to anemic patients with subarachnoid hemorrhage will reduce their chances of having a stroke from vasospasm.
A known risk of red blood cell transfusions is that it puts excess iron into the patient's body. Researchers are continually seeking the most effective method of measuring iron concentration. The purpose of this study is to determine how much iron has been deposited in a patient's heart and liver as a result of having received red blood cell transfusions using magnetic resonance imaging (MRI).
The primary purpose of this study is to determine the best blood level to begin transfusing red blood cells in individuals undergoing cardiac surgery. The secondary aim is to determine the impact of red cell transfusion on health-related quality of life following surgery.
Safety, tolerability, and acceptability of twice-daily dosing with deferiprone delayed-release (DR) tablets in patients with systemic iron overload.
The purpose of this study is to determine how red blood cell transfusions, particularly the length of storage time of units of packed red blood cells, affects the cardiovascular function in patients receiving transfusions. This study will also determine the most ideal way of storing and processing blood, and assess how transfusion affects a person's ability to exercise and how their blood vessels relax and contract.
The purpose of this extension study is to evaluate SSP-004184AQ in patients with transfusional iron overload and to provide data on long term safety and efficacy. SSP-004184AQ is an iron chelator under development for chronic daily oral administration to patients with transfusional iron overload
The purpose of this study is to evaluate SSP-004184AQ in patients with transfusional iron overload whose primary diagnosis is hereditary or congenital anemia. SSP-004184AQ is an iron chelator under development for chronic daily oral administration to patients with transfusional iron overload.
To compare the physiologic benefits of rejuvenated RBCs (rejRBCs) to standards RBCs (PRBCs), we will emulate critical conditions by safely maximizing stress on the cardiovascular system, in an elective, feasible volunteer study. Maximal oxygen uptake (VO2max) will be measured in an anemic, post-donation, pre-transfusion state, and also after transfusing 14-day-old, autologous blood randomized to standard storage or standard storage with rejuvenation. We hypothesize that transfusion of standard PRBCs is less effective at increasing oxygen delivery (measured by VO2max) compared with transfusion of rejRBCs.
TITRE - Trial of Indication-based Transfusion of Red Blood Cells in ECMO, is a multicenter, prospective, randomized clinical trial. The overarching goal of TITRE is to determine whether restricting red blood cell (RBC) transfusion according to an indication-based strategy for those with bleeding and/or deficit of tissue oxygen delivery, compared with transfusion based on center-specific hemoglobin or hematocrit thresholds, can reduce organ dysfunction and improve later neurodevelopment in critically ill children receiving Extracorporeal Membrane Oxygenation (ECMO) support.
This study is a randomized controlled trial in which hospitalized patients with anemia are randomized to receive transfusion at: a) Hb\<9g/dL (liberal transfusion strategy), or b) Hb\<7g/dL (restrictive transfusion strategy). We are measuring self-reported fatigability, fatigue, and activity levels at randomization and 7 days post hospital discharge in both trial arms. In a subset of 75 patients in each trial arm (150 total), we will are administering the 6 Minute Walk Test at randomization and 7 days post discharge.
The purpose of this study is to compare two different dosing methods of epoetin alfa and their effectiveness in maintaining hemoglobin levels between 10.0 to 11.0 g/dL in in patients with chronic kidney disease (CKD) receiving hemodialysis.
This study is an ancillary (add-on) study to the clinical trial entitled Red Cell Storage Duration Study (RECESS), which has clinicaltrials.gov identifier NCT00991341. The RECESS study randomizes cardiac surgery patients to receive either red blood cell units stored for no more than 10 days, or red blood cell units stored for at least 21 days, if they need any red blood cell transfusions during their hospital stay for the surgery. This ancillary study is entitled Impact of Blood Storage Duration on Physiologic Measures: RECESS Ancillary Physiologic Study (RECAP). The hypothesis of the RECAP study is that there will be differences between the two randomized treatment groups in how much the following measurements change, from shortly before a red blood cell transfusion to shortly after a red blood cell transfusion, and from before surgery to 24 hours after surgery: * Oxygen saturation in the hand * Oxygen saturation in the brain * Blood flow in the small blood vessels under the tongue. The RECAP study will also investigate whether changes in the measurements listed above are associated with clinical outcomes, including * The Multi-Organ Dysfunction Score * Death from any cause * Major cardiac events * Major pulmonary events