View clinical trials related to Stem Cell Transplant.
Filter by:To determine if the novel regimen of PT/FLU+CY promotes cord blood engraftment in children's leukemia HSCT cohort
This research is designed to determine if the adjuvanted recombinant glycoprotein E (gE) herpes zoster (HZ) vaccine (Shingrix) has acceptable immunogenicity and safety in people who have undergone allogeneic stem cell transplant (allo-SCT). Specifically, it will determine the effect of the interval after transplantation on the immune response and if an additional dose of vaccine is needed to improve the vaccine-induced responses.
This is a mixed methods, prospective longitudinal pilot RCT to evaluate the 1) acceptability of a newly developed mHealth app (BMT4me), 2) the feasibility of enrolling and retaining caregivers of children in the acute phase post-HSCT, and 3) the potential efficacy of an mHealth app on adherence to immunosuppressants in post-HSCT children discharged during the acute phase.
Pilot study enrolling obese post HSCT (hematopoietic stem cell transplantation) patients at the hematology/oncology clinic at the Mattel Children's Hospital, University of California, Los Angeles. Parameters include percent over the 95th percentile (%BMIp95), zBMI, fasting metabolic metrics, addictive eating habits, and motivation for change.
This study primarily aimed to evaluate the safety of human embryonic stem cell (hESC)-derived mesenchyma stem cells in interstitial cystitis.
Patients older than 60 years are more and more transplanted. Comprehensive geriatric assessment (CGA) have been developed and are currently used in patients with cancer, it has been correlated with the prognosis. There is still few data in transplanted patients and the aim of this study is to assess these patients before and after transplantation in order to monitor their general health and quality of life (QOF) and correlate them to the prognostic.
Systemic lupus erythematosus (SLE) is a rare (prevalence: 40- 50/100 000 persons) heterogeneous auto-immune and auto-inflammatory disease (AD), affecting both sexes and all races, with a peak incidence / prevalence among black people and a predilection for women in the 3rd-4th decade of life. SLE is characterized by successive periods of flares and remission, which may all vary in duration and quality. Prognosis of severe forms of SLE, which affect lung, heart or brain in addition to renal involvement, has improved, but still evolution remains pejorative in a subset of patients whose 10 years mortality remains 10-15%, even in tertiary referral centers. For 20 years, no new prospective clinical trial in the course of SLE has demonstrated its effectiveness. New biological therapies have not yet made the long awaited breakthrough in the treatment of severe SLE and only anti-Blys monoclonal antibody has gained indication in moderately active SLE. In addition, serious adverse side effects (progressive multifocal leukoencephalopathy) observed with several biologics in AD patients has dampened their expected benefits. For SLE subjects resistant to 1er or 2nd line conventional treatment, there is a need to develop more effective therapies with fewer long term side effects, based on new immunomodulatory and immunosuppressive strategies. According to their in vitro immunomodulatory properties and ability to induce tissue repair mechanisms, mesenchymal stem cells (MSC) have been proposed as a new therapy for several AD, including SLE. The use of allogeneic umbilical cord-derived MSC is based on experimental and human clinical data, particularly produced by Nanjing team (Pr Sun) in China. It is also logical to select SLE patients with the same severity criteria as those used worldwide to validate the efficacy of anti-Blys therapies. Similarly, the analysis of the expected results should take into account criteria similar or comparable to those used for the pivotal clinical trials. This trial is a unique opportunity to set up collaboration between Saint-Louis APHP, clinical expert center for cell therapy in AD, and University College London for cell manufacturing.
The investigators hope to find the proof of principle concept from this pilot study so that the investigators can design a clinical trial based on the results of the explanatory hypothesis.
Participants are being asked to take part in this study because treatment of his or her disease requires a stem cell transplant. Stem cells or "mother" cells are the source of normal blood cells and lead to recovery of blood counts after bone marrow transplantation. Unfortunately, there is not a perfectly matched stem cell donor (like a sister or brother) for the participant and his or her disease does not permit enough time to identify another donor (like someone from a registry list that is not his or her relative) or another suitable donor has not been identified. However, a close relative of the patient has been identified whose stem cells are not a perfect match, but can be used. Alternatively, the patient may have already received a stem cell transplant but have evidence of mixed chimerism, which means some of the patient's own bone marrow cells are present, rather than all of the donor's cells. This may lead to an increased risk of the disease coming back. Or, the patient may have all donor cells but his or her bone marrow is not working very well, which may lead to frequent blood or platelet (cells that help in clotting blood) transfusions or infection. Regardless of the reason, it may be necessary to isolate stem cells from a haploidentical (half-match) donor in order to provide bone marrow function. Because the stem cells from the donor are only half-matched to the participant, the risk of graft-versus-host disease (GvHD) is very high. GvHD is a complication after transplant caused by donor T cells (graft) that attack the transplant recipient, and this complication can cause death after transplant. Thus, it is important that the donor's blood cells are treated to minimize cells that are most likely to attack the host's tissues. This is done by using a special device to capture the CD34+ stem cells from the donor's stem cell product prior to giving the cells to the host. This method minimizes the donor T cells, which are responsible for causing GvHD. Purpose: In an effort to lower the occurrences and severity of graft-versus-host disease in patients and to lower the rate of transplant failure, investigators would like to specially treat the donor's blood cells to minimize the cells that are most likely to attack the patient's tissues.