Similar diseases and pathomechanisms
Zeile 62: | Zeile 62: | ||
− | + | ||
{{tp|p=19177346|t=2009. Crystal structures of the X-domains of a Group-1 and a Group-3 coronavirus reveal that ADP-ribose-binding may not be a conserved property.|pdf=|usr=015}} | {{tp|p=19177346|t=2009. Crystal structures of the X-domains of a Group-1 and a Group-3 coronavirus reveal that ADP-ribose-binding may not be a conserved property.|pdf=|usr=015}} | ||
− | + | ||
{{tp|p=21182195|t=2011. Identification of host factors involved in coronavirus replication by quantitative proteomics analysis.|pdf=|usr=015}} | {{tp|p=21182195|t=2011. Identification of host factors involved in coronavirus replication by quantitative proteomics analysis.|pdf=|usr=015}} | ||
− | + | ||
{{tp|p=23821437|t=2013. Activation of influenza viruses by proteases from host cells and bacteria in the human airway epithelium |pdf=|usr=}} | {{tp|p=23821437|t=2013. Activation of influenza viruses by proteases from host cells and bacteria in the human airway epithelium |pdf=|usr=}} | ||
− | |||
− | |||
− | |||
− | |||
− | + | ||
− | + | ||
+ | |||
+ | |||
+ | |||
+ | |||
{{tp|p=25919649|t=2017. Hepatitis E Virus and Related Viruses in Animals.|pdf=|usr=015}} | {{tp|p=25919649|t=2017. Hepatitis E Virus and Related Viruses in Animals.|pdf=|usr=015}} | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
{{tp|p=28296228|t=2017. Coronavirus infections in horses in Saudi Arabia and Oman.|pdf=|usr=015}} | {{tp|p=28296228|t=2017. Coronavirus infections in horses in Saudi Arabia and Oman.|pdf=|usr=015}} | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
{{tp|p=29799115|t=2018. Monkey viral pathology in the Sukhum colony and modeling human viral infections.|pdf=|usr=015}} | {{tp|p=29799115|t=2018. Monkey viral pathology in the Sukhum colony and modeling human viral infections.|pdf=|usr=015}} | ||
− | |||
− | |||
{{tp|p=30461192|t=2019. Toward development of generic inhibitors against the 3C proteases of picornaviruses |pdf=|usr=}} | {{tp|p=30461192|t=2019. Toward development of generic inhibitors against the 3C proteases of picornaviruses |pdf=|usr=}} | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
{{tp|p=31144002|t=2020. Alphacoronavirus Detection in Lungs, Liver, and Intestines of Bats from Brazil.|pdf=|usr=018}} | {{tp|p=31144002|t=2020. Alphacoronavirus Detection in Lungs, Liver, and Intestines of Bats from Brazil.|pdf=|usr=018}} | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
{{tp|p=31455974|t=2019. Coronaviren als Ursache respiratorischer Infektionen.|pdf=|usr=018}} | {{tp|p=31455974|t=2019. Coronaviren als Ursache respiratorischer Infektionen.|pdf=|usr=018}} | ||
{{tp|p=31505263|t=2019. Influenza A virus infection induces liver injury in mice.|pdf=|usr=018}} | {{tp|p=31505263|t=2019. Influenza A virus infection induces liver injury in mice.|pdf=|usr=018}} | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | + | ||
+ | |||
+ | |||
+ | |||
+ | |||
{{tp|p=31801868|t=2020. Trypsin Treatment Unlocks Barrier for Zoonotic Bat Coronavirus Infection.|pdf=|usr=018}} | {{tp|p=31801868|t=2020. Trypsin Treatment Unlocks Barrier for Zoonotic Bat Coronavirus Infection.|pdf=|usr=018}} | ||
{{tp|p=31810359|t=2019. A Recombinant Influenza A/H1N1 Carrying A Short Immunogenic Peptide of MERS-CoV as Bivalent Vaccine in BALB/c Mice.|pdf=|usr=018}} | {{tp|p=31810359|t=2019. A Recombinant Influenza A/H1N1 Carrying A Short Immunogenic Peptide of MERS-CoV as Bivalent Vaccine in BALB/c Mice.|pdf=|usr=018}} | ||
− | |||
− | |||
− | |||
− | |||
