Septic cavernous sinus thrombosis in a patient with COVID-19.

The cavernous sinus is one of the dural venous sinuses which plays an important role in venous outflow from the brain and eye sockets and in the regulation of intracranial circulation. We report a case of septic cavernous sinus thrombosis in a female patient with COVID-19. The disease often results in alterations of blood rheology, thrombosis in different organs, and septic complications. This article aims to raise awareness of healthcare professionals about the characteristics of COVID-19 that might cause septic cavernous sinus thrombosis in patients with severe comorbidities. Laboratory testing revealed severe comorbidities, including diabetes mellitus and liver cirrhosis caused by hepatitis C. They manifested with an impaired protein production in the liver and coagulation disorders. Systemic effects of SARS-CoV-2 on the vascular endothelium aggravated preexisting coagulation disorders and led to hemorrhage into retrobulbar tissue and clinical signs of septic cavernous sinus thrombosis, including swelling of the eyelids, bilateral exophthalmos, and ophthalmoplegia, followed by necrosis of the facial skin.Copyright © 2022, Dynasty Publishing House. All rights reserved.

Covid-19: Is the placenta a safe space

Problem: Several large studies have demonstrated that COVID-19 pregnant individuals are at a significant risk for severe disease and adverse pregnancy outcomes. The mechanisms underlying these phenomena remain to be elucidated and are the focus of our project. Although fetal and placental infection is rare, placental abnormalities and adverse pregnancy outcomes associated with placental dysfunction in COVID-19 cases have been widely reported. In particular, placental thrombosis and lesions consistent with maternal vascular malperfusion (MVM) of the placenta are common in individuals with COVID-19. Since thrombotic complications have been associated with COVID-19, it is not surprising that pregnant individuals with COVID- 19 are at risk for placental thrombosis. Method of Study: Placentas were evaluated histologically. Extracellular vesicles were isolated by serial centrifugation. Result(s): Adverse pregnancy outcomes associated with these placental lesions, including hypertensive disorders of pregnancy (gestational hypertension and preeclampsia), small for gestational age (SGA, birthweight < 10th percentile for gestational age), and preterm birth (PTB, < 37 weeks) are significantly increased among pregnant individuals with COVID-19. Placental infection with SARSCoV- 2 is uncommon, but multiple inflammatory and metabolic factors are likely to affect the placenta, including circulating extracellular vesicles (EVs) derived from various organs that have been associated with COVID-19 pathology and disease severity.We have analyzed over 500 placentas from COVID-19 pregnancies and found marked changes in placental morphology, characterized by abnormal maternal and fetal vessels, intervillous thrombi, and fibrin deposition, even in the face of mild or asymptomatic disease. We detected increased levels of small EVs in maternal serum from COVID-19 cases compared to controls and increased levels of mitochondrial DNA in EVs from COVID-19 cases. In in vitro experiments, we found increased oxidative stress in uterine endothelial cells and primary trophoblasts. Syncytialization of trophoblast cells following exposure to EVs from pregnant COVID-19 patients was markedly reduced. RNAseq of trophoblast cells exposed to EVs from pregnant COVID-19 patients revealed disruption of multiple pathways related to mitochondria function, oxidative stress, coagulation defects, and inflammation. Timing of infection during pregnancy (first, second, and third trimester) altered EV size distribution, cargo content, and functional consequences of trophoblast EV exposure. Conclusion(s): Our studies show that COVID-19 infection during pregnancy has profound effects on placenta morphology and function. It remains to be determined what the long-term consequences are on the offspring.

Angiotensin-converting enzyme 2 (ACE2) in COVID-19 and other diseases.

The coronavirus SARS-CoV-2 was detected in isolates of pneumonia patients in January 2020. The virus cannot multiply extracellularly but requires access to the cells of a host organism. SARS-CoV-2 uses angiotensin-converting enzyme 2 (ACE2) as a receptor, to which it docks with its spikes. ACE2 belongs to the renin angiotensin system (RAS), whose inhibitors have been used for years against high blood pressure. Renin is an endopeptidase that is predominantly formed in the juxtaglomerular apparatus of the kidney and cleaves the decapeptide angiotensin I (Ang I) from angiotensinogen. Through the angiotensin-converting enzyme (ACE), another 2 C-terminal amino acids are removed from Ang I, so that finally the active octapeptide angiotensin II (Ang II) is formed. The biological effect of Ang II via the angiotensin II receptor subtype 1 (AT1-R) consists of vasoconstriction, fibrosis, proliferation, inflammation, and thrombosis formation. ACE2 is a peptidase that is a homolog of ACE. ACE2 is predominantly expressed by pulmonary alveolar epithelial cells in humans and has been detected in arterial and venous endothelial cells. In contrast to the dicarboxy-peptidase ACE, ACE2 is a monocarboxypeptidase that cleaves only one amino acid from the C-terminal end of the peptides. ACE2 can hydrolyze the nonapeptide Ang-(1-9) from the decapeptide Ang I and the heptapeptide Ang-(1-7) from the octapeptide Ang II. Ang-(1-7) acts predominantly antagonistically (vasodilatory, anti-fibrotic, anti-proliferative, anti-inflammatory, anti-thrombogenetically) via the G protein-coupled Mas receptor to the AT1-R-mediated effects of Ang II. In the pathogenesis of COVID-19 infection, it is therefore assumed that there is an imbalance due to overstimulation of the AT1 receptor in conjunction with a weakening of the biological effects of the Mas receptor.Copyright © 2022 Dustri-Verlag Dr. K. Feistle.

