Enhancement of HIFU thermal therapy in perfused tissue models using micron-sized FTAC-stabilized PFOB-core endovascular sonosensitizers

Orane Lorton; Pauline C. Guillemin; Ryan Holman; Stéphane Desgranges; Laura Gui; Lindsey A. Crowe; Sylvain Terraz; Antonio Nastasi; François Lazeyras; Christiane Contino-Pépin; Rares Salomir

doi:10.1080/02656736.2020.1817575

International Journal of Hyperthermia (Jan 2020)

Enhancement of HIFU thermal therapy in perfused tissue models using micron-sized FTAC-stabilized PFOB-core endovascular sonosensitizers

Orane Lorton,
Pauline C. Guillemin,
Ryan Holman,
Stéphane Desgranges,
Laura Gui,
Lindsey A. Crowe,
Sylvain Terraz,
Antonio Nastasi,
François Lazeyras,
Christiane Contino-Pépin,
Rares Salomir

Affiliations

Orane Lorton: Image Guided Interventions Laboratory (GR-949), Faculty of Medicine, University of Geneva
Pauline C. Guillemin: Image Guided Interventions Laboratory (GR-949), Faculty of Medicine, University of Geneva
Ryan Holman: Image Guided Interventions Laboratory (GR-949), Faculty of Medicine, University of Geneva
Stéphane Desgranges: University of Avignon, CBSA-IBMM, (UMR5247)
Laura Gui: Image Guided Interventions Laboratory (GR-949), Faculty of Medicine, University of Geneva
Lindsey A. Crowe: Radiology Department, University Hospitals of Geneva
Sylvain Terraz: Radiology Department, University Hospitals of Geneva
Antonio Nastasi: Visceral and Transplantation Division, University Hospitals
François Lazeyras: Radiology Department, University Hospitals of Geneva
Christiane Contino-Pépin: University of Avignon, CBSA-IBMM, (UMR5247)
Rares Salomir: Image Guided Interventions Laboratory (GR-949), Faculty of Medicine, University of Geneva

DOI: https://doi.org/10.1080/02656736.2020.1817575
Journal volume & issue: Vol. 37, no. 1
pp. 1116 – 1130

Abstract

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Background High intensity focused ultrasound (HIFU) is clinically accepted for the treatment of solid tumors but remains challenging in highly perfused tissue due to the heat sink effect. Endovascular liquid-core sonosensitizers have been previously suggested to enhance the thermal energy deposition at the focal area and to lower the near-/far-field heating. We are investigating the therapeutic potential of PFOB-FTAC micro-droplets in a perfused tissue-mimicking model and postmortem excised organs. Method A custom-made in vitro perfused tissue-mimicking model, freshly excised pig kidneys (n = 3) and liver (n = 1) were perfused and subjected to focused ultrasound generated by an MR-compatible HIFU transducer. PFOB-FTAC sonosensitizers were injected in the perfusion fluid up to 0.235% v/v ratio. Targeting and on-line PRFS thermometry were performed on a 3 T MR scanner. Assessment of the fluid perfusion was performed with pulsed color Doppler in vitro and with dynamic contrast-enhanced (DCE)-MRI in excised organs. Results Our in vitro model of perfused tissue demonstrated re-usability. Sonosensitizer concentration and perfusion rate were tunable in situ. Differential heating under equivalent HIFU sonications demonstrated a dramatic improvement in the thermal deposition due to the sonosensitizers activity. Typically, the energy deposition was multiplied by a factor between 2.5 and 3 in perfused organs after the administration of micro-droplets, while DCE-MRI indicated an effective perfusion. Conclusion The current PFOB-FTAC micro-droplet sonosensitizers provided a large and sustained enhancement of the HIFU thermal deposition at the focal area, suggesting solutions for less technological constraints, lower risk for the near-/far- field heating. We also report a suitable experimental model for other MRgHIFU studies

Published in International Journal of Hyperthermia

ISSN: 0265-6736 (Print); 1464-5157 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General): Medical technology
Website: https://www.tandfonline.com/journals/ihyt

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