Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis

Deyan Ivanov; Anika Hoeppel; Julian Schwebler; Christian Lotz; Sofia Dembski; Razvigor Ossikovski; Tatiana Novikova

doi:10.1117/12.2669082

Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis

Deyan Ivanov
, Anika Hoeppel
, Julian Schwebler
, Christian Lotz
, Sofia Dembski
, Razvigor Ossikovski
, Tatiana Novikova

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Long-term storage and cryopreservation of biological tissues is a global challenge in the fields of regenerative medicine, tissue engineering and implants, because of the formation of large ice crystals that may damage cellular membranes and extracellular matrix (ECM) of collagen. In our studies different thawing mechanisms were tested to achieve more uniform warming of 3D in vitro tissue models, prepared from magnetic nanoparticles (NPs)-modified 3D electrospun nanofiber fleeces and fibroblasts. 3D tissue models frozen in liquid nitrogen were defrosted either with water bath or with radio-frequency (RF) inductive heating of the magnetic NPs and their morphology was compared to that of a non-frozen tissue model using a transmission Mueller microscope and thin sections of all three types of tissue models. Our results demonstrate a sensitivity of the polarimetric parameters obtained with the differential decomposition of Mueller matrices to small changes in sample morphology caused by the different thawing methods. A detailed statistical analysis proved the statistical significance of the experimental data from the three groups of all tissue models.

Original language	English
Title of host publication	Emerging Technologies for Cell and Tissue Characterization II
Editors	Seemantini K. Nadkarni, Giuliano Scarcelli
Publisher	SPIE
ISBN (Electronic)	9781510664678
DOIs	https://doi.org/10.1117/12.2669082
Publication status	Published - 1 Jan 2023
Event	Emerging Technologies for Cell and Tissue Characterization II 2023 - Munich, Germany Duration: 28 Jun 2023 → 29 Jun 2023

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	12629
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Emerging Technologies for Cell and Tissue Characterization II 2023
Country/Territory	Germany
City	Munich
Period	28/06/23 → 29/06/23

Keywords

Mueller polarimetry
cryopreservation
fibroblast cells
statistical analysis

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10.1117/12.2669082

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Ivanov, D., Hoeppel, A., Schwebler, J., Lotz, C., Dembski, S., Ossikovski, R., & Novikova, T. (2023). Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis. In S. K. Nadkarni, & G. Scarcelli (Eds.), Emerging Technologies for Cell and Tissue Characterization II Article 1262903 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 12629). SPIE. https://doi.org/10.1117/12.2669082

Ivanov, Deyan ; Hoeppel, Anika ; Schwebler, Julian et al. / Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis. Emerging Technologies for Cell and Tissue Characterization II. editor / Seemantini K. Nadkarni ; Giuliano Scarcelli. SPIE, 2023. (Proceedings of SPIE - The International Society for Optical Engineering).

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title = "Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis",

abstract = "Long-term storage and cryopreservation of biological tissues is a global challenge in the fields of regenerative medicine, tissue engineering and implants, because of the formation of large ice crystals that may damage cellular membranes and extracellular matrix (ECM) of collagen. In our studies different thawing mechanisms were tested to achieve more uniform warming of 3D in vitro tissue models, prepared from magnetic nanoparticles (NPs)-modified 3D electrospun nanofiber fleeces and fibroblasts. 3D tissue models frozen in liquid nitrogen were defrosted either with water bath or with radio-frequency (RF) inductive heating of the magnetic NPs and their morphology was compared to that of a non-frozen tissue model using a transmission Mueller microscope and thin sections of all three types of tissue models. Our results demonstrate a sensitivity of the polarimetric parameters obtained with the differential decomposition of Mueller matrices to small changes in sample morphology caused by the different thawing methods. A detailed statistical analysis proved the statistical significance of the experimental data from the three groups of all tissue models.",

keywords = "Mueller polarimetry, cryopreservation, fibroblast cells, statistical analysis",

author = "Deyan Ivanov and Anika Hoeppel and Julian Schwebler and Christian Lotz and Sofia Dembski and Razvigor Ossikovski and Tatiana Novikova",

note = "Publisher Copyright: {\textcopyright} 2023 SPIE.; Emerging Technologies for Cell and Tissue Characterization II 2023 ; Conference date: 28-06-2023 Through 29-06-2023",

