Necrotizing Soft Tissue Infection of the Foot : A Case Report

We report a rapidly spreading necrotizing foot infection in a healthy 37 year old male with associated sepsis and no identifiable portal of entry. Multiple debridements were required to control this infection which eventually necessitated a LisFranc’s amputation. We review the current literature of the diagnosis and treatment of necrotizing soft tissue infections in the foot. Early diagnosis and appropriate treatment can preserve life and limb.

The term "necrotizing fasciitis" was coined by Wilson in 1952. 2 Today, most authors prefer the term "necrotizing soft tissue infection," or NSTI.

Case Report
A 37-year-old white male presented to the Emergency Department complaining of a very painful and swollen right foot.The patient noted that the swelling and pain had been increasing to the lower leg and up to the knee.There had been increasing redness and some clear drainage from the right foot.The patient had been evaluated at an urgent care clinic five days earlier with a complaint of severe pain to the arch.At that time, there was no evidence of an infectious process and the patient was diagnosed with plantar fasciitis.He was given a non-steroidal, anti-inflammatory and a narcotic for pain.The patient denied a history of trauma or laceration to the foot, as well as any illicit drug use.The patient had a negative history of recent respiratory or genitourinary infections, although he had noticeably poor dentition.His past medical history was unremarkable.The patient reported allergy to penicillin.Significant vital signs included a temperature of 38.1 o C/100.6 o F, and tachycardia at a rate of 124.Examination of the right lower extremity revealed non-palpable pedal pulses secondary to edema, although capillary refill was normal.
No lacerations, punctures, or abrasions were observed.There were hemorrhagic blisters on the dorsal and plantar forefoot that exuded no purulence.(Fig 1) Ecchymosis was observed at the medial plantar arch and the lateral sub-fibular region.Radiographs failed to reveal any bony pathology or subcutaneous gas.
Admission laboratory studies were performed.Results included a white blood cell count of 14,700 with 18% bands, hemoglobin and hematocrit of 13.8 and 39.3 respectively, sodium of 131, potassium of 3.3, and blood glucose of 197.C-reactive protein was markedly elevated at 23.6.Blood cultures were drawn and Gram stain revealed Gram positive cocci in chains (later identified as Streptococcus Group A).
The patient was taken to the operating room for incision and drainage, at which time seropurulence was expressed from all major compartments of the foot.(Fig 2) Appearance of the foot after amputation of the fourth toe prior to the fourth surgical debridement.There is continued necrosis of soft tissue and loss of tissue viability to toes 1-3.
Lack of resistance of fascial planes to blunt dissection was noted.Multiple coagulated veins were present in the subcutaneous tissue.No bleeding occurred.
Following hydroscapel debridement and irrigation with pulse lavage, the wound was packed open with Iodoform gauze.The patient was placed on Linezolid, Clindamycin, and Aztreonam.
On hospital day three, it was discovered that the cultures from the foot revealed Group A Streptococcus.The antibiotic spectrum was narrowed to Clindamycin.Over the next six days the patient underwent two subsequent debridements involving the removal of digits 2, 3, and 4 which had become necrotic.(Figs.3,4) Negative pressure wound therapy was employed after the amputations.On hospital day nine, the infection was controlled and no further necrosis was observed.Attention was focused on limb salvage and creation of a functional foot.On day sixteen, the patient underwent a LisFranc disarticulation amputation with primary closure utilizing local tissue transfer.(Figs.5,6) Figure 5 After four surgical debridements with amputation of toes 2, 3, and 4, there is now viable bleeding tissue that is free from infection and necrosis.

