# Hyperbaric oxygen therapy for ulcerative colitis patients hospitalized for moderate to severe flares (HBOT-UC): study protocol for a multi-center, randomized, double-blind, sham-controlled trial

**Authors:** Lauren B. Bonner, Charlotte Sadler, Peter Lindholm, Denise M. Scholtens, Parambir S. Dulai, Laura E. Kochhar, Laura E. Kochhar, Gursimran Kochhar, Dana J. Lukin, Michael W. Winter, Corey A. Siegel, Jay C. Buckey, Jenny S. Sauk, Marvin Heyboer, Jeffrey M. Dueker, Ashwin Ananthakrishnan, Udayakumar Navaneethan, Oriana M. Damas, Gerald W. Dryden, Anne G. Tuskey, Kirk B. Russ, Mary Beth Tull, Elizabeth Yan, Yasmin Piña, Libeth Rosas, Chad Rypstra, Brianna Smith, Jamie Heffernan, Gary Toups, M. Hassan Murad, Raymond Shields, Hussam Tabaja, Jayanth Adusumalli, Adina Gutium, Walter Conlan, Richard Viglione, Aaron Cohn, Jamie B. Wabich, Ganesh Aswath, Gerald H. Markovitz, Juan C. Jimenez, Xiaoxiao Yin, Rasha Abed, Danny Acevedo, Mark Ajalat, Juan O. Bravo, Stephanie Ioannou, Angelina Meza-Suarez, Monica Perez, Oreana Teran, Niurka Colina, Michael Mijares, Matthew P. Kelly, Benjamin D. Rogers, Matthew Scanlon, Ahmad AlhajHusain, Brittany J Behar

PMC · DOI: 10.1186/s13063-025-08932-5 · 2025-06-22

## TL;DR

This study tests if hyperbaric oxygen therapy improves treatment outcomes for hospitalized ulcerative colitis patients.

## Contribution

The trial introduces a novel approach using hyperbaric oxygen therapy to enhance steroid treatment for severe ulcerative colitis flares.

## Key findings

- The trial will assess clinical response based on rectal bleeding and stool frequency improvement.
- It will evaluate long-term treatment durability through a 12-month observational period.
- The study aims to determine if hyperbaric oxygen therapy reduces the need for in-hospital rescue therapies.

## Abstract

Chronic intestinal hypoxia and accompanying mucosal inflammation is a hallmark of ulcerative colitis. Hyperbaric oxygen therapy involves breathing 100% oxygen under increased atmospheric pressure to increase tissue oxygenation. It reduces systemic and local inflammation and up-regulates hypoxia response pathways, making it an attractive therapeutic option. In this trial we aim to confirm the treatment benefits of hyperbaric oxygen therapy for hospitalized ulcerative colitis patients and assess the long-term durability of treatment effect.

This prospective, double-masked, multicenter, 1:1 randomized, sham-controlled trial will enroll 126 participants with known or newly diagnosed ulcerative colitis hospitalized for an acute moderate to severe flare. Participants will be randomized to either hyperbaric oxygen therapy with steroids or sham air with steroids. The trial will involve a 5-day intervention period followed by a 12-month observational period with a 90-day standard of care visit and 12-month telephone visit. The primary outcome measure is clinical response defined as complete resolution of rectal bleeding and improvement in stool frequency, without need for in-hospital biologics, small molecules, or colectomy by study day 5. Secondary endpoints include additional key patient-reported outcomes and histo-endoscopic measures of disease activity.

Novel and effective treatments are needed for this population to optimize disease outcomes while minimizing treatment-related risks. Demonstrating the ability of hyperbaric oxygen therapy to improve clinical response to steroids and avoid in-hospital rescue therapy has the potential to change the management of hospitalized ulcerative colitis flares.

ClinicalTrials.gov NCT05987852. Registered on August 14, 2023.

## Linked entities

- **Diseases:** ulcerative colitis (MONDO:0005101)

## Full-text entities

- **Diseases:** hypoxia (MESH:D000860), ulcerative colitis (MESH:D003093), inflammation (MESH:D007249), rectal bleeding (MESH:D012002)
- **Chemicals:** steroids (MESH:D013256), oxygen (MESH:D010100)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

1 figure with captions in the complete paper: https://tomesphere.com/paper/PMC12182703/full.md

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Source: https://tomesphere.com/paper/PMC12182703