Polymicrobial Diseases.K.A. Brogden and J.M. Guthmiller, editors ASM Press Washington, D.C., 2002 ISBN: 1-55581-244-9 Pages: 446, Price: $115.95 Polymicrobial diseases involve multiple infectious agents and are referred to as complex, complicated, mixed, dual, secondary, synergistic, concurrent, polymicrobial, coinfections. This new book, a collection of 21 chapters written by a variety of authors, reviews mixed infections in animals and humans. The chapters are gathered into sections on polyviral diseases, polybacterial diseases, viral and bacterial infections, fungal infections, infections resulting from microbe-induced immunosuppression, and a concluding perspective. Polymicrobial diseases described include abscesses amebic abscess one caused by Entamoeba histolytica, usually occurring in the liver but also in the lungs, brain, and spleen. apical abscess a suppurative inflammatory reaction involving the tissues surrounding the apical portion of a tooth, occurring in acute and chronic forms. , AIDS-related
opportunistic infections, conjunctivitis acute contagious conjunctivitis , acute epidemic conjunctivitis pinkeye; a highly contagious form of conjunctivitis caused by Haemophilus aegyptius. acute hemorrhagic conjunctivitis a contagious form due to infection with enteroviruses. allergic conjunctivitis conjunctival inflammation, itching, tearing, and redness caused by allergens. , gastroenteritis bacterial gastroenteritis any type caused by a bacterial toxin or bacterial infection, the most common agents being Salmonella, Shigella, and Campylobacter. eosinophilic gastroenteritis a type usually associated with intolerance to specific foods, with infiltration of the mucosa of the small intestine (and often the stomach) by eosinophils; there is edema but no vasculitis; symptoms depend on the site and , hepatitis,
multiple sclerosis, otitis media, periodontal diseases, respiratory
diseases, and genital infections. Approximately two-thirds of the
chapters deal with human diseases; the others discuss infections in
cattle, goats, and pigs.The chapters are generally well written with a focus on microbiology, pathogenesis, and to a lesser degree, treatment. The chapters on abscesses, multiple sclerosis, and mixed mycotic infections are especially informative. The chapter on abscesses provides a comprehensive review of the microbiology processes involved, the role of anaerobes facultative anaerobes microorganisms that can live and grow with or without molecular oxygen. obligate anaerobes microorganisms that can grow only in the complete absence of molecular oxygen; some are killed by oxygen. an·aer·obe in mixed infections, and animal models. The section on viruses and multiple sclerosis is provocative in its proposal that several viruses might coexist and interact to promote multiple sclerosis and other neurologic diseases. The list of candidate etiologic agents includes Human herpesvirus herpesvirus /her·pes·vi·rus/ (-vi?rus) any of a group of DNA viruses which includes the etiologic agents of herpes simplex, herpes zoster, chickenpox, infectious mononucleosis, and cytomegalic inclusion disease in humans, and of pseudorabies and other animal diseases. Herpesvirus n. -6, human T-lymphotropic virus type 1, measles
viruses, JC virus, Epstein-Barr virus Epstein-Barr virus (EBV), herpesvirus that is the major cause of infectious mononucleosis and is associated with a number of cancers, particularly lymphomas in immunosuppressed persons, including persons with AIDS. Epstein-Barr is a ubiquitous virus, so common that it has been difficult to determine whether it is the cause of certain diseases or whether it is simply there as an artifact., and herpes simplex virus-1. The
chapter on mixed mycotic infections adequately discusses how fungi
interact by mechanisms such as commensalism commensalism /com·men·sal·ism/ (-izm) symbiosis in which one population (or individual) is benefited and the other is neither benefited nor harmed.com·men·sal·ism (k  -m, opportunism, mixed
colonization, co-isolation, and dual and polymicrobial infection.Growing two or more microbes in the laboratory in a clinical situation does not prove that a polymicrobial infection is the cause of the disease. The editors and authors do not provide a framework similar to that of Robert Koch or Bradford Hill, which one can use to decipher the role(s) of each candidate agent in a polymicrobial disease. A limited discussion is provided on the role of noninfectious factors, such as genetics of the host, retained "hardware," alcohol in hepatitis, or tobacco use in respiratory diseases. How each of the chapters was selected for inclusion and what other topics were considered is not clear. The reference lists are one of the book's strengths but also a weakness. The lists are extensive, occupying about 30% of the book's pages. Prioritizing the outside readings on each topic would have been useful. Several of the chapters might have been combined, such as the two on periodontal diseases, those on retroviruses, and those on respiratory diseases in humans, cattle, and pigs. In the next edition, the authors might explore the polymicrobial etiology 1. the science dealing with causes of disease. 2. the cause of a disease.etiolog´icetiolog´ical e·ti·ol·o·gy or ae·ti·ol·o·gy (  of Reye syndrome,
autoimmune disorders, atherosclerosis, and cancers, such as Kaposi
sarcoma, hepatocellular hepatocellular /hep·a·to·cel·lu·lar/ (hep?ah-to-sel´u-lar) pertaining to or affecting liver cells. sarcoma, and cervical cancer. I recommend the
book to those who think beyond the "single agent, single
disease" framework and imagine multifactorial causes for those
diseases currently listed as "etiology unknown."
Harry W. Haverkos Food And Drug Administration, Rockville, Maryland |
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