Epigenetic immune monitoring for COVID-19 disease course prognosis

Samans, Björn; Chornet, Marta Rosselló; Chornet, Araceli Rossello; Jung, Janine; Schildknecht, Konstantin; Lozza, Laura; Zaragoza, Lourdes Alos; Laforet, J. Hernández; Babel, Nina; Olek, Sven

doi:10.3389/fimmu.2023.1107900

Front. Immunol.

2023

DOI: 10.3389/fimmu.2023.1107900

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Epigenetic immune monitoring for COVID-19 disease course prognosis

Björn Samans

Marta Rosselló Chornet²,

Araceli Rossello Chornet³

et al.

Abstract: BackgroundThe course of COVID-19 is associated with severe dysbalance of the immune system, causing both leukocytosis and lymphopenia. Immune cell monitoring may be a powerful tool to prognosticate disease outcome. However, SARS-CoV-2 positive subjects are isolated upon initial diagnosis, thus barring standard immune monitoring using fresh blood. This dilemma may be solved by epigenetic immune cell counting.MethodsIn this study, we used epigenetic immune cell counting by qPCR as an alternative way of quantitat… Show more

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Cited by 2 publications

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Saliva as a feasible alternative to blood for interrogation of somatic hematopoietic variants

Soyfer,

Heidmann,

Ramanathan

et al. 2024

Blood Neoplasia

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Saliva as a feasible alternative to blood for interrogation of somatic hematopoietic variants

Soyfer,

Heidmann,

Ramanathan

et al. 2024

Blood Neoplasia

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Specifications of qPCR based epigenetic immune cell quantification

Schildknecht,

Samans,

Gussmann

et al. 2023

Clinical Chemistry and Laboratory Medicine (CCLM)

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Objectives Immune monitoring is an important aspect in diagnostics and clinical trials for patients with compromised immune systems. Flow cytometry is the standard method for immune cell counting but faces limitations. Best practice guidelines are available, but lack of standardization complicates compliance with e.g., in vitro diagnostic regulations. Limited sample availability forces immune monitoring to predominantly use population-based reference intervals. Epigenetic qPCR has evolved as alternative with broad applicability and low logistical demands. Analytical performance specifications (APS) have been defined for qPCR in several regulated fields including testing of genetically modified organisms or vector-shedding. Methods APS were characterized using five epigenetic qPCR-based assays quantifying CD3+, CD4+, CD8+ T, B and NK cells in light of regulatory requirements. Results Epigenetic qPCR meets all specifications including bias, variability, linearity, ruggedness and sample stability as suggested by pertinent guidelines and regulations. The assays were subsequently applied to capillary blood from 25 normal donors over a 28-day period. Index of individuality (IoI) and reference change values were determined to evaluate potential diagnostic gains of individual reference intervals. Analysis of the IoI suggests benefits for individual over population-based references. Reference change values (RCVs) show that changes of approx. Fifty percent from prior measurement are suggestive for clinically relevant changes in any of the 5 cell types. Conclusions The demonstrated precision, long-term stability and obtained RCVs render epigenetic cell counting a promising tool for immune monitoring in clinical trials and diagnosis.

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Epigenetic immune monitoring for COVID-19 disease course prognosis

Cited by 2 publications

References 31 publications

Saliva as a feasible alternative to blood for interrogation of somatic hematopoietic variants

Saliva as a feasible alternative to blood for interrogation of somatic hematopoietic variants

Specifications of qPCR based epigenetic immune cell quantification

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