{{tp|p=31861369|t=2019. Minimum Determinants of Transmissible Gastroenteritis Virus Enteric Tropism Are Located in the N-Terminus of Spike Protein.|pdf=|usr=018}} | {{tp|p=31861369|t=2019. Minimum Determinants of Transmissible Gastroenteritis Virus Enteric Tropism Are Located in the N-Terminus of Spike Protein.|pdf=|usr=018}} | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
{{tp|p=32017270|t=2020. Dynamics of transmissible gastroenteritis virus internalization unraveled by single-virus tracking in live cells.|pdf=|usr=015}} | {{tp|p=32017270|t=2020. Dynamics of transmissible gastroenteritis virus internalization unraveled by single-virus tracking in live cells.|pdf=|usr=015}} | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | {{tp|p= | + | {{tp|p=32053148|t=2020. Three Emerging Coronaviruses in Two Decades.|pdf=|usr=008}} |
− | + | ||
− | + | ||
− | + | ||
{{tp|p=32133833|t=2020. The differential diagnosis of pulmonary infiltrates in cancer patients during the outbreak of the 2019 novel coronavirus disease |pdf=|usr=}} | {{tp|p=32133833|t=2020. The differential diagnosis of pulmonary infiltrates in cancer patients during the outbreak of the 2019 novel coronavirus disease |pdf=|usr=}} | ||
{{tp|p=32174456|t=2020. Characterization and evaluation of the pathogenicity of a natural recombinant transmissible gastroenteritis virus in China.|pdf=|usr=018}} | {{tp|p=32174456|t=2020. Characterization and evaluation of the pathogenicity of a natural recombinant transmissible gastroenteritis virus in China.|pdf=|usr=018}} | ||
Zeile 195: | Zeile 138: | ||
{{tp|p=32198915|t=2020. When COVID-19 encounters interstitial lung disease: challenges and management |pdf=|usr=}} | {{tp|p=32198915|t=2020. When COVID-19 encounters interstitial lung disease: challenges and management |pdf=|usr=}} | ||
{{tp|p=32202647|t=2020. Mimics and chameleons of COVID-19 |pdf=|usr=}} | {{tp|p=32202647|t=2020. Mimics and chameleons of COVID-19 |pdf=|usr=}} | ||
− | |||
− | + | ||
{{tp|p=32237148|t=2020. Differences between COVID-19 and suspected then confirmed SARS-CoV-2-negative pneumonia: a retrospective study from a single center |pdf=|usr=}} | {{tp|p=32237148|t=2020. Differences between COVID-19 and suspected then confirmed SARS-CoV-2-negative pneumonia: a retrospective study from a single center |pdf=|usr=}} | ||
Zeile 217: | Zeile 159: | ||
{{tp|p=32348692|t=2020. COVID-19 Related Genes in Sputum Cells in Asthma: Relationship to Demographic Features and Corticosteroids |pdf=|usr=}} | {{tp|p=32348692|t=2020. COVID-19 Related Genes in Sputum Cells in Asthma: Relationship to Demographic Features and Corticosteroids |pdf=|usr=}} | ||
− | + | ||
{{tp|p=32358120|t=2020. How related is SARS-CoV-2 to other coronaviruses?|pdf=|usr=}} | {{tp|p=32358120|t=2020. How related is SARS-CoV-2 to other coronaviruses?|pdf=|usr=}} | ||
Zeile 226: | Zeile 168: | ||
{{tp|p=32372197|t=ä. New challenges from Covid-19 pandemic: an unexpected opportunity to enlighten the link between viral infections and brain disorders?|pdf=|usr=}} | {{tp|p=32372197|t=ä. New challenges from Covid-19 pandemic: an unexpected opportunity to enlighten the link between viral infections and brain disorders?|pdf=|usr=}} | ||
{{tp|p=32373478|t=2020. What makes a foodborne virus: comparison between coronaviruses with human noroviruses.|pdf=|usr=015}} | {{tp|p=32373478|t=2020. What makes a foodborne virus: comparison between coronaviruses with human noroviruses.|pdf=|usr=015}} | ||
− | + | ||
− | + | ||
