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Aktuelle Version vom 18. Januar 2021, 20:19 Uhr

Thymosin

32442287 2020. Thymosin alpha 1 (Talpha1) reduces the mortality of severe COVID-19 by restoration of lymphocytopenia and reversion of exhausted T cells.

Thymoquinone
32588453 2020. Covid-19 and Thymoquinone: Connecting the Dots.

G-CSF, GM-CSF
32419212 2020. Granulocyte-colony stimulating factor in COVID-19: Is it stimulating more than just the bone marrow?
32576980 2020. GM-CSF-based treatments in COVID-19: reconciling opposing therapeutic approaches.
32559419 2020. Therapeutic blockade of granulocyte macrophage colony-stimulating factor in COVID-19-associated hyperinflammation: challenges and opportunities.

hzVSF‐v13 Humanized virus suppressing factor‐variant 13 (hzVSF‐v13) is a monoclonal IgG4 against vimentin, which is expressed on the surface of virus‐infected cells.
32458425 2020. Compassionate use of hzVSF-v13 in two patients with severe COVID-19.

Omalizumab
32510814 2020. Omalizumab and COVID19 Treatment: Could It Help? Anti-IgE mab, -IL6,-TNF,-IL1,-NFKB

Almitrine
32505756 2020. Almitrine as a non-ventilatory strategy to improve intrapulmonary shunt in COVID-19 patients.
32505755 2020. Effect of almitrine bismesylate and inhaled nitric oxide on oxygenation in COVID-19 acute respiratory distress syndrome.
32512007 2020. Efficacy of Almitrine in The Treatment of Hypoxemia in Sars-Cov-2 Acute Respiratory Distress Syndrome.

H2S
32515982 2020. H2S as a potential defence against COVID-19?
32409956 2020. Possible application of H2S-producing compounds in therapy of coronavirus (COVID-19) infection and pneumonia.

Oleoylethanolamide
32327293 ä. Oleoylethanolamide, A Bioactive Lipid Amide, as A Promising Treatment Strategy for Coronavirus/COVID-19

Lauric acid nat. compd.

call for trial

Dipyridamole retarget
32318327 ä. Potential therapeutic effects of dipyridamole in the severely ill patients with COVID-19

CGRP calcitonin gene related peptide antagonists
32386433 2020. Could CGRP Antagonists Be Helpful in the Fight Against COVID-19?

Various Leads

32251767 2020. Remdesivir, lopinavir, emetine, and homoharringtonine inhibit SARS-CoV-2 replication in vitro
32226695 ä. Acetazolamide, Nifedipine and Phosphodiesterase Inhibitors: Rationale for Their Utilization as Adjunctive Countermeasures in the Treatment of Coronavirus Disease 2019 (COVID-19)

BRD4 polycomb
32495654 2020. Targeting SARS-CoV-2 using polycomb inhibitors as antiviral agents.

Ipecac
32245264 2020. Emetine, Ipecac, Ipecac Alkaloids and Analogues as Potential Antiviral Agents for Coronaviruses

Sodium pyruvate
32378817 2020. Inhaled Nebulized Sodium Pyruvate Use in COVID-19 Patients

Ciclesonide
32362440 ä. Therapeutic potential of ciclesonide inhalation for COVID-19 pneumonia: Report of three cases
32593491 2020. Molecular pharmacology of ciclesonide against SARS-CoV-2.
32402512 2020. A Case of Coronavirus Disease 2019 Treated With Ciclesonide.

Botox
32352081 ä. Perspectives for the use of therapeutic Botulinum toxin as a multifaceted candidate drug to attenuate COVID-19

Endothelin antagonists
32361169 2020. Why not consider an endothelin receptor antagonist against SARS?CoV?2?
32360293 2020. Endothelin receptor antagonists for pulmonary arterial hypertension and COVID-19: Friend or foe?

Rho kinase inhibitors
32283223 2020. Plausibility of therapeutic effects of Rho kinase inhibitors against Severe Acute Respiratory Syndrome Coronavirus 2 (COVID-19)
32430287 2020. Rho kinase inhibitors for SARS-CoV-2 induced acute respiratory distress syndrome: Support from Bartter's and Gitelman's syndrome patients.

Saikosaponins
32353743 2020. Purposing Saikosaponins for the treatment of COVID-19
32345124 2020. An in-silico evaluation of different Saikosaponins for their potency against SARS-CoV-2 using NSP15 and fusion spike glycoprotein as targets

ADAM17 as target
32291449 ä. ADAM17 inhibition may exert a protective effect on COVID-19

Nitazoxanide
32405422 2020. Review of safety and minimum pricing of nitazoxanide for potential treatment of COVID-19.
32360581 ä. Nitazoxanide/Azithromycin combination for COVID-19: A suggested new protocol for COVID-19 early management

tPA

32312290 2020. Salvage use of tissue plasminogen activator (tPA) in the setting of acute respiratory distress syndrome (ARDS) due to COVID-19 in the USA: a Markov decision analysis

31856018 2020. Is there a role for tissue plasminogen activator as a novel treatment for refractory COVID-19 associated acute respiratory distress syndrome?

32427774 2020. Early Outcomes with Utilization of Tissue Plasminogen Activator in COVID-19 Associated Respiratory Distress: A series of five cases.

32427773 2020. Rescue Therapy for Severe COVID-19 Associated Acute Respiratory Distress Syndrome (ARDS) with Tissue Plasminogen Activator (tPA): A Case Series.

Plasminogen
32275753 ä. Plasminogen improves lung lesions and hypoxemia in patients with COVID-19

Hesperidin
32531538 2020. Is hesperidin essential for prophylaxis and treatment of COVID-19 Infection?

Diacerein
32534337 2020. Diacerein: A potential multi-target therapeutic drug for COVID-19.

CD147
32307653 ä. CD147 as a Target for COVID-19 Treatment: Suggested Effects of Azithromycin and Stem Cell Engagement

Bee venom
32360140 ä. Bee venom and SARS-CoV-2

Luteolin
32339387 2020. COVID-19, pulmonary mast cells, cytokine storms, and beneficial actions of luteolin

Pannexin1 channels
32519892 2020. Consideration of Pannexin 1 channels in COVID-19 pathology and treatment.

NAD+
32534944 2020. Influence of NAD+ as an ageing-related immunomodulator on COVID 19 infection: A hypothesis.

Celastrol
32347602 2020. Should we try the antiinflammatory natural product, celastrol, for COVID-19?

