Candidate Compounds Covid19

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Aktuelle Version vom 21. September 2021, 06:15 Uhr

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 CHERRYPICKING STUDIES IS NOT SCIENCE

Reviews on covid drug development

scouting ideas

PHA Biologicals

PHA conventional pharmacology

PHA retargeted compounds

PHA antivirals by mechanism

PHA pharmacophore by screened target

PHA ImmunoNutrients

PHA compl altern natural

PHA within indications compounds

PHA Serum products

PHA Vaccination

PHA related options:

A concept of curative retargeting has been found by cellular lockdown with kinase inhibitors from the oncologic pharmacopoiea.
This means, virus replication can be stalled to zero w/o need of develpoment of new substances. There is no need for world
vaccination anymore. The virus needs permissible cells, and most perimissible is phosphotyrosine on its own compnents.
Paper is (not yet in PubMed) :

Growth factor receptor signaling inhibition prevents SARS-CoV-2 replication at Mol Cell 2020/08/11

credentials to Marinus Brandl who told us about it today. based on e.g.

32408336 2020. Proteomics of SARS-CoV-2-infected host cells reveals therapy targets

=======================================================================================

COVID19 is now a CURABLE disease !!!

=======================================================================================

Candidate Compounds Covid19

Aktuelle Version vom 21. September 2021, 06:15 Uhr

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@@ Zeile 1: / Zeile 1: @@
-{{pnc}}
+{{gohome}}
+{{ft|P}}
+  '''CHERRYPICKING STUDIES IS NOT SCIENCE
+{{qt|Reviews on covid drug development}}
-current items will be put into the subsections.
-subsections with contents are marked ''with content''.
-the others are pending data.
-*[[reviews on covid drug development]] ''with content''
+*'''[[scouting ideas]]'''
-*
-*[[Patients on biologicals]]
+*'''[[PHA Biologicals]]'''
-*[[HMGB1, RAGE]]
-*[[pre-Interleukin 6]] ''with content''
-*[[post-Interleukin 6]]
-*[[pre-TNFalpha]]
-*[[post-TNFalpha]]
-*[[pre-Interleukin 17]]
-*[[post-Interleukin 17]]
-*[[pre-Interleukin 1]]
-*[[post-Interleukin 1]]
-*[[Inflammasome]]
-*[[NK-kappaB]]
+*'''[[PHA conventional pharmacology]]'''
-*[[STAT 3]]
-*[[JAK Janus Kinase]]
-*[[Corticosteroids]]
-*[[Cytokine absorbers]]
-*[[Target Complement system]]
-*[[Target Extracellular traps]]
-*[[Anticoagulant in covid19]]
-*[[Antioxidants]]
-*[[Stem cells]]
-*[[MDSC cells]]
+*'''[[PHA retargeted compounds]]'''
+*'''[[PHA antivirals by mechanism]]'''
-*[[other single compounds]]
+*'''[[PHA pharmacophore by screened target]]'''
-*[[Retargeted single compounds]]
-*[[Hydroxychloroquine]] ''with content''
-*
-*[[other antiviral compounds]]
+*'''[[PHA ImmunoNutrients]]
-*[[AV Remdesivir]]
-*[[AV Lopinavir]]
-*[[AV Ivermectin]]
-*[[Target ACE2, Spike protein]]
+*'''[[PHA compl altern natural]]'''
-*[[Target TMPRSS2, Spike protein]]
+*'''[[PHA within indications compounds]]'''
+*'''[[PHA Serum products]]'''
-*[[Interferons]]
+*'''[[PHA Vaccination]]'''
+ PHA related options:
+*[[Radiation therapy]]
+*[[Phototherapy]]
+*[[Electric fields]]
+*[[Treatment other concepts]]
-*[[Vitamin D]]
-*[[Statins]]
+ A concept of curative retargeting has been found by cellular lockdown with kinase inhibitors from the oncologic pharmacopoiea.
-*[[Anorganic nutrients Magnesium]]
+ This means, virus replication can be stalled to zero w/o need of develpoment of new substances. There is no need for world
-*[[Anorganic nutrients Selenium]]
+ vaccination anymore. The virus needs permissible cells, and most perimissible is phosphotyrosine on its own compnents.
-*[[Anorganic nutrients Zinc]]
+ Paper is (not yet in PubMed) :
+*'''[https://www.sciencedirect.com/science/article/pii/S1097276520305499?via%3Dihub Growth factor receptor signaling inhibition prevents SARS-CoV-2 replication at Mol Cell 2020/08/11]'''
+credentials to [https://web.de/magazine/news/coronavirus/coronavirus-blockade-zellulaerer-kommunikation-forscher-stoppen-vermehrung-sars-cov-2-35045170 Marinus Brandl] who told us about it today.
+based on e.g.
+{{ttp|p=32408336|t=2020. Proteomics of SARS-CoV-2-infected host cells reveals therapy targets |pdf=|usr=}}
-*[[Traditional Chinese Medicine]]
+ =======================================================================================