COVID-19: AFTER TWO YEARS OF IATROGENIC AND BIOLOGIC IMMUNIZATION/ VACCINATION DO WE ACTUALLY NEED FURTHER BOOSTER IMMUNIZATION/ VACCINATION?

BackgroundThe Covid19 pandemic started in late 2019 and went through different phases by spreading from China around the whole globe. During the pandemic different mutation types got predominant from original Wuhan type through Alpha, Delta and Omicron variate BA 1/2 to BA 4/5 with different infectiousity and different potential to harm people´s health status. Immunization/ vaccination program started late 2020, first booster phase started midst of 2021, second booster phase in late 2021/ beginning of 2022 and Omicron specific booster phase midst of 2022.ObjectivesIs there a need of further iatrogenic (booster) immunization/ vaccination after 2 years of immunization/ vaccination program from efficacy driven analysis and safety issues standpoint?MethodsAnalysis of Covid-19 antibody development every three months since August 2021 with comparison of infection rates and assessment of safety parameters by assessing D-Dimers as potential endothelium damage marker in 725 patients (600 female, 125 male, age mean: 62,2 years) of a German rheumatological practice to improve the medical care.ResultsIn 99 % of the patients longstanding immune memory could be shown by analyzing the antibody curves in different exemplary shown biologic and iatrogenic immunization pathways after 2 years of immunization/ vaccination program and biologic immunization, mainly by Delta variate since late 2021 and Omicron variate since beginning of 2022. In 38.5 % of the patients the safety concerns of potential endothelium damage by analysing D-Dimers every 3 months showed a side effect potential of at least 8 months after every MRNA/ Vector immunization, but not after protein based vaccination and even not after infections in that amount.ConclusionOut of the obligation "nil nocere” no further iatrogenic Covid-19 immunization/ vaccination is of need in nearly all (99 %) already immunized people. At present only adult people with very low antibody levels (at least below 64 BAU/ml) (considering the infection or iatrogenic immunization/ vaccination status and time since last spike protein contact) and not yet immunized adult people should be forseen for iatrogenic immunization/ vaccination with protein based or attenuated viral vaccines or in rare cases one Omicron specific MRNA immunization drug. In that case D-Dimer controls for up to 8 months should be obligatory to detect endothelial damage side effect of MRNA (or Vector) technique. Intense cardiovascular monitoring (small vessels) of MRNA/ Vector immunized people in the next 10 – 20 years is necessary.Figure 1.References[1] Pohl C;SAFETY AND EFFICACY ASSESSMENT OF COVID-19 IMMUNIZATIONS/ VACCINATIONS IN PATIENTS OF A GERMAN GENERAL RHEUMATOLOGICAL PRACTICE;EULAR 2022 Poster POS1213;https://doi.org/10.1136/annrheumdis-2022-eular.1389[2] McConeghy KW et al. Effectiveness of a Second COVID-19 Vaccine Booster Dose Against Infection, Hospitalization, or Death Among Nursing Home Residents - 19 States, March 29-July 25, 2022. MMWR Morb Mortal Wkly Rep. 2022 Sep 30;71(39):1235-1238. doi: 10.15585/mmwr.mm7139a2. PMID: 36173757;PMCID: PMC9533729.[3] Bowe, B. Et al. Acute and postacute sequelae associated with SARS-CoV-2 reinfection. Nat Med 28, 2398–2405 (2022). https://doi.org/10.1038/s41591-022-02051-3[4] Hui-Lee Wong et al. Surveillance of COVID-19 vaccine safety among elderly persons aged 65 years and older, Vaccine, Volume 41, Issue 2, 2023, Pages 532-539, ISSN 0264-410X, https://doi.org/10.1016/j.vaccine.2022.11.069.[5] Maher AK et al. Transcriptional reprogramming from innate immune functions to a pro-thrombotic signature by monocytes in COVID-19. Nat Commun. 2022 Dec 26;13(1):7947. doi: 10.1038/s41467-022-35638-y. PMID: 36572683;PMCID: PMC9791976.[6] Erich Freisleben;Sie wollten alles richtig machen – Dokumentation eines verschwiegenen Leidens – Bericht eines Hausarztes über die Nebenwirkungen der Corona Impfungen;Nov 11, 2022;Cajus Verlag[7] Positive Testrate Germany – https://www.rki.de/DE/Content/InfAZ/N/Neuartiges_Coronavirus/Testzahl.htmlAcknowledgementsThanks to my fami y, all my patients and my collegues for supporting me in my research to improve my personal patient care.Disclosure of InterestsNone Declared.

