Microbial Detection Method Based on Sensing Molecular Hydrogen

AUTOR(ES)

Wilkins, Judd R.

RESUMO

A simple method for detecting bacteria, based on the time of hydrogen evolution, was developed and tested against various members of the Enterobacteriaceae group. The test system consisted of (i) two electrodes, platinum and a reference electrode, (ii) a buffer amplifier, and (iii) a strip-chart recorder. Hydrogen evolution was measured by an increase in voltage in the negative (cathodic) direction and recorded on a strip-chart recorder. Hydrogen response curves consisted of (i) a lag period, (ii) a period of rapid buildup in potential due to hydrogen, and (iii) a period of decline in potential. A linear relationship was established between inoculum size and the time hydrogen was detected (lag period). Lag times ranged from 1 h for 106 cells/ml to 7 h for 100 cells/ml. For each 10-fold decrease in inoculum, length of the lag period increased 60 to 70 min. Mean cell concentrations at the time of hydrogen evolution were 106/ml. Based on the linear relationship between inoculum size and lag period, these results indicate the potential application of the hydrogen-sensing method for rapidly detecting coliforms and other gas-producing microorganisms in a variety of clinical, food, and other samples.

Documentos Relacionados

• Combined membrane filtration-electrochemical microbial detection method.
• Rapid, inexpensive method for specific detection of microbial beta-lactamases by detection of fluorescent end products.
• Influence of pH on microbial hydrogen metabolism in diverse sedimentary ecosystems.
• EFFECT OF MOLECULAR NITROGEN AND HYDROGEN ON HYDROGEN EVOLUTION BY CLOSTRIDIUM PASTEURIANUM1
• Novel method for detection of small amounts of RNA based on the semi-nested polymerase chain reaction.