Management of Mycobacterium Abscessus Infections: The Rise of a Superbug (AAC ed.)

Infections caused by Mycobacterium abscessus appear to be increasing in frequency among the immunocompromised population and are challenging to treat. Antibiotic options in these cases are scarce, prolonged therapy is required and new options are needed. We will discuss this important topic with experts in the field. Topics discussed: Define M. abscessus as an opportunistic pathoge The intrinsic phenotypic characteristics of M. abscessus, including resistance to common antimicrobials Treatment approaches and rationale for these strategies Guests: Kelly Dooley, MD. PhD, MPH.  Professor of Medicine, Johns Hopkins University and Editor of AAC Charles L. Daley, MD, Professor and Chief of the Division of Mycobacterial and Respiratory Infections. National Jewish Health Thomas Dick, PhD. Professor, Center for Discovery and Innovation, Hackensack Meridian Health This episode is brought to you by the Antimicrobial Agents and Chemotherapy journal available at aac.asm.org. If you plan to publish in AAC, ASM Members get up to 50% off publishing fees. Visit asm.org/membership to sign up Visit journals.asm.org/journal/aac to browse issues and/or submit a manuscript.

Om Podcasten

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.