1
32352871 2020. A Radiation Mitigator as a Potential Treatment for COVID-19

Ozone
C7203037 ä. (Vitamin-C; Ozone)Two known therapies could be useful as adjuvant therapy in critical patients infected by COVID-19?
32462858 2020. Oxygen-ozone therapy as adjuvant in the current emergency in SARS-COV-2 infection: a clinical study.

stimulating the Platelets

32315397 2020. Promoting platelets is a therapeutic option to combat severe viral infection of the lung

Thrombomodulin
23607598 2013. (x)Involvement of high mobility group box 1 and the therapeutic effect of recombinant thrombomodulin in a mouse model of severe acute respiratory distress syndrome

Lipids
32345532 2020. Response to: Bioactive Lipids and Coronavirus (COVID-19)-further Discussion.

32429572 2020. The Role of Lipid Metabolism in COVID-19 Virus Infection and as a Drug Target.
32408699 2020. Essential Oils as Antiviral Agents. Potential of Essential Oils to Treat SARS-CoV-2 Infection: An In-Silico Investigation.
32457038 2020. Potential COVID-19 therapeutics from a rare disease: Weaponizing lipid dysregulation to combat viral infectivity.

Resolvins
32416413 2020. Covid-19 management with inflammation resolving mediators? Perspectives and potential

mabs
32534226 2020. Monoclonal antibody as a potential anti-COVID-19.
32514101 2020. First antibody against COVID-19 spike protein enters phase I.
32422645 2020. Cross-neutralization of SARS-CoV-2 by a human monoclonal SARS-CoV antibody.
32512271 2020. An approach towards development of monoclonal IgY antibodies against SARS CoV-2 spike protein (S) using phage display method: A review.

tlr's
32391920 2020. Consider TLR5 for new therapeutic development against COVID-19.

lactoferrin
32529963 2020. Can lactoferrin boost human immunity against COVID-19?

Ursodeoxycholic acid
32505909 2020. Ursodeoxycholic acid as a candidate therapeutic to alleviate and/or prevent COVID-19-associated cytokine storm.
32575350 2020. Merit of an Ursodeoxycholic Acid Clinical Trial in COVID-19 Patients.

Diethylcarbamazine anti-filarial
32492560 2020. Is the anti-filarial drug diethylcarbamazine useful to treat COVID-19?

Nitrofurazoxide

32504751 2020. A novel role of nifuroxazide in attenuation of sepsis-associated acute lung and myocardial injuries; role of TLR4/NLPR3/IL-1beta signaling interruption.

Parthenolide
32472655 2020. Cytokine storm in COVID-19 and parthenolide: preclinical evidence.

Lidocaine
32505070 2020. Nebulized Lidocaine in COVID-19, An Hypothesis.

Escin
32441805 2020. Severe Acute Lung Injury Related to COVID-19 Infection: A Review and the Possible Role for Escin. Methioninase
32503816 2020. Oral Methioninase for Covid-19 Methionine-restriction Therapy.

Thalidomide
C7186126 ä. Proposed use of thalidomide for the cytokine storm of COVID-19
32508009 2020. Thalidomide combined with low-dose short-term glucocorticoid in the treatment of critical Coronavirus Disease 2019.

32574274 2020. Thalidomide-Revisited: Are COVID-19 Patients Going to Be the Latest Victims of Yet Another Theoretical Drug-Repurposing?

PARP inh
32441764 2020. Repositioning PARP inhibitors for SARS-CoV-2 infection (COVID-19); a new multi-pronged therapy for ARDS?

P selectin block
32464083 2020. P-selectin blockade in COVID-19-related ARDS.

CD14
32574958 2020. Targeting innate immunity by blocking CD14: Novel approach to control inflammation and organ dysfunction in COVID-19 illness.

Proteasome inh
32443911 2020. Proteasome Inhibitors as a Possible Therapy for SARS-CoV-2.
32442437 2020. The proteasome as a druggable target with multiple therapeutic potentialities: Cutting and non-cutting edges.

Endoplasmic reticulum stress
32454157 2020. Crosstalk between endoplasmic reticulum stress and anti-viral activities: A novel therapeutic target for COVID-19.
32561291 2020. Endoplasmic reticulum as a potential therapeutic target for covid-19 infection management?

Lysosomes, Autophagy, Membranes
32522674 2020. Widely available lysosome targeting agents should be considered as potential therapy for COVID-19.
32522067 2020. Autophagy as an emerging target for COVID-19: lessons from an old friend, chloroquine.
32521191 2020. Open questions for harnessing autophagy-modulating drugs in the SARS-CoV-2 war: hope or hype?
32425923 2020. Could the Inhibition of Endo-Lysosomal Two-Pore Channels (TPCs) by the Natural Flavonoid Naringenin Represent an Option to Fight SARS-CoV-2 Infection?
32449802 2020. May we target double membrane vesicles and oxysterol-binding protein to combat SARS-CoV-2 infection?
32342366 2020. Autophagie - ein Ansatzpunkt fur ein Medikament gegen COVID-19? : Kampf gegen das Coronavirus.
32567972 2020. Autophagy and SARS-CoV-2 infection: Apossible smart targeting of the autophagy pathway.

Salinomycin
32516655 2020. Pulmonary delivery of nanostructured lipid carriers for effective repurposing of salinomycin as an antiviral agent.

Arteminisin
32405226 2020. Anti-malarial drug, artemisinin and its derivatives for the treatment of respiratory diseases.

LMWF5A
32431755 2020. The novel immunomodulatory biologic LMWF5A for pharmacological attenuation of the "cytokine storm" in COVID-19 patients: a hypothesis.

Quarternary ammonium compounds
32451736 2020. Repurposing Quaternary Ammonium Compounds as Potential Treatments for COVID-19.

Kv1.3 chanels
32581194 2020. Targeting lymphocyte Kv1.3-channels to suppress cytokine storm in severe COVID-19: Can it be a novel therapeutic strategy?

Exportin-1
32569833 2020. Exportin 1 inhibition as antiviral therapy.

Quinoxalines
32560203 2020. Quinoxaline Derivatives as Antiviral Agents: A Systematic Review.

Pirfenidone
32575019 2020. Pirfenidone: A novel hypothetical treatment for COVID-19.
32594204 2020. The added value of pirfenidone to fight inflammation and fibrotic state induced by SARS-CoV-2 : Anti-inflammatory and anti-fibrotic therapy could solve the lung complications of the infection?
32525005 2020. Effective block by pirfenidone, an antifibrotic pyridone compound (5-methyl-1-phenylpyridin-2[H-1]-one), on hyperpolarization-activated cation current: An additional but distinctive target.

IL-15
32536564 2020. IL-15 immunotherapy is a viable strategy for COVID-19.

Galectin-3
32587806 2020. A potential role for Galectin-3 inhibitors in the treatment of COVID-19.

Febuxostat
32603531 2020. Febuxostat therapy in outpatients with suspected COVID-19: A clinical trial.

Auranofin
32547693 2020. A Role for Metal-Based Drugs in Fighting COVID-19 Infection? The Case of Auranofin.