The endothelium is the main target of coronavirus infection

Background. The world currently has a wealth of clinical experience in the treatment of SARS-Co-2. However, more and more work is emerging that opens up new data on the manifestations of this viral disease and its consequences, which can affect both the change in its clinical picture and the quality of life of patients with COVID-19. Therefore, this work was aimed to summarize the results of literature research and our experience of intensive care of endothelial dysfunction in coronavirus infection. Material and methods. The work is based on the results of a study on the Internet search engines Google and PubMed, with the keywords: intensive care SARS-CoV-2, pathophysiological changes in coronavirus in- fection, endothelial dysfunction. Results. This review presents the pathogenetic links of COVID-19, mechanisms of viral endothelial damage, mechanisms of hypercoagulopathy, the main directions of prevention and treatment of endothelial dysfunction. Conclusions. The examination convincingly showed that SARS-CoV-2 infection promotes the development of endotheliitis in various organs as a result of viral infection. The presence of COVID-19-induced endotheliitis can explain the systemic microcirculation disorders in various vascular channels and their clinical consequences. © 2022. The Authors.

Pandemic stress induces systemic immune changes and placental inflammation independently of SARS-CoV-2 infection in pregnancies

Problem: Environmental stress during pregnancy has known impacts on both maternal and fetal health. In terms of theCOVID-19 pandemic, the majority of published work has focused on the impact of the infection itself, without considering the potential immune impact of pandemic related-stress.We, therefore, assessed the impact of pandemic stress, independently of SARS-CoV-2 infection, on the circulating and placental immune profiles of pregnant individuals. Method(s): Placentas from 239 patients were collected at the Sainte- Justine Hospital, Montreal, Canada. Of these, 199 patients delivered during the pandemic and were exposed to pandemic stress with (+: 79) or without (-: 120) SARS-CoV-2 infection, the latter exposed to pandemic stress only. Pre-pandemic historic controls (uncomplicated pregnancies, Ctrl: 40), were also included. Placental biopsies were collected to assess cytokine levels by ELISAs and histopathological lesions. A sub-study with 35 pre-pandemic pregnancies (unexposed) and 20 who delivered during the pandemic (exposed) was also conducted. The latter (exposed/unexposed) were all uncomplicated pregnancies. We collected maternal blood prior to delivery for immunophenotyping, and plasma/peripheral blood mononuclear cells (PBMCs) were isolated. Inflammatory mediators in the plasma were quantified by ELISAs. Co-culture assays with PBMCs and human umbilical vein endothelial cells (HUVECs) were performed to assess endothelial activation. Demographical/obstetrical data were obtained through chart review. Result(s): SARS-CoV-2+ patients were multiethnic (63.4%), had higher pre-pregnancyBMI (28.9 vs. 24.8 inCtrl, P<.05), and elevated preterm birth rate (16.5% vs. 5.8% in SARS-CoV-2-, P < .05 and 0.0% in Ctrl, P < .01). In the placentas, we observed an increase in the levels of IL- 1Ra (P < .05) and CRP (P < .05) in both SARS-CoV-2 groups, while IL-6 (P = .0790) and MCP-1 (P < .001) were elevated solely in SARS-CoV- 2-. These changes were predominant in placentas with inflammatory lesions on histopathological analysis. Moreover, we observed elevated CD45+ cells (P < .001) in the placentas from both SARS-CoV-2 groups versus Ctrl. Considering that the differences we observed were important in the SARS-CoV-2- group, we performed a study solely on uncomplicated pregnancies, either exposed or unexposed to pandemic stress. At the systemic level, we observed a decrease in the percentage of Th2 cells (P < .001), leading to a pro-inflammatory Th1/Th2 imbalance in exposed individuals. Decreased Treg (P < .05) and Th17 (P < .05) versus unexposed was also observed. Surprisingly, decreased levels of circulating IL-6 (P < .05), MCP-1 (P < .01), and CRP (P<.05) were seen in exposed versus unexposed individuals. Finally,we observed increased secretion of ICAM, a marker of endothelial activation, solely in endothelial cells co-cultured with PBMCs from exposed individuals. Conclusion(s): Overall, placental inflammatory profiles differed between pregnant individuals exposed to pandemic stress with or without SARS-CoV-2 infection. Moreover, we observed that the pandemic stress exposed group presented a systemic pro-inflammatory bias. This highlights the need to understand the differences between the effects of pandemic-related stress and the added burden of SARS-CoV-2 infection itself on maternal and fetal health. Our work also supports an association between an increased risk of hypertension/ preeclampsia and SARS-CoV-2 infection that might be driven in part by pandemic-related stress.

