A beginner's guide to tissue clearing

doi:10.1016/j.biocel.2016.12.009

Review

. 2017 Mar:84:35-39.

doi: 10.1016/j.biocel.2016.12.009. Epub 2017 Jan 7.

A beginner's guide to tissue clearing

Pablo Ariel¹

Affiliations

Affiliation

¹ Microscopy Services Laboratory, Department of Pathology and Laboratory Medicine, University of North Carolina at Chapel Hill, United States. Electronic address: pablo_ariel@med.unc.edu.

PMID: 28082099
PMCID: PMC5336404
DOI: 10.1016/j.biocel.2016.12.009

Review

A beginner's guide to tissue clearing

Pablo Ariel. Int J Biochem Cell Biol. 2017 Mar.

. 2017 Mar:84:35-39.

doi: 10.1016/j.biocel.2016.12.009. Epub 2017 Jan 7.

Author

Pablo Ariel¹

Affiliation

¹ Microscopy Services Laboratory, Department of Pathology and Laboratory Medicine, University of North Carolina at Chapel Hill, United States. Electronic address: pablo_ariel@med.unc.edu.

PMID: 28082099
PMCID: PMC5336404
DOI: 10.1016/j.biocel.2016.12.009

Abstract

The last decade has seen a proliferation of tissue clearing methods that render large biological samples transparent and allow unprecedented three-dimensional views of enormous volumes of tissue. For a scientist wondering whether these methods will be useful to address their research problems, it can be bewildering to sort through the ever-increasing number of papers introducing new clearing methods. Here, I provide a concise summary for the novice describing what tissue clearing is, which research problems it can be applied to, how to decide on a clearing method, and where the field is headed in the future.

Keywords: Optical clearing; Organoids; Tissue clearing; Whole organ imaging; Whole organism imaging.

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Figures

**Figure 1. Young rat central nervous system - uDISCO technique**
An example of a very large sample imaged after tissue clearing. The central nervous system of a young rat was stained with a dye that labels the vasculature and cleared with the uDISCO technique, which uses organic solvents. The image is a composite of many images acquired with a light-sheet microscope. Insets show magnified views of subareas of the sample and arrowheads point to specific identifiable blood vessels. Modified from Pan et al., 2016.

**Figure 2. 100 μm slice of mouse brain - See DB2 technique**
An example of a small sample that benefits from tissue clearing. A 100 μm slice of brain tissue where a subset of neurons strongly express YFP was cleared with the SeeDB2 method, which is based on a high RI aqueous solution. This sample was imaged using Airyscan superresolution confocal microscopy. Note that very fine details can be discerned deep in the sample. Modified from Ke et al., 2016.

See this image and copyright information in PMC

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Three-dimensional imaging for the quantification of spatial patterns in microbiota of the intestinal mucosa.
Mondragón-Palomino O, Poceviciute R, Lignell A, Griffiths JA, Takko H, Ismagilov RF. Mondragón-Palomino O, et al. Proc Natl Acad Sci U S A. 2022 May 3;119(18):e2118483119. doi: 10.1073/pnas.2118483119. Epub 2022 Apr 27. Proc Natl Acad Sci U S A. 2022. PMID: 35476531 Free PMC article.
Whole-Brain Profiling of Cells and Circuits in Mammals by Tissue Clearing and Light-Sheet Microscopy.
Ueda HR, Dodt HU, Osten P, Economo MN, Chandrashekar J, Keller PJ. Ueda HR, et al. Neuron. 2020 May 6;106(3):369-387. doi: 10.1016/j.neuron.2020.03.004. Neuron. 2020. PMID: 32380050 Free PMC article. Review.
Light-Sheet Imaging to Reveal Cardiac Structure in Rodent Hearts.
Almasian M, Saberigarakani A, Zhang X, Lee B, Ding Y. Almasian M, et al. J Vis Exp. 2024 Mar 29;(205):10.3791/66707. doi: 10.3791/66707. J Vis Exp. 2024. PMID: 38619234 Free PMC article.
A pH-Adjustable Tissue Clearing Solution That Preserves Lipid Ultrastructures: Suitable Tissue Clearing Method for DDS Evaluation.
Fumoto S, Kinoshita E, Ohta K, Nakamura KI, Hirayama T, Nagasawa H, Hu D, Okami K, Kato R, Shimokawa S, Ohira N, Nishimura K, Miyamoto H, Tanaka T, Kawakami S, Nishida K. Fumoto S, et al. Pharmaceutics. 2020 Nov 9;12(11):1070. doi: 10.3390/pharmaceutics12111070. Pharmaceutics. 2020. PMID: 33182398 Free PMC article.