Triiodthyronine
32384906 2020. Use of triiodothyronine to treat critically ill COVID-19 patients: a new clinical trial.

Berberine
32594322 2020. Antiviral activity of berberine.

Oseltamivir
32571773 2020. Oseltamivir for coronavirus illness: post-hoc exploratory analysis of an open-label, pragmatic, randomised controlled trial in European primary care from 2016 to 2018.

Glycyrrhizin
32335281 ä. Pharmacological perspective: glycyrrhizin may be an efficacious therapeutic agent for COVID-19

32077621 2020. Glycyrrhizic-Acid-Based Carbon Dots with High Antiviral Activity by Multisite Inhibition Mechanisms

32458502 2020. Glycyrrhetinic acid and its derivatives as potential alternative medicine to relieve symptoms in nonhospitalized COVID-19 patients.
32592716 2020. Glycyrrhizin: An alternative drug for the treatment of COVID-19 infection and the associated respiratory syndrome?
32574273 2020. Symptomatic Protective Action of Glycyrrhizin (Licorice) in COVID-19 Infection?
32543164 2020. The comparison of the effectiveness of lincocin(R) and azitro(R) in the treatment of covid-19-associated pneumonia: A prospective study.

Immune checkpoint inhibitors pd1
32544799 2020. Immune checkpoint inhibitors: a physiology-driven approach to the treatment of coronavirus disease 2019.

Norovir
32551855 2020. Effects of Gene-Eden-VIR and Novirin on SARS-CoV: Implications for COVID-19.

Spironolactone
32297520 2020. Can spironolactone be used to prevent COVID-19-induced acute respiratory distress syndrome in patients with hypertension?
32551456 2020. Use of Spironolactone in SARS-CoV-2 ARDS Patients.
32513242 2020. Blocking mineralocorticoid receptor with spironolactone may have a wide range of therapeutic actions in severe COVID-19 disease.

Catecholamines
32554324 2020. Noradrenergic and serotonergic drugs may have opposing effects on COVID-19 cytokine storm and associated psychological effects.

beta adrenergic antagonists
32388480 2020. Can beta-adrenergic blockers be used in the treatment of COVID-19?

alpha1 adrenergic antagonists
32352407 2020. Preventing cytokine storm syndrome in COVID-19 using alpha-1 adrenergic receptor antagonists
32237190 ä. What does androgenetic alopecia have to do with COVID?19? An insight into a potential new therapy

Iodine
32540604 2020. Iodine, a preventive and curative agent in the COVID-19 pandemic?

Bisphosphonates
32600410 2020. Boning up: amino-bisphophonates as immunostimulants and endosomal disruptors of dendritic cell in SARS-CoV-2 infection.