Repurposing Metformin for Vascular Disease.

Metformin has seen use as an oral anti-hyperglycaemic drug since the late 1950s; however, following the release in 1998 of the findings of the 20-year United Kingdom Prospective Diabetes Study (UKPDS) metformin use rapidly increased and today is the first-choice anti-hyperglycaemic drug for patients with type 2 diabetes (T2D). Metformin is in daily use by an estimated 150 million people worldwide. Historically, the benefits of metformin as an anti-diabetic and cardiovascular-protective drug have been linked to effects in the liver, where it acts to inhibit gluconeogenesis and lipogenesis, as well as reducing insulin resistance and enhancing peripheral glucose utilization. However, direct protective effects on the endothelium and effects in the gut prior to metformin absorption are now recognized as being important. In the gut, metformin modulates the glucagon-like peptide-1 (GLP-1)- gut-brain axis as well as impacting the intestinal microbiota. As the apparent number of putative tissue and cellular targets for metformin has increased, so has interest in re-purposing metformin to treat other diseases that include polycystic ovary syndrome (PCOS), cancer, neurodegenerative diseases and COVID-19. Metformin is also being investigated as an anti-ageing drug. Of particular interest is whether metformin provides the same level of vascular protection in individuals other than those with T2D, including obese individuals with metabolic syndrome, or in the setting of vascular thromboinflammation caused by SARS-CoV-2. In this review we critically evaluate the literature to highlight clinical settings in which metformin might be therapeutically repurposed for the prevention and treatment of vascular disease.

Basement membrane product, endostatin, as a link between inflammation, coagulation and vascular permeability in COVID-19 and non-COVID-19 acute respiratory distress syndrome.

Background: Immune cell recruitment, endothelial cell barrier disruption, and platelet activation are hallmarks of lung injuries caused by COVID-19 or other insults which can result in acute respiratory distress syndrome (ARDS). Basement membrane (BM) disruption is commonly observed in ARDS, however, the role of newly generated bioactive BM fragments is mostly unknown. Here, we investigate the role of endostatin, a fragment of the BM protein collagen XVIIIα1, on ARDS associated cellular functions such as neutrophil recruitment, endothelial cell barrier integrity, and platelet aggregation in vitro. Methods: In our study we analyzed endostatin in plasma and post-mortem lung specimens of patients with COVID-19 and non-COVID-19 ARDS. Functionally, we investigated the effect of endostatin on neutrophil activation and migration, platelet aggregation, and endothelial barrier function in vitro. Additionally, we performed correlation analysis for endostatin and other critical plasma parameters. Results: We observed increased plasma levels of endostatin in our COVID-19 and non-COVID-19 ARDS cohort. Immunohistochemical staining of ARDS lung sections depicted BM disruption, alongside immunoreactivity for endostatin in proximity to immune cells, endothelial cells, and fibrinous clots. Functionally, endostatin enhanced the activity of neutrophils, and platelets, and the thrombin-induced microvascular barrier disruption. Finally, we showed a positive correlation of endostatin with soluble disease markers VE-Cadherin, c-reactive protein (CRP), fibrinogen, and interleukin (IL)-6 in our COVID-19 cohort. Conclusion: The cumulative effects of endostatin on propagating neutrophil chemotaxis, platelet aggregation, and endothelial cell barrier disruption may suggest endostatin as a link between those cellular events in ARDS pathology.

Reduced anticoagulation strategy is associated with a lower incidence of intracerebral hemorrhage in COVID-19 patients on extracorporeal membrane oxygenation.

