Rapid detection and identification of bacteria directly from whole blood with light scattering spectroscopy based biosensor

Bacterial infections are one of the major causes of death worldwide. The identification of a bacterial species that is the source of an infection generally takes a long time, and often exceeds the treatment window for seriously ill patients. Many of these deaths are preventable if the bacterial species can be identified quickly. Here we present an optical spectroscopic method for rapid detection and identification of bacteria directly from whole blood using a light scattering spectroscopy technique. This technique was originally developed to detect pre-cancerous changes in epithelial tissues, characterize changes in tissue on the cellular scale, and characterize biological structures comparable to or smaller than a single wavelength. We demonstrate here that not only can an inexpensive light scattering spectroscopy-based biosensor rapidly detect and identify four bacteria species in the blood, responsible for the majority of death causing infections, but that species-level identification can potentially be made based on approximately one thousand bacterial cells per milliliter of blood. Observing entire colonies or performing susceptibility testing is therefore not required.

Automated summary

The study introduces a spectroscopic method for rapid detection of bacteria in blood and identification of major bacterial species responsible for infections, avoiding the time-consuming process in traditional methods. The research shows that species-level identification can potentially be made based on approximately one thousand bacterial cells per milliliter of blood, without the need to observe entire colonies or conduct susceptibility testing.