{{tp|p=32387581|t=ä. EGFR Tyrosine Kinase Inhibitor?Associated Interstitial Lung Disease During the Coronavirus Disease 2019 Pandemic |pdf=|usr=}} | {{tp|p=32387581|t=ä. EGFR Tyrosine Kinase Inhibitor?Associated Interstitial Lung Disease During the Coronavirus Disease 2019 Pandemic |pdf=|usr=}} | ||
{{tp|p=32387967|t=2020. A single centre study of viral community-acquired pneumonia in children: No evidence of SARS-CoV-2 from October 2019 to March 2020 |pdf=|usr=}} | {{tp|p=32387967|t=2020. A single centre study of viral community-acquired pneumonia in children: No evidence of SARS-CoV-2 from October 2019 to March 2020 |pdf=|usr=}} | ||
Zeile 237: | Zeile 179: | ||
− | + | ||
− | + | ||
{{tp|p=32418550|t=2020. Are Iranian Sulfur Mustard Gas-Exposed Survivors More Vulnerable to SARS-CoV-2? Some Similarity in Their Pathogenesis.|pdf=|usr=007}} | {{tp|p=32418550|t=2020. Are Iranian Sulfur Mustard Gas-Exposed Survivors More Vulnerable to SARS-CoV-2? Some Similarity in Their Pathogenesis.|pdf=|usr=007}} | ||
{{tp|p=32422932|t=2020. Detection of Recombinant Rousettus Bat Coronavirus GCCDC1 in Lesser Dawn Bats (Eonycteris spelaea) in Singapore.|pdf=|usr=018}} | {{tp|p=32422932|t=2020. Detection of Recombinant Rousettus Bat Coronavirus GCCDC1 in Lesser Dawn Bats (Eonycteris spelaea) in Singapore.|pdf=|usr=018}} | ||
{{tp|p=32437766|t=2020. Multivesicular bodies mimicking SARS-CoV-2 in patients without COVID-19.|pdf=|usr=009}} | {{tp|p=32437766|t=2020. Multivesicular bodies mimicking SARS-CoV-2 in patients without COVID-19.|pdf=|usr=009}} | ||
− | + | ||
{{tp|p=32485958|t=2020. A New Era in Endothelial Injury Syndromes: Toxicity of CAR-T Cells and the Role of Immunity.|pdf=|usr=015}} | {{tp|p=32485958|t=2020. A New Era in Endothelial Injury Syndromes: Toxicity of CAR-T Cells and the Role of Immunity.|pdf=|usr=015}} | ||
− | + | ||
Zeile 251: | Zeile 193: | ||
{{tp|p=32502331|t=2020. Comparison of confirmed COVID-19 with SARS and MERS cases - Clinical characteristics, laboratory findings, radiographic signs and outcomes: A systematic review and meta-analysis.|pdf=|usr=007}} | {{tp|p=32502331|t=2020. Comparison of confirmed COVID-19 with SARS and MERS cases - Clinical characteristics, laboratory findings, radiographic signs and outcomes: A systematic review and meta-analysis.|pdf=|usr=007}} | ||
− | + | ||
{{tp|p=32522830|t=2020. Comparative pathogenesis of bovine and porcine respiratory coronaviruses in the animal host species and SARS-CoV-2 in humans.|pdf=|usr=011}} | {{tp|p=32522830|t=2020. Comparative pathogenesis of bovine and porcine respiratory coronaviruses in the animal host species and SARS-CoV-2 in humans.|pdf=|usr=011}} | ||
Zeile 258: | Zeile 200: | ||
{{tp|p=32574297|t=2020. Comparative Analysis of Early-Stage Clinical Features Between COVID-19 and Influenza A H1N1 Virus Pneumonia.|pdf=|usr=011}} | {{tp|p=32574297|t=2020. Comparative Analysis of Early-Stage Clinical Features Between COVID-19 and Influenza A H1N1 Virus Pneumonia.|pdf=|usr=011}} | ||
− | + | ||
Zeile 265: | Zeile 207: | ||
{{tp|p=32604724|t=2020. Betacoronavirus Genomes: How Genomic Information has been Used to Deal with Past Outbreaks and the COVID-19 Pandemic.|pdf=|usr=011}} | {{tp|p=32604724|t=2020. Betacoronavirus Genomes: How Genomic Information has been Used to Deal with Past Outbreaks and the COVID-19 Pandemic.|pdf=|usr=011}} | ||
{{tp|p=32609845|t=2020. Influenza-induced thrombocytopenia is dependent on the subtype and sialoglycan receptor and increases with virus pathogenicity.|pdf=|usr=011}} | {{tp|p=32609845|t=2020. Influenza-induced thrombocytopenia is dependent on the subtype and sialoglycan receptor and increases with virus pathogenicity.|pdf=|usr=011}} | ||