BACKGROUND: Optimal anticoagulation strategies for COVID-19 patients with the acute respiratory distress syndrome (ARDS) on venovenous extracorporeal membrane oxygenation (VV ECMO) remain uncertain. A higher incidence of intracerebral hemorrhage (ICH) during VV ECMO support compared to non-COVID-19 viral ARDS patients has been reported, with increased bleeding rates in COVID-19 attributed to both intensified anticoagulation and a disease-specific endotheliopathy. We hypothesized that lower intensity of anticoagulation during VV ECMO would be associated with a lower risk of ICH. In a retrospective, multicenter study from three academic tertiary intensive care units, we included patients with confirmed COVID-19 ARDS requiring VV ECMO support from March 2020 to January 2022. Patients were grouped by anticoagulation exposure into higher intensity, targeting anti-factor Xa activity (anti-Xa) of 0.3-0.4 U/mL, versus lower intensity, targeting anti-Xa 0.15-0.3 U/mL, cohorts. Mean daily doses of unfractionated heparin (UFH) per kg bodyweight and effectively measured daily anti-factor Xa activities were compared between the groups over the first 7 days on ECMO support. The primary outcome was the rate of ICH during VV ECMO support. RESULTS: 141 critically ill COVID-19 patients were included in the study. Patients with lower anticoagulation targets had consistently lower anti-Xa activity values over the first 7 ECMO days (p < 0.001). ICH incidence was lower in patients in the lower anti-Xa group: 4 (8%) vs 32 (34%) events. Accounting for death as a competing event, the adjusted subhazard ratio for the occurrence of ICH was 0.295 (97.5% CI 0.1-0.9, p = 0.044) for the lower anti-Xa compared to the higher anti-Xa group. 90-day ICU survival was higher in patients in the lower anti-Xa group, and ICH was the strongest risk factor associated with mortality (odds ratio [OR] 6.8 [CI 2.1-22.1], p = 0.001). CONCLUSIONS: For COVID-19 patients on VV ECMO support anticoagulated with heparin, a lower anticoagulation target was associated with a significant reduction in ICH incidence and increased survival.

Functioning of the ADAMTS-13/vWF axis and its clinical significance

Advances in biology have allowed us to substantially deepen our knowledge about hemostasis functioning both in health and disease. ADAMTS-13 (a disintegrin and metalloproteinase with thrombospondin type 1 motif, member 13) and von Willebrand factor (vWF) are components of the hemostasis system, which physiological interaction holds an important place in maintaining homeostasis. ADAMTS-13 is a metalloproteinase mainly acting to release vWF fragments into the blood plasma, as well as regulating its activity by cleaving ultra-large vWF multimers (UL-vWF) into smaller and less active forms. The study of such factors is of great clinical importance, since a decrease in ADAMTS-13 activity and an increase in vWF level can be predictors of microcirculatory disorders that play an important role in developing multiple organ failure. However, very few and fully contradictory studies devoted to the physiological aspects of the ADAMTS-13/vWF axis functioning in the mother-fetus system are available, therefore requiring to be further investigated.Copyright © 2023 Russian Journal of Forensic Medicine. All rights reserved.

Relationship between COVID-19 infection and erectile dysfunction, a literature review examining the link and proposed mechanisms behind this phenomenon

It is now only in the wake of coronavirus disease 2019 (COVID-19) that we are beginning to understand many of the extra-respiratory manifestations of the condition. There is now growing evidence that erectile dysfunction (ED) is closely linked with the disease. We carry out one of the first literature reviews to consolidate the current evidence of the causal link between COVID-19 and ED and explore the proposed mechanisms that underpin this phenomenon. We carried out a literature search of the databases;PubMed (MEDLINE), Scopus, Web of Science and the Cochrane library. Search time frame was between December 2019 and March 2022. Only studies deemed of acceptable quality were included. Five studies were found highlighting the link between COVID-19 and ED. A further Nineteen studies were utilized to illustrate the proposed biological mechanisms underpinning COVID-19 related ED. Clear evidence has been documented through multiple studies internationally recognizing reduction in erectile scores and reduced sexual activity. It appears there is likely indirect and direct cytopathic effects on endothelial cells, in addition to hormonal and psychosocial factors. The associated ED is likely a result of a multitude of mechanisms including direct and indirect endothelial dysfunction, vasoactive cytokines, endocrine dysregulation, and psychosocial factors. This is the first literature review to delve into the likely underpinning mechanisms of the virus that drive ED.Copyright ©2023 The Author(s). Published by MRE Press.

