REAP: Revealing drug tolerant persister cells in cancer using contrast enhanced optical coherence and photoacoustic tomography

Mengyang Liu; Abigail J. Deloria; Richard Haindl; Qian Li; Gergely Szakacs; Agnes Csiszar; Stefan Schrittwieser; Paul Muellner; Rainer Hainberger; Beatriz Pelaz; Ester Polo; Pablo Del Pino; Antti Penttinen; Mircea Guina; Tapio Niemi; Kristen Meiburger; Filippo Molinari; Christian Menhard; Judith Heidelin; Volker Andresen; Douwe Geuzebroek; Wolfgang Drexler

doi:10.1088/2515-7647/abf02f

REAP: Revealing drug tolerant persister cells in cancer using contrast enhanced optical coherence and photoacoustic tomography

Mengyang Liu, Abigail J. Deloria, Richard Haindl, Qian Li, Gergely Szakacs, Agnes Csiszar, Stefan Schrittwieser, Paul Muellner, Rainer Hainberger, Beatriz Pelaz, Ester Polo, Pablo Del Pino, Antti Penttinen, Mircea Guina, Tapio Niemi, Kristen Meiburger, Filippo Molinari, Christian Menhard, Judith Heidelin, Volker AndresenDouwe Geuzebroek, Wolfgang Drexler

Fysiikka

Tutkimustuotos: Katsausartikkeli › vertaisarvioitu

5 Sitaatiot (Scopus)

16 Lataukset (Pure)

Abstrakti

Despite chemotherapy, residual tumors often rely on so-called drug tolerant persister (DTP) cells, which evade treatment to give rise to therapy-resistant relapse and refractory disease. Detection of residual tumor cells proves to be challenging because of the rarity and heterogeneity of DTP cells. In the framework of a H2020 project, REAP will gather researchers and engineers from six countries, who will combine their expertise in biology, chemistry, oncology, material sciences, photonics, and electrical and biomedical engineering in the hope of revealing DTPs in cancer using contrast enhanced multimodal optical imaging. Laser sources for photoacoustic microscopy, photoacoustic tomography, and optical coherence tomography will be developed to enable the design of a two-photon laser scanning optical coherence photoacoustic microscopy system and an optical coherence photoacoustic tomography system. Furthermore, novel photoacoustic detectors using micro-ring resonator will be designed and fabricated, granting improved sensitivity and easier integration of multiple optical imaging modalities into a single system. Innovative algorithms will be developed to reconstruct and analyze the images quickly and automatically. With successful implementation of this four-year project, we can not only gain insight into the mechanisms governing DTPs, but also significantly advance the technology readiness level of contrast agents, lasers, sensors, and image analysis software through joint efforts.

Alkuperäiskieli	Englanti
Artikkeli	021001
Sivumäärä	6
Julkaisu	JPhys Photonics
Vuosikerta	3
Numero	2
DOI - pysyväislinkit	https://doi.org/10.1088/2515-7647/abf02f
Tila	Julkaistu - huhtik. 2021
OKM-julkaisutyyppi	A2 Katsausartikkeli tieteellisessä aikakauslehdessä

Julkaisufoorumi-taso

Jufo-taso 1

!!ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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10.1088/2515-7647/abf02fLisenssi: CC BY

REAP revealing drug tolerant 2021
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Final published version, 670 KBLisenssi: CC BY

http://urn.fi/URN:NBN:fi:tuni-202105124866Lisenssi: CC BY

Siteeraa tätä

Liu, M., Deloria, A. J., Haindl, R., Li, Q., Szakacs, G., Csiszar, A., Schrittwieser, S., Muellner, P., Hainberger, R., Pelaz, B., Polo, E., Del Pino, P., Penttinen, A., Guina, M., Niemi, T., Meiburger, K., Molinari, F., Menhard, C., Heidelin, J., ... Drexler, W. (2021). REAP: Revealing drug tolerant persister cells in cancer using contrast enhanced optical coherence and photoacoustic tomography. JPhys Photonics, 3(2), Artikkeli 021001. https://doi.org/10.1088/2515-7647/abf02f

