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Jul 6, 2017 - Cancer treatment based on hyperthermia (HT) relies on exposing the ... Despite progress in nanotechnology based heating and remote ...
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Towards controlled photothermal treatment of single cell: Optically induced heating and remote temperature monitoring in-vitro through double wavelength optical tweezers S#awomir Drobczy#ski, Katarzyna Prorok, Konstantin Tamarov, Kamila Du#-Szachniewicz, Vesa-Pekka Lehto, and Artur Bednarkiewicz ACS Photonics, Just Accepted Manuscript • DOI: 10.1021/acsphotonics.7b00375 • Publication Date (Web): 06 Jul 2017 Downloaded from http://pubs.acs.org on July 10, 2017

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ACS Photonics

Towards controlled photothermal treatment of single cell: Optically induced heating and remote temperature monitoring in-vitro through double wavelength optical tweezers Sławomir Drobczyński†*, Katarzyna Prorok⊥, Konstantin Tamarov§, Kamila DuśSzachniewicz∥, Vesa-Pekka Lehto§, Artur Bednarkiewicz⊥,#,* †Department of Optics and Photonics, Wroclaw University of Technology, Wybrzeze Stanislawa Wyspianskiego 27, 50-370 Wroclaw, Poland ⊥ Wroclaw Research Center EIT+, Stablowicka 147, 54-066 Wroclaw, Poland § Department of Applied Physics, University of Eastern Finland, 70211, Kuopio, Finland ∥ Department of Pathology, Wroclaw Medical University, Marcinkowskiego 1, 50-368 Wroclaw, Poland # Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Okolna 2, 50-422 Wroclaw, Poland

Corresponding Authors * [email protected] * [email protected]

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KEYWORDS: Multicolor optical trapping, microscale remote thermometry, hyperthermia, photothermal therapy

ABSTRACT

Cancer treatment based on hyperthermia (HT) relies on exposing the malignant cells to elevated local temperature. Although the procedure has been successfully applied in clinics, the fundamental aspects of HT are not yet fully understood. In order to be able to verify the susceptibility of single cells in vitro to raised temperature we have developed novel nano- and micro-tools. . In particular, an optical double-trap system utilizing combined galvano-mirror scanning and spatial light phase modulator was devised to manipulate several micron-sized objects simultaneously. The manipulation comprised both optical trapping and translocating, on demand photo-activated heating and simultaneous remote temperature readout of living cells, infrared activated heaters and optical thermometers, respectively. Mesoporous silicon microparticles were used as an infrared absorber to generate an increased temperature of c.a. 100oC with 0.4 W laser power. The optical micron-sized thermometer was based on upconverting Yb-Er codoped nanocrystalline particles encapsulated in amorphous silica shells produced with yeast cells as the templates. These hybrid particles displayed a relative sensitivity of 0.28 %/K, an accuracy of 0.1oC (at 32oC), spatial resolution of