View clinical trials related to Stem Cell Transplant.
Filter by:Purpose: This prospective clinical case series aimed to evaluate the effect of suprachoroidal implantation of mesenchymal stem cells (MSCs) in the form of spheroids as a stem cell therapy for retinitis pigmentosa (RP) patients with relatively good visual acuity. Methods: Fifteen eyes of 15 patients with RP who received suprachoroidal implantation of MSCs in the form of spheroids were included. Best corrected visual acuity (BCVA), 10-2 and 30-2 visual field examination and multifocal electroretinography (mfERG) recordings were recorded at baseline, postoperative first, third- and sixth-months during follow-up.
The purpose of this research is to provide an educational visit addressing common emotional stressors involved in the transplant/CAR-T process, and determine if this added education improves levels of anxiety, depression, and fatigue after transplant/CART in comparison to people who do not receive the brief educational visit.
Autologous stem cell transplantation (SCT) is the standard of care for fit multiple myeloma (MM) patients; however, the first 100 days after SCT are marked by extensive life disruptions. We have found a 56% relative increase in the use of high-risk benzodiazepine and Z-class (B/Z) drugs for anxiety and insomnia among MM patients during this period. Digital life coaching (DLC), whereby trained coaches work longitudinally with patients through phone calls and text messages to accomplish personal goals, may be able to target anxiety and insomnia in a more integrative manner. This study will investigate whether peri-SCT DLC can lower B/Z usage and improve patient-reported well-being.
This is a retrospective observational study of epidemiological surveillance, multicenter, non-profit, spontaneous, Italian on patients submitted to allo-HSCT among Italian Transplant Centers GITMO. This study will evaluate all consecutive adult patients who received novel drugs after hematopoietic stem cell transplantation from related and unrelated donors between January 1, 2009 to December 31, 2018 in GITMO-affiliated Centers. This study will evaluate approximately 300 subjects (with competitive enrolment) from GITMO investigational centers.
Trauma is the leading cause of soft tissue loss of the heel. Children constitute the largest group of victims of such injuries. Spoke wheel injury, road traffic accident are common mode in the children. Oestern and Tscherne have classified soft tissue injuries into four grades from 0-4. The treatment of Grade 0 and 1 injuries is typical cleansing and application of a moist wound healing dressing. But further grades need surgical management with debridement and reconstruction. Grade III and IV can be reconstructed by using graft, flaps or various other techniques. . Skin grafting offers poor functional and cosmetic results, although it is commonly performed with good take rates. mesenchymal stem cells will be isolated from umbilical cord with informed consent from the mothers. This study will open a new avenue for the treatment of heel pad injury. . Since the use of stem cell (especially in Pakistan) is completely a new technique in the management of heel pad injury, it will provide insight for better management by accelerating the wound healing process.
Researchers are trying to learn more about using sublingual (absorption under the tongue) tacrolimus in blood and marrow transplant patients.
