Precision Radiotherapy: Reduction in Radiation for Oropharyngeal Cancer in the 30 ROC Trial

Overview

Journal J Natl Cancer Inst

Publisher Oxford University Press

Specialty Oncology

Date 2021 Jan 11

PMID 33429428

Citations 60

Authors

Nadeem Riaz

Eric Sherman

Xin Pei

Heiko Schoder

Milan Grkovski

Ramesh Paudyal

Nora Katabi

Pier Selenica

Takafumi N Yamaguchi

Daniel Ma

Simon K Lee

Rachna Shah

Rahul Kumar

Fengshen Kuo

Abhirami Ratnakumar

Nathan Aleynick

David Brown

Zhigang Zhang

Vaios Hatzoglou

Lydia Y Liu

Adriana Salcedo

Chiaojung J Tsai

Sean McBride

Luc G T Morris

Jay Boyle

Bhuvanesh Singh

Daniel S Higginson

Rama R Damerla

Arnaud Da Cruz Paula

Katharine Price

Eric J Moore

Joaquin J Garcia

Robert Foote

Alan Ho

Richard J Wong

Timothy A Chan

Simon N Powell

Paul C Boutros

John L Humm

Amita Shukla-Dave

David Pfister

Jorge S Reis-Filho

Nancy Lee

Affiliations

Soon will be listed here.

Abstract

Background: Patients with human papillomavirus-related oropharyngeal cancers have excellent outcomes but experience clinically significant toxicities when treated with standard chemoradiotherapy (70 Gy). We hypothesized that functional imaging could identify patients who could be safely deescalated to 30 Gy of radiotherapy.

Methods: In 19 patients, pre- and intratreatment dynamic fluorine-18-labeled fluoromisonidazole positron emission tomography (PET) was used to assess tumor hypoxia. Patients without hypoxia at baseline or intratreatment received 30 Gy; patients with persistent hypoxia received 70 Gy. Neck dissection was performed at 4 months in deescalated patients to assess pathologic response. Magnetic resonance imaging (weekly), circulating plasma cell-free DNA, RNA-sequencing, and whole-genome sequencing (WGS) were performed to identify potential molecular determinants of response. Samples from an independent prospective study were obtained to reproduce molecular findings. All statistical tests were 2-sided.

Results: Fifteen of 19 patients had no hypoxia on baseline PET or resolution on intratreatment PET and were deescalated to 30 Gy. Of these 15 patients, 11 had a pathologic complete response. Two-year locoregional control and overall survival were 94.4% (95% confidence interval = 84.4% to 100%) and 94.7% (95% confidence interval = 85.2% to 100%), respectively. No acute grade 3 radiation-related toxicities were observed. Microenvironmental features on serial imaging correlated better with pathologic response than tumor burden metrics or circulating plasma cell-free DNA. A WGS-based DNA repair defect was associated with response (P = .02) and was reproduced in an independent cohort (P = .03).

Conclusions: Deescalation of radiotherapy to 30 Gy on the basis of intratreatment hypoxia imaging was feasible, safe, and associated with minimal toxicity. A DNA repair defect identified by WGS was predictive of response. Intratherapy personalization of chemoradiotherapy may facilitate marked deescalation of radiotherapy.

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