Bacillus anthracis
From IDWiki
Background
Microbiology
- Gram-positive bacillus that is distinguished from other Bacillus by being non-motile and non-hemolytic
- Colonies are gray, flat, and may have a "Medusa head" or "comet" appearance
- The main toxin has subunits A and B
- A subunit may be either EF (edema factor) or LF (lethal factor)
- B subunit is the protective antigen, against which antibodies react
- Lives in soil
- Wild and farm animals that have contact with contaminated soil is a common exposure, including to wool and animal hides
- Can also be acquired by inhalation of spores
Clinical Manifestations
Cutaneous Anthrax
- Caused by inoculation of spores into soft tissue
- Incubation period of 2 to 5 days
- Lesion develops at site of inoculation, starting as erythemaous papule, then ulceration, then eschar
- May progress to sepsis
Pulmonary Anthrax
- Caused by inhalation of spores
- Also known as woolsorter's disease
- Start with malaise, fever, and nonproductive cough, followed by respiratory distress, severe pulmonary edema, and death
Gastrointestinal Anthrax
- Caused by ingestion of spores
- Infects oropharynx or abdomen
- Causes sepsis
Management
- Inhalational anthrax: ciprofloxacin 400 mg IV q12h ± a second antibiotics
- Cutaneous anthrax (mild): ciprofloxacin 500 mg p.o. q12h, doxycycline 100 mg p.o. q12h, or amoxicillin 500-1000 mg p.o. q8h
- Duration typically 7 to 10 days (naturally acquired) or 60 days (bioterrorism-related)
- Meningitis: ciprofloxacin plus meropenem plus linezolid
- Duration 2-3 weeks, then prophylaxis to complete 60 days
- Almost universally susceptible to ciprofloxacin and doxycycline1
- Generally susceptible to penicillin, though should wait for susceptibility results before using
- Often resistant to extended-spectrum β-lactams such as ceftriaxone and ceftazidime, as well as aztreonam and TMP-SMX
References
- ^ Tucker Maxson, Thiphasone Kongphet-Tran, Thitipong Mongkolrattanothai, Tatiana Travis, Katherine Hendricks, Corinne Parker, Heather P McLaughlin, Julia Bugrysheva, Frank Ambrosio, Pierre Michel, Blake Cherney, Christine Lascols, David Sue. Systematic Review of In Vitro Antimicrobial Susceptibility Testing for Bacillus anthracis, 1947–2019. Clinical Infectious Diseases. 2022;75(Supplement_3):S373-S378. doi:10.1093/cid/ciac520.