Outcome
| Type |
Measure |
Description |
Time frame |
Safety issue |
| Primary |
Therapeutic response to HBO at 1 month |
Therapeutic response to HBO according to times from rescue to first HBO and frequency and pressure of HBO at 1 month after CO exposure |
At 1 month after CO exposure |
|
| Primary |
Therapeutic response to HBO at 6 months |
Therapeutic response to HBO according to times from rescue to first HBO and frequency and pressure of HBO at 6 months after CO exposure |
At 6 months after CO exposure |
|
| Primary |
Predictors and model development for participants with poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure evaluated by such as neurocognitive function tests |
Predictors and model development for poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure evaluated by tools, such as global deterioration scale (GDS) or Carbon Monoxide Neuropsychological Screening Battery (CONSB), etc, through variables, such as clinical features, laboratory tests, or imaging study that can be investigated within 1 month |
Within 1 month after CO exposure |
|
| Primary |
Predictors and model development for participants with poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure evaluated by such as neurocognitive function tests |
Predictors and model development for poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure evaluated by tools, such as global deterioration scale (GDS) or Carbon Monoxide Neuropsychological Screening Battery (CONSB), etc, through variables, such as clinical features, laboratory tests, or imaging study that can be investigated within 1 month |
Within 1 month after CO exposure |
|
| Primary |
Predictors and model development for participants with poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure evaluated by such as neurocognitive function tests |
Predictors and model development for poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure evaluated by tools, such as global deterioration scale (GDS) or Carbon Monoxide Neuropsychological Screening Battery (CONSB), etc, through variables, such as clinical features, laboratory tests, or imaging study that can be investigated within 1 month |
Within 1 month after CO exposure |
|
| Secondary |
Therapeutic response to HBO at 12 months |
Therapeutic response to HBO according to times from rescue to first HBO and frequency and pressure of HBO at 12 months after CO exposure |
At 12 months after CO exposure |
|
| Secondary |
Therapeutic response to TH combined with HBO at 1 month |
Therapeutic response to TH combined with HBO in acute severe CO poisoning at 1 month after CO exposure |
At 1 month after CO exposure |
|
| Secondary |
Therapeutic response to TH combined with HBO at 6 months |
Therapeutic response to TH combined with HBO in acute severe CO poisoning at 6 months after CO exposure |
At 6 months after CO exposure |
|
| Secondary |
Therapeutic response to TH combined with HBO at 12 months |
Therapeutic response to TH combined with HBO in acute severe CO poisoning at 12 months after CO exposure |
At 12 months after CO exposure |
|
| Secondary |
Therapeutic response to HBO according to presence of apolipoprotein E4 at 1 month |
Therapeutic response to HBO according to presence of apolipoprotein E4 genotype at 1 month after CO exposure |
At 1 month after CO exposure |
|
| Secondary |
Therapeutic response to HBO according to presence of apolipoprotein E4 at 6 months |
Therapeutic response to HBO according to presence of apolipoprotein E4 genotype at 6 months after CO exposure |
At 6 months after CO exposure |
|
| Secondary |
Therapeutic response to HBO according to presence of apolipoprotein E4 at 12 months after CO exposure |
Therapeutic response to HBO according to presence of apolipoprotein E4 genotype at 12 months after CO exposure |
At 12 months after CO exposure |
|
| Secondary |
Cardiac injury evaluated by cardiac MRI in acute phase |
Cardiac injury related to CO poisoning evaluated by cardiac MRI in acute phase |
Within 1 month after CO exposure |
|
| Secondary |
Cardiac injury evaluated by cardiac MRI in chronic phase |
Cardiac injury related to CO poisoning evaluated by cardiac MRI in chronic phase |
Follow-up cardiac MRI (at 4-8 months after CO exposure) |
|
| Secondary |
Cardiac injury evaluated by cardiac CT |
Cardiac injury evaluated by cardiac CT in CO poisoning |
Within 1 month after CO exposure |
|
| Secondary |
Cardiac injury evaluated by TTE in acute phase |
Cardiac injury related to CO poisoning evaluated by TTE in acute phase |
Within 14 days after CO exposure |
|
| Secondary |
Cardiac injury evaluated by TTE in chronic phase |
Cardiac injury related to CO poisoning evaluated by TTE in chronic phase |
Within 4-8 months after CO exposure |
|
| Secondary |
Brain injury evaluated by brain imaging modality related to CO poisoning |
Brain injury evaluated by brain MRI in CO poisoning |
Within 6 months after CO exposure |
|
| Secondary |
Brain injury related to CO poisoning |
Brain injury evaluated by laboratory tests in CO poisoning |
Within 6 months after CO exposure |
|
| Secondary |
Association between presence of cardiac injury, which is evaluated by cardiac enzyme or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure |
Association between presence of cardiac injury, which is evaluated by electrocardiogram, cardiac enzyme, or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure |
Outcomes at 1 month after CO exposure |
|
| Secondary |
Association between presence of cardiac injury, which is evaluated by cardiac enzyme or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure |
Association between presence of cardiac injury, which is evaluated by electrocardiogram, cardiac enzyme, or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure |
Outcomes at 6 months after CO exposure |
|
| Secondary |
Association between presence of cardiac injury, which is evaluated by cardiac enzyme or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure |
