Clinical Research Directory

Characterizing Sleep Among Long-term Survivors of Childhood Cancer

The patients are being asked to take part in this clinical trial because they received cancer treatment as a child at St. Jude. The study comprehensively examines sleep among three distinct diagnostic groups of survivors in the SJLIFE cohort: ALL, CNS tumors, and non-CNS solid tumors. Primary Objective The primary aim of this protocol is to estimate the prevalence of various sleep disorders among long-term survivors of childhood ALL, CNS tumors, and non- CNS solid tumors. Exploratory Objective The exploratory objective of the study is to explore associations between the prevalence of sleep disorders and clinical outcomes collected in SJLIFE.

Entrectinib as a Single Agent in Upfront Therapy for Children <3 Years of Age With NTRK1/2/3 or ROS1-FUSED CNS Tumors

This clinical trial tests how well entrectinib works to treat patients less than 3 years of age with NTRK 1/2/3 or ROS1 fused, high grade glioma or other central nervous system (CNS) tumors.

ONC206 for Treatment of Newly Diagnosed, Recurrent Diffuse Midline Gliomas, and Other Recurrent Malignant CNS Tumors

This phase I trial studies the effects and best dose of ONC206 alone or in combination with radiation therapy in treating patients with diffuse midline gliomas that is newly diagnosed or has come back (recurrent) or other recurrent primary malignant CNS tumors. ONC206 is a recently discovered compound that may stop cancer cells from growing. This drug has been shown in laboratory experiments to kill brain tumor cells by causing a so called "stress response" in tumor cells. This stress response causes cancer cells to die, but without affecting normal cells. ONC206 alone or in combination with radiation therapy may be effective in treating newly diagnosed or recurrent diffuse midline gliomas and other recurrent primary malignant CNS tumors.

Self-administered Remote Neurological Examination Using Mobile Application in Patients With Brain Tumors

The goal of this observational study is to evaluate the feasibility and accuracy of a self-administered remote neurological examination using the "Iskhaa" mobile application in patients with brain tumors aged above 5 years who are able to follow app-based instructions. The main questions it aims to answer are: 1. Development of a mobile application equipped with symptom assessment and recording videos as patients perform specific neurological tasks. 2. Development and validation of the AI model to detect functional changes and predict subsequent neurological deterioration. Participants will: 1. Use the Iskhaa mobile application to perform guided self-neurological examinations following pre-recorded video instructions. 2. Complete EORTC QLQ-C30 and BN20 questionnaires for quality of life assessment. 3. Record and upload videos (e.g., speech, walking, limb movements) using their mobile camera for analysis. 4. In Phase 1 (onsite), 100 participants will use the app under supervision to ensure usability and accuracy. 5. In Phase 2 (offsite), 500 participants will use the app independently at home for monthly self-assessments, with reminders and follow-up support. 6. Continue routine clinic visits every 3-6 months and imaging every 6-12 months as per standard clinical care. The study will compare app-recorded data with physician assessments to determine agreement and validity of remote neurological monitoring using artificial intelligence analysis.

Integrative Neuromuscular Training in Adolescents and Children Treated for Cancer

The INTERACT study is a nation-wide, population-based randomized controlled trial to investigate the effects of 6-month integrative neuromuscular training during anti-cancer treatment on lower body muscle strength, metabolic syndrome, various measures of physical function, physical activity, days of hospitalization, health-related quality of life and health behavior in children and adolescents with cancer. The increased insight derived from this study will impact the development of pediatric exercise oncology and be of high relevance to a broad group of children and adolescents with severe chronic illness. The study is based on the overarching hypothesis, that structured integrative neuromuscular training initiated immediately after diagnosis will be effective in preventing deficits in neuromuscular function, limit long-term cardio-metabolic morbidity and found long-standing improvements in physical activity behavior. To maintain adherence and motivation throughout a 6-month training intervention, weekly supervision of the training is needed. For this study, it is hypothesized that a supervised exercise intervention, in addition to a motivational counseling intervention and usual care, will improve muscle strength compared with unsupervised home-based training (active controls).

Artificial Intelligence in CNS Radiation Oncology

Radiotherapy involves the use of high-energy X-rays, which can be used to stop the growth of tumor cells. Radiotherapy constitutes an essential avenue in the treatment of brain tumors. The modern techniques of radiotherapy involve radiation planning techniques guided by computer algorithms aimed to deliver high doses of radiation to the areas of brain with tumors and limit the doses to surrounding normal structures. Artificial intelligence uses advanced analytical processes aided by computational analysis, which can be undertaken on the medical images, and radiation planning process. We plan to use artificial intelligence techniques to automatically delineate areas of the brain with tumor and other normal structures as identified from images. Also, we will use artificial intelligence on the radiation dose images and other images done for radiation treatment to classify tumors with good or bad prognoses, identify patients developing radiation complications, and detect responses after treatment.

INFORM2 Study Uses Nivolumab and Entinostat in Children and Adolescents With High-risk Refractory Malignancies

The aim of this trial is to determine preliminary activity of the combination treatment with nivolumab and entinostat in children and adolescents with high risk refractory/relapsed/progressive tumors harboring a high mutational load, focal MYC(N) amplification or ATRT-MYC subgroup as well as tumors with high tumor infiltrating lymphocytes (TILs) or a tertiary lymphoid structure (TLS).

Development of Asian Consortium for Data Collection and Clinical Trial of CNS Tumors

\<Purpose of the Research\> * Primary Establishing an Asian consortium to establish a database of pediatric CNS tumors in the prospective manner The target disease of this research focuses on pediatric tumors, and initially the registration of patients with CNS GCT will begin first. * Secondary Developing clinical protocols for pediatric CNS tumors based in Asia \<Duration of Research Participation\> Registration period for research subjects: 2022-08-01 - 2027-12-31 Duration of medical records to be utilized: to 2030-12-31 Total projected duration of research: IRB approved to 2032-12-31 Interim assessment of data quality and integrity: 6 Mo after Data collection Evaluation for the Adaptation of Protocols: 1 and 2 years after the initiation of the study Analysis of Quality of Life and other questionnaires: 3 and 5 years Interim Analysis of all data: 5 years (2027) Final analysis of treatment outcome: 2032