Pocket Guide to Clinical Microbiology. Christopher D. Doern
guidance provided by both the Clinical and Laboratory Standards Institute (CLSI) and the European Committee on Antimicrobial Susceptibility Testing (EUCAST). The goal of these tables is to help the reader easily understand what methods can be used, and what interpretive criteria exist, for most organism/antibiotic combinations. Also included are tables with important intrinsic resistance profiles for commonly encountered organisms, as well as key mechanisms of resistance.
Sir Isaac Newton once said, “If I have seen further than others, it is by standing on the shoulders of giants.” Although I have no illusions that I have “seen further” than anyone else, the humility expressed in this quote resonates with me as I have undertaken the task of updating a text that was conceived and authored by Dr. Patrick Murray, one of the true giants of clinical microbiology. So first and foremost, I thank him for his work making this pocket guide the respected resource that it is. I hope that the fourth edition will do justice to the tradition of this text. In addition, I want to thank the talented, and patient, professionals at ASM Press. Specifically, Christine Charlip and Larry Klein, along with what I'm sure are countless others at ASM, warrant special thanks for all their work. And last, I thank my wife Kelli, who provided support and under-standing through the many late nights and weekends it took to complete this project. I could not have finished this project were it not for her support.
The practice of clinical microbiology is a wonderful discipline, requiring judgement, investigation, and critical decision-making to produce quality results. It is my hope that you will find this pocket guide to be a user-friendly reference that enhances your ability to do all of these things, and ultimately provide the best patient care possible.
Christopher D. Doern
About the Author
Christopher Doern, PhD, D(ABMM), is an Assistant Professor of Pathology and the Director of Clinical Microbiology at the Virginia Commonwealth University Health System, Richmond, Virginia. He earned his undergraduate and doctoral degrees from Wake Forest University in Winston-Salem, North Carolina. Doern went on to a fellowship in Medical and Public Health Microbiology at the Washington University School of Medicine, St. Louis, Missouri, and is certified by the American Board of Medical Microbiology (ABMM).
Doern is an active member of the clinical microbiology community and serves on the ABMM, ASM Clinical Laboratory Practices Committee, Clinical Chemistry Trainee Council, and several Clinical and Laboratory Standards Institute document development and revision committees. He is an editor for the Clinical Microbiology Newsletter and serves on the Journal of Clinical Microbiology and Pediatric Infectious Diseases Journal editorial boards.
Doern is involved in educational programs that reach an international audience. Among these is the Medical Microbiology Question of the Day (www.pathquestions.com), for which he has been an editor since 2011. This service provides freely accessible educational material to participants in more than 60 countries
SECTION 1
Taxonomic Classification of Medically Important Microorganisms
General Comments
Taxonomic Classification of Bacteria
Taxonomic Classification of Human Viruses
Taxonomic Classification of Fungi
Taxonomic Classification of Parasites
In order to remain true to the tradition set forth by the first three editions of this pocket guide, the first section will be devoted to describing the taxonomy of common (and some uncommon) organisms which are associated with humans and may be isolated by the Clinical Microbiology Laboratory. Unfortunately, in the 13 or so years that have passed since the third edition of the Pocket Guide was published, the rate of taxonomic changes has continued to increase such that publishing a taxonomic list of organisms would be out of date before this book goes to publication. This is a product of continued proliferation of new species of organisms which are being identified by increasingly sophisticated genomic analyses. As such, the revised goal of this section will be to outline some high-level taxonomic groupings and provide the resources and references one would need to identify the most up-to-date taxonomic classifications.
It should be appreciated that despite appearances, changes in nomenclature are regulated by a system of rules with oversight governed by the International Code of Biological Nomenclature (www.biosis.org.uk/zrdocs/codes/codes.htm). The International Code of Nomenclature of Bacteria governs bacterial taxonomy, and all bacteria named after 1980 must be validly published in the International Journal of Systematic and Evolutionary Microbiology. A current listing of bacteria can be found at http://www.bacterio.net, http://www.bacterio.cict.fr/, and https://www.dsmz.de/. The International Committee on Taxonomy of Viruses (ICTV) governs viral taxonomy, and all currently recognized viruses can be found at https://talk.ictvonline.org//. The International Code of Botanical Nomenclature governs fungal classification, and additional information can be found at http://www.iapt-taxon.org/nomen/main.php/.
Taxonomic Classification of Bacteria
Classification and taxonomy of prokaryotes (bacteria) is complicated and is governed by the International Code of Nomenclature of Bacteria (last revised in 1990). By definition, each prokaryotic species must include a genus-level name that is included within a hierarchy or ranks, which includes (from highest to lowest rank) subtribe, tribe, subfamily, family, suborder, order, subclass, class, division (or phylum), and domain (or empire). To further complicate matters, the tribe and subtribe do not actually include names and are therefore not used.
Most importantly, there is no such thing as an official classification of prokaryotes. This is because in contrast to eukaryotes, the prokaryotic designations are a matter of scientific judgment. Therefore, the closest things that we have to “official” taxonomic designations are those names that are generally accepted by the microbiology community. Despite this fact, microbiologists have achieved some amount of consensus by relying on resources such as the International Journal of Systematic and Evolutionary Microbiology and Bergey’s Manual of Systematic Bacteriology.
As of the writing of this fourth edition Pocket Guide, the prokaryotes were divided into 2 domains, 35 phyla, 80 classes, 1 subclass, 178 orders, 20 suborders, 402 families, and 2,552 genera. The following is a consolidated taxonomic outline, which will focus on the taxonomic organization or those organisms that are most likely to be encountered in the clinical microbiology laboratory. This is not meant to be an exhaustive list of all bacteria. Rather, it is intended to provide some context to the relationships between some of the most commonly encountered organisms in human clinical specimens.
The taxonomy of bacterial classification is arranged in the following way…
DomainPhyla ClassSubclassOrderSuborderFamilyGenera
Domain: BacteriaClass.