-*[[Natural compounds]]
-*[[Reconvalescent blood products, Passive vaccine]] ''with content''
+ COVID19 is now a CURABLE disease !!!
-*[[Plasmapheresis]]
-*[[Immunodeviation]] e.g. by adjuvants or other vaccinations
+  =======================================================================================
-*[[Active vaccine]] ''with cotent''
-{{tp|p=32162456|t=2020. Rapid Identification of Potential Inhibitors of SARS-CoV-2 Main Protease by Deep  Docking of 1 3 Billion Compounds |pdf=|usr=}}
-'''Microbiome as target'''
-{{tp|p=32356654|t=ä. Considering the Effects of Microbiome and Diet on SARS-CoV-2 Infection: Nanotechnology Roles |pdf=|usr=}}
-'''stem cells'''
-{{tp|p=32257554|t=2020. Mesenchymal Stem Cell Infusion Shows Promise for Combating Coronavirus (COVID-19)- Induced Pneumonia |pdf=|usr=}}
-{{tp|p=32257537|t=2020. Transplantation of ACE2- Mesenchymal Stem Cells Improves the Outcome of Patients  with COVID-19 Pneumonia |pdf=|usr=}}
-{{tp|p=32283815|t=2020. Mesenchymal Stromal Cell Secretome for Severe COVID-19 Infections: Premises for the Therapeutic Use |pdf=|usr=}}
-{{tp|p=32241793|t=2020. Clinical course of COVID-19 in a series of patients with chronic arthritis treated with immunosuppressive targeted therapies |pdf=|usr=}}
-'''CRISPR genome editing technology'''
-{{tp|p=32353252|t=ä. Development of CRISPR as an Antiviral Strategy to Combat SARS-CoV-2 and Influenza |pdf=|usr=}}
-'''Virus interference'''
-{{tp|p=32071427|t=2020. Virus against virus: a potential treatment for 2019-nCov (SARS-CoV-2) and other RNA viruses |pdf=|usr=}}
-'''resilience enhancement'''
-{{tp|p=32229705|t=2020. Geroprotective and senoremediative strategies to reduce the comorbidity, infection rates, severity, and lethality in gerophilic and gerolavic infections |pdf=|usr=}}
-{{tp|p=32311498|t=ä. The impact of nutrition on COVID-19 susceptibility and long-term consequences |pdf=|usr=}}
-{{tp|p=32276453|t=2020. Exploring the Relevance of Senotherapeutics for the Current SARS-CoV-2 Emergency  and Similar Future Global Health Threats |pdf=|usr=}}
-'''psychoneuroimmunology'''
-{{tp|p=32234338|t=ä. Using psychoneuroimmunity against COVID-19 |pdf=|usr=}}
-'''Exercise'''
-{{tp|p=32311497|t=ä. The immunological case for staying active during the COVID-19 pandemic |pdf=|usr=}}
-'''Topical agents''' opening up the world of nano...
-*[https://www.dailymail.co.uk/sciencetech/article-8315269/Commercial-mouthwash-prevent-COVID-19-transmission-scientists-say.html on mouth rinses]
-----
-{{tp|p=32247038|t=2020. Potential effect of blood purification therapy in reducing cytokine storm as a late complication of critically ill COVID-19 |pdf=|usr=}}
-{{tp|p=32222466|t=2020. The use of anti-inflammatory drugs in the treatment of people with severe coronavirus disease 2019 (COVID-19): The Perspectives of clinical immunologists from China |pdf=|usr=}}
-{{tp|p=32266375|t=ä. Inquiring into Benefits of Independent Activation of Non-Classical Renin-Angiotensin System in the Clinical Prognosis and Reduction of COVID-19 mortality |pdf=|usr=}}
-{{tp|p=32305181|t=ä. ESPEN expert statements and practical guidance for nutritional management of individuals with SARS-CoV-2 infection |pdf=|usr=}}
-{{tp|p=32360083|t=ä. Modulation of Hb-O2 affinity to improve hypoxemia in COVID-19 patients |pdf=|usr=}}
-{{tp|p=32277367|t=ä. Rheumatologists? perspective on coronavirus disease 19 (COVID-19) and potential therapeutic targets |pdf=|usr=}}
-{{tp|p=32373721|t=2020. Low dose lung radiotherapy for COVID-19 pneumonia  The rationale for a cost-effective anti-inflammatory treatment |pdf=|usr=}}
-{{tp|p=32241301|t=2020. A novel treatment approach to the novel coronavirus: an argument for the use of therapeutic plasma exchange for fulminant COVID-19 |pdf=|usr=}}
-{{tp|p=32318324|t=ä. Depriving Iron Supply to the Virus Represents a Promising Adjuvant Therapeutic Against Viral Survival |pdf=|usr=}}
-{{tp|p=32360420|t=ä. Cytokine storm intervention in the early stages of COVID-19 pneumonia |pdf=|usr=}}
-{{tp|p=32335366|t=2020. Can dapagliflozin have a protective effect against COVID-19 infection? A hypothesis |pdf=|usr=}}
-{{tp|p=32333972|t=ä. Letter to the Editor in response to the article ?COVID-19 and diabetes: Can DPP4  inhibition play a role?? |pdf=|usr=}}