@article{9211dfcfd4664e21adbc993866ffff0d,

title = "REAP: Revealing drug tolerant persister cells in cancer using contrast enhanced optical coherence and photoacoustic tomography",

abstract = "Despite chemotherapy, residual tumors often rely on so-called drug tolerant persister (DTP) cells, which evade treatment to give rise to therapy-resistant relapse and refractory disease. Detection of residual tumor cells proves to be challenging because of the rarity and heterogeneity of DTP cells. In the framework of a H2020 project, REAP will gather researchers and engineers from six countries, who will combine their expertise in biology, chemistry, oncology, material sciences, photonics, and electrical and biomedical engineering in the hope of revealing DTPs in cancer using contrast enhanced multimodal optical imaging. Laser sources for photoacoustic microscopy, photoacoustic tomography, and optical coherence tomography will be developed to enable the design of a two-photon laser scanning optical coherence photoacoustic microscopy system and an optical coherence photoacoustic tomography system. Furthermore, novel photoacoustic detectors using micro-ring resonator will be designed and fabricated, granting improved sensitivity and easier integration of multiple optical imaging modalities into a single system. Innovative algorithms will be developed to reconstruct and analyze the images quickly and automatically. With successful implementation of this four-year project, we can not only gain insight into the mechanisms governing DTPs, but also significantly advance the technology readiness level of contrast agents, lasers, sensors, and image analysis software through joint efforts.",

keywords = "Cancer, Contrast agent, Drug tolerant persister, Optical coherence tomography, Photoacoustic tomography",

author = "Mengyang Liu and Deloria, {Abigail J.} and Richard Haindl and Qian Li and Gergely Szakacs and Agnes Csiszar and Stefan Schrittwieser and Paul Muellner and Rainer Hainberger and Beatriz Pelaz and Ester Polo and {Del Pino}, Pablo and Antti Penttinen and Mircea Guina and Tapio Niemi and Kristen Meiburger and Filippo Molinari and Christian Menhard and Judith Heidelin and Volker Andresen and Douwe Geuzebroek and Wolfgang Drexler",

note = "Funding Information: REAP is funded by one of the calls under the Photonics Public Private Partnership (PPP): H2020-ICT-2020-2 with Grant Agreement ID 101016964. The author M Liu is funded by the call H2020-MSCA-IF-2019 with Grant Agreement ID 894325 (SkinOptima). The authors from the USC team (B Pelaz, E Polo, and P del Pino) receive financial support from other projects and would like to thank the Xunta de Galicia (Centro singular de investigaci{\'o}n de Galicia accreditation 2019-2022, ED431G 2019/03) and the European Regional Development Fund—ERDF. The authors from MUW, AIT, and USC also receive funding from H2020-FETOPEN-2018-2019-2020-01 with Grant Agreement ID 899612 (SWIMMOT). Publisher Copyright: {\textcopyright} 2021 The Author(s).",

year = "2021",

month = apr,

doi = "10.1088/2515-7647/abf02f",

language = "English",

volume = "3",

number = "2",

}

Liu, M, Deloria, AJ, Haindl, R, Li, Q, Szakacs, G, Csiszar, A, Schrittwieser, S, Muellner, P, Hainberger, R, Pelaz, B, Polo, E, Del Pino, P, Penttinen, A, Guina, M , Niemi, T, Meiburger, K, Molinari, F, Menhard, C, Heidelin, J, Andresen, V, Geuzebroek, D & Drexler, W 2021, 'REAP: Revealing drug tolerant persister cells in cancer using contrast enhanced optical coherence and photoacoustic tomography', JPhys Photonics, Vuosikerta 3, Nro 2, 021001. https://doi.org/10.1088/2515-7647/abf02f

TY - JOUR

T1 - REAP

T2 - Revealing drug tolerant persister cells in cancer using contrast enhanced optical coherence and photoacoustic tomography

AU - Liu, Mengyang

AU - Deloria, Abigail J.

