Literature DB >> 30414912

Oxygen-Guided Radiation Therapy.

Boris Epel1, Matthew C Maggio1, Eugene D Barth1, Richard C Miller1, Charles A Pelizzari1, Martyna Krzykawska-Serda1, Subramanian V Sundramoorthy1, Bulent Aydogan2, Ralph R Weichselbaum3, Victor M Tormyshev4, Howard J Halpern5.   

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 pO2 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.
Copyright © 2018 Elsevier Inc. All rights reserved.

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Year:  2018        PMID: 30414912      PMCID: PMC6478443          DOI: 10.1016/j.ijrobp.2018.10.041

Source DB:  PubMed          Journal:  Int J Radiat Oncol Biol Phys        ISSN: 0360-3016            Impact factor:   7.038


  44 in total

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3.  18F-EF5 PET imaging as an early response biomarker for the hypoxia-activated prodrug SN30000 combined with radiation treatment in a non-small cell lung cancer xenograft model.

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Journal:  J Nucl Med       Date:  2013-06-05       Impact factor: 10.057

4.  Phase II Study of a Radiotherapy Total Dose Increase in Hypoxic Lesions Identified by 18F-Misonidazole PET/CT in Patients with Non-Small Cell Lung Carcinoma (RTEP5 Study).

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Journal:  J Nucl Med       Date:  2017-03-02       Impact factor: 10.057

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6.  A prospective clinical study of ¹⁸F-FAZA PET-CT hypoxia imaging in head and neck squamous cell carcinoma before and during radiation therapy.

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7.  A Versatile High Speed 250 MHz Pulse Imager for Biomedical Applications.

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8.  Electron paramagnetic resonance oxygen image hypoxic fraction plus radiation dose strongly correlates with tumor cure in FSa fibrosarcomas.

Authors:  Martyna Elas; Rebecca Bell; Danielle Hleihel; Eugene D Barth; Colin McFaul; Chad R Haney; Joanna Bielanska; Katarzyna Pustelny; Kang-Hyun Ahn; Charles A Pelizzari; Masha Kocherginsky; Howard J Halpern
Journal:  Int J Radiat Oncol Biol Phys       Date:  2008-06-01       Impact factor: 7.038

Review 9.  Detection and characterization of tumor hypoxia using pO2 histography.

Authors:  Peter Vaupel; Michael Höckel; Arnulf Mayer
Journal:  Antioxid Redox Signal       Date:  2007-08       Impact factor: 8.401

10.  Reproducibility of 18F-fluoromisonidazole intratumour distribution in non-small cell lung cancer.

Authors:  Milan Grkovski; Jazmin Schwartz; Andreas Rimner; Heiko Schöder; Sean D Carlin; Pat B Zanzonico; John L Humm; Sadek A Nehmeh
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  22 in total

1.  In vitro simultaneous mapping of the partial pressure of oxygen, pH and inorganic phosphate using electron paramagnetic resonance.

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Journal:  Analyst       Date:  2020-03-05       Impact factor: 4.616

Review 2.  Biological validation of electron paramagnetic resonance (EPR) image oxygen thresholds in tissue.

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Journal:  J Physiol       Date:  2020-06-28       Impact factor: 5.182

3.  Going Low in a World Going High: The Physiologic Use of Lower Frequency Electron Paramagnetic Resonance.

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4.  Radiation-induced Vascular Damage and the Impact on the Treatment Outcome of Stereotactic Body Radiotherapy.

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5.  Rapid Scan EPR Oxygen Imaging in Photoactivated Resin Used for Stereolithographic 3D Printing.

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6.  The optimal 18F-fluoromisonidazole PET threshold to define tumor hypoxia in preclinical squamous cell carcinomas using pO2 electron paramagnetic resonance imaging as reference truth.

Authors:  Inna Gertsenshteyn; Boris Epel; Amandeep Ahluwalia; Heejong Kim; Xiaobing Fan; Eugene Barth; Marta Zamora; Erica Markiewicz; Hsiu-Ming Tsai; Subramanian Sundramoorthy; Lara Leoni; John Lukens; Mohammed Bhuiyan; Richard Freifelder; Anna Kucharski; Mihai Giurcanu; Brian B Roman; Gregory Karczmar; Chien-Min Kao; Howard Halpern; Chin-Tu Chen
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7.  Development of a PET/EPRI combined imaging system for assessing tumor hypoxia.

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8.  Improving Tumor Hypoxia Location in 18F-Misonidazole PET with Dynamic Contrast-enhanced MRI Using Quantitative Electron Paramagnetic Resonance Partial Oxygen Pressure Images.

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Journal:  Radiol Imaging Cancer       Date:  2021-03-26

9.  Initial Experience of Intentional Internal High-Dose Policy Volumetric Modulated Arc Therapy of Neck Lymph Node Metastases ≥ 2 cm in Patients With Head and Neck Squamous Cell Carcinoma.

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Review 10.  Hypoxia Imaging As a Guide for Hypoxia-Modulated and Hypoxia-Activated Therapy.

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Journal:  Antioxid Redox Signal       Date:  2022-01       Impact factor: 8.401
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