Other single compounds

Aktuelle Version vom 18. Januar 2021, 20:19 Uhr

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@@ Zeile 1: / Zeile 1: @@
+{{up|PHA retargeted compounds}}
 '''Thymosin'''
 {{ttp|p=32442287|t=2020. Thymosin alpha 1 (Talpha1) reduces the mortality of severe COVID-19 by restoration of lymphocytopenia and reversion of exhausted T cells.|pdf=|usr=007}}
-'''G-CSF'''
+'''Thymoquinone'''
+{{tp|p=32588453|t=2020. Covid-19 and Thymoquinone: Connecting the Dots.|pdf=|usr=010}}
+'''G-CSF, GM-CSF'''
 {{tp|p=32419212|t=2020. Granulocyte-colony stimulating factor in COVID-19: Is it stimulating more than just the bone marrow?|pdf=|usr=007}}
+{{tp|p=32576980|t=2020. GM-CSF-based treatments in COVID-19: reconciling opposing therapeutic approaches.|pdf=|usr=010}}
+{{tp|p=32559419|t=2020. Therapeutic blockade of granulocyte macrophage colony-stimulating factor in COVID-19-associated hyperinflammation: challenges and opportunities.|pdf=|usr=010}}
 '''hzVSF‐v13'''
@@ Zeile 14: / Zeile 21: @@
-'''bradykinin antagonists'''  ''Icatibant, Noscapine'''
-{{ttp|p=32337769|t=2020. (tt bradykinin) Noscapine, a possible drug candidate for attenuation of cytokine release associated with SARS-CoV-2 |pdf=|usr=}}
-{{tp|p=32359101|t=2020. A hypothesized role for dysregulated bradykinin signaling in COVID-19 respiratory complications |pdf=|usr=}}
-{{tp|p=32526773|t=2020. Impaired Breakdown of Bradykinin and Its Metabolites as a Possible Cause for Pulmonary Edema in COVID-19 Infection.|pdf=|usr=008}}
-{{tp|p=32359101|t=2020. A hypothesized role for dysregulated bradykinin signaling in COVID-19 respiratory complications |pdf=|usr=}}
 '''Almitrine'''
@@ Zeile 26: / Zeile 28: @@
-'''Nitric oxide'''
-{{tp|p=32526061|t=2020. Targeting the NO-cGMP-PDE5 pathway in COVID-19 infection.|pdf=|usr=008}}
-{{tp|p=32387333|t=ä. Could nasal nitric oxide help to mitigate the severity of COVID-19?|pdf=|usr=}}
-{{tp|p=32436029|t=2020. Nitric oxide inhalation as an interventional rescue therapy for COVID-19-induced acute respiratory distress syndrome.|pdf=|usr=008}}
-{{tp|p=32454510|t=2020. Potential Immunoregulatory and Antiviral/SARS-CoV-2 Activities of Nitric Oxide.|pdf=|usr=007}}
-'''PDE5 Inhibitors'''
-{{tp|p=32272196|t=2020. Any possible role of phosphodiesterase type 5 inhibitors in the treatment of severe COVID19 infections? A lesson from urology |pdf=|usr=}}
-{{tp|p=32226695|t=ä. Acetazolamide, Nifedipine and Phosphodiesterase Inhibitors: Rationale for Their Utilization as Adjunctive Countermeasures in the Treatment of Coronavirus Disease 2019 (COVID-19) |pdf=|usr=}}
 '''H2S'''
 {{tp|p=32515982|t=2020. H2S as a potential defence against COVID-19?|pdf=|usr=008}}
+{{tp|p=32409956|t=2020. Possible application of H2S-producing compounds in therapy of coronavirus (COVID-19) infection and pneumonia.|pdf=|usr=011}}
-'''Anti microbials'''
-{{tp|p=32439730|t=2020. Use of specific antimicrobials for COVID-19: should we prescribe them now or wait for more evidence?|pdf=|usr=007}}
-'''Macrolide antibiotics'''
-{{tp|p=32249257|t=2020. Macrolide treatment for COVID-19: Will this be the way forward?|pdf=|usr=}}
-'''Azithromycin'''
-{{tp|p=32302411|t=2020. Clinical Pharmacology Perspectives on the Antiviral Activity of Azithromycin and  Use in COVID-19 |pdf=|usr=}}
-{{tp|p=32534189|t=2020. Macrolides and viral infections: focus on azithromycin in COVID-19 pathology.|pdf=|usr=008}}
-{{tp|p=32398343|t=2020. Should azithromycin be used to treat COVID-19? A rapid review.|pdf=|usr=007}}
-{{tp|p=32511867|t=2020. Predictions of Systemic, Intracellular, and Lung Concentrations of Azithromycin with Different Dosing Regimens used in COVID-19 Clinical Trials.|pdf=|usr=007}}
-{{tp|p=32510734|t=2020. Azithromycin and COVID-19Prompt Early Use at First Signs of this Infection in Adults and Children An Approach Worthy of Consideration.|pdf=|usr=007}}
-'''Teicoplanin'''
-{{tp|p=32179150|t=ä. Teicoplanin: an alternative drug for the treatment of coronavirus COVID-19?|pdf=|usr=}}
-{{tp|p=32454071|t=2020. Is teicoplanin a complementary treatment option for COVID-19? The question remains.|pdf=|usr=008}}
-'''Doxycycline and other Tetracyclins'''
-{{tp|p=32339778|t=ä. Dapsone and Doxycycline could be potential treatment modalities for COVID-19 |pdf=|usr=}}
-{{tp|p=32314492|t=ä. Doxycycline, a widely used antibiotic in dermatology with a possible anti?inflammatory action against IL?6 in COVID?19 outbreak |pdf=|usr=}}
-{{tp|p=32267566|t=2020. Therapeutic Potential for Tetracyclines in the Treatment of COVID-19 |pdf=|usr=}}
-{{tp|p=32533795|t=2020. Further aspects of doxycycline therapy in COVID-19.|pdf=|usr=008}}
-{{tp|p=32379302|t=2020. Cardiac safety and potential efficacy: two reasons for considering minocycline in place of azithromycin in COVID-19 management.|pdf=|usr=008}}
-'''Metronidazole''' retarget
-{{tp|p=32259129|t=2020. Metronidazole; a Potential Novel Addition to the COVID-19 Treatment Regimen |pdf=|usr=}}
 '''Oleoylethanolamide'''
@@ Zeile 77: / Zeile 42: @@
-'''Nicotine''' nat. toxin
-*[https://www.usatoday.com/story/news/factcheck/2020/05/03/covid-19-fact-check-caution-urged-study-virus-smoking/3055378001/ france]
-{{tp|p=32353120|t=ä. Does Cigarette Smoking Protect Against SARS-CoV-2 Infection?|pdf=|usr=}}
-{{tp|p=32242236|t=ä. COVID-19 and Smoking |pdf=|usr=}}
-{{ttp|p=32522666|t=2020. How nicotine can inhibit cytokine storm in the lungs and prevent or lessen the severity of COVID-19 infection?|pdf=|usr=008}}
@@ Zeile 103: / Zeile 64: @@
-'''Glycyrrhizin'''
-{{tp|p=32335281|t=ä. Pharmacological perspective: glycyrrhizin may be an efficacious therapeutic agent for COVID-19 |pdf=|usr=}}
-{{ttp|p=32077621|t=2020. Glycyrrhizic-Acid-Based Carbon Dots with High Antiviral Activity by Multisite Inhibition Mechanisms |pdf=|usr=}}
