Covid19 Clinical Trial
Official title:
A Multi-center, Randomized, Parallel Controlled, Double-Blinded Clinical Trial to Evaluate the Effectiveness and Safety of Hydrogen-Oxygen Generator With Nebulizer for Adjuvant Treatment of Novel Coronavirus Disease 2019 (COVID-19)
This is a multi-center, randomized, parallel controlled, double-blinded clinical trial to evaluate the effectiveness and safety of Hydrogen-Oxygen Generator with Nebulizer for adjuvant treatment of COVID-19 patients. The test group is expected to be superior to the control group in the primary endpoint (percentage of subjects achieving clinical recovery at Day 7 of study treatment). Subjects in the test group will receive treatment by using Hydrogen-Oxygen Generator with Nebulizer (manufactured by Shanghai Asclepius Meditec Co., Ltd., flow rate: 3L/min) combined with conventional basic supportive treatment (symptomatic support treatment determined by the investigator based on the condition of the subjects); and subjects in the control group will receive treatment by using Medical Molecular Sieve Oxygen Generator (manufactured by Shanghai Ouliang Medical Devices Co., Ltd., flow rate: 3L/min, provided by the sponsor) combined with conventional basic supportive treatment (same with that in the test group).
| Status | Not yet recruiting |
| Enrollment | 218 |
| Est. completion date | December 31, 2024 |
| Est. primary completion date | December 31, 2024 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years to 75 Years |
| Eligibility | Inclusion Criteria: 1. Male or female subjects aged between 18 and 75 years old (inclusive). 2. Diagnosed with mild, moderate or severe type of COVID-19 according to the criteria of Scheme for Diagnosis and Treatment of 2019 Novel Coronavirus Pneumonia (Trial Version 10). 3. Positive result for COVID-19 nucleic acid test or rapid antigen detection at screening visit; 4. Presenting with at least one respiratory symptom (e.g. dyspnoea, shortness of breath) at hospital admission. 5. Be willing to participate in this trial and provide written informed consent form. Exclusion Criteria: 1. Subjects with critical or asymptomatic type of COVID-19; 2. Subjects with any known malignant tumor or life expectancy less than half a year. 3. Subjects who are intolerable to inhalation treatment. 4. Subjects with mental disorders or cognitive impairment who are unable to provide consent. 5. Subjects with any immunodeficiency requiring chronic treatment with any corticosteroid or other immunosuppressants. 6. Complicate with any serious cardiac, hepatic or renal disease (as indicated by aspartate aminotransferase [AST] and alanine aminotransferase [ALT] = 2 × upper limit of normal [ULN], or creatinine = 176.8mmol/L, or New York Heart Association (NYHA) Classification for heart failure of Class IV) or any serious primary systematic disease. 7. Subjects who are going to use any non-expectorant antioxidant drug, including large doses of vitamin C and vitamin E during the study period. 8. Subjects who are participating in any other clinical study on any investigational drug or medical device. 9. Pregnant or lactating women. 10. Subjects with any other condition judged as inappropriate to participate in this study by the investigator. |
| Country | Name | City | State |
|---|---|---|---|
| China | First Affiliated Hospital of Guangzhou Medical University | Guangzhou | Guangdong |
| Lead Sponsor | Collaborator |
|---|---|
| Guangzhou Institute of Respiratory Disease |
China,
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Guan WJ, Wei CH, Chen AL, Sun XC, Guo GY, Zou X, Shi JD, Lai PZ, Zheng ZG, Zhong NS. Hydrogen/oxygen mixed gas inhalation improves disease severity and dyspnea in patients with Coronavirus disease 2019 in a recent multicenter, open-label clinical trial. J Thorac Dis. 2020 Jun;12(6):3448-3452. doi: 10.21037/jtd-2020-057. No abstract available. Erratum In: J Thorac Dis. 2020 Aug;12(8):4591-4592. — View Citation
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Zheng ZG, Sun WZ, Hu JY, Jie ZJ, Xu JF, Cao J, Song YL, Wang CH, Wang J, Zhao H, Guo ZL, Zhong NS. Hydrogen/oxygen therapy for the treatment of an acute exacerbation of chronic obstructive pulmonary disease: results of a multicenter, randomized, double-blind, parallel-group controlled trial. Respir Res. 2021 May 13;22(1):149. doi: 10.1186/s12931-021-01740-w. — View Citation
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| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Other | Incidence of AEs/SAEs | Definition: An AE is defined as any untoward medical occurrence during the course of the clinical trial, whether or not related to the study device. For the definition of SAE | through study completion, an average of 14 days | |
| Other | Incidence of Device Deficiency | Definition: a device deficiency is defined as any inadequacy of a medical device which may pose inappropriate risks to the health or safety of the subjects under normal use of the device during the clinical trial, including inadequate labelling, quality issue, and malfunctions, etc. | through study completion, an average of 14 days | |
| Primary | the percentage of subjects with clinical recovery on Day 7 of study treatment. | continuous clinical recovery is defined as score (see Appendix 2) of COVID-19 related symptoms = 1 continued for 2 consecutive days or discharge criteria is met. Time of continuous clinical recovery is defined as time (days) between the first initiation of the study treatment devices and the time when the score of relevant COVID-19 related symptoms = 1 continues for 2 consecutive days or discharge criteria is met (whichever comes first). | Day 7of study treatment | |
