Overview

Utilizing the Crosstalk Among Aerosolized Phenformin , Methylene Blue, Photodynamic Therapy , Zinc and Potassium for Treating Severe COVID-19 Infection and Its Inflammatory Complication

Status:
Not yet recruiting
Trial end date:
2021-11-01
Target enrollment:
0
Participant gender:
All
Summary
Utilizing the crosstalk among aerosolized phenformin, methylene blue, photodynamic therapy , zinc and potassium for treating severe COVID-19 infection and its inflammatory complication Amr Ahmed(1), Mahmoud Elkazzaz(2), Tamer Haydara(3), and Abdullah Alkattan(4) 1. Director of tuberculosis program Ghubera, public health department ,First health cluster ,Ministry of health ,Saudia Arabia. 2. Department of chemistry and biochemistry, Faculty of Science, Damietta University, Egypt. 3. Department of Internal Medicine, Faculty of Medicine, Kafrelsheikh University, Egypt. 4. Ministry of Health, Riyadh, Saudi Arabia. SARS-CoV-2 represents the largest current health challenge for the society. Moreover, numerous variants of the virus that causes COVID-19 are being tracked in the United States and globally during this pandemic. Here, we will use combination therapy which involve agents with significant activity and different mechanisms of action against covid-19 and its inflammatory complication. Excessive activities of cysteinyl cathepsins (CysCts) contribute to the progress of many diseases. however, therapeutic inhibition has been problematic. Cathepsin L are crucial in terms of the endocytosis by cleaving the spike protein, which permits viral membrane fusion with endosomal membrane, and succeeded by the releasing of viral genome to the host cell. Thereby, inhibition of cathepsin L may be advantageous in terms of decreasing infection caused by SARS-CoV-2. It is well known that zinc (Zn) possesses a variety of direct and indirect antiviral properties, which are realized through different mechanisms. Administration of Zn supplement has a potential to enhance antiviral immunity and to restore depleted immune cell function, in particular in immunocompromised patients. It has been found that Zn 2+ deficiency leads to an exaggerated activity of Cysteine cathepsin increasing the autoimmune/inflammatory response. . Zn2+ is a natural inhibitor of proteases with CysHis dyads or CysHis(Xaa) triads. cysteine protease Cathepsin L (CatL) involvement with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and COVID-19 from different points of view. At this purpose Zn 2+ metal can be safely combined with phenformin a drug that increases the anti-proteolytic effect of endogenous Zn 2+ lowering the excessive activity of some CysCts.; A study found that phenformin-Zn2+ complex is identified as a modifiable pharmacophore for synthesis of therapeutic CysCt inhibitors with a wide range of potencies and specificities. Phenformin stabilizes a "Zn2+ sandwich" between the drug and protease active site. Additionally, phenformin was found to be potent inhibitor of IL-6 R, with phenformin (100 µM) treatment for 48 h, decreased IL-6R expression in ANBL6, RPMI, U266, MM1S, and JJN3 was 5.51 (p = 0.0025), 3.03 (p = 0.0005), 1.55 (p < 0.05), 2.09 (p = 0.0082) and 1.19-fold, respectively. Furthermore, phenformin was discovered to potentially and strongly bind to ACE2 receptors, according to a docking research being conducted by the principle investigators of this clinical study therefore, Phenformin is expected to potentially attach to ACE2 receptors and lead to its downregulation, an inhibitory mechanism which may combat and block COVID-19 infection in lung epithelial cells. Phenformin may induce lactic acidosis therefore according to the principal investigator The phenformin will be utilized as aerosolized by inhalation for COVID-19 treatment and this may be an effective novel treatment strategy that would limit the risk of systemic side-effects associated with biguanides due to the low inhaled dose. In addition, we will use aerosolized phenformin in combination with methylene blue. A study found that a very marked improvement in lactate and pyruvate concentrations occurred within six hours of the beginning of méthylène blue administration in human . It has been known for some time that méthylène blue is a moderately efficient hydrogen acceptor in several enzyme sys¬ tems and significantly reduce oxidative stress by scavenging ROS. Moreover, Methylene Blue has antiviral activity and was found to Inhibit the Spike-ACE2 Protein-Protein Interaction-a Mechanism that can contribute to its Antiviral Activity Against COVID-19 For many reasons, methylene blue is a promising drug for an active treatment against SARS-CoV-2 . Since methylene blue can work as a photosensitizer, photodynamic therapy as an antiviral treatment has great potential in the treatment of COVID-19.. This clinical study will investigate the effectiveness of SARS-CoV-2 infected people treatment using methylene blue and the following photodynamic therapy after that our clinically approved patients will receive phenformin and zinc . But methylene blue may lead to lowering in potassium concentration.Therefore, we will add potassium supplement to this combination.
Phase:
Phase 1/Phase 2
Accepts Healthy Volunteers?
No
Details
Lead Sponsor:
Amr kamel khalil Ahmed
Collaborator:
Faculty of Medicine , Kafrelshiekh University, Egypt.
Criteria
Inclusion Criteria:

Adult SARI patients with 2019-ncov infection confirmed by PCR; Absolute value of
lymphocytes < 0. 6x 109/L; Severe respiratory failure within 48 hours and requires
admission to ICU. (severe respiratory failure was defined as PaO2/FiO2 < 200 mmHg and was
supported by positive pressure mechanical ventilation (including non-invasive and invasive
mechanical ventilation, PEEP>=5cmH2O))

Exclusion Criteria:

- Age < 18

- A history of renal failure (unless recovered for at least 6 months), lactic acidosis,
recurrent or severe hypoglycemia.

- A history of known glucose-6-phosphate dehydrogenase (G6PD) deficiency.

- Other uncontrolled intercurrent illness including, but not limited to, ongoing or
active infection, symptomatic congestive heart failure, unstable angina pectoris,
cardiac arrhythmia, or psychiatric illness/social situations that would limit
compliance with study requirements

- Allergic to experimental drugs and patients have the following conditions:

- Medical records of cirrhosis

- Myocardial infarction, developed after the patient was included in the study, but
before the intervention

- bleeding, developed after the patient was included in the study, but before the
intervention

- connection to artificial lung ventilation developed after the patient was included in
the study, but before the intervention

- Active infection, or chronic or persistent infection that might worsen with
immunosuppressive treatment (e.g., HIV, hepatitis B virus, hepatitis C virus,
tuberculosis [TB])

- Liver disease

- Renal disease

- Pregnancy

- Lactation

- Depressive disorder

- Body mass index less than 18 points or higher than 25 points

- Contraindications for hormonal contraception or intrauterine device.

- Autoimmune diseases

- A history of organ, bone marrow or hematopoietic stem cell transplantation

- Patients receiving anti-hcv treatment

- The competent physician considered it inappropriate to participate in the study