-{{tp|p=32458502|t=2020. Glycyrrhetinic acid and its derivatives as potential alternative medicine to relieve symptoms in nonhospitalized COVID-19 patients.|pdf=|usr=007}}
 '''Ipecac'''
 {{tp|p=32245264|t=2020. Emetine, Ipecac, Ipecac Alkaloids and Analogues as Potential Antiviral Agents for Coronaviruses |pdf=|usr=}}
-'''Camostat mesilate''' serine proteinase inh
-{{tp|p=32347443|t=ä. Camostat mesilate therapy for COVID-19 |pdf=|usr=}}
-{{tp|p=32489508|t=2020. Simultaneous Treatment of COVID-19 With Serine Protease Inhibitor Camostat and/or Cathepsin L Inhibitor?|pdf=|usr=008}}
-'''Nafamostat mesilate''' serine proteinase inh
-{{tp|p=32312781|t=2020. Nafamostat Mesylate Blocks Activation of SARS-CoV-2: New Treatment Option for COVID-19 |pdf=|usr=}}
-{{tp|p=32302456|t=2020. Potential of heparin and nafamostat combination therapy for COVID-19 |pdf=|usr=}}
-{{tp|p=32470602|t=2020. Three cases of treatment with Nafamostat in elderly patients with COVID-19 pneumonia who need oxygen therapy.|pdf=|usr=008}}
 '''Sodium pyruvate'''
 {{tp|p=32378817|t=2020. Inhaled Nebulized Sodium Pyruvate Use in COVID-19 Patients |pdf=|usr=}}
-'''alpha1 adrenergic antagonists'''
-{{tp|p=32352407|t=2020. Preventing cytokine storm syndrome in COVID-19 using alpha-1 adrenergic receptor  antagonists |pdf=|usr=}}
-{{tp|p=32237190|t=ä. What does androgenetic alopecia have to do with COVID?19? An insight into a potential new therapy |pdf=|usr=}}
 '''Ciclesonide'''
 {{tp|p=32362440|t=ä. Therapeutic potential of ciclesonide inhalation for COVID-19 pneumonia: Report of three cases |pdf=|usr=}}
+{{tp|p=32593491|t=2020. Molecular pharmacology of ciclesonide against SARS-CoV-2.|pdf=|usr=011}}
+{{tp|p=32402512|t=2020. A Case of Coronavirus Disease 2019 Treated With Ciclesonide.|pdf=|usr=011}}
-'''Melatonin'''
-{{tp|p=32217117|t=2020. COVID-19: Melatonin as a potential adjuvant treatment |pdf=|usr=}}
-{{tp|p=32360622|t=2020. Comment on Melatonin as a potential adjuvant treatment for COVID-19 |pdf=|usr=}}
-{{tp|p=32334009|t=2020. Correspondence COVID-19: Melatonin as a potential adjuvant treatment |pdf=|usr=}}
-{{tp|p=32347747|t=2020. Can melatonin reduce the severity of COVID-19 pandemic?|pdf=|usr=}}
-{{tp|p=32314850|t=2020. Melatonin: Roles in influenza, Covid?19, and other viral infections |pdf=|usr=}}
-'''cannabinoids'''
-{{tp|p=32360437|t=ä. SARS-CoV2 induced respiratory distress: Can cannabinoids be added to anti-viral therapies to reduce lung inflammation?|pdf=|usr=}}
-{{tp|p=32273254|t=2020. Cannabidiol as prophylaxis for SARS-CoV-2 and COVID-19? Unfounded claims versus potential risks of medications during the pandemic |pdf=|usr=}}
-{{tp|p=32519753|t=2020. The potential of cannabidiol in the COVID-19 pandemic: a hypothesis letter.|pdf=|usr=008}}
-{{tp|p=32380847|t=2020. Cannabis in the Time of Coronavirus Disease 2019: The Yin and Yang of the Endocannabinoid System in Immunocompetence{{tp|p=32467020|t=2020. A...: Cannabidiol as a potential anti-inflammatory treatment?|pdf=|usr=008}}.|pdf=|usr=008}}
-{{tp|p=32471272|t=2020. Cannabinoid Receptor Type 2: A Possible Target in SARS-CoV-2 (CoV-19) Infection?|pdf=|usr=007}}
-'''Oxytocin'''
-{{tp|p=32344303|t=ä. Oxytocin as a potential defence against Covid-19?|pdf=|usr=}}
-'''Resiniferatoxin'''
-{{tp|p=32292906|t=2020. The role of afferent pulmonary innervation in ARDS associated with COVID-19 and potential use of resiniferatoxin to improve prognosis: A review |pdf=|usr=}}
-'''TRPV1 target'''
-{{tp|p=C7147214|t=ä. Potential TRPV1 blockade to treat severe lung dysfunction in COVID-19 infection |pdf=|usr=}}
-{{tp|p=32292907|t=2020. Standing out from the crowd in treating COVID-19 |pdf=|usr=}} the title has been idioted from ''Potential TRPV1 blockade to treat severe lung dysfunction in COVID-19 infection.''
-'''TRPV4 target'''
-{{tp|p=32401673|t=2020. Urgent reconsideration of lung edema as a preventable outcome in COVID-19: inhibition of TRPV4 represents a promising and feasible approach.|pdf=|usr=007}}
@@ Zeile 163: / Zeile 86: @@
 {{tp|p=32352081|t=ä. Perspectives for the use of therapeutic Botulinum toxin as a multifaceted candidate drug to attenuate COVID-19 |pdf=|usr=}}
-'''PAK-1 target'''
-{{tp|p=32313880|t=ä. PAK1-blockers: Potential Therapeutics against COVID-19? |pdf=|usr=}}
-{{tp|p=32348877|t=ä. Chemical evolution for taming the ?pathogenic kinase? PAK1 |pdf=|usr=}}
@@ Zeile 176: / Zeile 96: @@
 '''Rho kinase inhibitors'''
 {{tp|p=32283223|t=2020. Plausibility of therapeutic effects of Rho kinase inhibitors against Severe Acute Respiratory Syndrome Coronavirus 2 (COVID-19) |pdf=|usr=}}
+{{tp|p=32430287|t=2020. Rho kinase inhibitors for SARS-CoV-2 induced acute respiratory distress syndrome: Support from Bartter's and Gitelman's syndrome patients.|pdf=|usr=009}}
 '''Saikosaponins'''
 {{tp|p=32353743|t=2020. Purposing Saikosaponins for the treatment of COVID-19 |pdf=|usr=}}
 {{tp|p=32345124|t=2020. An in-silico evaluation of different Saikosaponins for their potency against SARS-CoV-2 using NSP15 and fusion spike glycoprotein as targets |pdf=|usr=}}
-'''Retinoids'''
-{{tp|p=32459003|t=2020. A role for retinoids in the treatment of COVID-19?|pdf=|usr=007}}
-'''Isotretinoin'''
-{{tp|p=32406143|t=2020. Could patients taking isotretinoin therapy be immune against SARS-CoV-2?|pdf=|usr=008}}
-'''Fenretinide'''
-{{tp|p=32471278|t=2020. Pulmonary Delivery of Fenretinide: A Possible Adjuvant Treatment In COVID-19.|pdf=|usr=007}}
-'''Dapsone'''
-{{tp|p=32344275|t=2020. Dapsone, colchicine and olanzapine as treatment adjuncts to prevent COVID-19 associated adult respiratory distress syndrome (ARDS) |pdf=|usr=}}
-{{tp|p=32339778|t=ä. Dapsone and Doxycycline could be potential treatment modalities for COVID-19 |pdf=|usr=}}
-{{tp|p=31931639|t=2020. Dapsone as treatment adjunct in ARDS |pdf=|usr=}}
-'''Apremilast'''