| Secondary | Percentage of subjects achieving clinical recovery | continuous clinical recovery is defined as score (see Appendix 2) of COVID-19 related symptoms = 1 continued for 2 consecutive days or discharge criteria is met. Time of continuous clinical recovery is defined as time (days) between the first initiation of the study treatment devices and the time when the score of relevant COVID-19 related symptoms = 1 continues for 2 consecutive days or discharge criteria is met (whichever comes first). | Day 2of study treatment | |
| Secondary | Percentage of subjects achieving clinical recovery | continuous clinical recovery is defined as score (see Appendix 2) of COVID-19 related symptoms = 1 continued for 2 consecutive days or discharge criteria is met. Time of continuous clinical recovery is defined as time (days) between the first initiation of the study treatment devices and the time when the score of relevant COVID-19 related symptoms = 1 continues for 2 consecutive days or discharge criteria is met (whichever comes first). | Day 3 of study treatment | |
| Secondary | Percentage of subjects achieving clinical recovery | continuous clinical recovery is defined as score (see Appendix 2) of COVID-19 related symptoms = 1 continued for 2 consecutive days or discharge criteria is met. Time of continuous clinical recovery is defined as time (days) between the first initiation of the study treatment devices and the time when the score of relevant COVID-19 related symptoms = 1 continues for 2 consecutive days or discharge criteria is met (whichever comes first). | Day 5of study treatment | |
| Secondary | Percentage of subjects achieving clinical recovery | continuous clinical recovery is defined as score (see Appendix 2) of COVID-19 related symptoms = 1 continued for 2 consecutive days or discharge criteria is met. Time of continuous clinical recovery is defined as time (days) between the first initiation of the study treatment devices and the time when the score of relevant COVID-19 related symptoms = 1 continues for 2 consecutive days or discharge criteria is met (whichever comes first). | Day 10 of study treatment | |
| Secondary | Percentage of subjects achieving clinical recovery | continuous clinical recovery is defined as score (see Appendix 2) of COVID-19 related symptoms = 1 continued for 2 consecutive days or discharge criteria is met. Time of continuous clinical recovery is defined as time (days) between the first initiation of the study treatment devices and the time when the score of relevant COVID-19 related symptoms = 1 continues for 2 consecutive days or discharge criteria is met (whichever comes first). | through study completion, an average of 10 days | |
| Secondary | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Day 2 of study treatment | |
| Secondary | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Day 3 of study treatment | |
| Secondary | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Day 5 of study treatment | |
| Secondary | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Day 7 of study treatment | |
| Secondary | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Day 10 of study treatment | |
| Secondary | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | Percentage of subjects whose WHO Clinical Progression Scale score decreased by 1 point or more | The period from the beginning of treatment in patients enrolled to the time before discharge | |
| Secondary | Point reduction of WHO Clinical Progression Scale score | Point reduction of WHO Clinical Progression Scale score | Day 2 of study treatment | |
| Secondary | Point reduction of WHO Clinical Progression Scale score | Point reduction of WHO Clinical Progression Scale score | Day 3 of study treatment | |
| Secondary | Point reduction of WHO Clinical Progression Scale score | Point reduction of WHO Clinical Progression Scale score | Day 5 of study treatment | |
| Secondary | Point reduction of WHO Clinical Progression Scale score | Point reduction of WHO Clinical Progression Scale score | Day 7 of study treatment | |
| Secondary | Point reduction of WHO Clinical Progression Scale score | Point reduction of WHO Clinical Progression Scale score | Day 10 of study treatment | |
| Secondary | Point reduction of WHO Clinical Progression Scale score | Point reduction of WHO Clinical Progression Scale score | The period from the beginning of treatment in patients enrolled to the time before discharge | |
| Secondary | Changes in scores of COVID-19 related symptoms | Changes in scores of COVID-19 related symptoms | Day 2 of the study treatment | |
| Secondary | Changes in scores of COVID-19 related symptoms | Changes in scores of COVID-19 related symptoms | Day 3 of the study treatment | |
| Secondary | Changes in scores of COVID-19 related symptoms | Changes in scores of COVID-19 related symptoms | Day 5 of the study treatment | |
| Secondary | Changes in scores of COVID-19 related symptoms | Changes in scores of COVID-19 related symptoms | Day 7 of the study treatment | |
| Secondary | Changes in scores of COVID-19 related symptoms | Changes in scores of COVID-19 related symptoms | Day 10 of the study treatment | |
