COVID-19 Clinical Trials and Expanded Access

It is a multicenter, national, randomized 1:1 ratio, controlled, parallel, open study. Patients with severe ARDS-CoVid19 will be included in the trial within the first 24 hours. Patients will be randomized to one of the treatment groups: - SEV group: 25 patients with Sevoflurane sedation by inhalation, starting at 6 ml/h and changing every 15 minutes until an adequate level of sedation is achieved (BIS 40-50) - PRO group: 25 patients standard sedation with intravenous propofol, starting with 2 mg/kg/h and changing every 15 minutes until an adequate level of sedation is achieved ( BIS 40-50)

Novel coronavirus COVID-19 has become a health emergency around the world. Since first patients were detected in Wuhan China, in December 2019, COVID-19 has spread quickly worldwide, being a severe threat to public health. Fever, dry cough, shortness of breath and breathing distress are the main characteristics of COVID-19 infection. Some patients develop overwhelming lung inflammation and acute respiratory failure, for which there is no specific therapy. Therefore, safe and effective treatment for COVID-19 pneumonia is utterly necessary, mainly in critical cases. Mesenchymal stem cells (MSCs) have been widely used in the immune-mediated inflammatory diseases. MSCs can regulate both innate and adaptive immunity by suppressing the proliferation, differentiation and activation of different cells. These immunomodulatory properties of MSCs support performance of the phase I/II, placebo- controlled, randomized MSCs for treatment of severe COVID-19 pneumonia.

Coronavirus disease (COVID-2019) is a devastating viral illness that originated in Wuhan China in late 2019 and there are nearly 2 million confirmed cases. The mortality rate is approximately 5% of reported cases and over half of patients that require mechanical ventilation for respiratory failure. As the disease continues to spread, strategies for reducing duration of ventilator support in patients with COVID-19 could significantly reduce morbidity and mortality of these individuals and future patients requiring this severely limited life-saving resource. Methods to improve gas exchange and to reduce the inflammatory response in COVID-19 are desperately needed to save lives. The ketogenic diet is a high fat, low carbohydrate, adequate-protein diet that promotes metabolic ketosis (ketone body production) through hepatic metabolism of fatty acids. High fat, low carbohydrate diets have been shown to reduce duration of ventilator support and partial pressure carbon dioxide in patients with acute respiratory failure. In addition, metabolic ketosis reduces systemic inflammation. This mechanism could be leveraged to halt the cytokine storm characteristic of COVID-19 infection. The hypothesis of this study is that the administration of a ketogenic diet will improve gas exchange, reduce inflammation, and duration of mechanical ventilation. The plan is to enroll 15 intubated patients with COVID 19 infection and administer a 4:1 ketogenic formula during their intubation.

The investigators hypothesize that those with respiratory failure due to COVID-19 will have different burdens of mental and physical disability than those with respiratory failure who do not have COVID-19. Detecting these potential differences will lay an important foundation for treating long term sequelae of respiratory failure in these two cohorts.

Contributors: Lamia Elgarhy, Sabah El-Gaeish 1, Eman Hamed 2 , Wagdy Fathy2 Department of Dermatology, Department of Pharmacology1 , Faculty of Medicine, Tanta University, Department of Chest, Faculty of Medicine, Suez Canal University2. Abstract: The COVID-19 pandemic caused by SARS-COV-2 has infected over 2,000,000 people causing over 150,000 deaths. A key host cellular protein required for the virus entry is angiotensin-converting enzyme 2 (ACE2) whose expression has been demonstrated in many tissues including alveolar epithelial type II cells in lungs, oral mucosa and intestine, heart, kidney, endothelium and skin. ACE2-expressing cells can act as home cells and are prone to SARS-CoV-2 infection as ACE2 receptor facilitates cellular viral entry and replication. (1) Fang et al. has suggested that patients with hypertension and diabetes mellitus may be at higher risk of SARS-CoV-2 infection, as these patients are often treated with ACE inhibitors (ACEIs) or angiotensin II type-I receptor blockers (ARBs), which have been previously suggested to increase ACE2 expression. (2) In another study by Sinha et al who analyzed a publicly available Connectivity Map (CMAP) dataset of pre/post transcriptomic profiles for drug treatment in cell lines for over 20,000 small molecules, isotretinoin was the strongest down-regulator of ACE 2 receptors. On the other hand, they found 6 drugs in CMAP that are currently being investigated in clinical trials for treating COVID-19 (chloroquine, thalidomide, methylprednisolone, losartan, lopinavir and ritonavir, from clinicaltrials.gov), none of which was found to significantly alter ACE2 expression (P>0.1) (3) Moreover, Wu et al, demonstrated that isotretinoin is a Potential papain like protease (PLpro) inhibitors which is a protein encoded by SARS-CoV-2 genes and considered one of the proteins that should be targeted in COVID-19 treatment by performing target-based virtual ligand screening. (4) In addition, isotretinoin was reported to increase CD4 counts and markedly decrease viremia in HIV positive patients suffering from acne vulgaris. (5) Currently, a study is running to evaluate the effect of isotretinoin on immune activation among HIV-1 infected subjects with incomplete CD4+ T cell recovery. (6) From this point, we can suggest that patient taking isotretinoin therapy may be immune against SARS-COV-2 and it can also have a therapeutic effect by prevention of further progression of the virus. Several potential mechanisms of action of Chloroquine/Hydroxychloroquine against SARS-CoV-2 have been postulated and they are actually used in treatment regimens for COVID-19.(7) It was reported that chloroquine increase the blood level of isotretinoin, so lower doses is required when combined. We assume to test the efficacy of isotretinoin in treatment of COVID-19 versus combined therapy with the standard treatment of COVID-19.

This was a randomized, double-blind, placebo-controlled, 29-day, multicenter study to assess the efficacy and safety of ruxolitinib + standard-of-care (SoC) therapy, compared with placebo + SoC therapy, in patients aged ≥12 years with COVID-19 disease.

The present study is a randomized, double-blind, controlled, clinical trial, with the approval of the ethics committee will be conducted on patients who have a positive test confirming COVID-19 in Shahid Modarres Medical Education Center and Hospital in Tehran. Patients will be randomly assigned to the two arms of the study and after completing the course of treatment and collecting and analyzing the necessary information from each patient, the results of the study will be published both on this site and in the form of an article in a reputable international journal.

The present study is a randomized, double-blind, controlled, clinical trial, with the approval of the ethics committee will be conducted on patients who have a positive test confirming COVID-19 in Shahid Modarres Medical Education Center and Hospital in Tehran. Patients will be randomly assigned to the two arms of the study and after completing the course of treatment and collecting and analyzing the necessary information from each patient, the results of the study will be published both on this site and in the form of an article in a reputable international journal.

An open-label, randomised, Best-Available-Care (BAC) and historic-controlled trial of nebulised dornase alfa [2.5 mg BID] for 7 days in participants with COVID-19 who are admitted to hospital and are at risk of ventilatory failure (the COVASE study). Controls will include a randomised arm to receive BAC, historic data from UCLH patients with COVID-19 and biobanked samples will be used to demonstrate an effect of dornase alfa. CRP will be measured to assess the effect of dornase alfa on inflammation. Clinical endpoints and biomarkers (e.g. d-dimer) will be used to assess the clinical response. Exploratory endpoints will explore the effects of dornase alfa on features of neutrophil extracellular traps (NETs).

The aim of the research is to improve patient management by rapidly identifying, based on the terrain and clinical and biological characteristics, those patients likely to present a severe form of ARDS at risk of leading to intensive care