This study is to analyze the microglia reaction or direct neurotropic effects of CNS COVID-19 in pathogenesis and brain stem dysfunction in critically ill patients. A microglia-focused, brain-specific 50+ marker CODEX panel is used to assess the neuroinflammatory microenvironment in specific brain regions of deceased COVID-19 patients. The peripheral (cerebrospinal fluid and peripheral blood) cytokine response to SARS-CoV-2 is investigated in regard to CNS affection and consecutive blood brain barrier disruption leading to braininherent neuroinflammatory reactions
This study is to analyze the microglia reaction or direct neurotropic effects of CNS COVID-19 in pathogenesis and brain stem dysfunction in critically ill patients. A microglia-focused, brain-specific 50+ marker CODEX panel is used to assess the neuroinflammatory microenvironment in specific brain regions of deceased COVID-19 patients. The peripheral (cerebrospinal fluid and peripheral blood) cytokine response to SARS-CoV-2 is investigated in regard to CNS affection and consecutive blood brain barrier disruption leading to braininherent neuroinflammatory reactions. Primary endpoints of this project are the multidimensional integration of the analysis from the procedures described above and assessment of the correlation between the gained clinical data (MRI, mental/neurological state), the body fluid proteomic and mass-cytometric analysis (CSF and Plasma proteomics, peripheral blood mass cytometry) and the CODEX analysis of defined brain regions on autopsy specimens. Non-critically ill COVID-19 patients and critically ill COVID-19 patients needing mechanical ventilation at the ICU are included. Autopsy specimens from medulla oblongata, cortex, cerebellum and olfactory bulb are investigated, including only tissue samples, which have been submitted to the Institute of Pathology, University Hospital Basel.
Study Type
OBSERVATIONAL
Enrollment
40
Cerebro spinal fluid (CSF) will be acquired by lumbar puncture and sent for routine analysis including CSF chemistry, cytology and microbiology. Targeted CSF proteomics using OLINK Proximity Extension Assay (PEA) technology to assess a potential CNS-contribution of the disease will be performed.
Plasma samples will be acquired for plasma cytokine proteomics using CyTOF (mass cytometry analysis) technology.
3Tesla magnetic resonance imaging (MRI) will be performed to document early/manifest encephalitic changes in COVID-19 patients.
High dimensional, microglia-centric CODEX fluorescent microscopy of defined brain regions on autopsy specimens will be acquired from medulla oblongata, cortex, cerebellum, and olfactory bulb. A brain-specific CODEX panel for the assessment of the immune microenvironment was implemented, with inclusion of a wide array of myeloid/microglia markers, T-cell markers, and a few neuronal markers. All the antibodies have been validated and tested in formalin-fixed tissues of different zones of glioblastoma tumors including invading tumor periphery. The Panel will be modified to include the viral entry receptors, CD147, ACE2 and TMPRSS2. Presence of SARS-CoV-2 virus particles will be assessed by qPCR, andMultiplexed Ion Beam Imaging (MIBI) technology will be used to visualize tropism of virus to specific cellular brain compartments.
Neurosurgery, University Hospital Basel
Basel, Switzerland
MRI imaging data
Comparison of lesions from patients that are neurologically affected to non-affected individuals in terms of CNS involvement to describe encephalitic changes due to COVID-19 infection.
Time frame: Project duration for each patient takes 1 hour for the MRI at baseline
Proteomic analysis
Description of proteomic biomarkers (CSF and Plasma) in comparison with control reference sample.
Time frame: 10 minutes for blood draw at baseline
Peripheral blood leukocyte Cytof Mass Cytometry Analysis for cell population frequency
Mass cytometry will be performed form peripheral blood mononuclear cells to count cell population frequency.
Time frame: 10 minutes for blood draw at baseline
CODEX (high dimensional microscopy) workflow analysis of defined regions on brain autopsy specimens
In situ distribution assessment of marker expression (CD147 protein, ACE2 protein, Transmembrane protease serine subtype 2 (TMPRSS2))
Time frame: at baseline
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.