Hyperbaric oxygen treatment for pelvic radiation-induced injuries. From a multicenter randomized controlled trial to an experimental cell model
Abstract
Introduction Cancer is affecting a growing number of persons. Still, the treatment and
survival of cancer is improving. Radiation therapy is used in the treatment of cancer.
Late radiation-induced injuries afflict 5–15% of irradiated patients. The urinary bladder
and bowel may be affected after irradiation of cancer in the pelvic region. Symptoms can
be severe, with impaired health related quality of life (HRQoL). Hyperbaric oxygen
therapy (HBOT) involves breathing oxygen at high ambient pressure. HBOT can reverse
radiation-induced injuries, alleviate patient-perceived symptoms, and improve HRQoL.
We aimed to clarify the effects of HBOT on late radiation-induced injuries in the urinary
bladder and bowel, and to clarify some of the underlying mechanisms through which
HBOT exerts its effects.
Methods A prospective cohort study assessed effects of HBOT on patient-perceived
symptoms (Paper I). A rat study assessed reversal of radiation-induced stress with HBOT
(Paper II). A methodological experiment assessed reversal of HBOT on cellular death
induced by radiation (Paper III). A multi-center, randomized, controlled trial assessed
patient-perceived symptoms, HRQoL, and objective clinical outcomes (Paper IV).
Result HBOT can alleviate patient-perceived symptoms, reduce objective findings, and
improve HRQoL in patients affected by late radiation-induced injuries (Paper I, IV).
Oxidative stress and downstream effects, induced by the irradiation, can be reversed by
HBOT (Paper II). Paper III outlines a method for studies on urothelial cells exposed to
radiation and HBOT.
Conclusion HBOT can reduce radiation-induced oxidative stress and inflammatory
response. HBOT can reverse injuries induced by radiation therapy to the pelvic region,
alleviate patient-perceived symptoms and lead to improved HRQoL.
Parts of work
I. Hyperbaric oxygen treatment in radiation-induced cystitis and proctitis: a prospective co-hort study on patient-perceived quality of recovery Oscarsson N, Arnell P, Lodding P, Ricksten S-E, Seeman-Lodding H, Int J Radiation Oncol Biol Phys, 87 (4), 670–675, 2013 ::doi::10.1016/j.ijrobp.2013.07.039 II.Hyperbaric oxygen treatment reverses radiation-induced profibrotic and oxidative stress responses in a rat model Oscarsson N, Ny L, Mölne J, Lind F, Ricksten S-E, Seeman-Lodding H, Giglio D Free Radical Biology and Medicine, 103, 248–255, 2017 ::doi::10.1016/j.freeradbiomed.2016.12.036 III. Hyperbaric oxygen reverses radiation-induced cell death in human urothelial and endothelial cells – development of a cell model Oscarsson N, Podmolikova L, Seeman-Lodding H, Bergo M, Giglio D (Manuscript). IV. Radiation-induced cystitis treated with hyperbaric oxygen therapy (RICH-ART): a randomised, controlled, phase 2-3 trial Oscarsson N, Müller B, Rosén A, Lodding Pär, Mölne J, Giglio D, Hjelle KM, Vaagbø G, Hyldegaard O, Vangedal M, Salling L, Kjellberg A, Lind F, Ettala O, Arola O, Seeman-Lodding H Lancet Onc Epub 2019 Sep 16 ::doi::10.1016/S1470-2045(19)30494-2
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Clinical Sciences. Department of Anesthesiology & Intensive Care Medicine
Disputation
Fredagen den 15 maj 2020, kl. 16.00, föreläsningssal Karl Kylberg, sal 2320, Medicinaregatan 7B, Göteborg
Date of defence
2020-05-15
nicklas.oscarsson@vgregion.se
Date
2020-04-03Author
Oscarsson, Nicklas
Keywords
Hyperbaric oxygen treatment
hyperbaric oxygen
late radiation-induced injury
cystitis
proctitis
reactive oxygen species
radiation therapy
quality of life
Publication type
Doctoral thesis
ISBN
978-91-7833-801-6 (PDF)
978-91-7833-800-9 (PRINT)
Language
eng