− | |||
− | |||
{{tp|p=32641481|t=2020. Serpentoviruses, more than respiratory pathogens.|pdf=|usr=012}} | {{tp|p=32641481|t=2020. Serpentoviruses, more than respiratory pathogens.|pdf=|usr=012}} | ||
Zeile 272: | Zeile 212: | ||
{{tp|p=32663073|t=2020. Clinical and Pathological Findings in SARS-CoV-2 Disease Outbreaks in Farmed Mink (Neovison vison).|pdf=|usr=018}} | {{tp|p=32663073|t=2020. Clinical and Pathological Findings in SARS-CoV-2 Disease Outbreaks in Farmed Mink (Neovison vison).|pdf=|usr=018}} | ||
{{tp|p=32693959|t=2020. COVID-19 pneumonia versus EVALI, distinguishing the overlapping CT features in the COVID-19 era.|pdf=|usr=018}} | {{tp|p=32693959|t=2020. COVID-19 pneumonia versus EVALI, distinguishing the overlapping CT features in the COVID-19 era.|pdf=|usr=018}} | ||
− | |||
− | + | ||
+ | |||
{{tp|p=32722946|t=2020. Pathogenesis and treatment of idiopathic and rheumatoid arthritis-related interstitial pneumonia. The possible lesson from COVID-19 pneumonia.|pdf=|usr=017}} | {{tp|p=32722946|t=2020. Pathogenesis and treatment of idiopathic and rheumatoid arthritis-related interstitial pneumonia. The possible lesson from COVID-19 pneumonia.|pdf=|usr=017}} | ||
{{tp|p=32723027|t=2020. Clinical characteristics of COVID-19 and its comparison with influenza pneumonia.|pdf=|usr=017}} | {{tp|p=32723027|t=2020. Clinical characteristics of COVID-19 and its comparison with influenza pneumonia.|pdf=|usr=017}} | ||
− | + | ||
{{tp|p=32731335|t=2020. Structural and Biological Basis of Alphacoronavirus nsp1 Associated with Host Proliferation and Immune Evasion.|pdf=|usr=018}} | {{tp|p=32731335|t=2020. Structural and Biological Basis of Alphacoronavirus nsp1 Associated with Host Proliferation and Immune Evasion.|pdf=|usr=018}} | ||
{{tp|p=32749709|t=2020. Distinguishing between COVID-19 and influenza during the early stages by measurement of peripheral blood parameters.|pdf=|usr=017}} | {{tp|p=32749709|t=2020. Distinguishing between COVID-19 and influenza during the early stages by measurement of peripheral blood parameters.|pdf=|usr=017}} | ||
{{tp|p=32755175|t=2020. CT Manifestations of Coronavirus Disease (COVID-19) Pneumonia and Influenza Virus Pneumonia: A Comparative Study.|pdf=|usr=017}} | {{tp|p=32755175|t=2020. CT Manifestations of Coronavirus Disease (COVID-19) Pneumonia and Influenza Virus Pneumonia: A Comparative Study.|pdf=|usr=017}} | ||
− | + | ||
{{tp|p=32759260|t=2020. Similarities and differences between severe COVID-19 pneumonia and anti-MDA-5-positive dermatomyositis-associated rapidly progressive interstitial lung diseases: a challenge for the future.|pdf=|usr=017}} | {{tp|p=32759260|t=2020. Similarities and differences between severe COVID-19 pneumonia and anti-MDA-5-positive dermatomyositis-associated rapidly progressive interstitial lung diseases: a challenge for the future.|pdf=|usr=017}} | ||
{{tp|p=32759262|t=2020. Response to: 'Similarities and differences between severe COVID-19 pneumonia and anti-MDA-5 positive dermatomyositis associated rapidly progressive interstitial lung diseases: a challenge for the future' by Wang et al.|pdf=|usr=017}} | {{tp|p=32759262|t=2020. Response to: 'Similarities and differences between severe COVID-19 pneumonia and anti-MDA-5 positive dermatomyositis associated rapidly progressive interstitial lung diseases: a challenge for the future' by Wang et al.|pdf=|usr=017}} | ||
− | |||
− | + | ||
− | + | ||
