Recently, Prof. GUO Shifeng’s team at the Shenzhen Institute of Advanced Technology (SIAT) of the Chinese Academy of Sciences, proposed a novel method that fills the gap between physical measurement and artificial intelligence in bacterial viability detection.  

Their research, titled "AFM-Based Nanomechanics and Machine Learning for Rapid and Non-Destructive Detection of Bacterial Viability" was published in Cell Reports Physical Science.  

Bacterial viability detection remains an urgent necessity across the pharmaceutical, medical, and food industries. Yet, a rapid, non-destructive approach for distinguishing between intact live and dead bacteria remains elusive. Prof. GUO’s team introduced a robust and accessible methodology that integrated atomic force microscopy (AFM) imaging, quantitative nanomechanics, and machine learning algorithms to assess the viability of Gram-negative and Gram-positive bacteria. 

The team employed liquid AFM to acquire the morphology and force spectroscopy data of both live and dead bacteria. Subsequent processing of the force spectroscopy data enabled the extraction of essential data points, encompassing deformation, bacterial spring constant, and Young’s modulus values. These extracted parameters served as inputs in the computational framework, constructing a stacking classifier. This classifier operated swiftly and autonomously, effectively identifying bacterial viability in a rapid and automated manner.  

"Looking ahead," remarked Prof. GUO, "we envision extending the application of this method to detect viability in other bacterial species and explore its potential in various environmental and biological contexts." 

This work exemplified the power of interdisciplinary collaboration in driving scientific breakthroughs and provided a valuable framework for future research in the fields of microbiology, nanotechnology, and machine learning. 

Schematic of the combination of AFM and machine learning algorithm for rapid detection of the viability of Gram-negative E. coli and Gram-positive S. aureus. (Image by SIAT) 

Media Contact:
ZHANG Xiaomin
Email:xm.zhang@siat.ac.cn