-{{tp|p=32333966|t=2020. COVID-19 and diabetes: Is this association driven by the DPP4 receptor? Potential clinical and therapeutic implications |pdf=|usr=}}
-{{tp|p=32333969|t=ä. Response to COVID -19 and Diabetes: Can DPP4 Inhibition Play a Role? ? GLP-1 Might Play One Too |pdf=|usr=}}
-{{tp|p=32283128|t=ä. Should anti-diabetic medications be reconsidered amid COVID-19 pandemic?|pdf=|usr=}} ''on ace2 via adam17, nfkb via dpp4''
-{{tp|p=32325124|t=ä. Vaporization, bioactive formulations and a marine natural product: different perspectives on antivirals |pdf=|usr=}}
-{{tp|p=32249203|t=ä. Microneedle array delivered recombinant coronavirus vaccines: Immunogenicity and  rapid translational development |pdf=|usr=}}
-{{tp|p=32333818|t=2020. COVID-19: lambda interferon against viral load and hyperinflammation |pdf=|usr=}}
-{{tp|p=32228222|t=2020. Renin-angiotensin system inhibitors improve the clinical outcomes of COVID-19 patients with hypertension |pdf=|usr=}}
-{{tp|p=C7118608|t=ä. A Promising Anti-Cytokine-Storm Targeted Therapy for COVID-19: The Artificial-Liver Blood-Purification System |pdf=|usr=}}
-{{tp|p=32065055|t=2020. Potent binding of 2019 novel coronavirus spike protein by a SARS coronavirus-specific human monoclonal antibody |pdf=|usr=}}
-{{tp|p=32292627|t=ä. Clinical study of mesenchymal stem cell treating acute respiratory distress syndrome induced by epidemic Influenza A (H7N9) infection, a hint for COVID-19 treatment |pdf=|usr=}}
-{{tp|p=32347925|t=ä. Statin therapy in COVID-19 infection |pdf=|usr=}}
-{{tp|p=32337546|t=ä. Colchicine as a potent anti-inflammatory treatment in COVID-19: can we teach an old dog new tricks?|pdf=|usr=}}
-{{tp|p=32282032|t=ä. Neprilysin inhibitor?angiotensin II receptor blocker combination (sacubitril/valsartan): rationale for adoption in SARS-CoV-2 patients |pdf=|usr=}}
-{{tp|p=32285293|t=ä. Searching therapeutic strategy of new coronavirus pneumonia from angiotensin-converting enzyme 2: the target of COVID-19 and SARS-CoV |pdf=|usr=}}
-{{tp|p=32265310|t=ä. Current Status of Cell-Based Therapies for Respiratory Virus Infections: Applicability to COVID-19 |pdf=|usr=}}
-{{tp|p=32271462|t=2020. Inositol and pulmonary function  Could myo-inositol treatment downregulate inflammation and cytokine release syndrome in SARS-CoV-2?|pdf=|usr=}}
-{{tp|p=32329380|t=2020. Adipose-derived stromal stem cells (ASCs) as a new regenerative immediate therapy combating coronavirus (COVID-19)-induced pneumonia |pdf=|usr=}}
-{{tp|p=32312129|t=2020. The role of additive manufacturing and antimicrobial polymers in the COVID-19 pandemic |pdf=|usr=}}
-{{tp|p=32117569|t=2020. Therapeutic strategies in an outbreak scenario to treat the novel coronavirus originating in Wuhan, China |pdf=|usr=}}
-{{tp|p=32251729|t=ä. The Greek study in the effects of colchicine in COvid-19 complications prevention (GRECCO-19 study): Rationale and study design |pdf=|usr=}}
-{{tp|p=32247692|t=ä. Faecal-oral transmission of SARS-COV-2: practical implications |pdf=|usr=}}
-{{tp|p=32367287|t=ä. New evidence of SARS-CoV-2 transmission through the ocular surface |pdf=|usr=}}
-{{tp|p=32251365|t=ä. Considering mutational meltdown as a potential SARS-CoV-2 treatment strategy |pdf=|usr=}}
-{{tp|p=32186952|t=2020. COVID-19, an emerging coronavirus infection: advances and prospects in designing  and developing vaccines, immunotherapeutics, and therapeutics |pdf=|usr=}}
-{{tp|p=32366728|t=2020. Medical Education During the COVID-19 Pandemic: A Single Institution Experience |pdf=|usr=}}
-{{tp|p=32366726|t=2020. Management of Asthma in Children during COVID-19 Pandemic |pdf=|usr=}}
-{{tp|p=32366725|t=2020. COVID -19 Pandemic: The Challenges for Pediatric Oncology |pdf=|usr=}}
-{{tp|p=32341599|t=2020. Is Immuno-modulation the Key to COVID-19 Pandemic?|pdf=|usr=}}
-{{tp|p=32328406|t=ä. Vaccines for SARS-CoV-2: Lessons from Other Coronavirus Strains |pdf=|usr=}}
-{{tp|p=32272396|t=ä. The Possible of Immunotherapy for COVID-19: a Systematic Review |pdf=|usr=}}
-{{tp|p=32234466|t=ä. Coronavirus disease 2019 (COVID-19): current status and future perspectives |pdf=|usr=}}
-{{tp|p=32283177|t=ä. Coronavirus (COVID-19), First Indication of Efficacy of Gene-Eden-VIR/Novirin in  SARS-CoV-2 Infections |pdf=|usr=}}
-{{tp|p=32226290|t=2020. Targeting the Endocytic Pathway and Autophagy Process as a Novel Therapeutic Strategy in COVID-19 |pdf=|usr=}}