-{{tp|p=32449265|t=2020. Apremilast as a potential treatment option for COVID-19: no symptoms of infection in a psoriatic patient.|pdf=|usr=008}}
-'''Olanzapine'''
-{{tp|p=32344275|t=2020. Dapsone, colchicine and olanzapine as treatment adjuncts to prevent COVID-19 associated adult respiratory distress syndrome (ARDS) |pdf=|usr=}}
 '''ADAM17 as target'''
@@ Zeile 208: / Zeile 106: @@
-'''Dextrometorphan'''
-*[https://theconversation.com/we-found-and-tested-47-old-drugs-that-might-treat-the-coronavirus-results-show-promising-leads-and-a-whole-new-way-to-fight-covid-19-136789 dextrometorphan (antitussive compd)]
-'''Nitazoxaide'''
+'''Nitazoxanide'''
+{{tp|p=32405422|t=2020. Review of safety and minimum pricing of nitazoxanide for potential treatment of COVID-19.|pdf=|usr=009}}
 {{tp|p=32360581|t=ä. Nitazoxanide/Azithromycin combination for COVID-19: A suggested new protocol for  COVID-19 early management |pdf=|usr=}}
@@ Zeile 225: / Zeile 122: @@
 {{tp|p=32275753|t=ä. Plasminogen improves lung lesions and hypoxemia in patients with COVID-19 |pdf=|usr=}}
+'''Hesperidin'''
+{{tp|p=32531538|t=2020. Is hesperidin essential for prophylaxis and treatment of COVID-19 Infection?|pdf=|usr=009}}
+'''Diacerein'''
-'''mTOR ihibitors'''
+{{tp|p=32534337|t=2020. Diacerein: A potential multi-target therapeutic drug for COVID-19.|pdf=|usr=009}}
-{{tp|p=32313883|t=2020. Inhaled biguanides and mTOR inhibition for influenza and coronavirus (Review) |pdf=|usr=}}
-{{tp|p=32334502|t=2020. The Mechanistic Target of Rapamycin (mTOR): Novel Considerations as an Antiviral  Treatment|pdf=|usr=}}
-{{tp|p=32410266|t=2020. Immunoregulation with mTOR inhibitors to prevent COVID-19 severity: A novel intervention strategy beyond vaccines and specific antiviral medicines.|pdf=|usr=008}}
-'''Cyclophilin A inhibitors'''
-{{tp|p=32347055|t=2020.  Role of cyclophilin A during coronavirus replication and the antiviral activities of its inhibitors  |pdf=|usr=}}
-'''Alisporivir'''
-{{ttp|p=32376613|t=2020. Inhibition of SARS-CoV-2 infection by the cyclophilin inhibitor Alisporivir (Debio 025) |pdf=|usr=}}
-'''Cyclosporin A'''
-{{tp|p=32354685|t=ä. Why choose cyclosporin A as first-line therapy in COVID-19 pneumonia |pdf=|usr=}}
 '''CD147'''
@@ Zeile 250: / Zeile 135: @@
-'''Spironolactone'''
-{{tp|p=32297520|t=2020. Can spironolactone be used to prevent COVID-19-induced acute respiratory distress syndrome in patients with hypertension?|pdf=|usr=}}
-'''Imatinib'''
-{{tp|p=32376403|t=ä. Imatinib might constitute a treatment option for lung involvement in COVID-19 |pdf=|usr=}}
 '''Luteolin'''
 {{tp|p=32339387|t=2020. COVID-19, pulmonary mast cells, cytokine storms, and beneficial actions of luteolin |pdf=|usr=}}
-'''BTK Bruton Tyrosine Kinase''' ''ibrutiib''
-{{tp|p=32302379|t=2020. The BTK inhibitor ibrutinib may protect against pulmonary injury in COVID-19-infected patients |pdf=|usr=}}
-{{tp|p=32503877|t=2020. Inhibition of Bruton tyrosine kinase in patients with severe COVID-19.|pdf=|usr=007}}
-{{tp|p=32433778|t=2020. Protective role of Bruton tyrosine kinase inhibitors in patients with chronic lymphocytic leukaemia and COVID-19.|pdf=|usr=007}}
-'''akt PKB'''
-{{tp|p=32519895|t=2020. Is targeting Akt a viable option to treat advanced-stage COVID-19 patients?|pdf=|usr=008}}
-'''Abelson tyrosine kinase'''
-{{tp|p=32399097|t=2020. Lessons learned from SARS-CoV and MERS-CoV: FDA-approved Abelson tyrosine-protein kinase 2 inhibitors may help us combat SARS-CoV-2.|pdf=|usr=008}}
 '''Pannexin1 channels'''
@@ Zeile 277: / Zeile 145: @@
 '''NAD+'''
 {{tp|p=32534944|t=2020. Influence of NAD+ as an ageing-related immunomodulator on COVID 19 infection: A hypothesis.|pdf=|usr=008}}
-'''Erythropoietin'''
-{{tp|p=32270515|t=2020. Does recombinant human Erythropoietin administration in critically ill COVID-19 patients have miraculous therapeutic effects?|pdf=|usr=}}
-{{tp|p=32479920|t=2020. Erythropoiesis-Stimulating Agent Treatment in Patients With COVID-19.|pdf=|usr=008}}
-{{tp|p=32534130|t=2020. EPO in Patients With COVID-19: More Than an Erythropoietic Hormone.|pdf=|usr=008}}
 '''Celastrol'''
@@ Zeile 302: / Zeile 165: @@
 '''Thrombomodulin'''
 {{tp|p=23607598|t=2013. (x)Involvement of high mobility group box 1 and the therapeutic effect of recombinant thrombomodulin in a mouse model of severe acute respiratory distress  syndrome |pdf=|usr=}}
-'''Chlorpromazine'''
-{{tp|p=32387014|t=ä. Repositionnement de la chlorpromazine ... |pdf=|usr=}}''psychiatric patients could be protected from severe forms of COVID-19 by their psychotropic treatments''
-*[https://www.biorxiv.org/content/10.1101/2020.05.05.079608v1 paper]
-'''nAChR as target'''
-{{tp|p=32387130|t=ä. GTS-21, an alpha7nAChR agonist, suppressed the production of key inflammatory mediators by PBMCs that are elevated in COPD patients and associated with impaired lung function |pdf=|usr=}}
+'''Lipids'''
+{{tp|p=32345532|t=2020. Response to: Bioactive Lipids and Coronavirus (COVID-19)-further Discussion.|pdf=|usr=008}}
+{{tp|p=32429572|t=2020. The Role of Lipid Metabolism in COVID-19 Virus Infection and as a Drug Target.|pdf=|usr=007}}
+{{tp|p=32408699|t=2020. Essential Oils as Antiviral Agents. Potential of Essential Oils to Treat SARS-CoV-2 Infection: An In-Silico Investigation.|pdf=|usr=007}}
+{{tp|p=32457038|t=2020. Potential COVID-19 therapeutics from a rare disease: Weaponizing lipid dysregulation to combat viral infectivity.|pdf=|usr=007}}
 '''Resolvins'''
@@ Zeile 319: / Zeile 178: @@
-'''beta adrenergic antagonists'''
-{{tp|p=32388480|t=2020. Can beta-adrenergic blockers be used in the treatment of COVID-19?|pdf=|usr=}}
-'''Lithium'''
-{{tp|p=32435920|t=2020. Lithium's antiviral effects: a potential drug for CoViD-19 disease?|pdf=|usr=008}}
-{{tp|p=32534451|t=2020. Microdose lithium reduces cellular senescence in human astrocytes - a potential pharmacotherapy for COVID-19?|pdf=|usr=008}}