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Ivanov, D, Hoeppel, A, Schwebler, J, Lotz, C, Dembski, S, Ossikovski, R & Novikova, T 2023, Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis. in SK Nadkarni & G Scarcelli (eds), Emerging Technologies for Cell and Tissue Characterization II., 1262903, Proceedings of SPIE - The International Society for Optical Engineering, vol. 12629, SPIE, Emerging Technologies for Cell and Tissue Characterization II 2023, Munich, Germany, 28/06/23. https://doi.org/10.1117/12.2669082

Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis. / Ivanov, Deyan; Hoeppel, Anika; Schwebler, Julian et al.
Emerging Technologies for Cell and Tissue Characterization II. ed. / Seemantini K. Nadkarni; Giuliano Scarcelli. SPIE, 2023. 1262903 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 12629).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis

AU - Ivanov, Deyan

AU - Hoeppel, Anika

AU - Schwebler, Julian

AU - Lotz, Christian

AU - Dembski, Sofia

AU - Ossikovski, Razvigor

AU - Novikova, Tatiana

PY - 2023/1/1

Y1 - 2023/1/1

N2 - Long-term storage and cryopreservation of biological tissues is a global challenge in the fields of regenerative medicine, tissue engineering and implants, because of the formation of large ice crystals that may damage cellular membranes and extracellular matrix (ECM) of collagen. In our studies different thawing mechanisms were tested to achieve more uniform warming of 3D in vitro tissue models, prepared from magnetic nanoparticles (NPs)-modified 3D electrospun nanofiber fleeces and fibroblasts. 3D tissue models frozen in liquid nitrogen were defrosted either with water bath or with radio-frequency (RF) inductive heating of the magnetic NPs and their morphology was compared to that of a non-frozen tissue model using a transmission Mueller microscope and thin sections of all three types of tissue models. Our results demonstrate a sensitivity of the polarimetric parameters obtained with the differential decomposition of Mueller matrices to small changes in sample morphology caused by the different thawing methods. A detailed statistical analysis proved the statistical significance of the experimental data from the three groups of all tissue models.

AB - Long-term storage and cryopreservation of biological tissues is a global challenge in the fields of regenerative medicine, tissue engineering and implants, because of the formation of large ice crystals that may damage cellular membranes and extracellular matrix (ECM) of collagen. In our studies different thawing mechanisms were tested to achieve more uniform warming of 3D in vitro tissue models, prepared from magnetic nanoparticles (NPs)-modified 3D electrospun nanofiber fleeces and fibroblasts. 3D tissue models frozen in liquid nitrogen were defrosted either with water bath or with radio-frequency (RF) inductive heating of the magnetic NPs and their morphology was compared to that of a non-frozen tissue model using a transmission Mueller microscope and thin sections of all three types of tissue models. Our results demonstrate a sensitivity of the polarimetric parameters obtained with the differential decomposition of Mueller matrices to small changes in sample morphology caused by the different thawing methods. A detailed statistical analysis proved the statistical significance of the experimental data from the three groups of all tissue models.

KW - Mueller polarimetry

KW - cryopreservation

KW - fibroblast cells

KW - statistical analysis

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DO - 10.1117/12.2669082

M3 - Conference contribution

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T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Emerging Technologies for Cell and Tissue Characterization II

A2 - Nadkarni, Seemantini K.

A2 - Scarcelli, Giuliano

PB - SPIE

T2 - Emerging Technologies for Cell and Tissue Characterization II 2023

Y2 - 28 June 2023 through 29 June 2023

ER -

Ivanov D, Hoeppel A, Schwebler J, Lotz C, Dembski S, Ossikovski R et al. Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis. In Nadkarni SK, Scarcelli G, editors, Emerging Technologies for Cell and Tissue Characterization II. SPIE. 2023. 1262903. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2669082

Characterization of different thawing mechanisms of fibroblast cell-containing tissue models by Mueller polarimetry and statistical analysis

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