-*[https://www.infowars.com/experts-suggest-90-million-oxford-university-coronavirus-vaccine-doesnt-work/ Oxford vaccine failed in monkeys]
-{{tp|p=32305009|t=ä. Investigating hypothiocyanite against SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32354030|t=2020. Functional Role of Dietary Intervention to Improve the Outcome of COVID-19: A Hypothesis of Work |pdf=|usr=}}
-{{tp|p=32368489|t=2020. The pathogenesis and alternative treatment of SARS-CoV2 |pdf=|usr=}}
-*[https://www.nature.com/articles/d41573-020-00073-5 Nature: The COVID-19 vaccine development landscape]
-{{tp|p=32336674|t=ä. COVID-19 Emergency Responders in FDA?s Center for Drug Evaluation and Research |pdf=|usr=}}
-{{tp|p=32317220|t=ä. The anti-viral facet of anti-rheumatic drugs: Lessons from COVID-19 |pdf=|usr=}}
-{{tp|p=32326602|t=2020. Pharmacological Therapeutics Targeting RNA-Dependent RNA Polymerase, Proteinase and Spike Protein: From Mechanistic Studies to Clinical Trials for COVID-19 |pdf=|usr=}}
-{{tp|p=32326426|t=2020. COVID-19: A Recommendation to Examine the Effect of Mouthrinses with beta-Cyclodextrin Combined with Citrox in Preventing Infection and Progression |pdf=|usr=}}
-{{tp|p=32359878|t=2020. Application of plasma exchange in association with higher dose CVVH in Cytokine Storm Complicating COVID-19 |pdf=|usr=}}
-{{tp|p=32171450|t=2020. Identification of potential cross-protective epitope between a new type of coronavirus (2019-nCoV) and severe acute respiratory syndrome virus |pdf=|usr=}}
-{{tp|p=32373322|t=ä. Fighting COVID-19 with water |pdf=|usr=}}''dehydration of mucous glycans''
-{{tp|p=32293807|t=2020. Systematic review of the efficacy and safety of antiretroviral drugs against SARS, MERS or COVID?19: initial assessment |pdf=|usr=}}
-{{tp|p=32356252|t=ä. COVID-19: Therapeutics and Their Toxicities |pdf=|usr=}}
-{{tp|p=32356251|t=ä. Medical Toxicology and COVID-19: Our Role in a Pandemic |pdf=|usr=}}
-{{tp|p=32052466|t=2020. Potential interventions for novel coronavirus in China: A systematic review |pdf=|usr=}}
-{{tp|p=32346490|t=ä. Structural elucidation of SARS-CoV-2 vital proteins: Computational methods reveal potential drug candidates against main protease, Nsp12 polymerase and Nsp13 helicase |pdf=|usr=}}
-{{tp|p=32324533|t=2020. Prevention and therapy of COVID-19 via exogenous estrogen treatment for both male and female patients |pdf=|usr=}}
-{{tp|p=32291198|t=2020. Impact of Nutrition and Diet on COVID-19 Infection and Implications for Kidney Health and Kidney Disease Management |pdf=|usr=}}
-{{tp|p=32321635|t=2020. Old and new antirheumatic drugs for the treatment of COVID-19 |pdf=|usr=}}
-{{tp|p=32317113|t=2020. COVID-19 therapeutic options for patients with kidney disease |pdf=|usr=}}
-{{tp|p=32035018|t=2020. Reducing mortality from 2019-nCoV: host-directed therapies should be an option |pdf=|usr=}}
-{{tp|p=32220278|t=2020. Immunosuppression for hyperinflammation in COVID-19: a double-edged sword?|pdf=|usr=}}
-{{tp|p=32353328|t=2020. What policy makers need to know about COVID-19 protective immunity |pdf=|usr=}}
-{{tp|p=32305088|t=2020. Flooded by the torrent: the COVID-19 drug pipeline |pdf=|usr=}}
-{{tp|p=32339473|t=ä. Probiotics and COVID-19: one size does not fit all |pdf=|usr=}}
-{{tp|p=32199468|t=ä. Use of antiviral drugs to reduce COVID-19 transmission |pdf=|usr=}}
-{{tp|p=32278361|t=ä. Attention should be paid to venous thromboembolism prophylaxis in the management  of COVID-19 |pdf=|usr=}}
-{{tp|p=32325035|t=ä. Plea for multitargeted interventions for severe COVID-19 |pdf=|usr=}}
-{{tp|p=32113510|t=2020. Convalescent plasma as a potential therapy for COVID-19 |pdf=|usr=}}
-{{tp|p=32113509|t=2020. COVID-19: combining antiviral and anti-inflammatory treatments |pdf=|usr=}}
-{{tp|p=32368737|t=2020. Preventing COVID-19-induced pneumonia with anticytokine therapy |pdf=|usr=}}
-{{tp|p=32278693|t=2020. In silico studies on therapeutic agents for COVID-19: Drug repurposing approach |pdf=|usr=}}
-{{tp|p=32198163|t=2020. Hiding in Plain Sight: an Approach to Treating Patients with Severe COVID-19 Infection |pdf=|usr=}}
-{{tp|p=32265331|t=2020. Single-Dose, Intranasal Immunization with Recombinant Parainfluenza Virus 5 Expressing Middle East Respiratory Syndrome Coronavirus (MERS-CoV) Spike Protein  Protects Mice from Fatal MERS-CoV Infection |pdf=|usr=}}
