Total Laboratory Automation in Clinical Microbiology (JCM ed.)

Let’s talk about total laboratory automation in the clinical microbiology laboratory. Highly automated systems are fairly common in the clinical chemistry and hematology labs, and they are increasingly common in clinical microbiology. Here are some of the questions we’ll answer today. What does total laboratory automation look like in the clinical microbiology laboratory? Are there still manual steps required? In other words, how total is total? What are the benefits of total laboratory automation? Is it good for the lab staff, the caregivers, or, best of all, the patients? What is like to convert your lab to total laboratory automation? What kind of time and resources are needed? Guests: Dr. Carey-Ann Burnham, Dr. Erin McElvania Links mentioned: Machine Learning Takes Laboratory Automation to the Next Level by B. Ford and E. McElvania Evaluation of the WASPLab Segregation Software To Automatically Analyze Urine Cultures Using Routine Blood and MacConkey Agars by M. Faron et al. Enhanced Recovery of Fastidious Organisms from Urine Culture in the Setting of Total Laboratory Automation by W. Lainhart and C-A Burnham Total Laboratory Automation: a Micro-Comic Strip by C-A Burnham and A. McAdam Subscribe to Editors in Conversation (free) on Apple Podcasts, Google Podcasts, Android, Spotify.

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Editors in Conversation is the official podcast of the American Society for Microbiology Journals. Editors in Conversation features discussions between ASM Journals Editors, researchers and clinicians working on the most cutting edge issues in the microbial sciences. Topics include laboratory diagnosis and clinical treatment of infectious diseases, antimicrobial resistance, epidemiology of infections, multidrug-resistant organisms, pharmacology of antimicrobial agents, susceptibility testing, and more. The podcast is directed to microbiologists, infectious diseases clinicians, pharmacists and basic, clinical and translational researchers interested in the microbial sciences. A particular emphasis is on basic, epidemiological and pharmacological aspects of infectious diseases, including antimicrobial resistance and therapeutics.