-{{tp|p=32518634|t=2020. Lithium and coronaviral infections. A scoping review.|pdf=|usr=008}}
-{{tp|p=32408073|t=2020. Lithium for the 2019 novel coronavirus |pdf=|usr=}}
-'''Resveratrol'''
-{{tp|p=32412158|t=2020. Indomethacin and resveratrol as potential treatment adjuncts for SARS-CoV-2/COVID-19.|pdf=|usr=008}}
-{{tp|p=32310688|t=2020. Biological plausibility for interactions between dietary fat, resveratrol, ACE2, and SARS-CoV illness severity.|pdf=|usr=008}}
-'''Curcumin'''
-{{tp|p=32442323|t=2020. Curcumin as a potential treatment for COVID-19.|pdf=|usr=007}}
-{{tp|p=32430996|t=2020. Potential effects of curcumin in the treatment of COVID-19 infection.|pdf=|usr=007}}
-{{tp|p=32488956|t=2020. Can concomitant use of zinc and curcumin with other immunity-boosting nutraceuticals be the arsenal against COVID-19?|pdf=|usr=007}}
-'''Quercetin'''
-{{tp|p=32455629|t=2020. Tripartite Combination of Candidate Pandemic Mitigation Agents: Vitamin D, Quercetin, and Estradiol Manifest Properties of Medicinal Agents for Targeted Mitigation of the COVID-19 Pandemic Defined by Genomics-Guided Tracing of SARS-CoV-2 Targets in Human Cells.|pdf=|usr=007}}
-'''Copper'''
-{{tp|p=32388476|t=2020. Is copper beneficial for COVID-19 patients?|pdf=|usr=}}
-{{tp|p=32503814|t=2020. COVID-19: The Potential Role of Copper and N-acetylcysteine (NAC) in a Combination of Candidate Antiviral Treatments Against SARS-CoV-2.|pdf=|usr=007}}
-'''Bismuth'''
-{{tp|p=32516203|t=2020. Temporal Improvement of a COVID-19-Positive Crohn's Disease Patient Treated With Bismuth Subsalicylate.|pdf=|usr=008}}
-'''Anti Neoplastic agents'''
-{{tp|p=32398164|t=2020. Drug repurposing against COVID-19: focus on anticancer agents.|pdf=|usr=008}}
-'''5-Fluorouracil 5-FU'''
-{{tp|p=32438240|t=2020. 5-Fluorouracil in combination with deoxyribonucleosides and deoxyribose as possible therapeutic options for the Coronavirus, COVID-19 infection |pdf=|usr=}}
-'''Gargling mouth rinses'''
-{{tp|p=32395245|t=2020. Hypertonic saline nasal irrigation and gargling should be considered as a treatment option for COVID-19.|pdf=|usr=008}}
-'''PVP iodine'''
-{{tp|p=32520599|t=2020. Povidone-Iodine Use in Sinonasal and Oral Cavities: A Review of Safety in the COVID-19 Era.|pdf=|usr=008}}
-'''Bromhexin'''
-{{tp|p=32458206|t=2020.... bromhexine as add-on therapy?|pdf=|usr=008}}
 '''mabs'''
@@ Zeile 374: / Zeile 190: @@
 {{tp|p=32391920|t=2020. Consider TLR5 for new therapeutic development against COVID-19.|pdf=|usr=008}}
-'''p38 mapk'''
-{{tp|p=32422320|t=2020. p38 MAPK inhibition: A promising therapeutic approach for COVID-19.|pdf=|usr=008}}
 '''lactoferrin'''
 {{tp|p=32529963|t=2020. Can lactoferrin boost human immunity against COVID-19?|pdf=|usr=008}}
-'''Famotidine'''
-{{tp|p=32446698|t=2020. Famotidine Use is Associated with Improved Clinical Outcomes in Hospitalized COVID-19 Patients: A Propensity Score Matched Retrospective Cohort Study.|pdf=|usr=008}}
-{{tp|p=32499303|t=2020. Famotidine use and quantitative symptom tracking for COVID-19 in non-hospitalised patients: a case series.|pdf=|usr=007}}
 '''Ursodeoxycholic acid'''
 {{tp|p=32505909|t=2020. Ursodeoxycholic acid as a candidate therapeutic to alleviate and/or prevent COVID-19-associated cytokine storm.|pdf=|usr=007}}
+{{tp|p=32575350|t=2020. Merit of an Ursodeoxycholic Acid Clinical Trial in COVID-19 Patients.|pdf=|usr=011}}
 '''Diethylcarbamazine''' anti-filarial
@@ Zeile 398: / Zeile 210: @@
 {{tp|p=32472655|t=2020. Cytokine storm in COVID-19 and parthenolide: preclinical evidence.|pdf=|usr=007}}
-'''Proteasome inh'''
-{{tp|p=32443911|t=2020. Proteasome Inhibitors as a Possible Therapy for SARS-CoV-2.|pdf=|usr=007}}
 '''Lidocaine'''
@@ Zeile 413: / Zeile 223: @@
 {{tp|p=C7186126|t=ä. Proposed use of thalidomide for the cytokine storm of COVID-19 |pdf=|usr=}}
 {{tp|p=32508009|t=2020. Thalidomide combined with low-dose short-term glucocorticoid in the treatment of critical Coronavirus Disease 2019.|pdf=|usr=007}}
+{{ttp|p=32574274|t=2020. Thalidomide-Revisited: Are COVID-19 Patients Going to Be the Latest Victims of Yet Another Theoretical Drug-Repurposing?|pdf=|usr=011}}
-'''Pentoxyfylline'''
-{{tp|p=32449676|t=2020. COVID-19: Pentoxifylline as a potential adjuvant treatment.|pdf=|usr=007}}
-{{tp|p=32473070|t=2020. Treatment of COVID-19 with pentoxifylline: Could it be a potential adjuvant therapy?|pdf=|usr=007}}
-'''P2X7 purinoceptor'''
-{{tp|p=32441783|t=2020. A rationale for targeting the P2X7 receptor in Coronavirus disease 19 (Covid-19).|pdf=|usr=007}}
 '''PARP inh'''
@@ Zeile 428: / Zeile 232: @@
 '''P selectin block'''
 {{tp|p=32464083|t=2020. P-selectin blockade in COVID-19-related ARDS.|pdf=|usr=007}}
+'''CD14'''
+{{tp|p=32574958|t=2020. Targeting innate immunity by blocking CD14: Novel approach to control inflammation and organ dysfunction in COVID-19 illness.|pdf=|usr=010}}
+'''Proteasome inh'''
+{{tp|p=32443911|t=2020. Proteasome Inhibitors as a Possible Therapy for SARS-CoV-2.|pdf=|usr=007}}
+{{tp|p=32442437|t=2020. The proteasome as a druggable target with multiple therapeutic potentialities: Cutting and non-cutting edges.|pdf=|usr=009}}
+'''Endoplasmic reticulum stress'''
+{{tp|p=32454157|t=2020. Crosstalk between endoplasmic reticulum stress and anti-viral activities: A novel therapeutic target for COVID-19.|pdf=|usr=009}}
+{{tp|p=32561291|t=2020. Endoplasmic reticulum as a potential therapeutic target for covid-19 infection management?|pdf=|usr=010}}
 '''Lysosomes, Autophagy, Membranes'''
@@ Zeile 435: / Zeile 252: @@
 {{tp|p=32425923|t=2020. Could the Inhibition of Endo-Lysosomal Two-Pore Channels (TPCs) by the Natural Flavonoid Naringenin Represent an Option to Fight SARS-CoV-2 Infection?|pdf=|usr=008}}