Association between presence of cardiac injury, which is evaluated by electrocardiogram, cardiac enzyme, or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure |
Outcomes at 12 months after CO exposure |
|
| Secondary |
Association between presence of cardiac injury, which is evaluated by cardiac enzyme or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 5 years after CO exposure |
Association between presence of cardiac injury, which is evaluated by electrocardiogram, cardiac enzyme, or cardiac imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 5 years after CO exposure |
Outcomes at 5 years after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by brain imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by brain MRI, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 1 month after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by brain imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by brain MRI, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 6 months after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by brain imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by brain MRI, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 12 months after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by brain imaging studies, and poor outcome including mortality, and neurocognitive and psychological sequelae at 5 years after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by brain MRI, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 5 years after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 5 years after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by laboratory tests, and poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by laboratory tests, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 1 month after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 1 month after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by laboratory tests, and poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by laboratory tests, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 6 months after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 6 months after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by laboratory tests, and poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by laboratory tests, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 12 months after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 12 months after CO exposure |
|
| Secondary |
Association between presence of brain injury, which is evaluated by laboratory tests, and poor outcome including mortality, and neurocognitive and psychological sequelae at 5 years after CO exposure evaluated by neurocognitive function tests |
Association between presence of brain injury, which is evaluated by laboratory tests, etc, and poor outcome including mortality, and neurocognitive and psychological sequelae at 5 years after CO exposure evaluated by such as GDS or CONSB, etc |
Outcomes at 5 years after CO exposure |
|
| Secondary |
Therapeutic response to drugs at 1 month |
Therapeutic response to additional drug including steroid at 1 month after CO exposure |
At 1 month after CO exposure |
|
| Secondary |
Therapeutic response to drugs at 6 months |
Therapeutic response to additional drug including steroid at 6 months after CO exposure |
At 6 months after CO exposure |
|
| Secondary |
Therapeutic response to drugs at 12 months |
Therapeutic response to additional drug including steroid at 12 months after CO exposure |
At 12 months after CO exposure |
|
| Secondary |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae after CO poisoning at 1 month |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae evaluated by, such as GDS or CONSB, etc, after CO poisoning at 1 month after CO exposure |
At 1 month after CO exposure |
|
| Secondary |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae after CO poisoning at 6 months |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae evaluated by, such as GDS or CONSB, etc, after CO poisoning at 6 months after CO exposure |
At 6 months after CO exposure |
|
| Secondary |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae after CO poisoning at 12 months |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae evaluated by, such as GDS or CONSB, etc, after CO poisoning at 12 months after CO exposure |
At 12 months after CO exposure |
|
| Secondary |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae after CO poisoning at 5 years |
Prevalence of poor outcomes including mortality, and neurocognitive and psychological sequelae evaluated by, such as GDS or CONSB, etc, after CO poisoning at 5 years after CO exposure |
At 5 years after CO exposure |
|
| Secondary |
Organ injury related to CO poisoning |
Organ injury, such as lung, kidney, liver, pancreas, or bowel, etc, related to CO poisoning |
Within 6 months after CO exposure |
|
| Secondary |
Complications related to CO poisoning |
Complications, such as pulmonary thromboembolism or rhabdomyolysis, etc, related to CO poisoning |
Within 6 months after CO exposure |
|
| Secondary |
Effect of HBO for delayed neurocognitive and psychological dysfunction at 1 year after onset |
Effect of HBO for patient with delayed neurocognitive and psychological sequelae at 1 year after sequelae onset |
Within 1 year after delayed neurocognitive and psychological sequelae onset |
|
| Secondary |
Effect of HBO for delayed neurocognitive and psychological dysfunction at 2 years after onset |
Effect of HBO for patient with delayed neurocognitive and psychological sequelae at 2 years after sequelae onset |
Within 2 years after delayed neurocognitive and psychological sequelae onset |
|
| Secondary |
Validation of methods evaluating neurocognitive and psychological outcomes |
Validation of methods evaluating neurocognitive and psychological outcomes within 6 months |
Within 6 months after CO exposure |
|
