Oxygen-Guided Radiation Therapy

Overview

Journal Int J Radiat Oncol Biol Phys

Specialties Oncology
Radiology

Date 2018 Nov 12

PMID 30414912

Citations 43

Authors

Boris Epel

Matthew C Maggio

Eugene D Barth

Richard C Miller

Charles A Pelizzari

Martyna Krzykawska-Serda

Subramanian V Sundramoorthy

Bulent Aydogan

Ralph R Weichselbaum

Victor M Tormyshev

Howard J Halpern

Affiliations

Soon will be listed here.

Abstract

Purpose: It has been known for over 100 years that tumor hypoxia, a near-universal characteristic of solid tumors, decreases the curative effectiveness of radiation therapy. However, to date, there are no reports that demonstrate an improvement in radiation effectiveness in a mammalian tumor on the basis of tumor hypoxia localization and local hypoxia treatment.

Methods And Materials: For radiation targeting of hypoxic subregions in mouse fibrosarcoma, we used oxygen images obtained using pulse electron paramagnetic resonance pO imaging combined with 3D-printed radiation blocks. This achieved conformal radiation delivery to all hypoxic areas in FSa fibrosarcomas in mice.

Results: We demonstrate that treatment delivering a radiation boost to hypoxic volumes has a significant (P = .04) doubling of tumor control relative to boosts to well-oxygenated volumes. Additional dose to well-oxygenated tumor regions minimally increases tumor control beyond the 15% control dose to the entire tumor. If we can identify portions of the tumor that are more resistant to radiation, it might be possible to reduce the dose to more sensitive tumor volumes without significant compromise in tumor control.

Conclusions: This work demonstrates in a single, intact mammalian tumor type that tumor hypoxia is a local tumor phenomenon whose treatment can be enhanced by local radiation. Despite enormous clinical effort to overcome hypoxic radiation resistance, to our knowledge this is the first such demonstration, even in preclinical models, of targeting additional radiation to hypoxic tumor to improve the therapeutic ratio.

Citing Articles

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Shaw M, Poncelet M, Banerjee D, Sierros K, Driesschaert B J Phys Chem B. 2025; 129(6):1846-1854.

PMID: 39883096 PMC: 11825265. DOI: 10.1021/acs.jpcb.4c06480.

Composite spin probes with adjustable oxygen sensitivity for pulse electron paramagnetic resonance imaging.

Canavesi I, Viswakarma N, Khurana R, Epel B, Kuppusamy P, Pagel M Magn Reson Med. 2025; 93(5):2239-2249.

PMID: 39831522 PMC: 11893242. DOI: 10.1002/mrm.30418.

In Vivo Mouse Abdominal Oxygen Imaging And Assessment of Subcutaneously Implanted Beta Cell Replacement Devices.

Canavesi I, Viswakarma N, Epel B, Kotecha M Mol Imaging Biol. 2024; 27(1):64-77.

PMID: 39633071 DOI: 10.1007/s11307-024-01963-5.

Evaluations of an Early Change in Tumor Pathophysiology in Response to Radiotherapy with Oxygen Enhanced Electron Paramagnetic Resonance Imaging (OE EPRI).

Li T, Murley G, Liang X, Chin R, de la Cerda J, Schuler F Mol Imaging Biol. 2024; 26(3):448-458.

PMID: 38869818 PMC: 11830149. DOI: 10.1007/s11307-024-01925-x.

Validation of the design of a high-sensitivity and high-resolution PET system for a preclinical PET/EPR hybrid scanner.

Kim H, Hua Y, Chen C, Epel B, Sundramoorthy S, Halpern H Nucl Instrum Methods Phys Res A. 2024; 1063.

PMID: 38736647 PMC: 11086702. DOI: 10.1016/j.nima.2024.169333.

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