 {{tp|p=32449802|t=2020. May we target double membrane vesicles and oxysterol-binding protein to combat SARS-CoV-2 infection?|pdf=|usr=007}}
+{{tp|p=32342366|t=2020. Autophagie - ein Ansatzpunkt fur ein Medikament gegen COVID-19? : Kampf gegen das Coronavirus.|pdf=|usr=011}}
+{{tp|p=32567972|t=2020. Autophagy and SARS-CoV-2 infection: Apossible smart targeting of the autophagy pathway.|pdf=|usr=011}}
+'''Salinomycin'''
+{{tp|p=32516655|t=2020. Pulmonary delivery of nanostructured lipid carriers for effective repurposing of salinomycin as an antiviral agent.|pdf=|usr=009}}
+'''Arteminisin'''
+{{tp|p=32405226|t=2020. Anti-malarial drug, artemisinin and its derivatives for the treatment of respiratory diseases.|pdf=|usr=009}}
+'''LMWF5A'''
+{{tp|p=32431755|t=2020. The novel immunomodulatory biologic LMWF5A for pharmacological attenuation of the "cytokine storm" in COVID-19 patients: a hypothesis.|pdf=|usr=009}}
+'''Quarternary ammonium compounds'''
+{{tp|p=32451736|t=2020. Repurposing Quaternary Ammonium Compounds as Potential Treatments for COVID-19.|pdf=|usr=009}}
+'''Kv1.3 chanels'''
+{{tp|p=32581194|t=2020. Targeting lymphocyte Kv1.3-channels to suppress cytokine storm in severe COVID-19: Can it be a novel therapeutic strategy?|pdf=|usr=010}}
+'''Exportin-1'''
+{{tp|p=32569833|t=2020. Exportin 1 inhibition as antiviral therapy.|pdf=|usr=010}}
+'''Quinoxalines'''
+{{tp|p=32560203|t=2020. Quinoxaline Derivatives as Antiviral Agents: A Systematic Review.|pdf=|usr=010}}
+'''Pirfenidone'''
+{{tp|p=32575019|t=2020. Pirfenidone: A novel hypothetical treatment for COVID-19.|pdf=|usr=010}}
+{{tp|p=32594204|t=2020. The added value of pirfenidone to fight inflammation and fibrotic state induced by SARS-CoV-2 : Anti-inflammatory and anti-fibrotic therapy could solve the lung complications of the infection?|pdf=|usr=011}}
+{{tp|p=32525005|t=2020. Effective block by pirfenidone, an antifibrotic pyridone compound (5-methyl-1-phenylpyridin-2[H-1]-one), on hyperpolarization-activated cation current: An additional but distinctive target.|pdf=|usr=011}}
+'''IL-15'''
+{{tp|p=32536564|t=2020. IL-15 immunotherapy is a viable strategy for COVID-19.|pdf=|usr=011}}
+'''Galectin-3'''
+{{tp|p=32587806|t=2020. A potential role for Galectin-3 inhibitors in the treatment of COVID-19.|pdf=|usr=010}}
+'''Febuxostat'''
+{{tp|p=32603531|t=2020. Febuxostat therapy in outpatients with suspected COVID-19: A clinical trial.|pdf=|usr=011}}
+'''Auranofin'''
+{{tp|p=32547693|t=2020. A Role for Metal-Based Drugs in Fighting COVID-19 Infection? The Case of Auranofin.|pdf=|usr=011}}
+'''Triiodthyronine'''
+{{tp|p=32384906|t=2020. Use of triiodothyronine to treat critically ill COVID-19 patients: a new clinical trial.|pdf=|usr=011}}
+'''Berberine'''
+{{tp|p=32594322|t=2020. Antiviral activity of berberine.|pdf=|usr=011}}
+'''Oseltamivir'''
+{{tp|p=32571773|t=2020. Oseltamivir for coronavirus illness: post-hoc exploratory analysis of an open-label, pragmatic, randomised controlled trial in European primary care from 2016 to 2018.|pdf=|usr=011}}
+'''Glycyrrhizin'''
+{{tp|p=32335281|t=ä. Pharmacological perspective: glycyrrhizin may be an efficacious therapeutic agent for COVID-19 |pdf=|usr=}}
+{{ttp|p=32077621|t=2020. Glycyrrhizic-Acid-Based Carbon Dots with High Antiviral Activity by Multisite Inhibition Mechanisms |pdf=|usr=}}
+{{tp|p=32458502|t=2020. Glycyrrhetinic acid and its derivatives as potential alternative medicine to relieve symptoms in nonhospitalized COVID-19 patients.|pdf=|usr=007}}
+{{tp|p=32592716|t=2020. Glycyrrhizin: An alternative drug for the treatment of COVID-19 infection and the associated respiratory syndrome?|pdf=|usr=010}}
+{{tp|p=32574273|t=2020. Symptomatic Protective Action of Glycyrrhizin (Licorice) in COVID-19 Infection?|pdf=|usr=011}}
+{{tp|p=32543164|t=2020. The comparison of the effectiveness of lincocin(R) and azitro(R) in the treatment of covid-19-associated pneumonia: A prospective study.|pdf=|usr=011}}
+'''Immune checkpoint inhibitors''' ''pd1''
+{{tp|p=32544799|t=2020. Immune checkpoint inhibitors: a physiology-driven approach to the treatment of coronavirus disease 2019.|pdf=|usr=011}}
+'''Norovir'''
+{{tp|p=32551855|t=2020. Effects of Gene-Eden-VIR and Novirin on SARS-CoV: Implications for COVID-19.|pdf=|usr=011}}
+'''Spironolactone'''
+{{tp|p=32297520|t=2020. Can spironolactone be used to prevent COVID-19-induced acute respiratory distress syndrome in patients with hypertension?|pdf=|usr=}}
+{{tp|p=32551456|t=2020. Use of Spironolactone in SARS-CoV-2 ARDS Patients.|pdf=|usr=011}}
+{{tp|p=32513242|t=2020. Blocking mineralocorticoid receptor with spironolactone may have a wide range of therapeutic actions in severe COVID-19 disease.|pdf=|usr=011}}
+'''Catecholamines'''
+{{tp|p=32554324|t=2020. Noradrenergic and serotonergic drugs may have opposing effects on COVID-19 cytokine storm and associated psychological effects.|pdf=|usr=011}}
+'''beta adrenergic antagonists'''
+{{tp|p=32388480|t=2020. Can beta-adrenergic blockers be used in the treatment of COVID-19?|pdf=|usr=}}
+'''alpha1 adrenergic antagonists'''
+{{tp|p=32352407|t=2020. Preventing cytokine storm syndrome in COVID-19 using alpha-1 adrenergic receptor  antagonists |pdf=|usr=}}
+{{tp|p=32237190|t=ä. What does androgenetic alopecia have to do with COVID?19? An insight into a potential new therapy |pdf=|usr=}}
-'''microbiome''' 2x
+'''Iodine'''
-{{tp|p=32495940|t=2020. Probiotics and COVID-19: is there any link?|pdf=|usr=007}}
+{{tp|p=32540604|t=2020. Iodine, a preventive and curative agent in the COVID-19 pandemic?|pdf=|usr=011}}
-{{tp|p=32475223|t=2020. Antiviral effects of probiotic metabolites on COVID-19.|pdf=|usr=007}}
+'''Bisphosphonates'''
+{{tp|p=32600410|t=2020. Boning up: amino-bisphophonates as immunostimulants and endosomal disruptors of dendritic cell in SARS-CoV-2 infection.|pdf=|usr=011}}