Time-synchronized immune-guided SBRT partial bulky tumor irradiation targeting hypoxic segment while sparing the peritumoral immune microenvironment.

Radiat Oncol

BioIRC, R&D Center for Biomedical Research, Kragujevac, SERBIA, Research Institute of Clinical Medicine, 13 Tevdore Mgvdeli St., 0112, Tbilisi, Georgia.

Published: December 2019

Background: A novel unconventional SBRT-based PArtial Tumor irradiation targeting HYpoxic clonogenic cells (SBRT-PATHY) for induction of the tumoricidal bystander (BE) and abscopal effects (AE) was developed by translating our preclinical findings to a clinic in 2016. In order to further improve BE/AE response rate, SBRT-PATHY was upgraded in 2018 by the sparing of peritumoral immune microenvironment as a new OAR, defined by its own dose-constraints. Considering the anti-tumor immune response homeostatic fluctuation, which is cyclically suppressed and incited ("switched off and on"), we synchronized SBRT-PATHY with its most excitable phase, in order to overcome tumor tolerance locally and systemically. The aim of this study, therefore, was to report on the initial results of our latest innovation aimed to further improve BE/AE response rate by testing the effectiveness of the time-synchronized immune-guided SBRT-PATHY.

Materials And Methods: In order to serially map the homeostatic anti-tumor immune response-fluctuations, High Sensitive C-Reactive Protein (HS-CRP), Lactate Dehydrogenase (LDH) and Lymphocyte/Monocyte Ratio (LMR) were analyzed using high-order polynomial trend analysis as surrogate of immune system response. After the biomarker data analysis detected the immune fluctuations and related idiosyncratic immune cycle periodicity, we determined the "most favourable" and "least favourable" treatment time-positions in the immune cycle. In order to evaluate the impact of an idiosyncratic immune cycle on treatment outcomes, our first consecutive four patients were treated on the "most favourable" while the remaining four on the "least favourable" day.

Results: The median follow-up was 11.8 months. The biomarker data analysis showed periodic immune response fluctuations of regular frequency. The "right" synchronization of SBRT-PATHY with the "most favorable day" of anti-tumor immune response was accompanied with improved clinical outcomes in terms of BE/AE-response rate.

Conclusion: We believe the right synchronization of radiotherapy with the homeostatically oscillating immune response may improve the probability of inducing BE/AE. Present study has been retrospectively registered on 18th of October 2019 by the ethic committee for Austrian region "Kärnten "in Klagenfurt (AUT), under study number A 37/19.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6894294PMC
http://dx.doi.org/10.1186/s13014-019-1423-9DOI Listing

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