Preprint / Version 2

Analysis of Nitrocellulose-Based Solid-State Calibration Standards for Point-of-Care (POC) Fluorometers

##article.authors##

  • Joshua Eger Arizona State University https://orcid.org/0009-0007-2050-4088
  • William Johns
  • Akshansh Kaushik
  • Tej Patel
  • Karen S. Anderson
  • Jennifer Blain Christen

DOI:

https://doi.org/10.31224/3873

Abstract

This study presents an analysis of nitrocellulose-based solid-state calibration standards for point-of-care (POC) fluorometers. Our findings show that the manual assembly process introduces significant variations in the alignment/offset of printed lines with respect to the optical aperture. A Claremont BioSolutions and BioDot automated dispenser were compared to determine efficacy in producing high-quality calibration standards. Qualitative analysis of line morphology shows less pronounced irregularities in lines printed by the BioDot. The BioDot also demonstrated significantly lower variation in the width of printed lines, with a CV of 6.4% compared to the Claremont’s 27.0%. However, fluorescence intensity measurements using a POC fluorometer revealed a mean inter-sample CV of 15.0% and 14.2% for the Claremont and BioDot, respectively. Direct and indirect fluorophore immobilization methods were compared. The results indicated that the direct method is a viable approach, but the indirect method presents challenges with increased background and fluorophore depletion, rendering it unsuitable for calibration standard production.

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Posted

2024-09-05 — Updated on 2024-09-06

Versions

Version justification

Names of two authors revised