Advanced Science (Sep 2021)

Cell Analysis from Dried Blood Spots: New Opportunities in Immunology, Hematology, and Infectious Diseases

  • Ines Ait Belkacem,
  • Noushine Mossadegh‐keller,
  • Penelope Bourgoin,
  • Isabelle Arnoux,
  • Marie Loosveld,
  • Pierre‐emmanuel Morange,
  • Thibaut Markarian,
  • Pierre Michelet,
  • Jean Marc Busnel,
  • Sandrine Roulland,
  • Franck Galland,
  • Fabrice Malergue

DOI
https://doi.org/10.1002/advs.202100323
Journal volume & issue
Vol. 8, no. 18
pp. n/a – n/a

Abstract

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Abstract Blood cell analysis is a major pillar of biomedical research and healthcare. These analyses are performed in central laboratories. Rapid shipment from collection site to the central laboratories is currently needed because cells and biomarkers degrade rapidly. The dried blood spot from a fingerstick allows the preservation of cellular molecules for months but entire cells are never recovered. Here leucocyte elution is optimized from dried blood spots. Flow cytometry and mRNA expression profiling are used to analyze the recovered cells. 50–70% of the leucocytes that are dried on a polyester solid support via elution after shaking the support with buffer are recovered. While red blood cells lyse upon drying, it is found that the majority of leucocytes are preserved. Leucocytes have an altered structure that is improved by adding fixative in the elution buffer. Leucocytes are permeabilized, allowing an easy staining of all cellular compartments. Common immunophenotyping and mRNAs are preserved. The ability of a new biomarker (CD169) to discriminate between patients with and without Severe Acute Respiratory Syndrome induced by Coronavirus 2 (SARS‐CoV‐2) infections is also preserved. Leucocytes from blood can be dried, shipped, and/or stored for at least 1 month, then recovered for a wide variety of analyses, potentially facilitating biomedical applications worldwide.

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