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Related Concept Videos

Immunofluorescence Microscopy01:12

Immunofluorescence Microscopy

10.8K
A fluorescence microscope uses fluorescent chromophores called fluorochromes, which can absorb energy from a light source and then emit this energy as visible light. Fluorochromes include naturally fluorescent substances (such as chlorophylls) and fluorescent stains that are added to the specimen to create contrast. Dyes such as Texas red and FITC are examples of fluorochromes. Other examples include the nucleic acid dyes 4’,6’-diamidino-2-phenylindole (DAPI), and acridine orange.
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Related Experiment Video

Updated: Aug 5, 2025

Optimization, Design and Avoiding Pitfalls in Manual Multiplex Fluorescent Immunohistochemistry
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Optimization, Design and Avoiding Pitfalls in Manual Multiplex Fluorescent Immunohistochemistry

Published on: July 26, 2019

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Multiplex Immunofluorescence Image Quality Checking Using DAPI Channel-referenced Evaluation.

Jun Jiang1, Raymond Moore1, Clarissa E Jordan2

  • 1Department of Quantitative Health Sciences, Mayo Clinic, Rochester, Minnesota.

The Journal of Histochemistry and Cytochemistry : Official Journal of the Histochemistry Society
|March 24, 2023
PubMed
Summary
This summary is machine-generated.

Multiplex immunofluorescence (MxIF) image quality can be reliably checked using 4

Keywords:
DAPI referencemultiplex immunofluorescencequality checkingquality control

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Automated Imaging and Analysis for the Quantification of Fluorescently Labeled Macropinosomes
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Area of Science:

  • Biomedical Imaging
  • Computational Pathology
  • Immunohistochemistry

Background:

  • Multiplex immunofluorescence (MxIF) provides critical spatial and cellular data in biomedical research.
  • Compromised MxIF image quality can introduce significant bias into research findings.
  • Robust quality control (QC) is vital for ensuring the reliability of downstream MxIF analyses.

Purpose of the Study:

  • To evaluate the feasibility of using 4',6-diamidino-2-phenylindole (DAPI) staining as a reference for automated quality control (QC) in MxIF imaging.
  • To develop and validate a DAPI-based method for identifying compromised MxIF image quality.
  • To assess the downstream impact of excluding low-quality MxIF images on cellular distribution analysis.

Main Methods:

  • Pixel-level DAPI signal intensity was extracted from MxIF datasets.
  • Signal fluctuations and tissue content similarity were quantified across staining-scanning-bleaching cycles to detect quality issues.
  • Automated QC results were compared against human expert annotations on 348 fields of view (FOVs).
  • Cellular distribution differences were analyzed between QC-passed and QC-failed FOVs.

Main Results:

  • The DAPI-based QC method successfully identified 87.3% of FOVs with tissue damage and 73.4% with artifacts.
  • A significant difference in cellular distribution patterns was observed between QC-passed and QC-failed FOVs.
  • High concordance was achieved between automated DAPI-based QC and expert annotations.

Conclusions:

  • 4',6-diamidino-2-phenylindole (DAPI) signals serve as a reliable and effective reference for automated quality control in multiplex immunofluorescence (MxIF) imaging.
  • Excluding low-quality FOVs identified by DAPI-based QC is crucial for mitigating downstream analytical biases.
  • This automated QC approach enhances the reliability and reproducibility of MxIF-based research.