150 Clinical Trials for Various Conditions
REGENECYTE (HPC, Cord Blood, hUCB) for treatment in patients with post-COVID.
Umbilical cord blood mononuclear stem cells (UCBMSCs) transplant followed by the intensive locomotor training for up to 5±1 hours a day, 5±1 days a week, and for 3-6 months for treatment in patients with chronic, stable and complete spinal cord injury.
Researchers want to better understand what happens to the heart when the stem cells are injected directly into the muscle of the right side of the heart during the Stage II palliative surgery for single ventricle patients with hypoplastic left heart syndrome (HLHS) or HLHS variant. Researchers want to see if there are changes in the heart's structure/function following this stem cell-based therapy and compared to children that have not had cell-based therapy.
The UCB transplant is a type of stem cell transplant used to treat cancer of the blood or lymph glands. The UCB transplant has advantages over other types of transplants such as ease of obtaining the umbilical cord blood, absence of donor risks, reduced risks of contagious infections, and the availability for immediate use. The UCB transplant is also associated with a lower incidence of graft versus host disease, or GvHD (in GvHD, the transplanted graft attacks the recipient organs).
This study evaluates the utility of placental/umbilical cord blood (PUCB) to perform the baseline workup testing for EONS in Very Low Birth Weight Infants: CBC (Complete Blood Count) with differential, Immature/Total ratio (I/T ratio), and blood culture along with CRP and IL-6 levels. A cohort (63 subjects) of preterm infants will be recruited. All the participants will be evaluated for sepsis using placental/umbilical cord blood (PUCB) and subject blood sample during the first 12 hours of life (after birth).
The purpose of this study is to investigate the use of autologous umbilical cord blood (UCB) mononuclear cells to mitigate hypoxic neurologic injury among infants with high-risk congenital diaphragmatic hernia (CDH).
This protocol is designed to enable access to intravenous infusions of banked umbilical cord blood (CB), that is thawed and not more than minimally manipulated, for children with various brain disorders. Children with cerebral palsy, congenital hydrocephalus, apraxia, stroke, hypoxic brain injury and related conditions will be eligible if they have normal immune function and do not qualify for, have previously participated in, or are unable to participate in an active cell therapy clinical trial at Duke Medicine. For the purpose of this protocol the term children refers to patients less than 26 years of age. Cord blood is administered as a cellular infusion without prior treatment with chemotherapy or immunosuppression. The mechanism of action is through paracrine signaling of cord blood monocytes inducing endogenous cells to repair existing damage.
Background: Severe aplastic anemia (SAA) and myelodysplastic syndrome (MDS) are bone marrow diseases. People with these diseases usually need a bone marrow transplant. Researchers are testing ways to make stem cell transplant safer and more effective. Objective: To test if treating people with SAA or MDS with a co-infusion of blood stem cells from a family member and cord blood stem cells from an unrelated donor is safe and effective. Eligibility: Recipients ages 4-60 with SAA or MDS Donors ages 4-75 Design: Recipients will be screened with: * Blood, lung, and heart tests * Bone marrow biopsy * CT scan Recipients will have an IV line placed into a vein in the neck. Starting 11 days before the transplant they will have several chemotherapy infusions and 1 30-minute radiation dose. Recipients will get the donor cells through the IV line. They will stay in the hospital 3-4 weeks. After discharge, they will have visits: * First 3-4 months: 1-2 times weekly * Then every 6 months for 5 years Donors will be screened with: * Physical exam * Medical history * Blood tests Donors veins will be checked for suitability for stem cell collection. They may need an IV line to be placed in a thigh vein. Donors will get Filgrastim or biosimilar (G-CSF) injections daily for 5-7 days. On the last day, they will have apheresis: Blood drawn from one arm or leg runs through a machine and into the other arm or leg. This may be repeated 2 days or 2-4 weeks later.
