Feasibility and Expansion Trial of Transcutaneous Vagus Nerve Stimulation (tVNS) for Immune-Related Fatigue in Patients Receiving Immune Checkpoint Inhibitors

Overview

This study evaluates whether a non-invasive device called transcutaneous vagus nerve stimulation (tVNS) can be safely and feasibly used to help reduce fatigue in patients receiving immunotherapy for cancer. Fatigue is a common and often severe side effect of immune checkpoint inhibitors, and there are currently limited effective treatment options. In this study, participants will use a small device at home that delivers mild electrical stimulation to the ear for 60 minutes each day over a 6-week period. The study will assess whether patients are able to use the device as prescribed (feasibility), how well it is tolerated, and whether it may improve fatigue and quality of life. The study will also explore changes in biological markers of inflammation and measures of nervous system function to better understand how tVNS may work. The results of this study will help determine whether this approach should be tested in larger future trials.

This is a single-arm, open-label feasibility and expansion study evaluating transcutaneous vagus nerve stimulation (tVNS) as a supportive care intervention for immune-related fatigue in patients receiving immune checkpoint inhibitor therapy. Eligible participants are adults with advanced or metastatic solid tumors who are currently receiving immune checkpoint inhibitors and experiencing clinically significant fatigue. Participants will self-administer tVNS at home once daily for 60 minutes over a 6-week intervention period using a non-invasive auricular stimulation device. The primary objective is to evaluate feasibility, defined as adherence to the prescribed tVNS regimen. Secondary objectives include assessment of safety and tolerability, as well as changes in fatigue severity and health-related quality of life. Exploratory objectives include evaluation of changes in autonomic function, measured by heart rate variability, and inflammatory biomarkers obtained from blood samples. Participants will complete study visits at baseline, Week 3, and Week 6, which include patient-reported outcome measures, adverse event assessments, and biospecimen collection. Heart rate variability will be continuously monitored using a wearable device throughout the intervention period. This study is designed to generate feasibility and preliminary clinical and biological data to inform the design of future randomized trials evaluating tVNS as a treatment for immune-related fatigue.