-{{tp|p=32296777|t=2020. Mesenchymal stem cells and management of COVID-19 pneumonia |pdf=|usr=}}
-{{tp|p=32289117|t=2020. Novel decoy cellular vaccine strategy utilizing transgenic antigen-expressing cells as immune presenter and adjuvant in vaccine prototype against SARS-CoV-2 virus |pdf=|usr=}}
-{{tp|p=32292909|t=2020. Target Virus or Target Ourselves for COVID-19 Drugs Discovery?-Lessons learned from anti-influenzas virus therapies |pdf=|usr=}}
-{{tp|p=32220710|t=2020. Renin-angiotensin system: The unexpected flaw inside the human immune system revealed by SARS-CoV-2 |pdf=|usr=}}
-*''riociguat?''
-{{tp|p=32353740|t=2020. Serum albumin-mediated strategy for the effective targeting of SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32344313|t=ä. Can pioglitazone be potentially useful therapeutically in treating patients with  covid-19?|pdf=|usr=}}
-{{tp|p=32344312|t=2020. Potential effect of natural and anabolizan steroids in elderly patient with COVID-19 |pdf=|usr=}}
-{{tp|p=32344310|t=2020. Respiratory conditions in coronavirus disease 2019 (COVID-19): Important considerations regarding novel treatment strategies to reduce mortality |pdf=|usr=}}
-{{tp|p=32339777|t=2020. May IL-17 have a role in COVID-19 infection?|pdf=|usr=}}
-{{tp|p=32335456|t=2020. The old but new: Can unfractioned heparin and low molecular weight heparins inhibit proteolytic activation and cellular internalization of SARS-CoV2 by inhibition of host cell proteases?|pdf=|usr=}}
-{{tp|p=C7158785|t=ä. Convalescent plasma: A possible treatment of COVID-19 in India |pdf=|usr=}}
-{{tp|p=32353355|t=ä. Testosterone, a key hormone in the context of COVID-19 pandemic |pdf=|usr=}}
-{{tp|p=32370766|t=2020. Role of adjunctive treatment strategies in COVID-19 and a review of international and national clinical guidelines |pdf=|usr=}}
-{{tp|p=32307014|t=2020. Chinese expert consensus on diagnosis and treatment of coagulation dysfunction in COVID-19 |pdf=|usr=}}
-{{tp|p=32255312|t=2020. A possible probiotic (S  salivarius K12) approach to improve oral and lung microbiotas and raise defenses against SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32365556|t=2020. Pharmacological (or Synthetic) and Nutritional Agonists of PPAR-gamma as Candidates for Cytokine Storm Modulation in COVID-19 Disease |pdf=|usr=}}
-{{tp|p=32231348|t=2020. Emerging prophylaxis strategies against COVID-19 |pdf=|usr=}}
-{{tp|p=32187463|t=ä. Covid-19 ? The Search for Effective Therapy |pdf=|usr=}}
-{{tp|p=32354113|t=2020. On Facing the SARS-CoV-2 (COVID-19) with Combination of Nanomaterials and Medicine: Possible Strategies and First Challenges |pdf=|usr=}}
-{{tp|p=32326343|t=2020. Can Nanotechnology and Materials Science Help the Fight against SARS-CoV-2?|pdf=|usr=}}
-{{tp|p=32203437|t=ä. Insights from nanomedicine into chloroquine efficacy against COVID-19 |pdf=|usr=}}
-{{tp|p=32296135|t=ä. COVID-19: risk for cytokine targeting in chronic inflammatory diseases?|pdf=|usr=}}
-{{tp|p=32355330|t=ä. Inactivated vaccine for SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32346092|t=ä. Cancer therapy tool informs COVID-19 vaccines |pdf=|usr=}}
-{{tp|p=32346094|t=ä. COVID-19 vaccine design: the Janus face of immune enhancement |pdf=|usr=}}
-{{tp|p=32317716|t=ä. The potential danger of suboptimal antibody responses in COVID-19 |pdf=|usr=}}
-*[https://www.biorxiv.org/content/10.1101/2020.03.22.002386v3 A SARS-CoV-2-Human Protein-Protein Interaction Map Reveals Drug Targets and Potential Drug-Repurposing]
-{{tp|p=32313660|t=2020. A short review on antibody therapy for COVID-19 |pdf=|usr=}}
-{{tp|p=32287799|t=2020. Drug trials under way |pdf=|usr=}}
-{{tp|p=32194995|t=2020. The outbreak of SARS-CoV-2 pneumonia calls for viral vaccines |pdf=|usr=}}
-{{tp|p=32340216|t=2020. Optimal Nutritional Status for a Well-Functioning Immune System Is an Important Factor to Protect against Viral Infections |pdf=|usr=}}
-{{tp|p=32342019|t=ä. Exercise against SARS-CoV-2 (COVID-19): Does workout intensity matter? (A mini review of some indirect evidence related to obesity) |pdf=|usr=}}
-{{tp|p=32258207|t=2020. High-Dose Intravenous Immunoglobulin as a Therapeutic Option for Deteriorating Patients With Coronavirus Disease 2019 |pdf=|usr=}}
-{{tp|p=32284951|t=2020. Coronavirus Disease 2019 Treatment: A Review of Early and Emerging Options |pdf=|usr=}}
