Abstract #0310

Understanding the relationship between R2* and R1 MRI biomarkers of hypoxia: insights from 786-0 renal cancer xenografts and patients with renal carcinoma

Ross A Little¹, Yann Jamin², Jessica KR Boult², Josephine H Naish¹, Yvonne Watson¹, Susan Cheung¹, Huiqi Lu¹, Damien J McHugh¹, Geoff JM Parker^1,3, Joely Irlam⁴, Catherine ML West⁴, John C Waterton¹, Simon P Robinson², and James PB O'Connor^4,5

¹Centre for Imaging Sciences, University of Manchester, Manchester, United Kingdom, ²Division of Radiotherapy and Imaging, The Institute of Cancer Research, London, United Kingdom, ³Bioxydyn Ltd, Manchester, United Kingdom, ⁴Institute of Cancer Sciences, University of Manchester, Manchester, United Kingdom, ⁵Department of Radiology, The Christie NHS Foundation Trust, Manchester, United Kingdom

Quantification of tumour R₂* and oxygen-induced ΔR₂* and ΔR₁ are being investigated as potential biomarkers of tumour hypoxia, but their relationship is complex and not well understood. Here, we used a validated R₁ biomarker (oxygen refractory fraction, termed “Oxy-R”) to segment tumours into hypoxic and non-hypoxic sub-regions. This revealed a clear relationship between hypoxic status and native R₂* and hyperoxia-induced ΔR₂*. Preclinical findings were replicated in clinical data from patients with renal carcinoma. These data highlight the importance of heterogeneity-based analysis of tumours and provide further validation of Oxy-R as a biomarker of tumour hypoxia.

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