AU - Haindl, Richard

AU - Li, Qian

AU - Szakacs, Gergely

AU - Csiszar, Agnes

AU - Schrittwieser, Stefan

AU - Muellner, Paul

AU - Hainberger, Rainer

AU - Pelaz, Beatriz

AU - Polo, Ester

AU - Del Pino, Pablo

AU - Penttinen, Antti

AU - Guina, Mircea

AU - Niemi, Tapio

AU - Meiburger, Kristen

AU - Molinari, Filippo

AU - Menhard, Christian

AU - Heidelin, Judith

AU - Andresen, Volker

AU - Geuzebroek, Douwe

AU - Drexler, Wolfgang

N1 - Funding Information: REAP is funded by one of the calls under the Photonics Public Private Partnership (PPP): H2020-ICT-2020-2 with Grant Agreement ID 101016964. The author M Liu is funded by the call H2020-MSCA-IF-2019 with Grant Agreement ID 894325 (SkinOptima). The authors from the USC team (B Pelaz, E Polo, and P del Pino) receive financial support from other projects and would like to thank the Xunta de Galicia (Centro singular de investigación de Galicia accreditation 2019-2022, ED431G 2019/03) and the European Regional Development Fund—ERDF. The authors from MUW, AIT, and USC also receive funding from H2020-FETOPEN-2018-2019-2020-01 with Grant Agreement ID 899612 (SWIMMOT). Publisher Copyright: © 2021 The Author(s).

PY - 2021/4

Y1 - 2021/4

N2 - Despite chemotherapy, residual tumors often rely on so-called drug tolerant persister (DTP) cells, which evade treatment to give rise to therapy-resistant relapse and refractory disease. Detection of residual tumor cells proves to be challenging because of the rarity and heterogeneity of DTP cells. In the framework of a H2020 project, REAP will gather researchers and engineers from six countries, who will combine their expertise in biology, chemistry, oncology, material sciences, photonics, and electrical and biomedical engineering in the hope of revealing DTPs in cancer using contrast enhanced multimodal optical imaging. Laser sources for photoacoustic microscopy, photoacoustic tomography, and optical coherence tomography will be developed to enable the design of a two-photon laser scanning optical coherence photoacoustic microscopy system and an optical coherence photoacoustic tomography system. Furthermore, novel photoacoustic detectors using micro-ring resonator will be designed and fabricated, granting improved sensitivity and easier integration of multiple optical imaging modalities into a single system. Innovative algorithms will be developed to reconstruct and analyze the images quickly and automatically. With successful implementation of this four-year project, we can not only gain insight into the mechanisms governing DTPs, but also significantly advance the technology readiness level of contrast agents, lasers, sensors, and image analysis software through joint efforts.

AB - Despite chemotherapy, residual tumors often rely on so-called drug tolerant persister (DTP) cells, which evade treatment to give rise to therapy-resistant relapse and refractory disease. Detection of residual tumor cells proves to be challenging because of the rarity and heterogeneity of DTP cells. In the framework of a H2020 project, REAP will gather researchers and engineers from six countries, who will combine their expertise in biology, chemistry, oncology, material sciences, photonics, and electrical and biomedical engineering in the hope of revealing DTPs in cancer using contrast enhanced multimodal optical imaging. Laser sources for photoacoustic microscopy, photoacoustic tomography, and optical coherence tomography will be developed to enable the design of a two-photon laser scanning optical coherence photoacoustic microscopy system and an optical coherence photoacoustic tomography system. Furthermore, novel photoacoustic detectors using micro-ring resonator will be designed and fabricated, granting improved sensitivity and easier integration of multiple optical imaging modalities into a single system. Innovative algorithms will be developed to reconstruct and analyze the images quickly and automatically. With successful implementation of this four-year project, we can not only gain insight into the mechanisms governing DTPs, but also significantly advance the technology readiness level of contrast agents, lasers, sensors, and image analysis software through joint efforts.

KW - Cancer

KW - Contrast agent

KW - Drug tolerant persister

KW - Optical coherence tomography

KW - Photoacoustic tomography

U2 - 10.1088/2515-7647/abf02f

DO - 10.1088/2515-7647/abf02f

M3 - Review Article

AN - SCOPUS:85104892369

SN - 2515-7647

VL - 3

JO - JPhys Photonics

JF - JPhys Photonics

IS - 2

M1 - 021001

ER -

REAP: Revealing drug tolerant persister cells in cancer using contrast enhanced optical coherence and photoacoustic tomography

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