Currently there is no standardized method of collecting and transferring umbilical cord blood to laboratory vacuum tubes. Current methods are messy and may require needles to draw the blood presenting risk of blood exposure and percutaneous injury to obstetrical personnel. A safer, more efficient method of collecting cord blood is needed. The investigators propose to use the Q-Cup technology for collecting cord blood. The Q-Cup device is a two-piece injection molded blood collection and transfer device that enables safe and easy collection of blood from the newborn's umbilical cord and readily transfers the blood into a laboratory vacuum tube. The device consists of a collection cup with a wide opening to easily collect blood from the umbilical cord and a guide tube with a recessed needle which is attached to the collection cup. The operator is enabled to fill the required vacuum containing tubes in a clean, quick, efficient and safe manner by simply inserting the vacuum tube into the guide tube of the Q-Cup. As a result, there is less risk of blood exposure and percutaneous injury and blood is collected more efficiently. This device allows the practitioner to collect and transfer umbilical cord blood: without the need for removing the stopper from the vacuum tube (reducing mess and contamination) and without the need for a syringe and exposed needle (reducing injury and infection).
This phase II trial studies how well an umbilical cord blood transplant with added sugar works with chemotherapy and radiation therapy in treating patients with leukemia or lymphoma. Giving chemotherapy and total-body irradiation before a donor umbilical cord blood transplant helps stop the growth of cells in the bone marrow, including normal blood-forming cells (stem cells) and cancer cells. When the healthy stem cells from a donor are infused into the patient they may help the patient's bone marrow make stem cells, red blood cells, white blood cells, and platelets. The umbilical cord blood cells will be grown ("expanded") on a special layer of cells collected from the bone marrow of healthy volunteers in a laboratory. A type of sugar will also be added to the cells in the laboratory that may help the transplant to "take" faster.
This is a study to evaluate the safety and efficacy of Miltenyi CliniMACS® CD34 Reagent System to promote engraftment of haploidentical CD34+ selected cells combined with single unit umbilical cord blood transplant for treatment of high-risk hematologic disorders.
If you are reading and signing this form on behalf of a potential participant, please note: Any time the words "you," "your," "I," or "me" appear, it is meant to apply to the potential participant. The goal of this clinical research study is to learn if giving genetically changed immune cells, called CAR-NK cells, after chemotherapy will improve the disease in stem cell transplant patients with relapsed (has returned) and/or refractory (has not responded to treatment) B-cell lymphoma or leukemia. Also, researchers want to find the highest tolerable dose of CAR-NK cells to give to patients with relapsed or refractory B-cell lymphoma or leukemia. The safety of this treatment will also be studied. This is an investigational study. The making of and infusion of genetically changed NK cells and the drug AP1903 (if you receive it, explained below) are not FDA approved or commercially available for use in this type of disease. They are currently being used for research purposes only. The chemotherapy drugs in this study (fludarabine, cyclophosphamide, and mesna) are commercially available and FDA approved. Up to 36 patients will take part in this study. All will be enrolled at MD Anderson.
This phase II trial studies the side effects of cord blood-derived expanded allogeneic natural killer cells (umbilical cord blood natural killer \[NK\] cells), rituximab, high-dose chemotherapy, and stem cell transplant in treating patients with B-cell non-Hodgkin's lymphoma that has come back (recurrent) or that does not respond to treatment (refractory). Immune system cells, such as cord blood-derived expanded allogeneic natural killer cells, are made by the body to attack foreign or cancerous cells. Immunotherapy with rituximab, may induce changes in body's immune system and may interfere with the ability of tumor cells to grow and spread. Drugs used in chemotherapy, such as carmustine, cytarabine, etoposide, lenalidomide, melphalan, and rituximab, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. A stem cell transplant using stem cells from the patient or a donor may be able to replace blood-forming cells that were destroyed by chemotherapy used to kill cancer cells. The donated stem cells may also replace the patient's immune cells and help destroy any remaining cancer cells. Giving cord blood-derived expanded allogeneic natural killer cells, rituximab, high-dose chemotherapy, and stem cell transplant may work better in treating patients with recurrent or refractory B-cell non-Hodgkin's lymphoma.
This study is a single-center, treatment protocol with 4 possible preparative regimens, designed to validate the process of umbilical cord blood stem cell transplantation at our institution.
The primary objective of this study is to determine the efficacy of a single intravenous infusion of unrelated donor umbilical cord blood (UCB) for improving functional outcomes in patients with ischemic stroke. Eligible subjects will receive an intravenous infusion of UCB or placebo 3-10 days following stroke. Subjects will not receive immunosuppressive or myeloablative medications prior to the infusion. Subjects will be followed for one year post infusion for safety and efficacy. Assessments will examine safety and tolerability of the infusion, change in neurological symptoms, change in quality of life, and emotional and cognitive status. Assessments will occur at 24 hours post infusion, and at 30, 90, 180 and 365 days post infusion.
