Title

A Microbiopsy Method For Immunohistological And Morphological Analysis: A Pilot Study

Keywords

biopsy; fine needle aspiration; histology; skeletal muscle

Abstract

Introduction The fine aspiration microbiopsy is a relatively new biopsy technique, which allows muscle physiologists to sample skeletal muscle less invasively. However, the small sample size obtained is often deemed insufficient for certain analyses. The aim of the current study was to develop procedures for muscle fiber morphology and immunohistological analysis from a microbiopsy technique. Methods Microbiopsies of the vastus lateralis were taken with a 14-gauge microbiopsy needle from four healthy men on two separate occasions. The tissue was oriented in a cryomold, embedded in Tissue-Tek® then frozen in liquid nitrogen cooled isopentane. The muscle sections were stained with hematoxylin and eosin, laminin, MHCI, MHCIIa, and Pax7 for fiber number, mean fiber area, muscle fiber typing, and satellite cell observation. Results The mean ± SD (range) microbiopsy sample weight was 18.3 ± 2.9 mg (14-22 mg). The mean fiber number within the microbiopsy specimens was 150.4 ± 120.6 (64-366). All viable fibers were measured in each sample, and the mean fiber area was 4385.1 ± 1265.8 μm2 (977.0-10,132.93 μm2). There was no significant time difference (P = 0.69) in mean fiber area. Discussion Results suggest the potential use of a "minimally invasive" muscle biopsy technique for immunohistological and morphological analysis. This could provide clinicians and investigators additional data in future research. Further investigations are needed to determine the usefulness and potential limiting factors of this technique.

Publication Date

2-1-2016

Publication Title

Medicine and Science in Sports and Exercise

Volume

48

Issue

2

Number of Pages

331-335

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1249/MSS.0000000000000772

Socpus ID

84955415223 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84955415223

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