| Secondary | Changes in scores of COVID-19 related symptoms | Changes in scores of COVID-19 related symptoms | The period from the beginning of treatment in patients enrolled to the time before discharge | |
| Secondary | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Day 2 of the study treatment | |
| Secondary | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Day 3 of the study treatment | |
| Secondary | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Day 5 of the study treatment | |
| Secondary | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Day 7 of the study treatment | |
| Secondary | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Day 10 of the study treatment | |
| Secondary | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | Percentage of subjects whose COVID-19 related symptoms have recovered to normal | through study completion, an average of 10 days | |
| Secondary | Total length of hospital stay | Total length of hospital stay | through study completion, an average of 14 days | |
| Secondary | Time from randomization to conversion to mild type of COVID-19 | Time from randomization to conversion to mild type of COVID-19 | Time from randomization to conversion to mild type of COVID-19 | |
| Secondary | Oxygen saturation in resting non-oxygen inhalation state | Oxygen saturation will be measured based on finger blood samples in resting state at 10 minutes after stopping the use of the study device for subjects in the test group and the control group | Day 2 of study treatment | |
| Secondary | Oxygen saturation in resting non-oxygen inhalation state | Oxygen saturation will be measured based on finger blood samples in resting state at 10 minutes after stopping the use of the study device for subjects in the test group and the control group | Day 3 of study treatment | |
| Secondary | Oxygen saturation in resting non-oxygen inhalation state | Oxygen saturation will be measured based on finger blood samples in resting state at 10 minutes after stopping the use of the study device for subjects in the test group and the control group | Day 5 of study treatment | |
| Secondary | Oxygen saturation in resting non-oxygen inhalation state | Oxygen saturation will be measured based on finger blood samples in resting state at 10 minutes after stopping the use of the study device for subjects in the test group and the control group | Day 7 of study treatment | |
| Secondary | Oxygen saturation in resting non-oxygen inhalation state | Oxygen saturation will be measured based on finger blood samples in resting state at 10 minutes after stopping the use of the study device for subjects in the test group and the control group | Day 10 of study treatment | |
| Secondary | Oxygen saturation in resting non-oxygen inhalation state | Oxygen saturation will be measured based on finger blood samples in resting state at 10 minutes after stopping the use of the study device for subjects in the test group and the control group | through study completion, an average of 10 days | |
| Secondary | CRP | C-reactive protein | Day 3 of study treatment | |
| Secondary | CRP | C-reactive protein | Day 7 of study treatment | |
| Secondary | CRP | C-reactive protein | Day 10 of study treatment | |
| Secondary | CRP | C-reactive protein | through study completion, an average of 10 days | |
| Secondary | IL-6 | IL-6 | Day 3 of study treatment | |
| Secondary | IL-6 | IL-6 | Day 7 of study treatment | |
| Secondary | IL-6 | IL-6 | Day 10 of study treatment | |
| Secondary | IL-6 | IL-6 | through study completion, an average of 10 days | |
| Secondary | ferritin | ferritin | Day 3 of study treatment | |
| Secondary | ferritin | ferritin | Day 7 of study treatment | |
| Secondary | ferritin | ferritin | Day 10 of study treatment | |
| Secondary | ferritin | ferritin | through study completion, an average of 10 days | |
| Secondary | lymphocytes | lymphocytes | Day 3 of study treatment | |
| Secondary | lymphocytes | lymphocytes | Day 7of study treatment | |
| Secondary | lymphocytes | lymphocytes | Day 10 of study treatment | |
| Secondary | lymphocytes | lymphocytes | through study completion, an average of 10 days | |
| Secondary | neutrophil to lymphocyte ratio | neutrophil to lymphocyte ratio | Day 3 of study treatment | |
| Secondary | neutrophil to lymphocyte ratio | neutrophil to lymphocyte ratio | Day 7 of study treatment | |
| Secondary | neutrophil to lymphocyte ratio | neutrophil to lymphocyte ratio | Day 10 of study treatment | |
| Secondary | neutrophil to lymphocyte ratio | neutrophil to lymphocyte ratio | through study completion, an average of 10 days | |
| Secondary | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Day 2 of study treatment | |
| Secondary | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Day 3 of study treatment | |
| Secondary | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Day 5 of study treatment | |
| Secondary | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Day 7 of study treatment | |
| Secondary | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Day 10 of study treatment | |
| Secondary | Percentage of patients with fever, shortness of breath and chest pain all disappeared | Percentage of patients with fever, shortness of breath and chest pain all disappeared | through study completion, an average of 10 days |
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