Hematopoietic stem cell transplant (HCT) is an aggressive treatment for life-threatening cancers. HCT improves survival, but most HCT patients experience significant physical disability, which is exacerbated by persistent symptoms. Pain, fatigue, and psychological distress are the most prevalent and debilitating symptoms. HCT patients experience a significant increase in disability as their pain, fatigue, and distress increase. This disability and symptom burden interferes with patients' ability to engage in recommended physical activity that can improve disability, symptoms, and other outcomes. Disability and symptoms also complicate an already challenging recovery course; HCT patients return home, often far from their medical team, are restricted from normal activities and socially isolated. These disability, symptom and activity challenges increase the risk for post-transplant complications and may compromise life expectancy. Teaching HCT patients to cope with symptoms and activity is critical to helping them increase activity and reduce disability. Cognitive behavioral coping skills training protocols can enhance HCT patients' ability to cope with symptoms (pain, fatigue, distress) that interfere with physical activity. However, the application of these protocols to HCT patients is limited by in person sessions, delivery of sessions in a medical center setting, and/or lack of tailoring to HCT patients' specific needs. Mobile health (mHealth) technologies can improve and extend intervention strategies to cope with symptoms and physical activity upon return home. Behavioral intervention strategies are needed to enable HCT patients to effectively cope with symptoms to improve their ability to engage in physical activity that can improve physical disability. The investigators aim to develop and test a combined coping skills training and activity coaching protocol that: first, is feasible and acceptable, and second, improves physical disability, as well as pain, fatigue, distress, and physical activity in HCT patients. Specifically, the investigators will develop and test an in-person and mHealth HCT Coping Skills Training for Symptom Management and Daily Steps (HCT Symptoms and Steps) intervention protocol. To do this, the investigators will develop a mobile app, conduct focus groups, complete user testing, and conduct a small randomized controlled trial (RCT) to examine feasibility, acceptability, and outcome patterns suggesting intervention efficacy of the developed HCT Symptoms and Steps protocol. Following the development phase of the study (i.e., focus groups), the investigators will conduct user testing with 10 cancer patients who have undergone HCT; all 10 patients will receive the HCT Symptoms and Steps intervention. Next, the investigators will randomly assign 40 cancer participants who have undergone HCT and report pain, fatigue and stress to receive either HCT Symptoms and Steps or HCT Education. The investigators will test whether HCT Symptoms and Steps is feasible and acceptable to HCT patients, and improves physical disability, as well as other important outcomes. The investigators expect that HCT Symptoms and Steps will be feasible and acceptable to HCT patients and, compared to HCT Education, will be more likely to lead to improvements in physical disability, as well as pain, fatigue, distress, physical activity, and self-efficacy for symptom management. The investigators' goal is to demonstrate the feasibility, acceptability, and positive impact of a hybrid in-person and mHealth coping skills training and activity coaching intervention that reduces physical disability by concurrently and synergistically decreasing symptom burden and increasing physical activity. This project has the potential to lead to future research that can redesign existing modes of behavioral intervention delivery, improve continuity and coordination of care, and ultimately enhance patient outcomes.
This research study is evaluating the impact of early involvement of a palliative care team working with the transplant oncology team will have on the quality of life, symptoms, and mood of patients undergoing stem cell transplantation.
The proposed research will use a double-blind randomized controlled design to pilot test a model for how stories shared by a panel of HCT survivors impact the psychosocial well-being of the digital stories (DS) intervention condition of 55 patients who recently underwent HCT and their respective caregivers compared with 55 people in an information control (IC) condition and their caregivers (total 220 participants; N=110 per condition). Participants, recruited from the Mayo Clinic Arizona Cancer Center, will be randomly assigned to one of two conditions: the DS intervention or the IC video condition. Participants will questionnaires at baseline (T1), after the 4-week intervention (T2), and 3 months (100 days) later (T3).
Background: - Some treatments for cancer or other diseases can lead to infertility in women. These treatments include chemotherapy, some stem cell transplants, and pelvic radiotherapy. They are called gonadotoxic therapies. Women can now have their eggs frozen before they have these treatments. This may allow them to get pregnant later. Researchers want to learn more about this technology and processes. Objectives: - To provide egg freezing for women having gonadotoxic therapies at NIH. To learn more about the effects of these therapies. Eligibility: - Women at least 18 years old who are past puberty and before menopause. They must be scheduled to have gonadotoxic therapies. Design: - Participants will be screened with medical history and blood and hormone tests. They will also have a physical exam and transvaginal ultrasound. - Ovary stimulation: participants will have medications injected under the skin. These increase the chance of fertility. This phase will take about 8 20 days. Participants will have blood drawn and transvaginal ultrasound daily or every other day. Some participants will also have blood thinner injected daily. - Egg retrieval: participants will check in to the hospital. Eggs will be removed with a needle during a short surgery. Participants will be awake but sedated. - Participants may stay overnight in the hospital. - They will return every 1 3 days for 1 3 weeks for blood tests. - Mature eggs will be frozen after egg retrieval and immature eggs (which cannot be fertilized for clinical use) will be used for research. Participants can use their eggs in the future at outside, private fertility clinics to try to become pregnant. If the eggs are stored for more than 5 years, participants must pay for storage.