Chapter 1
Skin and Soft Tissue Infections

Case 1.1 Soft tissue infection following traumatic aquatic exposure

In early September 2010, a 7-year-old boy suffered a laceration injury to the left calf during a recreational boat ride on a coastal river. He was brought to the emergency room (ER) within 2 hours of this accident, after initial cleansing first aid with saline in the field.

The wound was noted to be severe and deep, and was described as “partial degloving” by the ER physician. The boy's vital signs were stable. Due to the nature of the wound, an orthopedic surgeon was consulted and the patient was taken to surgery within 2 hours for wound washout and closure. X-rays of the leg showed no fractures.

Cefazolin and gentamicin were given preoperatively. The patient received 34 stitches to close the large (>10 cm) complex left calf laceration injury after extensive washout. No cultures were done.

One day later, infectious diseases consult was sought for outpatient oral antibiotic recommendations, in anticipation of discharge home later that day.

The boy's past medical history was unremarkable, except for hospital admission for symptoms of nausea and vomiting 1 year earlier, and ear tubes placed 1.5 years earlier.

His examination was unremarkable except for superficial abrasions on the lower abdomen and right upper arm, and the deep (now sutured) left calf laceration. Temperature was 100.5 °F, but other vital signs were stable.

A combination of trimethoprim/sulfamethoxazole and cefuroxime was recommended as oral antibiotics, and the patient was then discharged to outpatient follow-up.

Six days after discharge from the hospital, he was readmitted because of wound infection. He had failed to take the prescribed antibiotics because of severe nausea.

At surgery, no frank pus was found but serous old blood and drainage were noted. A swab of this drainage was stained and cultured.

The infectious diseases consultant was called (after surgery) to help with additional recommendations. He added ceftriaxone to the vancomycin already prescribed. Examination of the patient the next day found him to be comfortable, afebrile, and eating breakfast. His temperature was normal (97.8 °F). The abdominal skin abrasions were healing, but the left calf was wrapped up following the surgical incision and debridement (I&D) the day before.

Basic laboratory findings were normal (white blood cell [WBC] count was 7300/μL, platelet count 401,000/μL, and creatinine 0.5 mg/dL).

The gram stain of the serous fluid from the wound showed rare WBCs and no organisms. Twenty-four hours later, the culture was reported positive for a gram-negative rod (GNR).

The left calf wound was clean when inspected on day 4 post surgery (Fig. 1.1a).

• What are the likely organisms in this patient (differential diagnoses) and why?

Figure 1.1a Left calf wound on day 4 post surgery (reproduced with permission). (See insert for color information)

The GNR was found to be oxidase positive, beta-hemolytic on sheep blood agar (BA), and the subculture showed luxuriant growth on all three agar media (BA, chocolate BA, and MacConkey agar) within 24 hours (Fig. 1.1b). It was noted later to be resistant to penicillin/ampicillin-like agents, including carbapenems, but sensitive to second- and third-generation cephalosporins, quinolones, and trimethoprim/sulfamethoxazole, as well as tetracyclines and aminoglycosides.

• What is your new diagnosis?

Figure 1.1b Luxuriant growth of gram-negative rod on blood agar medium in 24 hours, and comparative growth of the same organism on BA, chocolate BA, and MacConkey agar. (See insert for color information)

The patient was discharged 6 days later to outpatient follow-up on intravenous ceftriaxone after a peripherally inserted central catheter (PICC line) was placed.

Two months later he was doing very well, and underwent plastic surgical repair of the calf laceration (Fig. 1.1c).

• What were the clues to the diagnosis?

Figure 1.1c Photo taken in March 2011, 6 months after the injury: healed left calf post skin grafting (reproduced with permission).

Case discussion

First, the injury occurred while boating on a river, in possibly brackish water (coastal river). Gram-negative organisms are common and likely to contaminate the wound with such a severe laceration injury. The organism grew rapidly on all three culture media used (BA, Choc BA, and MAC). It was oxidase positive, non-lactose fermenting, mucoid, and beta-hemolytic on sheep BA. It did not require high salt concentration to grow, making certain Vibrio organisms (those that need high, 6.5% salt concentration) unlikely. The sensitivity pattern is also useful (see earlier). The organism turned out to be sensitive to the two agents originally recommended (trimethoprim/sulfamethoxazole and cefuroxime). The child was unable to take the antibiotics because of persistent nausea.

Differential diagnosis

Our differential diagnoses at the onset were Aeromonas or Pleisiomonas, more likely than Vibrio, because of the fresh water or brackish water environment where the injury occurred. The luxuriant growth in all three media was in keeping with the differential diagnoses chosen.

• Final diagnosis: Aeromonas hydrophila

Some data from the literature on Aeromonas are shown in Table 1.1a and given below.

Table 1.1a Organisms associated with soft tissue infection following water exposure

* Infection associated with patients with underlying liver disease, iron overload syndromes, and cancer; infections in these high-risk groups are particularly fulminant [1].

Reproduced with permission of UpToDate from Baddour [1].

Sites of isolation of Aeromonas (environmental reservoirs) [2]

• Fresh water
• Estuarine (brackish) water
• Surface water, especially recreational
• Drinking water, including treated, well, and bottled
• Polluted waters
• Waste water effluent sludge

The organism grows at a range of temperatures from 0 °C to 42 °C.

Characterization and classification of Aeromonas [2]

• Aeromonads are ubiquitous inhabitants of fresh and brackish water.
• They have also been recovered from chlorinated tap water, including hospital water supplies.
• They occasionally cause soft tissue infections and sepsis in immunocompromised hosts and increasingly have been associated with diarrheal disease.
• Because of recent phylogenetic studies, Aeromonas species have been moved from the family Vibrionaceae to a new family, the Aeromonadaceae.

Microbiologic identification of Aeromonas [2, 3]

• Oxidase-positive, polar flagella, glucose fermenter, facultative anaerobic GNR.
• Resistant to the vibriostatic agent O/129, and unable to grow in 6.5% NaCl.
• Hemolysis is variable but most are beta-hemolytic on BA media.
• There are a few useful standard biochemical tests (A. hydrophila is catalase positive and motile, converts nitrate to nitrite, and is urease negative).

Antimicrobial susceptibility tests of motile Aeromonas spp [2]

• Most strains are resistant to penicillin, ampicillin, carbenicillin, and ticarcillin.
• Most are susceptible to second- and third-generation cephalosporins, aminoglycosides, (carbapenems), chloramphenicol, tetracyclines, trimethoprim/sulfamethoxazole (TMP-SMX), and fluoroquinolones. In the case presented here, the Aeromonas was resistant to carbapenems, ampicillin, and first-generation cephalosporins.
• Higher resistance patterns (to TMP-SMX, tetracycline, and some extended-spectrum cephalosporins) have been found in Taiwan and Spain.
• Therapy with ampicillin or first-generation cephalosporins is not appropriate.

Lessons learned from this case

• Think of wound contamination with any complex laceration injury.
• Culture of the wound is critical before antibiotics are prescribed.
• No complete closure of wound, especially when environmental contamination is known or anticipated, as in this case.
• The patient should be advised to take the antibiotics or report if there are problems, so adjustments may be...