Covid19-Sources

Background Persistent symptoms and complications reported by many patients for more than four weeks after contracting coronavirus disease 2019 (COVID-19) are referred to as post-COVID-19 syndrome. These persistent symptoms can occur in individuals with both mild and severe COVID-19, though the underlying pathophysiological mechanisms remain poorly understood. This study aims to explore post-COVID-19 syndrome from a biological perspective, focusing on genomic instability. Methods In this cross-sectional study, the comet assay method was employed in March 2024 to evaluate the level of DNA damage in 29 patients to examine the post-COVID-19 syndrome state at Kausar Semnan Hospital in Iran. Levels of DNA damage were assessed using the alkaline comet assay in patients hospitalized for COVID-19, four weeks after a positive RT-PCR test. Patients were categorized based on pneumonia severity: mild (11 patients in non-ICU), moderate (10 patients in ICU and non-intubated), and severe/critical (8 patients in ICU and intubated). Ten healthy individuals who tested negative for COVID-19 were considered as a control group. Data were analyzed using descriptive and inferential statistical tests at a significance level of p  0.01 in GraphPad Prism 9 software. Results Post-COVID-19 patients exhibited significantly higher levels of DNA damage compared to healthy controls. The highest DNA damage was observed in intubated-ICU patients (mean DNA damage: 29.5%), followed by non-intubated-ICU patients (mean: 24.3%), non-ICU patients (mean: 19.1%), and healthy controls (mean: 9.4%). These findings suggest a clear correlation between COVID-19 severity and increased genomic instability. Conclusion The results of this study highlight the prevalence of DNA damage in post-COVID-19 patients, which may explain long-term genomic instability and associated health complications. The findings underscore the importance of further research into the pathophysiological mechanisms of post-COVID-19 syndrome, particularly its impact on genomic stability. This study contributes to the growing evidence that post-COVID-19 syndrome is a complex condition with virus-specific abnormalities affecting multiple biological pathways. Future studies should focus on understanding these mechanisms to develop targeted interventions for long-term COVID-19 survivors.

The COVID-19 pandemic continues to pose severe health and economic challenges, exacerbated by emerging antiviral drug resistance. As of now, there are several vaccines and a few FDA-approved drugs available; however, due to the emergence of antiviral drug resistance still there is a need for novel strategies and antiviral drugs. This study investigates honey bee-derived antimicrobial peptides (BAMPs) as potential multi-target antiviral agents against SARS-CoV-2. A total of 82 BAMPs from eight bee species, classified into seven peptide classes, were screened for favorable pharmacokinetic and pharmacodynamic properties. Finally, seventeen BAMPs were selected, modeled, and validated for further structural studies. Molecular docking revealed strong binding affinities with key viral and host targets, surpassing several FDA-approved antivirals. These interactions suggest BAMPs may inhibit viral entry, replication, and dissemination. Further, molecular dynamics simulation studies confirmed the stability, compactness, and flexibility of the docked complexes. Overall, present study highlight BAMPs as promising candidates for SARS-CoV-2 therapeutics, while warranting further in vitro and in vivo validation.

A rheumatologist calls for greater awareness among her colleagues but also emphasizes that these patients require multidisciplinary care.

A new study on acceleration of vascular aging adds to the body of evidence

SARS-CoV-2 infection can be followed by prolonged symptoms, signs and sequelae, collectively known under the term Long COVID. Hundreds of millions are estimated to suffer from Long COVID. Long COVID, therefore, is a public health crisis that deserves the utmost urgency from all relevant stakeholders, from policymakers to advocacy groups, researchers and healthcare providers. The development of effective definitions and guidelines for Long COVID is crucial to support patients and carers. In this review, I address the following two case definitions of Long COVID developed in the US as a case study for a broader discussion on the sequelae of SARS-CoV-2 infection: the U.S. Government (USG) working definition for Long COVID and the NASEM definition published in 2024. In the first part of this review, I provide a critical appraisal of the USG in light of research, pathophysiology and lived experience, building upon my intervention as a patient expert on a National Academies of Sciences, Engineering, and Medicine (NASEM) panel for defining Long COVID, which examined the USG. In the second part, I raise some pressing concerns to address when approaching Long COVID as a disease entity and as a concept, which I originally submitted to NASEM. In the third part, I offer a critical appraisal of the NASEM definition, the most recent benchmark for Long COVID in the US. The review highlights the importance of broad, expansive and inclusive definitions for Long COVID, accounting for the disease’s heterogeneous, fluctuating and multi-system manifestations. Clinical case definitions for Long COVID must retain their focus on the broader spectrum and scope of the disease entity, while incorporating feedback from people with lived experience, advocates and patient-researchers.

