Postural Orthostatic Tachycardia syndrome (POTS) is very rapid heart rate elevation & dizziness (syncope) when standing up or lying down & can happen after COVID infection or COVID vaccine, McCullough
reports on Mahdi et al.'s study in persons with post-COVID acute sequelae (PACS) known as 'Long-COVID'; Patients with PACS demonstrate distinctly altered plasma protein, cytokine and lipid profile
‘Mahdi et al performed a detailed analysis of twenty-one healthy control subjects without a prior COVID-19 infection (mean age 43 years, 95% females), 20 non-hospitalized patients with post-COVID-19 acute sequelae (PACS) otherwise known as long-COVID with POTS (mean age 39 years, 95% females) and 22 non-hospitalized patients with PACS but without POTS (mean age 44 years, 100% females). Post-COVID patients were studied ~18 months the the infection. Cardiometabolic proteomic analyses revealed a dysregulation of ≈200 out of 700 analyzed proteins in both PACS groups vs. healthy subjects with the majority (> 90%) being upregulated. There was a large overlap (> 90%) with no major differences between the PACS groups. Gene ontology enrichment analysis revealed alterations in hemostasis/coagulation, metabolism, immune responses, and angiogenesis in PACS vs. healthy controls. Furthermore, 11 out of 33 cytokines/chemokines were significantly upregulated both in PACS + POTS and PACS-POTS vs. healthy controls and none of the cytokines were downregulated. There were no differences in between the PACS groups in the cytokine levels. Lastly, 16 and 19 out of 88 sphingolipids were significantly dysregulated in PACS + POTS and PACS-POTS, respectively, compared to controls with no differences between the groups. Here are the authors conclusions:
“Patients with PACS demonstrate distinctly altered plasma protein, cytokine and lipid profiles compared with healthy controls. In particular, alterations in hemostasis, T-cell proliferation, apoptosis and amino acid metabolism may be potentially involved in symptom development and maintenance in PACS. Interestingly, plasma profile of PACS patients with and without POTS do not substantially differ, implying that PACS is associated with alterations in plasma profile regardless of POTS presence. Other pathophysiological mechanisms may be responsible for the development of POTS in PACS. Collectively our data suggest that the pro-inflammatory/proliferative and pro-coagulative state in PACS represents an important phenotype in the pathophysiology of the disease and might largely explain the disease burden of the population. This may lay the foundation for future clinical investigations with focus on inflammation resolution, resolution of micro clots and rearrange the hemostasis to alleviate the disease burden or dissect possible biomarkers for disease progression in PACS.”’
See McCullough’s substack scholarship above.