Clinical Trials Search at Vanderbilt-Ingram Cancer Center

This trial collects data on response to low-dose skin electron therapy in patients with stage IB-IIIA mycosis fungoides that does not respond to treatment (refractory) or has come back (relapsed). Collecting data on patient's response to therapy, both in terms of changes in the skin and in terms of quality of life following treatment, may help doctors better predict response to therapy.

This study measures the impact of patient-specific 3D specimen maps on adjuvant radiation treatment volumes and doses to critical organs.

This clinical trial evaluates different nerve patterns to the throat muscles (stylopharyngeus and pharyngeal constrictor) and what they look like in different patients by measuring and photographing them in the neck during surgery when the nerves are dissected (separated into pieces) as part of regular surgical care. Researchers think that some of the muscles in the neck might be useful for treating a condition called obstructive sleep apnea (OSA). This happens when muscles of the throat relax at night and the airway becomes blocked. Blockage of airflow leads to drops in oxygen levels and can disturb sleep by forcing a persons brain to wake to restore airway muscles so they can breathe. This trial may help researchers provide a new way to treat OSA that may be better than the current standard ones.

This clinical trial is studying how well magnetic resonance imaging (MRI) in combination with 18F-fluoromisonidazole (18F-FMISO) positron emission tomography (PET)/computed tomography (CT) scans works in assessing a decrease in the amount of oxygen (hypoxia) in tumor cells and in guiding adaptive radiation treatment in patients with head and neck cancer or cancer that has spread to the brain from where it first started (brain metastasis). Both head and neck cancer and brain metastases can be treated with radiation. Previous research studies have shown that the amount of oxygen that goes towards cancer cells prior to their radiation treatments predicts how the cancer cells will respond to radiation treatment. MRI is a type of imaging technique that uses radio waves and large magnets to produce detailed images of areas inside the body. 18F-FMISO is a radioactive substance that binds to hypoxic tumor cells and emits radiation, allowing the tumor cells to be visualized using PET/CT, which is an imaging technique that combines PET and CT in a single machine. It is used to make detailed, computerized images of inside the body. By combining MRI with 18F-FMISO PET/CT, researchers may be able to develop an MRI sequence that can be used to evaluate hypoxia in tumor cells and predict response to treatment in patients with head and neck cancer or brain metastases.

This is a Phase II, single arm, multi-center trial, designed to estimate the efficacy and
toxicity of haploidentical bone marrow transplantation (BMT) in patients with sickle cell
disease (SCD). Based on their age and entry criteria patients are stratified into two groups:
(1) children with severe SCD; and (2) adults with severe SCD.

This study is an access and distribution protocol for unlicensed cryopreserved cord blood
units (CBUs) in pediatric and adult patients with hematologic malignancies and other
indications.

The primary purpose of the Research Database is to have a comprehensive source of
observational data that can be used to study HSC transplantation and cellular therapies.

A secondary purpose of the Research Database is to have a comprehensive source of data to
study marrow toxic injuries.

Objectives:

To learn more about what makes stem cell transplants and cellular therapies work well such
as:

- Determine how well recipients recover from their transplants or cellular therapy;

- Determine how recovery after a transplant or cellular therapy can be improved;

- Determine how a donor's or recipient's genetics impact recipient recovery after a
transplant or cellular therapy;

- Determine how access to transplant or cellular therapy for different groups of patients
can be improved;

- Determine how well donors recover from the collection procedures.

This pilot trial compares drug exposure levels using a new method for dosing vincristine in infants and young children compared to the standard dosing method based on body surface area (BSA) in older children. Vincristine is an anticancer drug used to a variety of childhood cancers. The doses anticancer drugs in children must be adjusted based on the size of the child because children vary significantly in size (height, weight, and BSA) and ability to metabolize drugs from infancy to adolescence. The dose of most anticancer drugs is adjusted to BSA, which is calculated from a patients weight and height. However, infants and young children have more severe side effects if the BSA is used to calculate their dose, so new dosing models have to be made to safely give anticancer drugs to the youngest patients. This new method uses a BSA-banded approach to determine the dose. Collecting blood samples before and after a dose of the drug will help researchers determine whether this new vincristine dosing method results in equivalent drug levels in the blood over time in infants and young children compared to older children.

This study evaluates the patient reported outcomes in patients with digestive system neuroendocrine cancer and lung neuroendocrine cancer. Patients with neuroendocrine cancer usually have a high symptom burden which may have a negative effect on health-related quality of life (HRQoL). Patient questionnaires gather information describing symptoms and effect on quality of life, cancer type and any treatments received. Studying quality of life in patients receiving treatment for neuroendocrine cancers may help identify the effects of treatment and improve future treatment plans. Information gathered from this study may help researchers understand whether patient's diagnosis, symptoms, and order of cancer treatments have any effect on quality of life.

In this observational study researcher want to learn more about the effectiveness of drug
VITRAKVI (generic name: larotrectinib) and how well the drug is tolerated during routine use
in patients with TRK fusion cancer which is locally advanced or spread from the place where
it started to other places in the body. TRK fusion cancer is a term used to describe a
variety of common and rare cancers that are caused by a change to the NTRK (Neurotrophic
Tyrosine Kinase) gene called a fusion. During this fusion, an NTRK gene joins together, or
fuses, with a different gene. This joining results in the activation of certain proteins (TRK
fusion proteins), which can cause cancer cells to multiply and form a tumor. VITRAKVI is an
approved drug that blocks the action of the NTRK gene fusion. This study will enroll adult
and paediatric patients suffering from a solid tumor with NTRK gene fusion for whom the
decision to treat their disease with VITRAKVI has been made by their treating physicians.
During the study, patients' medical information such as treatment information with VITRAKVI,
other medication or treatments, changes in disease status and other health signs and symptoms
will be collected within the normal medical care by the treating doctor. Participants will be
observed over a period from 24 to 60 months.