Clinical Research Directory

Intra Ovarian Muse Cell Injection for Perimenopause Symptom Relief and Ovarian Function Restoration (MUSE-OVARY)

This observational study examines the safety and effects of injecting Muse cells (a type of naturally occurring stem like cells found in adult tissues such as fat or bone marrow) directly into the ovaries of women aged 28 to 70 who are going through peri-menopause. Perimenopause is the transition time before menopause when hormone levels fluctuate, periods become irregular, and many women experience symptoms like hot flashes, night sweats, sleep problems, mood changes, and reduced energy. Current treatments mainly manage symptoms but do not restore natural ovarian function. Muse cells have special properties: they can help repair tissues, reduce inflammation, support cell energy production, and promote a healthier environment in the ovaries. In this study, women who choose to receive ultrasound guided Muse cell injections into their ovaries as part of their own regenerative care will be carefully followed. Researchers will monitor safety, hormone levels (such as FSH, estrogen, and AMH), ovarian follicle counts via ultrasound, menstrual patterns, and quality of life improvements using questionnaires. The study does not assign treatment - participants and their doctors decide on the procedure, and information is collected in a standardized way over 24 months (with longer safety follow-up). The goal is to gather real world data on whether this approach can help stabilize hormones and support ovarian tissue during perimenopause. No placebos or experimental drugs are used in this observational study.

Safety and Efficacy of FAP iCDC in Ischemia Cardiomyopathy

To study the safety and efficacy of fibroblast activation protein (FAP)-targeted autologus immunosuppressive chimeric antigen receptor-dendritic cell (CAR-DC) in the treatment of ischemic cardiomyopathy, aiming to provide a novel therapeutic strategy for the disease.

CD19-Directed Chimeric Antigen Receptor Autologous T Cells (CART19) for Lupus

This is a single-center, single-arm, open-label phase 1/2 study of CART19 in children and young adults with refractory Systemic lupus erythematosus (SLE), including both patients diagnosed with lupus nephritis (LN) and patients with non-renal Systemic lupus erythematosus (SLE). Phase 1 will evaluate the safety of CART19 in 6-12 patients with Systemic lupus erythematosus (SLE). There is no planned dose escalation, but a dose de-escalation will be made based on the incidence of Dose Limiting Toxicities. Phase 2 will evaluate the efficacy and further evaluate the safety of CART19 in this population.

Single Arm Pilot Trial of Letermovir for CMV Prophy in CAR T Cell

The goal of this clinical research study is to learn if a drug called Letermovir can help to prevent CMV reactivation.

MSC Exosome Therapy for Post-Preeclampsia Endothelial Dysfunction

\--- Why Is This Study Being Done? Women who have preeclampsia during pregnancy face a much higher risk of heart disease later in life. Preeclampsia is a serious pregnancy condition that causes high blood pressure and damages blood vessels. Even after the baby is born, the blood vessels do not fully heal on their own, which can lead to heart problems/cardiovascular years later. This study tests whether a new treatment called exosomes can help repair damaged blood vessels in women who had preeclampsia. Exosomes are tiny particles that come from stem cells and contain healing substances that may help blood vessels work better. \--- What Will Happen in This Study? This study will include 80 women who recently gave birth and had preeclampsia during their pregnancy. Half of the women will receive the exosome treatment through an IV, and half will receive a placebo (a substance with no active treatment). \--- What Will Participants Need to Do? Participants will: * Have blood tests and other health checks * Receive one treatment through an IV * Return for follow-up visits at 1 week after treatment * Have tests to check how well their blood vessels are working Who Can Join This Study? Women who: * Recently gave birth (within 1-2 weeks) * Had preeclampsia during their last pregnancy * Are healthy enough to participate * Can give permission to join the study What Are the Possible Benefits and Risks? The treatment may help repair blood vessel damage and reduce the risk of future heart disease. The exosome treatment appears to be safe based on other studies, but like any medical treatment, there may be side effects. \--- How Long Will the Study Last? The main treatment happens during one visit, with follow-up visits for 1 week to check on participants' health and see if the treatment is working. This research may lead to new ways to protect women's heart health after pregnancy complications.

Exercise as an Immune Adjuvant for Allogeneic Cell Therapies

This study aims to improve the treatment of blood cancer by using exercise to collect healthier immune cells from donors. Allogeneic adoptive cell therapy is a treatment where immune cells from a healthy donor are given to a cancer patient, usually to help prevent or treat cancer relapse after a stem cell transplant. These donor cells can either be directly infused into the patient or grown in a lab to create more specialized immune cells that target and kill cancer. While this therapy has been helpful for many patients, there is a need to make it more effective for a larger group and reduce side effects like graft-versus-host disease (GvHD), where the donor's immune cells attack the patient's healthy tissue. This Early Phase 1 trial will test whether exercise can help produce better immune cells from donors. The investigators will recruit healthy participants for three study groups: 1. Exercise Group: Participants will complete a 20-minute cycling exercise session. The investigators will collect blood samples before, during, and after exercise to study the number and quality of immune cells. The investigators will also use the collected cells to create immune therapies and test their ability to kill cancer cells in the lab and control cancer growth in mice. 2. Exercise and Beta Blocker Group: In this group, participants will complete up to five cycling sessions, with at least a week between each session. Before each session, participants will take either a placebo or a drug (beta blocker) that blocks stress hormones like adrenaline. The investigators will collect blood samples before and during exercise to see how blocking these hormones changes the effect of exercise on immune cells. 3. Isoproterenol Group: Participants in this group will receive a 20-minute infusion of isoproterenol, a drug that mimics the effects of adrenaline. The investigators will collect blood samples before, during, and after the infusion to see if the drug causes similar immune changes to those caused by exercise. Participants can join one, two, or all three groups. This research will help understand whether exercise can improve immune cell therapies for treating blood cancer and reduce the risk of GvHD, making these treatments safer and more effective.