Pre-existing chronic liver disease is associated with poor outcome in patients with SARS-CoV2 infection

COVID-19 is characterized by predominant respiratory and gastrointestinal symptoms. Liver enzymes derangement is seen in 15-55% of the patients. Cirrhosis is characterized by immune dysregulation, leading to concerns that these patients may be at increased risk of complications following severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection. Patients with metabolic dysfunction-associated fatty liver (MAFLD) had shown a 4-sixfold increase in severity of COVID-19, and its severity and mortality increased in patients with higher fibrosis scores. Patients with chronic liver disease had shown that cirrhosis is an independent predictor of severity of COVID-19 with increased hospitalization and mortality. An international European registry study included 756 patients with chronic liver disease from 29 countries reports high mortality in patients with cirrhosis (32%). Data of 228 patients collected from 13 Asian countries on patients with CLD, known or newly diagnosed, with confirmed COVID-19 (APCOLIS study) showed that SARSCoV- 2 infection produces acute liver injury in 43% of CLD patients without cirrhosis. Additionally, 20% of compensated cirrhosis patients develop either ACLF or acute decompensation. In decompensated cirrhotics, the liver injury was progressive in 57% of patients, with 43% mortality. Patients with CLD and associated diabetes and obesity had a worse outcome. Liver related complications were seen in nearly half of the decompensated cirrhotics, which were of greater severity and with higher mortality. Increase in Child Turcotte Pugh (CTP) score and model for end-stage liver disease (MELD) score increases the mortality in these patients. In a subsequent study of 532 patients from 17 Asian countries was obtained with 121 cases of cirrhosis. An APCOLIS risk score was developed, which included presence of comorbidity, low platelet count, AKI, HE and respiratory failure predicts poor outcome and an APCOLIS score of 34 gave a sensitivity and specificity of 79.3%, PPV of 54.8% and NPV of 92.4% and predicted higher mortality (54.8% vs 7.6%, OR = 14.3 [95 CI 5.3-41.2], p<0.001) in cirrhosis patients with Covid-19. The APCOLIS score is helpful in triaging and prognostication of cirrhotics with Coivd-19. The impact of COVID-19 on patients with cirrhosis due to non-alcoholic fatty liver disease (NASH-CLD) was separately studied in 177 NASH-CLD patients. Obese patients with diabetes and hypertension had a higher prevalence of symptomatic COVID. Presence of diabetes [HR 2.27], fraility [HR 2.68], leucocyte counts [HR 1.69] and COVID-19 were independent predictors of worsening liver functions in patients with NASH-CLD. Severity of Covid in Cirrhosis could also be assessed by measuring ICAM1 the Intercellular Adhesion Molecule, an indicator of Endothelial Injury Marker. in Cirrhosis with Covid 19 Immunosuppression should be reduced prophylactically in patients with autoimmune liver disease and post-transplantation with no COVID-19. Hydroxychloroquine and remdesivir are found to be safe in limited studies in a patient with cirrhosis and COVID-19. And is safe in cirrhosis patients. However, flare of AIH has been reported in AIH patients. For hepatologists, cirrhosis with COVID-19 is a pertinent issue as the present pandemic cause severe disease in patients with chronic liver disease leading to more hospitalization and decompensation.

A year in review: brain barriers and brain fluids research in 2022.

This aim of this editorial is to highlight progress made in brain barrier and brain fluid research in 2022. It covers studies on the blood-brain, blood-retina and blood-CSF barriers (choroid plexus and meninges), signaling within the neurovascular unit and elements of the brain fluid systems. It further discusses how brain barriers and brain fluid systems are impacted in CNS diseases, their role in disease progression and progress being made in treating such diseases.

The efficacy of therapeutic plasma exchange in COVID-19 patients on endothelial tightness in vitro is hindered by platelet activation.

Coronavirus disease (COVID)-19 is characterised in particular by vascular inflammation with platelet activation and endothelial dysfunction. During the pandemic, therapeutic plasma exchange (TPE) was used to reduce the cytokine storm in the circulation and delay or prevent ICU admissions. This procedure consists in replacing the inflammatory plasma by fresh frozen plasma from healthy donors and is often used to remove pathogenic molecules from plasma (autoantibodies, immune complexes, toxins, etc.). This study uses an in vitro model of platelet-endothelial cell interactions to assess changes in these interactions by plasma from COVID-19 patients and to determine the extent to which TPE reduces such changes. We noted that exposure of an endothelial monolayer to plasmas from COVID-19 patients post-TPE induced less endothelial permeability compared to COVID-19 control plasmas. Yet, when endothelial cells were co-cultured with healthy platelets and exposed to the plasma, the beneficial effect of TPE on endothelial permeability was somewhat reduced. This was linked to platelet and endothelial phenotypical activation but not with inflammatory molecule secretion. Our work shows that, in parallel to the beneficial removal of inflammatory factors from the circulation, TPE triggers cellular activation which may partly explain the reduction in efficacy in terms of endothelial dysfunction. These findings provide new insights for improving the efficacy of TPE using supporting treatments targeting platelet activation, for instance.

