Study to Determine if Hyperbaric Oxygen Therapy is Helpful for Treating Radiation Tissue Injuries
- Conditions
- Radiation Injuries
- Interventions
- Procedure: Hyperbaric Oxygen TherapyProcedure: Sham treatment
- Registration Number
- NCT00134628
- Lead Sponsor
- National Baromedical Services
- Brief Summary
The principle objective of this research is to more precisely determine the degree of benefit that hyperbaric oxygen therapy affords in the treatment of late radiation tissue injury.
The study has eight\* components. Seven involve the evaluation of established radionecrosis at varying anatomic sites (mandible, larynx, skin, bladder, rectum, colon, and gyn). The eighth will investigate the potential of hyperbaric oxygen (HBO) therapy to prophylax against late radiation tissue injury.
\*(One of the arms, HORTIS IV - Proctitis has been closed to further patient recruitment. This decision was based on an interim statistical analysis which generated sufficient evidence to support closing down this arm of HORTIS.)
- Detailed Description
Radiation therapy is a key component of the control and eradication of malignant disease. Adequate tumoricidal doses may, however, result in damage to surrounding healthy tissue. Therapeutic radiation injuries to non-target tissues can be divided into acute, sub-acute, and delayed complications. Acute injuries are considered a direct cellular toxicity, self-limiting, and in most cases successfully managed symptomatically. Sub-acute injuries are typically identifiable in only a few organ systems, e.g., radiation pneumonitis. These, too, are generally limited but occasionally evolve to late complications. Late changes occur several months to many years after completing radiotherapy.
The etiology of radiation's late effects to normal tissue (LENT) varies somewhat between organ systems. Its hallmark, however, is one of culminating in an obliterative endarteritis, and local hypoxia.
The incidence of LENT is related to both total radiation exposure and the length of time a patient is out from completing radiotherapy. The higher the dose, the longer the interval from exposure, the greater the risk. In many cases, resulting radionecrotic lesions seriously impair form and function, and require extensive surgical correction or repair. Such surgery is fraught with complications, hence the inclusion of a "prophylactic" hyperbaric oxygen arm. A disturbing degree of mortality further complicates the development of LENT.
Hyperbaric oxygen has been utilized in the treatment of radiation tissue injury for several decades. Most of the supportive basic science and clinical evidence stems from the management of mandibular osteoradionecrosis. More recently, the use of hyperbaric oxygen has been extended to other anatomic sites. This expanded use is based, in large part, on a presumed common underlying pathophysiology of LENT, regardless of its anatomic location. Supportive clinical evidence for these other sites is limited, however, and in need of a greater degree of scientific scrutiny.
Recruitment & Eligibility
- Status
- TERMINATED
- Sex
- All
- Target Recruitment
- 248
- Endarteritis
- Hypovascularity
- Diarrhea
- Cramping
- Obstruction
- Stricture
- Pain
- Hemorrhage
- Wall Changes
- Ulceration
- Hypocellularity
- Mucosal thickening
- Vomiting
- Tenesmus
- Constipation
- Perforation
- Fistula
- Obstipation
- Tissue hypoxia
- Pregnancy
- Reactive airway disease
- Radiographic evidence of pulmonary blebs or bullae
- Untreated pneumothorax
- Previously documented ejection fraction less than 35%
- History of seizures except childhood febrile seizures
- Cardiovascular instability
- Mechanical ventilator support with the exception of those patients who are immediately (1-5 days) post-operative
- Unable to follow simple commands
- Not orientated to person, place, time
- Participating as a subject in any other medical or biomedical research project; if previously involved as a subject, sufficient time must have elapsed to permit "wash out" of any investigational agent.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- CROSSOVER
- Arm && Interventions
Group Intervention Description A Hyperbaric Oxygen Therapy Hyperbaric Oxygen Therapy B Sham treatment Normal Air
- Primary Outcome Measures
Name Time Method SOMA (Subjective, Objective, Management, Analytic) scale used to determine late effects to normal tissue (LENT) score pre-treatment, post-treatment (HBO and placebo) and at follow ups at 3 months, 6 months, and 1 year through 5 years
- Secondary Outcome Measures
Name Time Method Healed post-treatment (HBO and placebo) and at follow ups at 3 months, 6 months, and 1 year through 5 years Significant Improvement (>50% lesion resolution) post-treatment (HBO and placebo) and at follow ups at 3 months, 6 months, and 1 year through 5 years Clinical assessment using one of the following criteria: post-treatment (HBO and placebo) and at follow ups at 3 months, 6 months, and 1 year through 5 years Modestly improved (< 50% lesion resolution) post-treatment (HBO and placebo) and at follow ups at 3 months, 6 months, and 1 year through 5 years Not improved post-treatment (HBO and placebo) and at follow ups at 3 months, 6 months, and 1 year through 5 years Other (e.g. lesion recurrence, lesion size progression) post-treatment (HBO and placebo) and at follow ups at 3 months, 6 months, and 1 year through 5 years
Trial Locations
- Locations (7)
Wesley Medical Center
π¦πΊBrisbane, Queensland, Australia
Royal Hobart Hospital
π¦πΊHobart, Tasmania, Australia
Instituto Nacional de Cancerologica
π²π½Mexico City, Mexico
University of Stellenbosch
πΏπ¦Cape Town, South Africa
University of Pretoria Medical Center
πΏπ¦Pretoria, South Africa
Istanbul University Medical Center
πΉπ·Istanbul, Turkey
Palmetto Health Richland
πΊπΈColumbia, South Carolina, United States