BACKGROUND: The polymerase chain reaction (PCR) has been widely used for diagnosis of infection. Rapid detection of influenza virus is useful for therapeutic decisions. We attempted to develop a novel assay by real-time droplet-PCR machine for influenza virus. METHODS: RNA extracted from nasal swabs or primary swabs pretreated only were used for PCR analyses. We evaluated reaction time, amplification efficiency, sensitivity, and specificity of the novel droplet-PCR. RESULTS: The reaction time of the novel droplet-PCR was 28 min, whereas that of PCR using the conventional PCR machine was 80 min. The standard curve constructed from the amplification plots by the novel droplet-PCR was: y=-3.6x+42.9; that by PCR using the conventional PCR machine was: y=-3.5x+37.8. The sensitivity and specificity of the novel droplet-PCR were 86.7% and 91.7% for the influenza A and 100.0% and 100.0% for the influenza B, respectively. The novel droplet-PCR provided the specific amplification when using primary swabs without RNA extraction. CONCLUSIONS: Our novel droplet-PCR markedly reduced the reaction time while showing same reactivity as that by PCR using the conventional PCR machine. Thus, the novel droplet-PCR assay can be used as a rapid assay for detection of influenza virus.
BACKGROUND: The polymerase chain reaction (PCR) has been widely used for diagnosis of infection. Rapid detection of influenza virus is useful for therapeutic decisions. We attempted to develop a novel assay by real-time droplet-PCR machine for influenza virus. METHODS: RNA extracted from nasal swabs or primary swabs pretreated only were used for PCR analyses. We evaluated reaction time, amplification efficiency, sensitivity, and specificity of the novel droplet-PCR. RESULTS: The reaction time of the novel droplet-PCR was 28 min, whereas that of PCR using the conventional PCR machine was 80 min. The standard curve constructed from the amplification plots by the novel droplet-PCR was: y=-3.6x+42.9; that by PCR using the conventional PCR machine was: y=-3.5x+37.8. The sensitivity and specificity of the novel droplet-PCR were 86.7% and 91.7% for the influenza A and 100.0% and 100.0% for the influenza B, respectively. The novel droplet-PCR provided the specific amplification when using primary swabs without RNA extraction. CONCLUSIONS: Our novel droplet-PCR markedly reduced the reaction time while showing same reactivity as that by PCR using the conventional PCR machine. Thus, the novel droplet-PCR assay can be used as a rapid assay for detection of influenza virus.