PIMT is a novel and potent suppressor of endothelial activation.

Proinflammatory agonists provoke the expression of cell surface adhesion molecules on endothelium in order to facilitate leukocyte infiltration into tissues. Rigorous control over this process is important to prevent unwanted inflammation and organ damage. Protein L-isoaspartyl O-methyltransferase (PIMT) converts isoaspartyl residues to conventional methylated forms in cells undergoing stress-induced protein damage. The purpose of this study was to determine the role of PIMT in vascular homeostasis. PIMT is abundantly expressed in mouse lung endothelium and PIMT deficiency in mice exacerbated pulmonary inflammation and vascular leakage to LPS(lipopolysaccharide). Furthermore, we found that PIMT inhibited LPS-induced toll-like receptor signaling through its interaction with TNF receptor-associated factor 6 (TRAF6) and its ability to methylate asparagine residues in the coiled-coil domain. This interaction was found to inhibit TRAF6 oligomerization and autoubiquitination, which prevented NF-κB transactivation and subsequent expression of endothelial adhesion molecules. Separately, PIMT also suppressed ICAM-1 expression by inhibiting its N-glycosylation, causing effects on protein stability that ultimately translated into reduced EC(endothelial cell)-leukocyte interactions. Our study has identified PIMT as a novel and potent suppressor of endothelial activation. Taken together, these findings suggest that therapeutic targeting of PIMT may be effective in limiting organ injury in inflammatory vascular diseases.

Research progress of angiotensin-converting enzyme-2 in septic acute respiratory distress syndrome

Acute respiratory distress syndrome (ARDS) is a common clinical syndrome in intensive care unit. Sepsis is a clinical syndrome, which is with life-threatening organ function damage caused by infection. As an important part of local microcirculation, the structure of alveolar-capillary membrane is easily damaged in the course of sepsis. So sepsis is the most prime and important inducing factor of ARDS, and it has higher mortality and fatality. As an important constitution of renin-angiotensin system (RAS), angiotensin-converting enzyme-2 (ACE-2) has the function of protecting endothelium and regulating the expression of inflammatory factors, so it has received additional attention in recent years. Through the intervention of ACE-2, ARDS and the severity of COVID- 19 can be affected to a certain extent, so the role of ACE-2 in septic ARDS is worth discussing. This paper summarizes the biological characteristics and main mechanism of ACE-2, discusses the possible role of ACE-2 in septic ARDS, and finally explores the significance of ACE-2 in the evaluation and treatment of septic ARDS, in order to provide reference and inspiration for clinical treatment of sepsis-related ARDS.

Septic cavernous sinus thrombosis in a patient with COVID-19.

The cavernous sinus is one of the dural venous sinuses which plays an important role in venous outflow from the brain and eye sockets and in the regulation of intracranial circulation. We report a case of septic cavernous sinus thrombosis in a female patient with COVID-19. The disease often results in alterations of blood rheology, thrombosis in different organs, and septic complications. This article aims to raise awareness of healthcare professionals about the characteristics of COVID-19 that might cause septic cavernous sinus thrombosis in patients with severe comorbidities. Laboratory testing revealed severe comorbidities, including diabetes mellitus and liver cirrhosis caused by hepatitis C. They manifested with an impaired protein production in the liver and coagulation disorders. Systemic effects of SARS-CoV-2 on the vascular endothelium aggravated preexisting coagulation disorders and led to hemorrhage into retrobulbar tissue and clinical signs of septic cavernous sinus thrombosis, including swelling of the eyelids, bilateral exophthalmos, and ophthalmoplegia, followed by necrosis of the facial skin.Copyright © 2022, Dynasty Publishing House. All rights reserved.

SUBPOPULATION COMPOSITION OF PERIPHERAL BLOOD LYMPHOCYTES IN COVID-19.