-{{tp|p=32214286|t=2020. Expanded Umbilical Cord Mesenchymal Stem Cells (UC-MSCs) as a Therapeutic Strategy in Managing Critically Ill COVID-19 Patients: The Case for Compassionate Use |pdf=|usr=}}
-{{tp|p=32098302|t=2020. Emergence of Novel Coronavirus 2019-nCoV: Need for Rapid Vaccine and Biologics Development |pdf=|usr=}}
-{{tp|p=32333199|t=ä. Coronavirus in Hematologic Malignancies: Targeting Molecules Beyond the Angiotensin-Converting Enzyme 2 (ACE2) Wall in COVID-19 |pdf=|usr=}}
-{{tp|p=32307559|t=ä. Management for patients with pediatric surgical disease during the COVID-19 epidemic |pdf=|usr=}}
-{{tp|p=32290348|t=2020. COVID-19: A Brief Overview of the Discovery Clinical Trial |pdf=|usr=}}
-{{tp|p=32360585|t=ä. Current targeted therapeutics against COVID-19: based on first-line experience in china |pdf=|usr=}}
-{{tp|p=32360583|t=ä. Efficacy and safety of current therapeutic options for COVID-19 - lessons to be learnt from SARS and MERS epidemic: A systematic review and meta-analysis |pdf=|usr=}}
-{{tp|p=32360480|t=ä. Candidate drugs against SARS-CoV-2 and COVID-19 |pdf=|usr=}}
-{{tp|p=32369479|t=2020. Antibody-based therapies for COVID-19: Can Europe move faster?|pdf=|usr=}}
-{{tp|p=32343686|t=2020. Pandemic responses: Planning to neutralize SARS-CoV-2 and prepare for future outbreaks |pdf=|usr=}}
-{{tp|p=32253318|t=2020. Effectiveness of convalescent plasma therapy in severe COVID-19 patients |pdf=|usr=}}
-{{tp|p=32229574|t=2020. News Feature: Avoiding pitfalls in the pursuit of a COVID-19 vaccine |pdf=|usr=}}
-{{tp|p=32342871|t=ä. Is low dose radiation therapy a potential treatment for COVID-19 pneumonia?|pdf=|usr=}}
-{{tp|p=32342874|t=ä. Low dose radiation therapy for COVID-19 pneumonia: a double-edged sword |pdf=|usr=}}
-{{tp|p=32256547|t=2020. Clinical trials on drug repositioning for COVID-19 treatment |pdf=|usr=}}
-{{tp|p=32232552|t=ä. Coronavirus disease 2019 (COVID-19) and anti-rheumatic drugs |pdf=|usr=}}
-{{tp|p=32124179|t=ä. Clinical trials for the treatment of Coronavirus disease 2019 (COVID-19): A rapid response to urgent need |pdf=|usr=}}
-{{tp|p=32278175|t=ä. COVID-19: A promising cure for the global panic |pdf=|usr=}}
-{{tp|p=32347054|t=2020.  Strategies for vaccine development of COVID-19  |pdf=|usr=}}
-{{tp|p=32366290|t=2020. Mesenchymal stem cells as a potential therapy for COVID-19 |pdf=|usr=}}
-{{tp|p=C7110269|t=ä. COVID-19 Outbreak: an Update on Therapeutic Options |pdf=|usr=}}
-{{tp|p=32281052|t=ä. Mesenchymal Stem Cell Therapy for COVID-19: Present or Future |pdf=|usr=}}
-{{tp|p=32320535|t=2020. Mesenchymal stem cells as a potential treatment for critically ill patients with  coronavirus disease 2019 |pdf=|usr=}}
-{{tp|p=32343358|t=2020. Immunoglobulins or convalescent plasma to tackle COVID-19: buying time to save lives - current situation and perspectives |pdf=|usr=}}
-{{tp|p=32328234|t=2020. Does the direct renin inhibitor have a role to play in attenuating severity of the outbreak coronavirus disease 2019 (COVID-19)?|pdf=|usr=}}
-{{tp|p=32345485|t=ä. Treatment for emerging viruses: Convalescent plasma and COVID-19 |pdf=|usr=}}
-{{tp|p=32359789|t=ä. COVID-19 Convalescent Plasma: Now Is the Time for Better Science |pdf=|usr=}}
-{{tp|p=32359788|t=ä. Convalescent Plasma: Therapeutic Hope or Hopeless Strategy in the SARS-CoV-2 Pandemic |pdf=|usr=}}
-{{tp|p=32334088|t=ä. SARS-CoV-2 and COVID-19: What are our options? Where should we focus our attention on to find new drugs and strategies?|pdf=|usr=}}
-{{tp|p=32249063|t=ä. Neutralizing Antibodies against SARS-CoV-2 and Other Human Coronaviruses |pdf=|usr=}}
-{{tp|p=32362491|t=ä. Neutralizing Antibodies against SARS-CoV-2 and Other Human Coronaviruses: (Trends in Immunology 41, 355?359; 2020) |pdf=|usr=}}
-{{tp|p=32371057|t=ä. Potential applications of plant biotechnology against SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32291112|t=ä. Ongoing Clinical Trials for the Management of the COVID-19 Pandemic |pdf=|usr=}}
-{{tp|p=32299202|t=2020. COVID-19, immune system response, hyperinflammation and repurposing antirheumatic drugs|pdf=|usr=}}
-{{tp|p=32293834|t=2020. Antiviral treatment of COVID-19|pdf=|usr=}}
-{{tp|p=32295153|t=2020. What Does Plant-Based Vaccine Technology Offer to the Fight against COVID-19?|pdf=|usr=}}
