Comparison of traditional methods and high-throughput genetic sequencing in the detection of pathogens in pulmonary infectious diseases

BACKGROUND: The major causes of pulmonary infections are various microorganisms. This study aimed to compare the positive rates of pathogenic microorganism DNA/RNA high-throughput genetic sequencing (PMseq), which is an emerging technique, with traditional methods for pulmonary disease detection, and to investigate the differences in different sample types. METHODS: Bronchoalveolar lavage fluid (BALF) and venous blood samples from 104 patients were collected for detection. RESULTS: The positive rates of PMseq in BALF and venous blood were both significantly higher than those of traditional methods in the same sample (P<0.001). For BALF, the detection sensitivities were 96.9% for non-febrile patients and 100% for febrile patients. For venous blood, the detection sensitivities were 50.0% for non-febrile patients and 81.3% for febrile patients. There was no statistical difference in the sensitivity of venous blood samples with or without fever (P=0.075). For patients without fever, the sensitivity of BALF was much higher than venous blood samples (P<0.001). In patients with fever, there were no significant differences between different samples. CONCLUSIONS: This study showed that PMseq has a higher positive rate for the detection of pulmonary diseases. For patients without fever, it is recommended to use BALF instead of venous blood samples because of the higher sensitivity. However, for patients with fever, venous blood samples can be used when bronchoalveolar lavage is inconvenient.