Tissue-Clearing Technique and Cutaneous Nerve Biopsies: Quantification of the Intraepidermal Nerve-Fiber Density Using Active Clarity Technique-Pressure Related Efficient and Stable Transfer of Macromolecules Into Organs

Overview

Journal J Clin Neurol

Specialty Neurology

Date 2019 Oct 9

PMID 31591843

Citations 1

Authors

Dai Hyun Kim

Se Jeong Lee

Eunsoo Lee

Ji Hyuck Hong

Soo Hong Seo

Hyo Hyun Ahn

Byung Jo Kim

Woong Sun

Im Joo Rhyu

Affiliations

Soon will be listed here.

Abstract

Background And Purpose: Cutaneous nerve biopsies based on two-dimensional analysis have been regarded as a creditable assessment tool for diagnosing peripheral neuropathies. However, advancements in methodological imaging are required for the analysis of intact structures of peripheral nerve fibers. A tissue-clearing and labeling technique facilitates three-dimensional imaging of internal structures in unsectioned, whole biological tissues without excessive time or labor costs. We sought to establish whether a tissue-clearing and labeling technique could be used for the diagnostic evaluation of peripheral neuropathies.

Methods: Five healthy individuals and four patients with small-fiber neuropathy (SFN) and postherpetic neuralgia (PHN) were prospectively enrolled. The conventional methods of indirect immunofluorescence (IF) and bright-field immunohistochemistry (IHC) were adopted in addition to the tissue-clearing and labeling method called active clarity technique-pressure related efficient and stable transfer of macromolecules into organs (ACT-PRESTO) to quantify the intraepidermal nerve-fiber density (IENFD).

Results: The mean IENFD values obtained by IF, bright-field IHC, and ACT-PRESTO in the healthy control group were 6.54, 6.44, and 90.19 fibers/mm², respectively; the corresponding values in the patients with SFN were 1.99, 2.32, and 48.12 fibers/mm², respectively, and 3.06, 2.87, and 47.21 fibers/mm², respectively, in the patients with PHN.

Conclusions: This study has shown that a tissue-clearing method provided not only rapid and highly reproducible three-dimensional images of cutaneous nerve fibers but also yielded reliable quantitative IENFD data. Quantification of the IENFD using a tissue-clearing and labeling technique is a promising way to improve conventional cutaneous nerve biopsies.

Citing Articles

Whole structural reconstruction and quantification of epidermal innervation through the suction blister method and skin-clearing technique.

Kim D, Lee S, Kim J, Park S, Seo S, Ahn H Sci Rep. 2022; 12(1):13596.

PMID: 36064954 PMC: 9445051. DOI: 10.1038/s41598-022-16986-7.

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