AbstractBackground and Aims. Increasing evidence suggests that COVID-19 survivors experience long-term cardiovascular complications possibly through develo

Eine neue Studie zeigt, dass Covid-Infektionen die Blutgefäße schneller altern lassen könnten. Besonders Frauen und Ungeimpfte sind gefährdet. Experten sprechen von einem Weckruf und fordern weitere Untersuchungen.

Background: SARS-CoV-2, originally described as a respiratory pathogen, has been identified as a multisystem disease with complex and interconnected pathophysiological processes. Methods: The PRISMA framework was used to systematically review the evidence and identify and synthesize it in PubMed, Scopus and Web of Science between January 2020 and December 2025. Of the 1,410 screened records, 147 peer-reviewed studies involving more than 2 million patients were included. The frequency of organ involvement, important biomarkers and long-term outcomes were derived and the quality of the studies was assessed using standardized tools. Results: The quantitative synthesis showed that 78 % of hospitalized patients had pulmonary involvement, 32 % cardiovascular, 43 % neurological and 28 % renal, with 10–35 % showing persistent organ dysfunction at 6 months post-infection. The most common were cytokine storm (IL-6 100 pg/mL in 72% of severe cases), endothelial dysfunction (biomarkers elevated in 87% of patients) and microvascular thrombosis (D-dimer 2000 ng/mL in 46% of patients). Most domains were scored as having moderate-to-high confidence in quality assessment. Conclusions: COVID-19 has long-term, multi-organ sequelae that require integrated multidisciplinary management. Healthcare systems should be ready to participate in long-term monitoring, rehabilitation and special therapeutic development. The results offer a strong evidence base for clinical practice and post-pandemic health policy.

Background COVID-19 reinfections have emerged as a critical concern, particularly in relation to post-acute sequelae of SARS-CoV-2 infection, commonly known as long COVID. Long COVID is known to manifest diverse, debilitating symptoms across all demographics. Limited studies have investigated the causal relationship of COVID-19 reinfections and long COVID. Methods We leveraged demographically diverse electronic health records from the COVID-19 enclave of the National Clinical Cohort Collaborative, part of the RECOVER initiative, to create a matched cohort of reinfected and control adults. All participants had at least one documented COVID-19 infection. We used one-to-one coarsened exact matching on sex, race/ethnicity, age, healthcare utilization, existing comorbidities, site of care, and the timing and severity of first infection. Index dates were assigned to each matched pair as the date of reinfection for the reinfected case. Long COVID was defined using a machine learning computable phenotype trained on clinically diagnosed long COVID cases. Cumulative incidence one year after index was calculated using an Aalen-Johansen estimator. Risk ratios were calculated by taking the ratio of long COVID incidence among reinfected and control cases. Results We found that reinfection resulted in a significantly higher risk of long COVID compared to not being reinfected (risk ratio, 1.35, 95% CI, 1.32-1.39; risk difference, 0.029, 95% CI, 0.027-0.031). This effect was consistent across most stratifications. Conclusions We found that COVID-19 reinfection resulted in a roughly 35% increase in the incidence of long COVID in a matched cohort using observational electronic health records. ### Competing Interest Statement The authors have declared no competing interest. ### Funding Statement This study was funded by NCATS Contract No. 75N95023D00001, Axle Informatics Subcontract: NCATS-P00438-B, and by the RECOVER Initiative (OT2HL161847-01). ### Author Declarations I confirm all relevant ethical guidelines have been followed, and any necessary IRB and/or ethics committee approvals have been obtained. Yes The details of the IRB/oversight body that provided approval or exemption for the research described are given below: IRB of Johns Hopkins University gave ethical approval for data transfer for N3C IRB of RTI International waived ethical approval for analysis for this study. I confirm that all necessary patient/participant consent has been obtained and the appropriate institutional forms have been archived, and that any patient/participant/sample identifiers included were not known to anyone (e.g., hospital staff, patients or participants themselves) outside the research group so cannot be used to identify individuals. Yes I understand that all clinical trials and any other prospective interventional studies must be registered with an ICMJE-approved registry, such as ClinicalTrials.gov. I confirm that any such study reported in the manuscript has been registered and the trial registration ID is provided (note: if posting a prospective study registered retrospectively, please provide a statement in the trial ID field explaining why the study was not registered in advance). Yes I have followed all appropriate research reporting guidelines, such as any relevant EQUATOR Network research reporting checklist(s) and other pertinent material, if applicable. Yes All data used and produced in the present work are available online to registered users of the National Clinical Cohort Collaborative (N3C). More information on how to register and obtain access can be found at https://covid.cd2h.org/for-researchers

Epidemiological estimates from wastewater are not biased by testing rates but may be subject to other biases. Here, the authors investigate the impact of variable virus shedding profiles for different SARS-CoV-2 variants on estimates of their selection advantage.