-{{tp|p=32235387|t=2020. Progress and Prospects on Vaccine Development against SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32034638|t=ä. Compensation of ACE2 Function for Possible Clinical Management of 2019-nCoV-Induced Acute Lung Injury |pdf=|usr=}}
-{{tp|p=32297156|t=ä. Computational Identification of Small Interfering RNA Targets in SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32363219|t=ä. Binding site analysis of potential protease inhibitors of COVID-19 using AutoDock |pdf=|usr=}}
-{{tp|p=32106567|t=2020. Preliminary Identification of Potential Vaccine Targets for the COVID-19 Coronavirus (SARS-CoV-2) Based on SARS-CoV Immunological Studies |pdf=|usr=}}
-{{tp|p=32272550|t=2020. Antiviral Agents: Discovery to Resistance |pdf=|usr=}}
-{{tp|p=32268515|t=2020. In Silico Discovery of Candidate Drugs against Covid-19 |pdf=|usr=}}
-{{tp|p=32357553|t=2020. Repurposing Antiviral Protease Inhibitors Using Extracellular Vesicles for Potential Therapy of COVID-19 |pdf=|usr=}}
-{{tp|p=32295237|t=2020. Molecular Investigation of SARS-CoV-2 Proteins and Their Interactions with Antiviral Drugs |pdf=|usr=}}
-{{tp|p=32191676|t=2020. Natural small molecules as inhibitors of coronavirus lipid-dependent attachment to host cells: a possible strategy for reducing SARS-COV-2 infectivity?|pdf=|usr=}}
-{{tp|p=32207983|t=2020. Covid-19 infection and mortality: a physiologist?s perspective enlightening clinical features and plausible interventional strategies |pdf=|usr=}}
-{{tp|p=32274985|t=2020. Novel Coronavirus Disease (COVID-19): The Need for Immunoprevention at Industrial Scale |pdf=|usr=}}
-{{tp|p=32352178|t=2020. Editorial: low population mortality from COVID-19 in countries south of latitude  35 degrees North-supports vitamin D as a factor determining severity  Authors  reply |pdf=|usr=}}
-{{tp|p=32311755|t=2020. Editorial: low population mortality from COVID-19 in countries south of latitude  35 degrees North supports vitamin D as a factor determining severity |pdf=|usr=}}
-{{tp|p=32329159|t=2020. Thoughts on What Chemists Can Contribute to Fighting SARS-CoV-2 - A Short Note on Hand Sanitizers, Drug Candidates and Outreach |pdf=|usr=}}
-{{tp|p=32345616|t=2020. Anti-inflammatory therapy may ameliorate the clinical picture of COVID-19 |pdf=|usr=}}
-{{tp|p=32304395|t=2020. COVID-19 Respiratory Failure: Targeting Inflammation on VV-ECMO Support |pdf=|usr=}}
-{{tp|p=32380316|t=ä. Convalescent plasma in Covid-19: Possible mechanisms of action |pdf=|usr=}}
-{{tp|p=32376395|t=ä. SARS-CoV-2 infection among patients with systemic autoimmune diseases |pdf=|usr=}}
-{{ttp|p=32376392|t=ä. Should we stimulate or suppress immune responses in COVID-19? Cytokine and anti-cytokine interventions |pdf=|usr=}}
-{{ttp|p=32376394|t=ä. Immunomodulatory therapy for the management of severe COVID-19  Beyond the anti-viral therapy: A comprehensive review |pdf=|usr=}}
-{{ttp|p=32376397|t=ä. Seven recommendations to rescue the patients and reduce the mortality from COVID-19 infection: An immunological point of view |pdf=|usr=}}
-{{tp|p=32361195|t=ä. SARS-CoV-2 infection complicated by inflammatory syndrome  Could high-dose human  immunoglobulin for intravenous use (IVIG) be beneficial?|pdf=|usr=}}
-{{tp|p=32304139|t=ä. Progress and Concept for COVID?19 Vaccine Development |pdf=|usr=}}
-{{tp|p=32213152|t=2020. Are there any Therapeutic Options Currently Available for Wuhan Coronavirus?|pdf=|usr=}}
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-{{tp|p=32205349|t=2020. Updated Approaches against SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32229155|t=2020. Can Bioactive Lipids Inactivate Coronavirus (COVID-19)?|pdf=|usr=}}
-{{tp|p=32282033|t=2020. Initiating adjunct low-dose hydroxyurea therapy for stroke prevention in children with SCA during the COVID-19 pandemic |pdf=|usr=}}
-{{tp|p=32362106|t=2020. Management of conjunctivitis during the COVID-19 pandemic 2020 |pdf=|usr=}}
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-{{tp|p=32340998|t=2020. Covid-19: What do we know so far about a vaccine?|pdf=|usr=}}
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-{{ttp|p=32369628|t=2020. Convalescent donor SARS-COV-2-specific cytotoxic T lymphocyte infusion as a possible treatment option for COVID-19 patients with severe disease has not received enough attention till date |pdf=|usr=}}
-{{tp|p=32368792|t=2020. Potential Therapeutic Targets and Promising Drugs for Combating SARS-CoV-2 |pdf=|usr=}}
