View clinical trials related to Blood Transfusion.
Filter by:The purpose of this study is to evaluate the safety of epoetin alfa and to determine whether epoetin alfa will reduce the need for blood transfusions during the period of time around major orthopedic surgery. Epoetin alfa is a genetically engineered protein that stimulates red blood cell production.
The purpose of this study is to determine whether epoetin alfa will enable self-donation of at least 4 units of blood during the 2-week period before surgery (which is a shorter period of time than the conventional 3-week blood donation period before surgery) in patients who are not anemic and who will be undergoing orthopedic or heart and blood vessel surgery. Epoetin alfa is a genetically engineered protein that stimulates red blood cell production.
The purpose of this study is to determine the safety of epoetin alfa and to determine the effectiveness of epoetin alfa in reducing the need for blood transfusions after major orthopedic surgery. Epoetin alfa is a genetically engineered protein that stimulates red blood cell production.
The purpose of this study is to determine the safety and effectiveness of epoetin alfa and whether epoetin alfa will enable self-donation of blood during an 11-day period before surgery (which is shorter than the conventional 3-week blood donation period before surgery) in patients who are not anemic and who will be undergoing orthopedic, heart and blood vessel, or breast reduction surgery. Epoetin alfa is a genetically engineered protein that stimulates red blood cell production. Normovolemic hemodilution (NVHD, withdrawal of a patient's blood immediately before surgery, immediate replacement of blood with an equal volume of fluid, and return of the withdrawn blood after completion of surgery; a procedure which reduces the loss of blood during surgery) will also be performed.
This study concerns the safety of blood transfusion. Prior to transfusion, staff should perform a number of essential safety checks to ensure that the correct patient is receiving the correct blood product. Evidence suggests that these safety checks are not always done. This study has been designed to assess the effect of a simple intervention on the performance of the bedside safety check. The hypothesis is that a simple intervention will improve the performance of the bedside check.
To conduct epidemiological, laboratory, and survey research on volunteer blood donors within the United States to ensure the safety and availability of the United States' blood supply.
To conduct a prospective study of pediatric transfusion recipients to determine the risk of transmitting various infectious agents by blood transfusion.
To determine the seroprevalence of Kaposi's sarcoma-associated herpesvirus (KSHV/HHV8) in blood donors from Texas. Also to examine the donors' demographic characteristics and to characterize the KSHV using polymerase chain reaction.
To assess, in donor-recipient clusters, current models of HIV-1 genetic evolution and pathogenesis, based on the sequence diversity displayed by this lentivirus.
To determine the risk of transfusion-transmitted hepatitis C virus (HCV) in cardiac surgery patients before and after donor screening for anti-HCV and surrogate markers of non-A, non-B hepatitis (NANBH). Also, to characterize donors who were HCV seronegative and who lacked surrogate markers at the time of donation, but whose recipient seroconverted to HCV.