This study is a single site, phase I, prospective study of the safety of intravenous sibling cord blood infusion in 15 children ages 1-6 years with Cerebral Palsy (CP). All subjects will be treated with sibling cord blood cells. The first six will receive cord blood cells from an HLA-matched sibling. The following nine subjects will receive cord blood cells from an HLA-mismatched (≥3/6 match) or matched sibling. The duration of study participation will be six months from the time of the cord blood infusion.
Autologous human umbilical cord blood (hUCB) stored at Cord Blood Registry will be given to children who have suffered from a Perinatal Arterial Ischemic Stroke. The aim is to determine if hUCB infusion is safe, if late functional outcome is improved, if hUCB treatment improves physiologic response in the child's SSEP \& EEG, and the effect of hUCB infusion in altering anatomic findings on MRI.
In this study, participants with high-risk hematologic malignancies undergoing hematopoietic cell transplantation (HCT), who do not have a suitable human leukocyte antigen (HLA)-matched related/sibling donor (MSD), matched unrelated donor (MURD) or killer-immunoglobulin receptors (KIR) ligand mismatched haploidentical donor identified, will receive a combined T cell depleted (TCD) haploidentical peripheral blood stem cell (PBSC) and unrelated umbilical cord blood transplantation (UCBT) using a total lymphoid irradiation (TLI) based preparative regimen. Primary objective: * To estimate the incidence of donor derived neutrophil engraftment by day +42 post-transplant for participants with high-risk hematologic malignancies undergoing a total lymphoid irradiation (TLI)-based hematopoietic cell transplantation (HCT) using a T cell depleted (TCI) haploidentical donor peripheral blood stem cell (PBSC) donor combined with an unrelated umbilical cord blood (UCB) donor. Secondary objectives: * Estimate the incidence of malignant relapse, event-free survival (EFS), and overall survival (OS) at one-year post-transplantation. * Estimate the incidence and severity of acute and chronic graft versus host disease (GVHD) in the first 100 days after transplantation. * Estimate the incidence of secondary graft failure transplant related mortality (TRM) and transplant related morbidity in the first 100 days after HCT.
Study CR-AIR-006 is a part of the ATIR clinical development plan and will provide control data for patients treated with ATIR in clinical studies (e.g. study CR-AIR-007).
This study is a prospective phase 1 single-center trial designed to determine the safety of a single intravenous infusion of autologous umbilical cord blood in children with Autism Spectrum Disorder (ASD) and assess the feasibility of various outcome measures to determine which measure(s) can be used as primary and secondary endpoints for a future randomized phase 2 clinical trial. All subjects will receive infusion of cord blood cells at baseline with follow up assessments at 6 and 12 months.
The goal of this protocol is to establish a randomized clinical trial comparing the use of cord blood vs. infant blood with the primary outcome of comparing both the absolute hemoglobin concentration and the percent change in hemoglobin concentration from baseline around 24 hours of life.
By doing this study, researchers hope to learn the following: * If providing hyperbaric oxygen (HBO) therapy prior to an umbilical cord blood (UBC) transplant will help to improve the homing process * The safety of HBO administration in the setting of the UBC transplant * The effects of HBO therapy on the engraftment process
Unrelated Cord Blood (UCB) transplant in children is a viable stem cell transplant modality for patients with leukemia and myelodysplasia. UCB is now considered "Standard Of Care" in cases where a suitable living bone marrow donor is not available. The survival of UCB is similar to Matched Unrelated Marrow Transplant. This study is considered "Research" since UCB is not a licensed product and requires investigational new drug (IND). THERE ARE NO SPECIFIC RESEARCH QUESTIONS IN THIS PROTOCOL. This protocol merely provides UCB as a stem cell treatment modality to pediatric patients who may require it after a conditioning regimen that excludes Total Body Irradiation.
