6 Clinical Trials for Various Conditions
The purpose of this prospective, randomized, cross-over, multi-center study is to evaluate the performance of the Spectra Optia Apheresis System's CMNC Collection Procedure, compared to the COBE Spectra Apheresis System's MNC Procedure in mobilized healthy donors. Subject safety will be evaluated beginning with mobilization, throughout the collection procedure and for the day following the last collection.
This study will examine the effects of repeated apheresis procedures on bone density and calcium balance. Apheresis is a procedure for collecting large numbers of a specific blood component, such as white cells (leukapheresis) or platelets (plateletpheresis). For the procedure, whole blood is collected through a needle in an arm vein and is directed through a machine that separates it into its components by spinning. The desired cells are removed and the rest of the blood is returned to the donor, either through the same needle or through a needle in the other arm. A blood thinning medicine called citrate is added to the cell-separating machine. Citrate reduces the ionized calcium levels in the blood, which prevents the blood from clotting. When the blood is returned to the donor, the donor also receives the citrate. This lowers the donor's ionized calcium levels which may irritate nerve and muscle cells, causing tingling around the mouth, hands, and feet during the procedure. The reduced ionized calcium levels result in increased parathyroid hormone levels in the donor, can effect bone calcium stores. In addition, some of the citrate that is returned to the donor is excreted in the urine along with calcium, which causes further loss of calcium from the body. It is not known if the calcium loss during apheresis in people who undergo this procedure repeatedly has any long-term effects on body calcium balance and bone calcium stores. This study will measure bone density and calcium balance in long-term platelet and white cell donors and compare the findings with those of whole blood donors, who do not receive citrate. Healthy people between 18 and 80 years of age who weigh between 110 and 300 pounds, do not have a metal prosthesis, and are not pregnant may be eligible for this study. Participants undergo the following procedures: Whole blood donors * Blood sample collection 2 weeks before blood donation. * I removed undergo standard whole blood donation * Urine sample collection. * DEXA scan to assess bone density by measuring bone calcium stores. For this procedure, the subject lies still on a table while the spine, hip, and whole body are scanned using a small amount of radiation. The forearm is also scanned while the subject is seated. The scan may be repeated after 2 years. Plateletpheresis and leukapheresis donors * Standard platelet or white cell donation. * Blood sample collections immediately prior to and after donation, and on the first, fourth, and fourteenth days after donation. * Urine sample collections at the beginning and at the end of the apheresis procedure and on the first, fourth, and fourteenth days after the donation. * DEXA scan at the beginning of the study (no earlier than 2 weeks after their latest apheresis donation). The scan may be repeated after 2 years. * Some apheresis donors may be asked to have a second procedure in which they take calcium according to standard guidelines for plateletpheresis and leukapheresis. During the second procedure, platelet donors will take oral calcium tablets before starting plateletpheresis. White cell donors will receive calcium intravenously (through a vein) during the second leukapheresis. For this second procedure, the donors provide additional blood and urine samples as described above.
This study will examine the effects of granulocyte colony-stimulating factor (G-CSF) on bone marrow stem cells in healthy volunteers with sickle cell trait and determine if cells collected for transplantation from donors with sickle cell trait require special handling. Stem cells, which the bone marrow produces, are responsible for making all the different kinds of blood cells. They are the cells used in bone marrow, or stem cell, transplantation. The drug G-CSF, which is a naturally occurring hormone, causes stem cells to mobilize-that is, to be released from the bone marrow and enter the blood stream. This drug is given to stem cell donors to increase the amount of cells that can be collected. Stem cell donors for patients with sickle cell disease are often healthy siblings of the patient who have a matching bone marrow type. Some siblings carry the sickle cell trait, however, and, even though they do not have sickle cell disease and their blood and bone marrow are normal, it is not known how their cells will react to G-CSF stimulation. Nor is it known if their stem cells require special methods of removal, processing or storing. Healthy volunteers 18 years or older with sickle cell trait who have no history of sickle cell disease and no known medical problems may be eligible for this study. Participants will have a medical history and physical examination, including blood tests and urinalysis. They will receive injections of G-CSF under the skin once a day for 5 days. On the fifth day, stem cells will be collected through leukapheresis. In this procedure, whole blood is drawn from an arm vein, similar to donating whole blood. The blood then circulates through a cell separator machine, the stem cells are removed, and the rest of the blood is transfused back to the donor through a vein in the other arm. The information gained from this study will be used to ensure the safety of stem cell donors with sickle cell trait and to better prepare stem cells for transplantation in sickle cell patients.
The purpose of this protocol is to characterize the performance of CaridianBCT's Spectra Optia Apheresis System, when used to collect mononuclear cells (MNCs) and cluster of differentiation 34 (CD34) positive cells from healthy nonmobilized blood donors and healthy G-CSF (granulocyte colony stimulating factor) mobilized blood donors, respectively.
This protocol is designed to provide a mechanism for the Department of Transfusion Medicine, Clinical Center to collect and process blood components from paid, healthy volunteer donors for distribution to NIH intramural investigators and FDA researchers for in vitro laboratory use. Donors meeting research donor eligibility criteria will be recruited to donate blood and blood components by standard phlebotomy and apheresis techniques. The investigational nature of the studies in which their blood will be used, and the risks and discomforts of the donation process will be carefully explained to the donors, and a signed informed consent document will be obtained. Donors will be compensated according to an established schedule based on the duration and discomfort of the donation. NIH and FDA investigators requesting blood components for research use will be required to submit an electronic (Web-based) memo of request, briefly describing the nature of the research, and providing assurance that samples provided through this protocol will be used solely for in vitro and not for in vivo research. This protocol also provides a detailed schema for careful and frequent laboratory safety monitoring of repeat research apheresis donors. Blood components for research use will be distributed with a unique product number, and the DTM principal and associate investigators will serve as the custodians of the code that links the product with a donor s identity. The nature of the in vitro studies in which the blood and components collected in this study will be used is not the subject of this protocol, and is not possible to describe, since it involves basic investigative efforts in greater than 170 different NIH and FDA laboratories. The intent of this protocol is not to approve the research itself, but to provide adequate and complete informed consent for the donor, and to assure that the education, counseling, and protection of the study subjects (research blood donors) is performed in accordance with IRB, OHSR, OPRR and other applicable Federal regulatory standards...
This study will examine the feasibility of giving cell growth stimulants to granulocyte donors the same day of donation rather than the day before. People who donate granulocytes (infection-fighting white blood cells) for transfusion to patients with severe white cell deficiencies are often given a steroid called dexamethasone and a growth factor called G-CSF the day before donation. These drugs stimulate white cell production, allowing many more cells to be collected than would otherwise be possible. A single dose of G-CSF given to healthy people increases their white cells counts by four to five times the next day. It would be preferable, however, to give G-CSF the same day of donation, if possible. Therefore, this study will measure white cell counts in healthy people at various intervals after being injected with G-CSF alone and G-CSF with dexamethasone. The study will compare the following: granulocyte counts at seven different intervals after injection of the drug or drugs; the effects of G-CSF injected through a vein or under the skin; and the effects of giving G-CSF alone or with dexamethasone. Each participant will undergo four procedures, each four weeks apart as follows: donate a small blood sample; receive an injection of G-CSF under the skin or into a vein; and take either two dexamethasone tablets or two placebo tablets. Small blood samples will then be drawn 1, 2, 4, 6, 8, and 24 hours after the drugs are given. Participants will answer questions about how they feel before the drugs are given and at the various intervals after taking the drugs.