Background and Objectives: COVID-19 may have long-term adverse effects on bone health, particularly in individuals aged ≥50 years with obesity or diabetes, who are predisposed to impaired bone quality. Materials and Methods: This retrospective cohort study used TriNetX data from 141 healthcare organizations across North America and Western Europe. Patients aged ≥50 years with overweight (body mass index 25–30 kg/m2), obesity (body mass index ≥ 30 kg/m2), or type 2 diabetes (T2DM) and COVID-19 (2019–2024) were propensity score-matched to non-COVID-19 controls. Exclusion criteria included prior overweight, obesity, diabetes, osteoporosis, T-score ≤ −2.5, Z score ≤ −2.0, fractures, pneumonia, tuberculosis, and cancer. Outcomes included new-onset osteoporosis, fragility fractures, and low T-scores (≤−2.5). Cox regression estimated hazard ratios (HRs); sensitivity analyses assessed lag effects (1–4 years). Results: Among 327,933 matched pairs, COVID-19 was linked to increased osteoporosis risk at 3 years (HR, 1.039; 95% CI, 1.003–1.077) and 6 years (HR, 1.095; 95% CI, 1.059–1.133). Sensitivity analysis showed rising risk with longer lag times: HRs were 1.212, 1.379, 1.563, and 1.884 at 1 to 4 years, respectively. Subgroup analyses confirmed consistent trends. Conclusions: COVID-19 is independently associated with elevated long-term osteoporosis risk in older adults with new-onset overweight, obesity, or T2DM, peaking at 4 years post-infection and persisting through 6 years.

SARS-CoV-2 infections in children lead to symptoms from mild respiratory illness to severe postacute sequelae of COVID-19, including multisystem inflammatory syndrome in Children (MIS-C). We conducted a metabolic profiling of 147 children’s serum samples, including acute COVID-19 patients, MIS-C patients, and healthy controls. Using nuclear magnetic resonance spectroscopy and liquid chromatography–mass spectrometry, we measured 1101 metabolites. The results revealed distinct metabolic profiles in acute COVID-19 and MIS-C patients, with significant alterations in lipid classes. Both conditions exhibited an elevated Apo-B100/Apo-A1 ratio and increased serum inflammatory markers. MIS-C patients showed unique disruptions, including increased triglycerides and altered lipoprotein composition. Despite milder clinical respiratory symptoms, children’s metabolic disturbances mirrored those seen in severe adult COVID-19 patients, indicating a shared inflammatory response to SARS-CoV-2. This suggests potential long-term health impacts, underscoring the need for continued research into the metabolic consequences of COVID-19 in children.

Background: Coronavirus Disease 2019 has been associated with dysfunction in multiple endocrine organs, including the thyroid gland. While evidence suggests SARS-CoV-2 may influence thyroid function and promote oncogenesis through inflammation and cytokine storms, its role in thyroid cancer remains unclear. This study investigates whether COVID-19 is associated with an increased risk of thyroid cancer development. Methods: We conducted a retrospective cohort study using the TriNetX global federated health research database, encompassing data from 151 healthcare organizations. Adult patients with confirmed COVID-19 between 1 December 2019 and 31 December 2023, were included and compared to a matched cohort without COVID-19. Patients with prior thyroid cancer history or who had received COVID-19 vaccination were excluded in both groups. Propensity score matching (1:1) was performed for age, gender, and overweight/obesity status. The primary outcome was that new-onset thyroid cancer was diagnosed at least one year after COVID-19 diagnosis. Hazard ratios were calculated using Cox proportional hazards models, and subgroup analyses were performed based on age, gender, thyroid function status and treatment modalities. Results: After matching, a significantly higher thyroid cancer incidence was observed between the post-COVID and non-COVID groups. Subgroup analysis revealed a significantly higher risk of thyroid cancer development following COVID-19 diagnosis in patients who developed hyperthyroidism (HR 2.14, 95% CI: 1.04–4.46) or hypothyroid-ism (HR 1.83, 95% CI: 1.12–2.97) compared with the non-COVID population. Male patients also exhibited a higher risk of thyroid cancer after COVID-19 (HR 1.22, 95% CI 1.02–1.46). For patients with hyperthyroidism or hypothyroidism, those who had prior COVID-19 exhibited a relatively higher risk of developing thyroid cancer than those without a history of COVID-19 (HR 4.387, 95% CI: 2.08–9.24 for hyperthyroidism; HR 2.58, 95% CI: 1.58–4.22 for hypothyroidism). Conclusions: Patients with COVID-19 exhibited an increase in thyroid cancer risk, with specific subgroups—male adults and those with post-infectious thyroid dysfunction—also exhibiting increased risk. These findings suggest a potential relationship between SARS-CoV-2 and thyroid oncogenesis, warranting further prospective research.