{{tp|p=32785948|t=2020. How close is SARS-CoV-2 to canine and feline coronaviruses?|pdf=|usr=018}} | {{tp|p=32785948|t=2020. How close is SARS-CoV-2 to canine and feline coronaviruses?|pdf=|usr=018}} | ||
{{tp|p=32792041|t=2020. Hydroxychloroquine and Coronavirus Disease 2019: A Systematic Review of a Scientific Failure.|pdf=|usr=018}} | {{tp|p=32792041|t=2020. Hydroxychloroquine and Coronavirus Disease 2019: A Systematic Review of a Scientific Failure.|pdf=|usr=018}} | ||
Zeile 299: | Zeile 237: | ||
{{tp|p=32825430|t=2020. Buffalopox Virus: An Emerging Virus in Livestock and Humans.|pdf=|usr=018}} | {{tp|p=32825430|t=2020. Buffalopox Virus: An Emerging Virus in Livestock and Humans.|pdf=|usr=018}} | ||
− | |||
− | |||
− | + | ||
− | + | ||
+ | |||
+ | |||
{{tp|p=32879801|t=2020. A comparison of COVID-19, SARS and MERS.|pdf=|usr=018}} | {{tp|p=32879801|t=2020. A comparison of COVID-19, SARS and MERS.|pdf=|usr=018}} | ||
{{tp|p=32880100|t=2020. Cats and kids: how a feline disease may help us unravel COVID-19 associated paediatric hyperinflammatory syndrome.|pdf=|usr=018}} | {{tp|p=32880100|t=2020. Cats and kids: how a feline disease may help us unravel COVID-19 associated paediatric hyperinflammatory syndrome.|pdf=|usr=018}} | ||
Zeile 313: | Zeile 251: | ||
− | + | ||
− | + | ||
Version vom 29. September 2020, 15:57 Uhr
coviki.org collects the really good Ideas and the scientific Record on Covid-19 Virus.
I further streaming-in related content is here
Parvovirus B19 broad manif overlap, up to 75% igg prevalence, proportional to age, maybe a helper virus (my pretty idea 08/22th 2020)
SDP any pig swine coronaviruses
SDP any new animal coronaviruses
SDP any other animal coronaviruses
SDP Influenza
32405236 2020. Comparative review of respiratory diseases caused by coronaviruses and influenza A viruses during epidemic season.
SDP Ebola
look as this (title only currently available to me) and the following on topic
13833162 1959. Glomerular capillary endotheliosis in toxemia of pregnancy
14511965 2003. Glomerular endotheliosis in normal pregnancy and pre-eclampsia
19177346 2009. Crystal structures of the X-domains of a Group-1 and a Group-3 coronavirus reveal that ADP-ribose-binding may not be a conserved property.
21182195 2011. Identification of host factors involved in coronavirus replication by quantitative proteomics analysis.
23821437 2013. Activation of influenza viruses by proteases from host cells and bacteria in the human airway epithelium
25919649 2017. Hepatitis E Virus and Related Viruses in Animals.
28296228 2017. Coronavirus infections in horses in Saudi Arabia and Oman.
29799115 2018. Monkey viral pathology in the Sukhum colony and modeling human viral infections.
30461192 2019. Toward development of generic inhibitors against the 3C proteases of picornaviruses
31144002 2020. Alphacoronavirus Detection in Lungs, Liver, and Intestines of Bats from Brazil.
31455974 2019. Coronaviren als Ursache respiratorischer Infektionen.
31505263 2019. Influenza A virus infection induces liver injury in mice.
31801868 2020. Trypsin Treatment Unlocks Barrier for Zoonotic Bat Coronavirus Infection.
31810359 2019. A Recombinant Influenza A/H1N1 Carrying A Short Immunogenic Peptide of MERS-CoV as Bivalent Vaccine in BALB/c Mice.
31861369 2019. Minimum Determinants of Transmissible Gastroenteritis Virus Enteric Tropism Are Located in the N-Terminus of Spike Protein.
32017270 2020. Dynamics of transmissible gastroenteritis virus internalization unraveled by single-virus tracking in live cells.
32053148 2020. Three Emerging Coronaviruses in Two Decades.
