Pathogens detected using a syndromic molecular diagnostic platform in patients hospitalized with severe respiratory illness in South Africa in 2017

Abstract Background Pneumonia continues to be a leading cause of death globally; however, in >50% of cases, an etiological agent is not identified. We describe the use of a multi-pathogen platform, TaqMan array card (TAC) real-time PCR, for the detection of pathogens in patients hospitalized with severe respiratory illness (SRI). Methods We conducted prospective hospital-based surveillance for SRI among patients at two sentinel sites in South Africa between January and December 2017. Patients were included in this study if a blood specimen and at least one respiratory specimen (naso- and oro-pharyngeal (NP/OP) swabs and/or sputum) were available for testing. We tested respiratory specimens for 21 respiratory pathogens and blood samples for nine bacteria using TAC. Pathogen detection was compared by age group and HIV status using the chi-squared test. Results During 2017, 956 patients were enrolled in SRI surveillance, and of these, 637 (67%) patients were included in this study (637 blood, 487 NP/OP and 411 sputum specimens tested). At least one pathogen was detected in 83% (527/637) of patients. Common pathogens detected included H. influenzae (225/637; 35%), S. pneumoniae (224/637; 35%), rhinovirus (144/637; 23%), S. aureus (129/637; 20%), K. pneumoniae (85/637; 13%), M. tuberculosis (75/637; 12%), and respiratory syncytial virus (57/637; 9%). Multiple pathogens (≥2) were co-detected in 57% (364/637) of patients. Conclusion While use of a multi-pathogen platform was useful in the detection of a pathogen in the majority of the patients, pathogen co-detections were common and would need clinical assessment for usefulness in individual-level treatment and management decisions.