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and Long Covid-19 (LC-19) are complex conditions with no diagnostic markers or consensus on disease progression. Despite extensive research, no in vitro model exists to study skeletal muscle wasting, peripheral weakness, or potential therapies. We developed 3D in vitro skeletal muscle tissues to map muscle adaptations to patient sera over time. Short exposures (48 H) to patient sera led to a significant reduction in muscle contractile strength. Transcriptomic analysis revealed the upregulation of protein translation, glycolytic enzymes, disturbances in calcium homeostasis, hypertrophy, and mitochondrial hyperfusion. Structural analyses confirmed myotube hypertrophy and elevated mitochondrial oxygen consumption In ME/CFS. While muscles initially adapted by increasing glycolysis, prolonged exposure (96–144 H) caused muscle fragility and weakness, with mitochondria fragmenting into a toroidal conformation. We propose that skeletal muscle tissue in ME/CFS and LC-19 progresses through a hypermetabolic state, leading to severe muscular and mitochondrial deterioration. This is the first study to suggest such transient metabolic adaptation.

Erlangen - Viele hatten darauf gehofft, nun meldet das Team um Oberärztin Bettina Hohberger aus Erlangen einen ersten Erfolg: Eine Studie zeigt, dass das Medikament BC007 gegen chronische Erschöpfung nach einer Corona-Infektion helfen kann.

Scientific Reports - Validation of the age, neutrophil to lymphocyte ratio, C reactive protein score on 28 day mortality in the National COVID cohort collaborative

BACKGROUND: COVID-19 is associated with acute risk of major adverse cardiac events (MACE), including myocardial infarction, stroke, and mortality (all-cause). However, the duration and underlying determinants of heightened risk of cardiovascular disease and MACE post–COVID-19 are not known. METHODS: Data from the UK Biobank was used to identify COVID-19 cases (n=10 005) who were positive for polymerase chain reaction (PCR+)-based tests for SARS-CoV-2 infection (n=8062) or received hospital-based International Classification of Diseases version-10 (ICD-10) codes for COVID-19 (n=1943) between February 1, 2020 and December 31, 2020. Population controls (n=217 730) and propensity score—matched controls (n=38 860) were also drawn from the UK Biobank during the same period. Proportional hazard models were used to evaluate COVID-19 for association with long-term (>1000 days) risk of MACE and as a coronary artery disease risk equivalent. Additional analyses examined whether COVID-19 interacted with genetic determinants to affect the risk of MACE and its components. RESULTS: The risk of MACE was elevated in COVID-19 cases at all levels of severity (HR, 2.09 [95% CI, 1.94–2.25]; P<0.0005) and to a greater extent in cases hospitalized for COVID-19 (HR, 3.85 [95% CI, 3.51–4.24]; P<0.0005). Hospitalization for COVID-19 represented a coronary artery disease risk equivalent since incident MACE risk among cases without history of cardiovascular disease was even higher than that observed in patients with cardiovascular disease without COVID-19 (HR, 1.21 [95% CI, 1.08–1.37]; P<0.005). A significant genetic interaction was observed between the ABO locus and hospitalization for COVID-19 (Pinteraction=0.01), with risk of thrombotic events being increased in subjects with non-O blood types (HR, 1.65 [95% CI, 1.29–2.09]; P=4.8×10−5) to a greater extent than subjects with blood type O (HR, 0.96 [95% CI, 0.66–1.39]; P=0.82). CONCLUSIONS: Hospitalization for COVID-19 represents a coronary artery disease risk equivalent, with post–acute myocardial infarction and stroke risk particularly heightened in non-O blood types. These results may have important clinical implications and represent, to our knowledge, one of the first examples of a gene-pathogen exposure interaction for thrombotic events. Graphical Abstract

Subtle cognitive dysfunction and mental fatigue are frequent after severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection, characterizing the so-called long COVID-19 syndrome. This study aimed to correlate cognitive, ...