The goal of this clinical research study is to learn if it is safe and feasible to transplant patients with one of two units of cord blood that has been changed in the laboratory before it is given. Only patients with leukemia, lymphoma or myelodysplastic syndrome will be allowed on this study. The secondary goal is to obtain the preliminary efficacy outcome. Researchers also want to learn if using cord blood that has been changed can help to control the disease. One cord blood unit will not be changed before it is administered to you. The cord blood unit that will be altered will be changed to use sugar that is found in small amounts in blood cells. It plays a role in telling transplanted cells where they should go in the body. Adding more sugars to the cord blood cells in the laboratory helps the cord blood cells find their way to the bone marrow faster. This process is called fucosylation. "Conditioning" is the chemo and other medicines and will be given to patients to prepare to receive cord blood transplant cells. This prevents immune system from rejecting the cells. Conditioning will be started before the transplant. ATG is a protein that removes immune cells that cause damage to the body. Clofarabine is designed to interfere with the growth and development of cancer cells. Fludarabine is designed to interfere with the DNA of cancer cells, which may cause the cancer cells to die. This chemotherapy is also designed to block your body's ability to reject the donor's bone marrow cells. Melphalan and busulfan are designed to bind to the DNA of cells, which may cause cancer cells to die. MMF and tacrolimus are designed to block the donor cells from growing and spreading in a way that could cause graft versus host disease (GVHD -- a condition in which transplanted tissue attacks the recipient's body). This may help to prevent GVHD. Rituximab is designed to attach to cancer cells, which may cause them to die. A Phase I study for treatment of patients (N=25) with hematologic malignancies and MDS who are candidates for dual-cord UCBT is ongoing at M.D. Anderson Cancer Center under an Investigator-initiated IND Application, E.J. Shpall, MD, PI. Since August, 2012, Preliminary results indicate that ASC-101 UCBT is well-tolerated and no ASC-101 related untoward adverse events have been observed. To date, the median time to neutrophil engraftment (N=9) is 15 days, and the median time to platelet engraftment (N=9) is 33 days. The trial remains ongoing.
This is a treatment guideline for an unrelated umbilical cord blood transplant (UCBT) using a myeloablative preparative regimen for the treatment of hematological diseases, including, but not limited to acute leukemias. The myeloablative preparative regimen will consist of cyclophosphamide (CY), fludarabine (FLU) and fractionated total body irradiation (TBI).
This study was designed to evaluate the safety and tolerability of HSC835 for clinical use as measured by the absence of graft failure at day 42 in excess of that currently observed with double umbilical cord blood (UCB) transplantation (DUCBT) with non-myeloablative (NMA) conditioning.
This is a Phase I study to determine the safety and feasibility of injections of autologous umbilical cord blood (UCB) cells into the right ventricle of Hypoplastic Left Heart Syndrome (HLHS) children undergoing a scheduled Glenn surgical procedure. The investigators are doing this research study to find out if autologous stem cells from the individual's own umbilical cord blood can be used to strengthen the muscle of the right side of their heart. This will help determine the safety and feasibility of using cell-based regenerative therapy as an additional treatment for the management of HLHS.
The purpose of this study is to evaluate the efficacy of TXA127 to reduce the incidence (Grade II-IV) of acute Graft-vs.-Host Disease (aGVHD) in adult subjects undergoing double umbilical cord blood transplantation (UCBT). The study will also evaluate the effects of TXA127 on incidence, severity and duration of mucositis; neutrophil engraftment and platelet recovery; platelet transfusion requirements; immune reconstitution; and duration of corticosteroid use. TXA127 has shown to be well tolerated by patients and appears to induce rapid production of neutrophils and platelets in the bloodstream, as well as increase the immune system components. TXA127 has also been shown reduce the severity of chemotherapy-induced mucositis.
Cell-based cardiac regeneration has been the focus of acquired, adult heart disease for many years. However, congenital heart disease with severe structural abnormalities may also be reasonable targets for cell-based therapies. Interestingly, the pediatric heart is naturally growing and may be the most amendable to regenerative strategies. Therefore, identifying autologous cells (cells from the patient's own body) would be important to initiate these studies. This study aims to validate the use of umbilical cord blood as a source of autologous cells for the purpose of cardiac repair of congenital heart disease. Cells will be isolated from the cord blood to help us determine the feasibility of collection, processing, and storage of these samples at the time of birth of infants with prenatal diagnosis of hypoplastic left heart syndrome. This study may be useful for the development of pre-clinical and clinical studies aimed at the long-term goal of repairing damaged heart muscle.
The study investigates the time to engraftment of a mesenchymal expanded cord blood unit in patients with hematologic malignancies undergoing transplantation with myeloablative conditioning.