Severe community-acquired pneumonia (sCAP) has a high mortality rate of 25-50%. Excessive host inflammatory responses contribute to poor outcomes. Corticosteroid therapy may provide benefit; however, the optimal dosage remains unclear, and it is uncertain whether all etiologies (e.g., Pneumocystis jirovecii, adenovirus, influenza) of sCAP can benefit equally. This study will first establish a comprehensive trial platform based on a prospective sCAP cohort, embedding a randomized, multifactorial, adaptive platform trial (APT). The response-adaptive design will increase the likelihood of patients being assigned to more effective treatment arms, while Bayesian statistical modeling will dynamically assess the efficacy of interventions, allowing early achievement of study endpoints. At the starting stage, two pathogen-specific APTs will be conducted, focusing on adenovirus- and pneumocystis Jirovecii-induced sCAP. Patients admitted to the ICU with confirmed diagnoses of adenovirus or pneumocystis Jirovecii-associated sCAP will be randomized into a control group or one of two corticosteroid dosage groups. The primary endpoint will be 28-day all-cause mortality. Completion of these APTs will provide a theoretical basis for novel anti-inflammatory strategies in sCAP. Moreover, this platform will serve as an essential research infrastructure for the efficient evaluation of new therapeutic options in the event of emerging or re-emerging respiratory pathogens causing sCAP in the future.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
1,500
Receive 0.5mg/kg Methylprednisolone
Receive 1.0mg/kg Methylprednisolone
Saline 100ml
28-day all cause mortality
death at 28th day after inclusion
Time frame: 28 days from inclusion
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.