(mega-thread🧵) Chaos theory in the understanding of the COVID-19 pandemic

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The rapid spread of COVID-19 underscores the need for new treatments. Here we report that cannabidiol (CBD), a compound produced by the cannabis plant, inhibits SARS-CoV-2 infection. CBD and its metabolite, 7-OH-CBD, but not congeneric cannabinoids, potently block SARS-CoV-2 replication in lung epithelial cells. CBD acts after cellular infection, inhibiting viral gene expression and reversing many effects of SARS-CoV-2 on host gene transcription. CBD induces interferon expression and up-regulates its antiviral signaling pathway. A cohort of human patients previously taking CBD had significantly lower SARS-CoV-2 infection incidence of up to an order of magnitude relative to matched pairs or the general population. This study highlights CBD, and its active metabolite, 7-OH-CBD, as potential preventative agents and therapeutic treatments for SARS-CoV-2 at early stages of infection. ### Competing Interest Statement Five of the authors (MRR, GR, LCN, DY and JMM) filed a provisional patent entitled Method of use of Cannabidiol as an antiviral agent. Receipt of the provisional patient was acknowledged by the USPTO on November 30, 2020. S.A.O. is a cofounder and consultant at OptiKira., L.L.C. (Cleveland, OH).

Coronavirus disease-19 (COVID-19) is a highly contagious illness caused by the SARS-CoV-2 virus. The clinical presentation of COVID-19 is variable, often including symptoms such as fever, cough, headache, fatigue, and an altered sense of smell and taste. Recently, post-acute “long” COVID-19 has emerged as a concern, with symptoms persisting beyond the acute infection. Vaccinations remain one of the most effective preventative methods against severe COVID-19 outcomes and the development of long-term COVID-19. However, individuals with underlying health conditions may not mount an adequate protective response to COVID-19 vaccines, increasing the likelihood of severe symptoms, hospitalization, and the development of long-term COVID-19 in high-risk populations. This review explores the potential therapeutic role of cannabinoids in limiting the susceptibility and severity of infection, both pre- and post-SARS-CoV-19 infection. Early in the SARS-CoV-19 infection, cannabinoids have been shown to prevent viral entry, mitigate oxidative stress, and alleviate the associated cytokine storm. Post-SARS-CoV-2 infection, cannabinoids have shown promise in treating symptoms associated with post-acute long COVID-19, including depression, anxiety, post-traumatic stress injury, insomnia, pain, and decreased appetite. While current research primarily focuses on potential treatments for the acute phase of COVID-19, there is a gap in research addressing therapeutics for the early and post-infectious phases. This review highlights the potential for future research to bridge this gap by investigating cannabinoids and the endocannabinoid system as a potential treatment strategy for both early and post-SARS-CoV-19 infection.

Scientific Reports - Assessment of serum parameters caused by the outbreak of mycoplasma pneumoniae pneumonia in children after COVID-19

Sulforaphane (SFN), which is a hydrolysis product from glucoraphanin, a compound found in cruciferous vegetables, has been studied for its potential health benefits, particularly in disease prevention and treatment. SFN has proven to be effective in ...

A growing awareness of the mechanisms by which phytochemicals can influence upstream endogenous cellular defence processes has led to intensified research into their potential relevance in the prevention and treatment of disease. Pharmaceutical ...

Nordic countries maintain population-based registries that have been used to quantify long-term impacts of COVID-19. Here, the authors conduct a systematic review including studies from Sweden, Denmark and Norway on incidence of post-COVID condition, associated healthcare use, sick leave, and new onset diseases.

This cohort study investigates the association between booster vaccinations containing the JN.1 lineage and 29 serious adverse events in Denmark.

This review considers that many organs other than the lungs are affected by COVID-19. Early research largely concentrated on lung damage, although new information indicates that the virus damages at least ten primary body systems: cardiovascular, neurological, renal, hepatic, endocrine, hematological, gastrointestinal, immune and mental health. The author considers clinical trials, pathology, imaging results and biomarker investigations published by mid-2022. Common abnormalities include endothelial dysfunction, chronic inflammation, cytokine storms and microvascular damage, all of which contribute to the pathogenesis of the disease in the entire body. In this article, mild infections may lead to severe conditions including but not limited to myocarditis, brain fog, kidney disorders or immune system burnout. It also examines existing and emerging treatments-antifibrotics, immune modulators and vascular-targeted therapies-and demands a standardized approach to monitoring and management of patients on a long-term basis. This review highlighting that COVID 19 is a long-term systemic disease that requires a multidisciplinary approach.

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Scientific Reports - Inflammatory, fibrotic and endothelial biomarker profiles in COVID-19 patients during and following hospitalization