Actinomyces and Nocardia are Gram-positive rods characterized by filamentous, tree-like branching growth, which has caused them to be confused with fungi in the past. They are opportunists that can sometimes produce indolent, slowly progressive diseases. A related genus, Streptomyces, is of medical importance as a producer of many antibiotics, but it rarely causes infections. Important differential features of these groups and of the mycobacteria to which they are related are shown in Table 28–1.
TABLE 28–1Features of Actinomycetes ||Download (.pdf) TABLE 28–1 Features of Actinomycetes
|GENUS ||MORPHOLOGY ||ACID-FASTNESS ||GROWTH ||SOURCE ||DISEASE |
|Actinomyces ||Branching bacilli ||None ||Anaerobic ||Oral, intestinal endogenous flora ||Chronic cellulitis, draining sinuses |
|Nocardia ||Branching bacilli ||Weaka,b ||Aerobic ||Soil ||Pneumonia, skin pustules, brain abscess |
|Rhodococcus ||Cocci to bacilli ||Variable (weaka) ||Aerobic ||Soil, horsesc ||Pneumonia |
|Streptomyces ||Branching bacilli ||None ||Aerobic ||Soil ||Extremely rared |
Actinomyces are typically elongated Gram-positive rods that branch at acute angles (Figure 28–1). They are Gram-positive bacilli that grow slowly (4-10 days) under microaerophilic or strictly anaerobic conditions. In pus and tissues, the most characteristic form is the sulfur granule (Figure 28–2). This yellow-orange granule, named for its gross resemblance to a grain of sulfur, is a microcolony of intertwined branching Actinomyces filaments solidified with elements of tissue exudate.
Actinomyces. Note the angular branching of the Gram-positive bacilli. (Reproduced with permission from Willey JM: Prescott, Harley, & Klein's Microbiology, 7th edition. McGraw-Hill, 2008.)
Sulfur granule. The mass is a microcolony of bacteria Gram-positive bacteria and tissue elements. The branching is clearly seen only at the edge. (Reproduced with permission from Connor DH, Chandler FW, Schwartz DQ, et al: Pathology of Infectious Diseases. Stamford CT: Appleton & Lange, 1997.)
Slow-growing anaerobic branching Gram-positive rods
Species of Actinomyces are distinguished on the basis of biochemical reactions, cultural features, and cell wall composition. Most human actinomycosis is caused by Actinomyces israelii, but other species have been isolated from typical actinomycotic lesions. Other species of Actinomyces have been associated with dental and periodontal infections (see Chapter 41).
Most infections due to A israelii
Actinomycosis is a chronic inflammatory condition originating in the tissues adjacent to mucosal surfaces. The lesions follow a slow burrowing course with considerable induration and draining sinuses, eventually opening through the skin. The exact ...