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References

1. Aoyagi Y, Kawakami R, Osanai H, Hibi T, Nemoto T. A Rapid Optical Clearing Protocol Using 2,2′-Thiodiethanol for Microscopic Observation of Fixed Mouse Brain. PLoS ONE. 2015;10(1):e0116280. - PMC - PubMed
1. Becker K, Hahn CM, Saghafi S, Jahrling N, Wanis M, Dodt HU. Reduction of photo bleaching and long term archiving of chemically cleared GFP-expressing mouse brains. PLoS One. 2014;9(12):e114149. - PMC - PubMed
1. Boutin ME, Hoffman-Kim D. Application and assessment of optical clearing methods for imaging of tissue-engineered neural stem cell spheres. Tissue Eng Part C Methods. 2015;21(3):292–302. - PMC - PubMed
1. Calvigioni D, Mate Z, Fuzik J, Girach F, Zhang MD, Varro A, Beiersdorf J, Schwindling C, Yanagawa Y, Dockray GJ, McBain CJ, Hokfelt T, Szabo G, Keimpema E, Harkany T. Functional Differentiation of Cholecystokinin-Containing Interneurons Destined for the Cerebral Cortex. Cereb Cortex 2016 - PMC - PubMed
1. Chabab S, Lescroart F, Rulands S, Mathiah N, Simons BD, Blanpain C. Uncovering the Number and Clonal Dynamics of Mesp1 Progenitors during Heart Morphogenesis. Cell Rep. 2016;14(1):1–10. - PMC - PubMed

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[1] Aoyagi Y, Kawakami R, Osanai H, Hibi T, Nemoto T. A Rapid Optical Clearing Protocol Using 2,2′-Thiodiethanol for Microscopic Observation of Fixed Mouse Brain. PLoS ONE. 2015;10(1):e0116280. - PMC - PubMed

[2] Aoyagi Y, Kawakami R, Osanai H, Hibi T, Nemoto T. A Rapid Optical Clearing Protocol Using 2,2′-Thiodiethanol for Microscopic Observation of Fixed Mouse Brain. PLoS ONE. 2015;10(1):e0116280. - PMC - PubMed

[3] Becker K, Hahn CM, Saghafi S, Jahrling N, Wanis M, Dodt HU. Reduction of photo bleaching and long term archiving of chemically cleared GFP-expressing mouse brains. PLoS One. 2014;9(12):e114149. - PMC - PubMed

[4] Becker K, Hahn CM, Saghafi S, Jahrling N, Wanis M, Dodt HU. Reduction of photo bleaching and long term archiving of chemically cleared GFP-expressing mouse brains. PLoS One. 2014;9(12):e114149. - PMC - PubMed

[5] Boutin ME, Hoffman-Kim D. Application and assessment of optical clearing methods for imaging of tissue-engineered neural stem cell spheres. Tissue Eng Part C Methods. 2015;21(3):292–302. - PMC - PubMed

[6] Boutin ME, Hoffman-Kim D. Application and assessment of optical clearing methods for imaging of tissue-engineered neural stem cell spheres. Tissue Eng Part C Methods. 2015;21(3):292–302. - PMC - PubMed

[7] Calvigioni D, Mate Z, Fuzik J, Girach F, Zhang MD, Varro A, Beiersdorf J, Schwindling C, Yanagawa Y, Dockray GJ, McBain CJ, Hokfelt T, Szabo G, Keimpema E, Harkany T. Functional Differentiation of Cholecystokinin-Containing Interneurons Destined for the Cerebral Cortex. Cereb Cortex 2016 - PMC - PubMed

[8] Calvigioni D, Mate Z, Fuzik J, Girach F, Zhang MD, Varro A, Beiersdorf J, Schwindling C, Yanagawa Y, Dockray GJ, McBain CJ, Hokfelt T, Szabo G, Keimpema E, Harkany T. Functional Differentiation of Cholecystokinin-Containing Interneurons Destined for the Cerebral Cortex. Cereb Cortex 2016 - PMC - PubMed

[9] Chabab S, Lescroart F, Rulands S, Mathiah N, Simons BD, Blanpain C. Uncovering the Number and Clonal Dynamics of Mesp1 Progenitors during Heart Morphogenesis. Cell Rep. 2016;14(1):1–10. - PMC - PubMed

[10] Chabab S, Lescroart F, Rulands S, Mathiah N, Simons BD, Blanpain C. Uncovering the Number and Clonal Dynamics of Mesp1 Progenitors during Heart Morphogenesis. Cell Rep. 2016;14(1):1–10. - PMC - PubMed

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A beginner's guide to tissue clearing

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A beginner's guide to tissue clearing

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