-{{ttp|p=32358833|t=2020. A rational roadmap for SARS-CoV-2/COVID-19 pharmacotherapeutic research and development  IUPHAR Review 29 |pdf=|usr=}}
-{{tp|p=32329520|t=2020. Current pharmacological treatments for COVID-19: What s next?|pdf=|usr=}}
-{{tp|p=32371479|t=2020. Cytokine Storm Drugs Move from CAR T to COVID-19 |pdf=|usr=}}
-{{tp|p=32303509|t=2020. Harnessing CAR T-cell Insights to Develop Treatments for Hyperinflammatory Responses in Patients with COVID-19 |pdf=|usr=}}
-{{ttp|p=32324951|t=2020. Drug Development and Medicinal Chemistry Efforts toward SARS-Coronavirus and Covid-19 Therapeutics |pdf=|usr=}}
-{{tp|p=32356569|t=2020. Challenges in Drug Development Posed by the COVID-19 Pandemic: An Opportunity for Clinical Pharmacology |pdf=|usr=}}
-{{tp|p=32315229|t=2020. COVID-19 and the CRISPR Community Response |pdf=|usr=}}
-{{tp|p=32133962|t=2020. Effective Chemicals against Novel Coronavirus (COVID-19) in China |pdf=|usr=}}
-{{tp|p=32227357|t=ä. COVID?19 treatment by repurposing drugs until the vaccine is in sight |pdf=|usr=}}
-{{tp|p=32377559|t=ä. COVID-19: Review of Epidemiology and Potential Treatments Against 2019 Novel Coronavirus |pdf=|usr=}}
-{{tp|p=32374010|t=2020. Are probiotics effective adjuvant therapeutic choice in patients with COVID-19?|pdf=|usr=}}
-{{tp|p=32374009|t=2020. Potential mechanisms by which the oxygen-ozone (O2-O3) therapy could contribute to the treatment against the coronavirus COVID-19 |pdf=|usr=}}
-{{tp|p=32369103|t=ä. Sacubitril/valsartan in COVID-19 patients: the need for trials |pdf=|usr=}}
-{{tp|p=32373994|t=2020. Could host cell receptor alteration prevent SARS-CoV-2 viral entry? - Hype or hope |pdf=|usr=}}
-{{tp|p=32373992|t=2020. MSCs transplantation may be a potential therapeutic strategy for COVID-19 treatment |pdf=|usr=}}
-{{tp|p=32362193|t=2020. Quadruple therapy for asymptomatic COVID-19 infection patients |pdf=|usr=}}
-{{tp|p=32366131|t=2020. Harnessing the potential of CRISPR-based platforms to advance the field of hospital medicine |pdf=|usr=}}
-{{tp|p=32336007|t=2020. DPP4 inhibition: preventing SARS-CoV-2 infection and/or progression of COVID-19?|pdf=|usr=}}
-{{tp|p=32224164|t=2020. COVID-19 and diabetes: Can DPP4 inhibition play a role?|pdf=|usr=}}
-{{tp|p=32281695|t=2020. Existing bitter medicines for fighting 2019-nCoV-associated infectious diseases |pdf=|usr=}}
-{{tp|p=32379896|t=2020. Knowledge-based structural models of SARS-CoV-2 proteins and their complexes with potential drugs |pdf=|usr=}}
-{{tp|p=32157732|t=ä. Harnessing the immune system via Fc?R function in immune therapy: a pathway to next?gen mAbs |pdf=|usr=}}
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-{{tp|p=32338559|t=2020. Low dose radiation therapy for COVID-19 pneumonia: is there any supportive evidence?|pdf=|usr=}}
-{{tp|p=32310190|t=2020. Coronavirus drugs: Using plasma from recovered patients as a treatment for COVID-19 |pdf=|usr=}}
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-üüp
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-{{tp|p=32371362|t=2020. Mesenchymal stem cell (MSc) secretome: A possible therapeutic strategy for intensive-care COVID-19 patients |pdf=|usr=}}
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-{{tp|p=32259313|t=2020. Review of Emerging Pharmacotherapy for the Treatment of Coronavirus Disease 2019 |pdf=|usr=}}
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-{{tp|p=32272857|t=2020. Role of Tissue Engineering in COVID-19 and Future Viral Outbreaks |pdf=|usr=}}
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-{{tp|p=32220178|t=2020.  Biological Product Development Strategies for Prevention and Treatment of Coronavirus Disease 2019  |pdf=|usr=}}
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-{{tp|p=C7187737|t=ä. COVID-19 and the Rationale for Pharmacotherapy: A South African Perspective |pdf=|usr=}}
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-*[https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3335060/ Immunization with SARS Coronavirus Vaccines Leads to Pulmonary Immunopathology on Challenge with the SARS Virus btu @OnlyTheGhosts]
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-{{tp|p=32382358|t=ä. COVID-19 and Diabetes Mellitus: May Old Anti-diabetic Agents Become the New Philosopher?s Stone?|pdf=|usr=}}
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