Paul Retif scite author profile

This review focuses on the radiosensitization strategies that use high-Z nanoparticles. It does not establish an exhaustive list of the works in this field but rather propose constructive criticisms pointing out critical factors that could improve the nano-radiation therapy. Whereas most reviews show the chemists and/or biologists points of view, the present analysis is also seen through the prism of the medical physicist. In particular, we described and evaluated the influence of X-rays energy spectra using a numerical analysis. We observed a lack of standardization in preclinical studies that could partially explain the low number of translation to clinical applications for this innovative therapeutic strategy. Pointing out the critical parameters of high-Z nanoparticles radiosensitization, this review is expected to contribute to a larger preclinical and clinical development.

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Proof of Concept of a Binary Blood Assay for Predicting Radiosensitivity

Deneuve

Mirjolet

Bastogne

et al. 2021

Cancers

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Radiation therapy (RT), either alone or in combination with surgery and/or chemotherapy is a keystone of cancers treatment. Early toxicity is common, sometimes leading to discontinuation of treatment. Recent studies stressed the role of the phosphorylated ATM (pATM) protein in RT-toxicity genesis and its ability in predicting individual radiosensitivity (IRS) in fibroblasts. Here we assessed the reliability of the pATM quantification in lymphocytes to predict IRS. A first retrospective study was performed on 150 blood lymphocytes of patients with several cancer types. Patients were divided into 2 groups, according to the grade of experienced toxicity. The global quantity of pATM molecules was assessed by ELISA on lymphocytes to determine the best threshold value. Then, the binary assay was assessed on a validation cohort of 36 patients with head and neck cancers. The quantity of pATM molecules in each sample of the training cohort was found in agreement with the observed Common Terminology Criteria for Adverse Events (CTCAE) grades with an AUC = 0.71 alone and of 0.77 combined to chemotherapy information. In the validation cohort, the same test was conducted with the following performances: sensitivity = 0.84, specificity = 0.54, AUC = 0.70 and 0.72 combined to chemotherapy. This study provides the basis of an easy to perform assay for clinical use.

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Monte Carlo simulations guided by imaging to predict the in vitro ranking of radiosensitizing nanoparticles

Retif¹,

Reinhard²,

Paquot³

et al. 2016

IJN

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FIGO stage IB1 cervical carcinoma: Place and principles of brachytherapy

Huertas

Oldrini

Nesseler

et al. 2017

Cancer/Radiothérapie

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Evaluation of the ability of the Brainlab Elements Cranial Distortion Correction algorithm to correct clinically relevant MRI distortions for cranial SRT

Retif

Sidikou²,

Mathis³

et al. 2022

Strahlenther Onkol

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Paul Retif

Nanoparticles for Radiation Therapy Enhancement: the Key Parameters

Proof of Concept of a Binary Blood Assay for Predicting Radiosensitivity

Monte Carlo simulations guided by imaging to predict the in vitro ranking of radiosensitizing nanoparticles

FIGO stage IB1 cervical carcinoma: Place and principles of brachytherapy

Evaluation of the ability of the Brainlab Elements Cranial Distortion Correction algorithm to correct clinically relevant MRI distortions for cranial SRT

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