Identification of Acinetobacter baumannii and its carbapenem-resistant gene bla by multiple cross displacement amplification combined with lateral flow biosensor.

Acinetobacter baumannii is a frequent cause of the nosocomial infections. Herein, a novel isothermal amplification technique, multiple cross displacement amplification (MCDA) is employed for detecting all A. baumannii strains and identifying the strains harboring bla gene. The duplex MCDA assay, which targets the pgaD and bla genes, could identify the A. baumannii isolates and differentiate these isolates harboring bla gene. The disposable lateral flow biosensors (LFB) were used for analyzing the MCDA products. A total of sixty-eight isolates, include fifty-three A. baumannii strains and fifteen non-A. baumannii strains, were employed to optimize MCDA methods and determine the sensitivity, specificity and feasibility. The optimal reaction condition is found to be 63 °C within 1 h, with limit of detection at 100 fg templates per tube for pgaD and bla genes in pure cultures. The specificity of this assay is 100%. Moreover, the practical application of the duplex MCDA-LFB assay was evaluated using clinical samples, and the results obtained from duplex MCDA-LFB method were consistent with conventional culture-based technique. In sum, the duplex MCDA-LFB assay appears to be a reliable, rapid and specific technique to detect all A. baumannii strains and identify these strains harboring bla gene for appropriate antibiotic therapy.