A novel and simple heat-based method eliminates the highly detrimental effect of xylene deparaffinization on acid-fast stains

Am J Clin Pathol. 2023 Jul 5;160(1):81-88. doi: 10.1093/ajcp/aqad016.

Abstract

Objectives: Histopathology is an important method for diagnosing extrapulmonary tuberculosis, yet tissue sections are often negative for mycobacteria after use of acid-fast stain (AFS). This study investigated the mechanism of AFS use and the detrimental effect of histologic processing-in particular, xylene deparaffinization-on AFS and mycobacterial detection.

Methods: The target of the fluorescent Auramine O (AuO) AFS was investigated using triple staining with DNA- and RNA-specific dyes. The effect of xylene deparaffinization on the acid fastness of mycobacteria in cultures or tissue sections was studied using AuO fluorescence as a quantitative marker. The xylene method was compared with a novel, solvent-free projected-hot-air deparaffinization (PHAD).

Results: Co-localization of AuO with DNA/RNA stains suggests that intracellular nucleic acids are the true target of AFS, producing highly specific patterns. Xylene reduces mycobacterial fluorescence significantly (P < .0001; moderate effect size, r = 0.33). The PHAD process yielded significantly higher fluorescence than xylene deparaffinization in tissues (P < .0001; large effect size, r = 0.85).

Conclusions: Auramine O can be applied for nucleic acid staining of mycobacteria in tissues producing typical beaded patterns. Acid-fast staining depends heavily on the integrity of the mycobacterial cell wall, which xylene appears to damage. A solvent-free tissue deparaffinization method has the potential to increase mycobacterial detection significantly.

Keywords: Acid-fast stain; Histology; Mycobacteria; Novel method; Xylene deparaffinization.

MeSH terms

  • Benzophenoneidum
  • Coloring Agents
  • Hot Temperature
  • Humans
  • Mycobacterium*
  • RNA
  • Staining and Labeling
  • Xylenes*

Substances

  • Xylenes
  • Benzophenoneidum
  • Coloring Agents
  • RNA