Clinical Research Directory

THRIVE-CAR-T Digital App

The goal of this clinical trial is to learn if a digital mobile application called THRIVE-CAR-T is helpful for the care of patients undergoing CAR-T cell therapy. The main question\[s\] it aims to answer are whether the THRIVE-CAR-T app is feasible and acceptable to patients.

Neuroimaging and Biomarkers of Neurotoxicity After Chimeric Antigen Receptor T-Cell Therapy

The goal of this study is to understand why some people receiving chimeric antigen receptor (CAR) T-cell therapy for cancer experience neurotoxicity. The main question it aims to answer is: Can a novel tool be developed to identify early the patients who will develop immune effector cell-associated neurotoxicity syndrome (ICANS, also called neurotoxicity) after chimeric antigen receptor (CAR) T-cell therapy? Participants already scheduled for chimeric antigen receptor (CAR) T-cell therapy as part of the medical care for their cancer will be evaluated with advanced neuroimaging techniques. In addition, neurocognitive assessments using questionnaires and measurement of biomarkers in blood (liquid biomarkers) will be performed to provide a comprehensive characterization of neurotoxicity following chimeric antigen receptor T-cell therapy. Assessments will be performed in the acute phase (2 to 14 days after chimeric antigen receptor (CAR) T-cell therapy) and after approximately 3 months.

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.

Rehabilitation Needs for Hematologic Cancer Candidate for Hematopoietic Stem Cell Transplantation or CAR T-Cell Therapy

Hematopoietic Stem Cell Transplantation (HSCT) and CAR T-cell therapy are effective treatments for blood cancers, extending patients lives. However, these treatments can cause side effects like muscle weakness and fatigue. Recent findings suggest these issues can significantly affect patient quality of life during CAR T-cell therapy. Patients undergoing HSCT and CAR T-cell therapy often face frequent infections and strong immune responses, requiring long periods of rest. This worsens their physical condition and impacts their quality of life, muscle strength, and fatigue levels. Minimizing these side effects is crucial to improve the well-being of patients undergoing these advanced treatments. This study aims to assess the physical abilities (main goal) of patients preparing for HSCT or CAR T-cell therapy. It also aims to examine their quality of life and describe the symptoms and complications they may experience. The results will help identify rehabilitation needs for these patients.

ePRO for the Timely Detection of Side Effects in Cancer Patients Undergoing CAR T Immunotherapy

This study is designed as a feasibility study implementing electronic Patient Reported Outcomes (ePRO) in CAR T treatment for hematological malignancies, in order to describe AE reporting. ePRO assessments will be explored for their feasibility to engage in monitoring and management of CAR T-related toxicities as well as using these digital ePRO tools may improve both, its safety and accessibility.