An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle

Rationale: Structural remodeling or damage as a result of disease or injury is often not evenly distributed throughout a tissue but strongly depends on localization and extent of damaging stimuli. Skeletal muscle as a mechanically active organ can express signs of local or even systemic myopathic da...

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Autores principales: Schneidereit, Dominik, Bröllochs, Anita, Ritter, Paul, Kreiß, Lucas, Mokhtari, Zeinab, Beilhack, Andreas, Krönke, Gerhard, Ackermann, Jochen A, Faas, Maria, Grüneboom, Anika, Schürmann, Sebastian, Friedrich, Oliver
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Ivyspring International Publisher 2021
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Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7806485/
https://www.ncbi.nlm.nih.gov/pubmed/33456578
http://dx.doi.org/10.7150/thno.51558
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author Schneidereit, Dominik
Bröllochs, Anita
Ritter, Paul
Kreiß, Lucas
Mokhtari, Zeinab
Beilhack, Andreas
Krönke, Gerhard
Ackermann, Jochen A
Faas, Maria
Grüneboom, Anika
Schürmann, Sebastian
Friedrich, Oliver
author_facet Schneidereit, Dominik
Bröllochs, Anita
Ritter, Paul
Kreiß, Lucas
Mokhtari, Zeinab
Beilhack, Andreas
Krönke, Gerhard
Ackermann, Jochen A
Faas, Maria
Grüneboom, Anika
Schürmann, Sebastian
Friedrich, Oliver
author_sort Schneidereit, Dominik
collection PubMed
description Rationale: Structural remodeling or damage as a result of disease or injury is often not evenly distributed throughout a tissue but strongly depends on localization and extent of damaging stimuli. Skeletal muscle as a mechanically active organ can express signs of local or even systemic myopathic damage, necrosis, or repair. Conventionally, muscle biopsies (patients) or whole muscles (animal models) are mechanically sliced and stained to assess structural alterations histologically. Three-dimensional tissue information can be obtained by applying deep imaging modalities, e.g. multiphoton or light-sheet microscopy. Chemical clearing approaches reduce scattering, e.g. through matching refractive tissue indices, to overcome optical penetration depth limits in thick tissues. Methods: Here, we optimized a range of different clearing protocols. We find aqueous solution-based protocols employing (20-80%) 2,2'-thiodiethanol (TDE) to be advantageous over organic solvents (dibenzyl ether, cinnamate) regarding the preservation of muscle morphology, ease-of-use, hazard level, and costs. Results: Applying TDE clearing to a mouse model of local cardiotoxin (CTX)-induced muscle necrosis, a complete loss of myosin-II signals was observed in necrotic areas with little change in fibrous collagen or autofluorescence (AF) signals. The 3D aspect of myofiber integrity could be assessed, and muscle necrosis in whole muscle was quantified locally via the ratios of detected AF, forward- and backward-scattered Second Harmonic Generation (fSHG, bSHG) signals. Conclusion: TDE optical clearing is a versatile tool to study muscle architecture in conjunction with label-free multiphoton imaging in 3D in injury/myopathy models and might also be useful in studying larger biofabricated constructs in regenerative medicine.
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spelling pubmed-78064852021-01-15 An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle Schneidereit, Dominik Bröllochs, Anita Ritter, Paul Kreiß, Lucas Mokhtari, Zeinab Beilhack, Andreas Krönke, Gerhard Ackermann, Jochen A Faas, Maria Grüneboom, Anika Schürmann, Sebastian Friedrich, Oliver Theranostics Research Paper Rationale: Structural remodeling or damage as a result of disease or injury is often not evenly distributed throughout a tissue but strongly depends on localization and extent of damaging stimuli. Skeletal muscle as a mechanically active organ can express signs of local or even systemic myopathic damage, necrosis, or repair. Conventionally, muscle biopsies (patients) or whole muscles (animal models) are mechanically sliced and stained to assess structural alterations histologically. Three-dimensional tissue information can be obtained by applying deep imaging modalities, e.g. multiphoton or light-sheet microscopy. Chemical clearing approaches reduce scattering, e.g. through matching refractive tissue indices, to overcome optical penetration depth limits in thick tissues. Methods: Here, we optimized a range of different clearing protocols. We find aqueous solution-based protocols employing (20-80%) 2,2'-thiodiethanol (TDE) to be advantageous over organic solvents (dibenzyl ether, cinnamate) regarding the preservation of muscle morphology, ease-of-use, hazard level, and costs. Results: Applying TDE clearing to a mouse model of local cardiotoxin (CTX)-induced muscle necrosis, a complete loss of myosin-II signals was observed in necrotic areas with little change in fibrous collagen or autofluorescence (AF) signals. The 3D aspect of myofiber integrity could be assessed, and muscle necrosis in whole muscle was quantified locally via the ratios of detected AF, forward- and backward-scattered Second Harmonic Generation (fSHG, bSHG) signals. Conclusion: TDE optical clearing is a versatile tool to study muscle architecture in conjunction with label-free multiphoton imaging in 3D in injury/myopathy models and might also be useful in studying larger biofabricated constructs in regenerative medicine. Ivyspring International Publisher 2021-01-01 /pmc/articles/PMC7806485/ /pubmed/33456578 http://dx.doi.org/10.7150/thno.51558 Text en © The author(s) https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/). See http://ivyspring.com/terms for full terms and conditions.
spellingShingle Research Paper
Schneidereit, Dominik
Bröllochs, Anita
Ritter, Paul
Kreiß, Lucas
Mokhtari, Zeinab
Beilhack, Andreas
Krönke, Gerhard
Ackermann, Jochen A
Faas, Maria
Grüneboom, Anika
Schürmann, Sebastian
Friedrich, Oliver
An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle
title An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle
title_full An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle
title_fullStr An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle
title_full_unstemmed An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle
title_short An advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle
title_sort advanced optical clearing protocol allows label-free detection of tissue necrosis via multiphoton microscopy in injured whole muscle
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7806485/
https://www.ncbi.nlm.nih.gov/pubmed/33456578
http://dx.doi.org/10.7150/thno.51558
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