核心概念
Innovative inkjet bioprinter revolutionizes bacterial identification, leading to faster and more accurate treatment decisions.
摘要
The article discusses a groundbreaking innovation from Stanford University that utilizes an inkjet printer to identify bacteria in blood samples within seconds. By leveraging Raman spectroscopy and gold nanoparticles, this technology offers rapid and precise identification of bacterial infections, potentially transforming the way healthcare providers administer antibiotics. The method's efficiency and accuracy could significantly improve patient outcomes and combat antimicrobial resistance. The technology's future applications extend beyond bloodstream infections to other fluids like wastewater and contaminated food.
统计
The inkjet bioprinter spits out more than 1,000 tiny drops of blood per second.
Each blood drop is two trillionths of a liter, making it easier to spot bacteria.
Blood cultures in hospitals can take 48 to 72 hours to come back.
引用
"It kind of wound up being this really interesting historical period where we could put the pieces together from different technologies, including nanophotonics, printing, and artificial intelligence, to help accelerate identification of bacteria in these complex samples.” - Jennifer Dionne, PhD
"Sometimes, despite your best guess, you're wrong, and obviously, the patient could have an adverse outcome. So, if you can diagnose the pathogen sooner, that is ideal. Whatever technology enables clinicians to do that is definitely progress and a step forward.” - Richard Watkins, MD