32133833 2020. The differential diagnosis of pulmonary infiltrates in cancer patients during the outbreak of the 2019 novel coronavirus disease
32174456 2020. Characterization and evaluation of the pathogenicity of a natural recombinant transmissible gastroenteritis virus in China.
32184131 ä. Comparison of clinical characteristics of coronavirus disease (COVID-19) and severe acute respiratory syndrome (SARS) as experienced in Taiwan
32186278 2020. Influenza-associated pneumonia as reference to assess seriousness of coronavirus disease (COVID-19)
32198915 2020. When COVID-19 encounters interstitial lung disease: challenges and management
32202647 2020. Mimics and chameleons of COVID-19
32237148 2020. Differences between COVID-19 and suspected then confirmed SARS-CoV-2-negative pneumonia: a retrospective study from a single center
32241072 2020. [Comparison of clinical and pathological features between severe acute respiratory syndrome and coronavirus disease 2019].
32246819 2020. Pulmonary High-Resolution Computed Tomography (HRCT) Findings of Patients with Early-Stage Coronavirus Disease 2019 (COVID-19) in Hangzhou, China
32265517 2020. SARS-CoV-2 detection in patients with influenza-like illness
32277530 ä. COVID?19 and SARS: Differences and similarities
32287052 2020. Febrile Infant: COVID-19 in Addition to the Usual Suspects
32293833 2020. Emerging and reemerging respiratory viral infections up to Covid-19
32313392 2016. Equine coronavirus: An emerging enteric virus of adult horses.
32319148 2020. COVID-19: searching for clues among other respiratory viruses
32323862 2020. What can Parkinson s disease teach us about COVID-19?
32341622 2020. SARS-CoV-2: Camazotz s Curse
32342879 ä. COVID-19 and radiation induced pneumonitis: overlapping clinical features of different diseases
32348692 2020. COVID-19 Related Genes in Sputum Cells in Asthma: Relationship to Demographic Features and Corticosteroids
32358120 2020. How related is SARS-CoV-2 to other coronaviruses?
32358574 ä. 100 years of influenza research seen through the lens of Covid-19
32360499 2020. Comparative seasonalities of influenza A, B and 'common cold' coronaviruses - setting the scene for SARS-CoV-2 infections and possible unexpected host immune interactions.
32370951 ä. Missed or Delayed Diagnosis of Kawasaki Disease During the 2019 Novel Coronavirus Disease (COVID-19) Pandemic
32372197 ä. New challenges from Covid-19 pandemic: an unexpected opportunity to enlighten the link between viral infections and brain disorders?
32373478 2020. What makes a foodborne virus: comparison between coronaviruses with human noroviruses.
32387581 ä. EGFR Tyrosine Kinase Inhibitor?Associated Interstitial Lung Disease During the Coronavirus Disease 2019 Pandemic
32387967 2020. A single centre study of viral community-acquired pneumonia in children: No evidence of SARS-CoV-2 from October 2019 to March 2020
32392945 2020. [Comparison of pathological changes and pathogenic mechanisms caused by H1N1 influenza virus, highly pathogenic H5N1 avian influenza virus, SARS-CoV, MERS-CoV and 2019-nCoV].
32397138 2020. A Systematic Review Analyzing the Prevalence and Circulation of Influenza Viruses in Swine Population Worldwide.
32398299 2020. To compare the incomparable: COVID-19 pneumonia and high altitude disease.
32418550 2020. Are Iranian Sulfur Mustard Gas-Exposed Survivors More Vulnerable to SARS-CoV-2? Some Similarity in Their Pathogenesis.
32422932 2020. Detection of Recombinant Rousettus Bat Coronavirus GCCDC1 in Lesser Dawn Bats (Eonycteris spelaea) in Singapore.
32437766 2020. Multivesicular bodies mimicking SARS-CoV-2 in patients without COVID-19.
32485958 2020. A New Era in Endothelial Injury Syndromes: Toxicity of CAR-T Cells and the Role of Immunity.
32502331 2020. Comparison of confirmed COVID-19 with SARS and MERS cases - Clinical characteristics, laboratory findings, radiographic signs and outcomes: A systematic review and meta-analysis.
32522830 2020. Comparative pathogenesis of bovine and porcine respiratory coronaviruses in the animal host species and SARS-CoV-2 in humans.
