Aerobic and Anaerobic Microbiology of Surgical-Site Infection Following Spinal Fusion

Microbiology.Aerobic bacteria only were recovered from 9 (36%) specimens, anaerobic bacteria only were recovered from 4 (16%) specimens, and mixed aerobic and anaerobic bacteria were recovered from 12 (48%) specimens. Sixty isolates were recovered: 38 aerobes (1.5 isolates per specimen) and 22 anaerobes (0.9 isolate per specimen) (Table 1).

A total of 38 aerobic isolates were recovered. The predominant ones were Escherichia coli (n = 8),Proteus sp. (n = 7), P. aeruginosa (n = 5), Enterococcus sp. (n = 4), Klebsiella pneumoniae (n = 3), and S. aureus (n = 3). A total of 22 anaerobic bacteria were recovered. The predominant anaerobes recovered were the Bacteroides fragilis group (n = 9) and Peptostreptococcus sp. (n = 6). There was no consistent pattern of combinations, althoughB. fragilis group isolates were recovered in six instances with E. coli.

The recovery of two types of isolates was associated with the presence of bowel and bladder incontinence: four of the eight patients withE. coli and five of the nine with B. fragilisgroup isolates were incontinent. The organisms were associated with incontinence more often then with other associated conditions. Organisms similar to the one isolated from the wound (E. coli and B. fragilis) were also recovered in the blood of four patients.

Clinical presentation.The diagnosis of wound infection was made 4 to 25 days after surgery (average, 14.5 days). All wounds were draining, dehiscence was present in 14 (56%). Fever (>38.5°C) was present in 15 (60%) cases, and leukocytosis (>12,000/ml) was present in 16 (52%) cases. A concomitant urinary tract infection (withE. coli) was present in three patients. Four patients had bowel and bladder incontinence. The extent of the wound was deep in 14 (56%) cases and superficial (above the fascia) in 11 (44%) cases. Pus and/or necrosis was present in 12 (48%) cases.

Management.Sixteen (64%) patients had surgical drainage, debridement, and closing over drains. Bone graft removal was done in five (20%) instances. Continuous irrigation for 2 to 7 days was used for nine (3%) children.

Parenteral antimicrobial therapy was given to all patients for 10 to 38 days, and 10 continued to receive oral therapy for an additional 10 to 21 days. The parenteral antimicrobials used were an aminoglycoside (n = 15), clindamycin (n = 8), ceftazidime (n = 7), vancomycin (n = 6), ticarcillin-clavulanate (n = 5), cefoxitin (n = 4), imipenem (n = 2), and metronidazole (n = 2). Oral antimicrobials were amoxicillin-clavulanate (n = 5), clindamycin (n = 5), dicloxacillin (n = 4), ciprofloxacin (n = 3), erythromycin (n = 3), and cefixime (n = 2).

Four patients developed urinary tract infections (due to E. coli in three and Enterococcus sp. in one), and two developed aspiration pneumonia while receiving therapy for their wounds.

All but five patients responded well to medical therapy and surgical debridement. These patients required repeat debridement 3 to 6 weeks later and finally responded to therapy.

This study demonstrates the polymicrobial aerobic-anaerobic nature of SSI following spinal fusion. The predominant isolates were the B. fragilis group, Peptostreptococcus sp., andEnterobacteriaceae, all of which are known to be part of the normal gastrointestinal bacterial flora (6). Similar flora were recovered in patients with infected pilonidal sinuses (1) and perirectal abscesses (2) and in abscesses of the vulvovaginal areas (3).

Bowel and bladder incontinence predisposes patients with back surgery to infection (12). These patients require external condom catheters or padding, which may increase skin irritation. They also show increased colonization of the perirectal skin with gram-negative enteric bacilli. Pre-existing urinary tract infection also predisposes these patients to postoperative wound infection (9). The higher recovery of E. coli and B. fragilis from incontinent patients is probably due to the origin of these bacteria in the stool. The increased incidence of recovery of gram-negative aerobic bacteria in this study, in contrast to the predominance of S. aureus in previous studies (8, 10, 13), may be due to the higher rate of urinary and fecal incontinence in our patients and the routine use of a cephalosporin effective against S. aureus.

Similar findings were also reported by Perry et al. (12), who also noticed a high incidence of infections with gram-negative aerobic bacteria. However, they were able to correlated their recovery with the length of surgery into the sacral region, as well as with bowel and/or bladder incontinence.

Anaerobic infections are generally polymicrobial where anaerobic organisms are recovered mixed with other facultative anaerobic and aerobic bacteria (5). Previous studies have found that the association between anaerobic bacteria and their aerobic counterparts is generally synergistic (4, 7).

The isolation of anaerobic bacteria mixed with aerobic and facultative organisms from SSI after spinal fusion is not surprising because anaerobic bacteria are the predominant organisms in the gastrointestinal tract, outnumbering aerobic bacteria by a ratio of 1,000:1 (6). Because anaerobic bacteria are often associated with wound infection after spinal fusion, physicians should consider their presence when antimicrobial treatment is used. This may be especially indicated for patients with bowel or bladder incontinence. Because some anaerobes are resistant to penicillin, treatment should also include appropriate coverage of those organisms.

Surgical management, including drainage, is still the treatment of choice for SSI. The presence of penicillin-resistant anaerobic bacteria, however, such as the B. fragilis group (15), may warrant the administration of appropriate antimicrobial agents, such as clindamycin, cefoxitin, metronidazole, a carbapenem, or a combination of a β-lactamase inhibitor and a penicillin. Antimicrobial prophylaxis with agents also effective against anaerobic bacteria (e.g., cefoxitin, cefotetan) should be considered, and prospective studies to assess the aerobic and anaerobic microbiology of postoperative spinal infection are warranted.