The pathogenesis of severe coronavirus infection COVID-19 is associated with activation of immune system, cytokine storm, impaired blood clotting, microvascular thrombosis, organ ischemia and multiple organ dysfunction syndrome. The role of various lymphocyte subpopulations in COVID-19 is still debated. The aim of our study was to analyze the subpopulational profile of peripheral blood lymphocytes in COVID-19 patients as compared with healthy donors. The study included 20 COVID-19 patients (11 males and 9 females,) and 26 healthy donors. Average age of the patients was 52 and 56 years, respectively. Clinical examinations were performed by standard laboratory methods. Peripheral blood lymphocytes were isolated in the Ficoll gradient. The cells were stained with antibodies to specific antigens of main lymphocyte populations, endothelial cells, and apoptotic cell markers. The analysis was performed by flow cytometry. The results showed that all patients had elevated C-reactive protein (14- to 35-fold), ferritin (1.2- to 13-fold), D-dimers (1.2- to 90-fold). 55% of men had a decrease in the absolute number of lymphocytes, in women this index was at the low normal limit. Cytometric analysis showed that, among peripheral blood lymphocytes, the proportion of functional cells expressing the CD45 marker ranged from 2 to 12% in 70% of patients, as compared with 80-99% among the donors. The proportion of CD45+ lymphocytes significantly correlated with the level of hemoglobin, but not with the levels of inflammatory biochemical markers. Among the functional lymphocytes of patients, there was a decrease in the proportion of CD3+, CD4+, CD8+T cells, increased proportion of natural killer CD56+ and the apoptotic (AnnexinV+) cell contents, but the proportion of CD19 and HLA-DR+B cells was not changed. Analysis of the lymphocyte (LC) subpopulations that did not express CD45 marker showed that this fraction contained different lymphocyte subsets with reduced expression of CD4, CD8, CD19, CD56 etc. in the blood of patients and donors. Higher percentage of endothelial cells expressing CD62P marker made the difference between patients and donors. Laboratory determination of lymphocyte subsets in blood samples of COVID-19 patients does not reflect the real severity pattern of the disease, thus requiring studies of the CD45-expressing functional cell populations.Copyright © Svirshchevskaya E.V. et al., 2023 The article can be used under the Creative Commons Attribution 4.0 License.

Inflammatory Pathways Associated with Covid-19 Severity Differ Based on Obesity Status

Background: Severe COVID-19 and obesity are characterized by higher inflammation. We aimed to examine early inflammatory patterns in people with (Ob) and without (NOb) obesity and COVID-19 and how they relate to COVID-19 disease severity Methods: Ob (BMI >30 Kg/m2) and NOb with COVID-19 matched for age, sex and WHO disease severity provided blood early after diagnosis. Immunoassays measured 57 plasma biomarkers reflecting innate immune and endothelial activation, systemic inflammation, coagulation, metabolism and microbial translocation (Fig 1). Between-group differences were assessed by Mann- Whitney. Associations between subsequent maximal COVID-19 severity (mild vs moderate/severe/critical) and biomarkers were explored by logistic regression adjusted for age, sex, hypertension (HTN) and diabetes (DM). Data are median pg/mL [IQR] or n [%] unless stated Results: Of 100 subjects (50 Ob and 50 Nob) presenting between April 2020 and March 2021, characteristics (Ob vs Nob) included: age 65 [23-91] vs 65 [21-95];female sex 27 (48%) vs 28 (56%);BMI 33.7 [30.0-71.8] vs 23.3 [15.3-25.9];disease severity mild 22 [48%] vs 23 [46%], moderate 15 [30%] vs 13 [26%], severe 6 [12%] vs 7 [14%];HTN 30 (60%) vs 17 (34%);DM 19 [38%] vs 6 [12%];days from symptom onset 7 [2-17] vs 8 [1-15];vaccinated 3 (6%) vs 0 (0%). Compared to NOb, Ob had higher IFN-alpha (1.8 [0.6;11] vs 0.9 [0.1;4.7]), CRP (10 mAU/mL [9.6;10.2] vs 9.7 [7.2;10]), IL-1RA (197 [122;399] vs 138 [88;253]), IL-4 (288 AU/mL [161;424] vs 205 [82;333]), vWF (252 [166;383] vs 163 [96;318]), Zonulin (114 ng/mL [77;131] vs 57 [18;106]), Resistin (956 [569;1153] vs 727 [712;1525]), Leptin (3482 [1513;5738] vs 848 [249;2114]), and lower Adiponectin (1.12 mg/L [0.09;1.5] vs 1.5 [1.18;1.93]), all p< 0.05. In both groups higher, proinflammatory IL-18 and lower levels of antiinflammatory CCL22 and IL-5 were associated with higher odds of disease severity, and lower E-selectin with higher disease severity only in Ob. However, in NOb higher type 3 interferons (IL-28A), macrophage activation (sCD163, CCL3) and vascular inflammation markers (ICAM-1, VCAM-1), along with higher S100B, GM-CSF and leptin were also associated with disease severity, a pattern not observed in Ob (Fig 1) Conclusion(s): Although Ob had higher overall levels of inflammation than NOb, few biomarkers predicted subsequent COVID-19 severity in Ob. These differential inflammatory patterns suggest dysregulated immune responses in Ob with COVID-19. (Figure Presented).