Distinct patterns of blood cytokines beyond a cytokine storm predict mortality in COVID-19

  1. Christian Herr
  2. Sebastian Mang
  3. Bahareh Mozafari
  4. Katharina Günther
  5. Thimoteus Speer
  6. Martina Seibert
  7. Sanjay Kumar Srikakulam
  8. Christoph Beisswenger
  9. Felix Ritzmann
  10. Andreas Keller
  11. Rolf Müller
  12. Sigrun Smola
  13. Dominic Eisinger
  14. Michael Zemlin
  15. Guy Danziger
  16. Thomas Volk
  17. Sabrina Hörsch
  18. Marcin Krawczyk
  19. Frank Lammert
  20. Thomas Adams
  21. Gudrun Wagenpfeil
  22. Michael Kindermann
  23. Constantin Marcu
  24. Zuhair Wolf Dietrich Ataya
  25. Marc Mittag
  26. Konrad Schwarzkopf
  27. Florian Custodis
  28. Daniel Grandt
  29. Harald Schäfer
  30. Kai Eltges
  31. Philipp M. Lepper
  32. Robert Bals
  33. CORSAAR study group
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Abstract

Background

COVID-19 comprises several severity stages ranging from oligosymptomatic disease to multi-organ failure and fatal outcomes. The mechanisms why COVID-19 is a mild disease in some patients and progresses to a severe multi-organ and often fatal disease with respiratory failure are not known. Biomarkers that predict the course of disease are urgently needed. The aim of this study was to evaluate a large spectrum of established laboratory measurements.

Patients and methods

Patients from the prospective PULMPOHOM and CORSAAR studies were recruited and comprised 35 patients with COVID-19, 23 with conventional pneumonia, and 28 control patients undergoing elective non-pulmonary surgery. Venous blood was used to measure the serum concentrations of 79 proteins by Luminex multiplex immunoassay technology. Distribution of biomarkers between groups and association with disease severity and outcomes were analyzed.

Findings

The biomarker profiles between the three groups differed significantly with elevation of specific proteins specific for the respective conditions. Several biomarkers correlated significantly with disease severity and death. Uniform manifold approximation and projection (UMAP) analysis revealed a significant separation of the three disease groups and separated between survivors and deceased patients. Different models were developed to predict mortality based on the baseline measurements of several protein markers.

Interpretation

Several newly identified blood markers were increased in patients with severe COVID-19 (AAT, EN-RAGE, ICAM-1, myoglobin, SAP, TIMP-1, vWF, decorin, HGF, MMP7, PECAM-1) or in patients that died (FRTN, SCF, TIMP-1, CA-9, CEA, decorin, HGF). The use of established assay technologies allows for rapid translation into clinical practice.

Funding

No role of the funding source.

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