32536567 2020. COVID-19 and Crimean-Congo Hemorrhagic Fever: Similarities and Differences.
32556292 2020. COVID-19 and granulomatosis with polyangiitis (GPA): a diagnostic challenge.
32574297 2020. Comparative Analysis of Early-Stage Clinical Features Between COVID-19 and Influenza A H1N1 Virus Pneumonia.
32599823 2020. Host-Pathogen Responses to Pandemic Influenza H1N1pdm09 in a Human Respiratory Airway Model.
32602823 2020. Bat SARS-Like WIV1 coronavirus uses the ACE2 of multiple animal species as receptor and evades IFITM3 restriction via TMPRSS2 activation of membrane fusion.
32604724 2020. Betacoronavirus Genomes: How Genomic Information has been Used to Deal with Past Outbreaks and the COVID-19 Pandemic.
32609845 2020. Influenza-induced thrombocytopenia is dependent on the subtype and sialoglycan receptor and increases with virus pathogenicity.
32641481 2020. Serpentoviruses, more than respiratory pathogens.
32663073 2020. Clinical and Pathological Findings in SARS-CoV-2 Disease Outbreaks in Farmed Mink (Neovison vison).
32663073 2020. Clinical and Pathological Findings in SARS-CoV-2 Disease Outbreaks in Farmed Mink (Neovison vison).
32693959 2020. COVID-19 pneumonia versus EVALI, distinguishing the overlapping CT features in the COVID-19 era.
32722946 2020. Pathogenesis and treatment of idiopathic and rheumatoid arthritis-related interstitial pneumonia. The possible lesson from COVID-19 pneumonia.
32723027 2020. Clinical characteristics of COVID-19 and its comparison with influenza pneumonia.
32731335 2020. Structural and Biological Basis of Alphacoronavirus nsp1 Associated with Host Proliferation and Immune Evasion.
32749709 2020. Distinguishing between COVID-19 and influenza during the early stages by measurement of peripheral blood parameters.
32755175 2020. CT Manifestations of Coronavirus Disease (COVID-19) Pneumonia and Influenza Virus Pneumonia: A Comparative Study.
32759260 2020. Similarities and differences between severe COVID-19 pneumonia and anti-MDA-5-positive dermatomyositis-associated rapidly progressive interstitial lung diseases: a challenge for the future.
32759262 2020. Response to: 'Similarities and differences between severe COVID-19 pneumonia and anti-MDA-5 positive dermatomyositis associated rapidly progressive interstitial lung diseases: a challenge for the future' by Wang et al.
32785948 2020. How close is SARS-CoV-2 to canine and feline coronaviruses?
32792041 2020. Hydroxychloroquine and Coronavirus Disease 2019: A Systematic Review of a Scientific Failure.
32793180 2020. Coronaviruses in the Sea.
32798533 2020. Medical features of COVID-19 and influenza infection: A comparative study in Paris, France.
32825430 2020. Buffalopox Virus: An Emerging Virus in Livestock and Humans.
32879801 2020. A comparison of COVID-19, SARS and MERS.
32880100 2020. Cats and kids: how a feline disease may help us unravel COVID-19 associated paediatric hyperinflammatory syndrome.
32881022 2020. A comparative study on the clinical features of COVID-19 with non-SARS-CoV-2 respiratory viral infections.
C7130142 ä. Tuberculosis and novel Wuhan coronavirus infection: Pathological interrelationship
C7247491 ?. Shedding ultraviolet light on coronavirus.
C7354272 2020. Modification of cellulose microfibers by polyglutamic acid and mesoporous silica nanoparticles for Enterovirus 71 adsorption.
C7356135 ?. Coronavirus Disease of 2019: a Mimicker of Dengue Infection?
32245885 2020. Learning from our immunological history: What can SARS-CoV teach us about SARS-CoV-2? |
personal opinion:
part of the microangiopathic-hemolytic anemia / HELLP / SIH / HUS / TTP spectrum bc:
1. micro/thromboembolism 2. net's 3. thrombocytopenia 4. various neurological 5. liver enzymes
data on vWF, adamts13, sflt3, vegf needed.
Infectious vasculitis
- Kawasaki might be infectious or something transmitted by intercontinental aerosols...
- Wegners responds to cotrim...
- NETosis is a pretty concept anything which triggers PMN...