Rapid detection of airborne protein from Mycobacterium tuberculosis using a biosensor detection system.
Jinbiao MaGuanyu JiangQingqing MaHao WangManman DuCan WangXinwu XieTie LiShixing ChenPublished in: The Analyst (2022)
Tuberculosis (TB), caused by infection with airborne Mycobacterium tuberculosis (MTB), seriously threatens human health and has become a public health problem of worldwide concern. To achieve effective control of TB, rapid and sensitive detection of MTB is particularly important. At present, the common detection methods for MTB cannot meet the requirements of speed, flexibility and portability simultaneously. In this work, a multichannel microfluidic chip was developed and packaged with an ultra-sensitive silicon nanowire field-effect-transistor biosensor. The fluid system was tested and optimized through simulation, and the best conditions were determined: the flow rate was 0.3 mL min -1 and the flow direction was perpendicular to a silicon nanowire. A one-way valve, a switching valve and a peristaltic pump were combined to establish a biosensor detection system to realize the automatic detection of TB samples. Then we systematically explained the factors affecting simulated exhaled breath condensate (SEBC) collection, and established and optimized the method for collection of SEBC from the perspective of collection volume and biological activity. The best collection conditions were determined for a 5 mm pipe diameter at 0 °C, and a sufficient sample volume was obtained in only 2 minutes for microfluidic detection. Then, the actual application value of the established collection method was further evaluated. Volunteers were recruited and this method was used to collect their exhaled breath condensate to analyze the collection effect. The system detected MTB in SEBC with good sensitivity (∼4 × 10 4 particles per mL). It is expected to be further integrated and miniaturized in the future to realize point-of-care testing.
Keyphrases
- mycobacterium tuberculosis
- loop mediated isothermal amplification
- sensitive detection
- label free
- pulmonary tuberculosis
- public health
- quantum dots
- human health
- real time pcr
- aortic valve
- risk assessment
- gold nanoparticles
- high throughput
- particulate matter
- mitral valve
- climate change
- heart failure
- high resolution
- circulating tumor cells
- single cell
- human immunodeficiency virus
- deep learning
- atrial fibrillation
- aortic stenosis