Discussion
NSTIs are characterized by bacterial invasion leading to thrombosis and suppuration of the subcutaneous vasculature.The angiothrombosis effectively decreases blood supply, causing liquefactive necrosis of the subcutaneous tissue, fascia, and eventually the musculature.The angiothrombosis renders the delivery of parenteral antibiotic therapy ineffective, necessitating emergent operative debridement of gangrenous fascia, fat, and blood vessels to the extent of healthy, bleeding and viable tissue.Debridement reveals gray necrotic fascia, lack of bleeding during dissection, muscle fascia that gives way to blunt dissection, and foul-smelling "dish-water" purulence. 3The clinical course of NSTI is often not as rapid as would be expected from the media reports of "flesh-eating bacteria."Although fever and tachycardia may begin at 24 hours, the pathognomonic features of skin sloughing, bullae, and cutaneous gangrene do not usually occur until the fourth or fifth day. 4,5,6Our patient demonstrated this course of disease.
The bacteriologic isolates of necrotizing soft tissue infection have evolved since early descriptions.Giuliano and colleagues 7  The exact microbiological etiology of NSTI is a moot point, however, when the patient presents in the fulminant phase of disease.At that most critical period only two types of NSTI must be differentiated: pure clostridial myonecrosis and non-clostridial infection. 11Clostridial infection invades muscle tissue and carries a four-fold risk of mortality and limb loss. 22NTSI are associated with several co-morbidities.The most common factors predisposing patients to NSTI are diabetes mellitus, peripheral vascular disease, obesity, alcohol abuse/hepatic disease, malignancy, immunosuppressant therapy, and intravenous drug abuse. 3,8,10,11Portals of entry for NTSI include sites of pre-existing ulcerations, recent surgical wounds, traumatic wounds, sites of subcutaneous insulin injection or illicit drug injection, and minor abrasions, burns, lacerations, or insect bites. 8,11In urban hospital settings, the incidence of NSTI secondary to intravenous injection of illicit drugs has been increasing in recent years, necessitating the need to question the patient's social history.The physician must be aware of the practice of "skin popping," in which a substance such as heroin is injected directly into the subcutaneous tissues.Infections associated with intravenous drug abuse are caused by skin flora and anaerobic bacteria.Oropharyngeal bacteria such as Streptococcus viridans and Eikenella corrodens can also cause NSTI.This is due to the practice of abusers licking their needles to avoid wasting any drug. 12Rapid differentiation between NSTI and cellulitis or abscess is paramount in reducing morbidity and mortality.The most common presenting signs of NSTI are nonspecific signs of inflammation such as erythema, edema, and pain.Wong, et al, 3 describe a "triad" of exquisite pain (97.8% of patients), swelling (92.1%), and fever (79.8%).In their matched consecutive case series of 21 NSTI cases and 21 non-NSTI controls, Wall and colleagues 13 identified tense edema (38% vs 0%, p=0.003) and bullae (24% vs 0%; p=0.049) as the most specific physical findings.
Present in four-fifths of patients with document NSTI, the three most specific "hard" clinical signs of NSTI are bullae formation, skin necrosis, and crepitance. 11ome patients do not possess any of these signs at presentation.Imaging, such as plain radiography 20 ultrasound, 14,15 CT scans, 16 and MRI 17,18 show nonspecific changes and are often not significant until late in the course of the disease.Near-infrared spectroscopy is a newer, less available modality that can diagnose NSTI in the lower limbs by measuring tissue hypoxia secondary to microvascular thrombosis and necrosis.At a tissue oxygen saturation reading of less than 70%, the test is 100% sensitive and 97% specific for NSTI. 19Henry reported the cumulative mortality of NSTI to be 34%. 8Death can result from disseminated intravascular coagulation, acute respiratory distress syndrome, or multiple organ failure in response to overwhelming sepsis. 20naya, et al, 21 found the most significant predictors of mortality to be white blood cell count greater than 30,000x10 3 /μL and creatinine greater than 2 mg/dL.The single most important determinant of survival and limb preservation in NSTI is the amount of time elapsed between initial presentation and surgical debridement.McHenry reported the average time from admission to operation in non-survivors to be 90 hours, while in survivors the elapsed time was only 25 hours (p = 0.0002). 8In a retrospective review of 68 patients, Bilton, et al, 22 reported 4.2% mortality for patients undergoing early surgical debridement and 38.0% mortality for those with delayed treatment (p=0.0007).
Wong and colleagues 23 developed the Laboratory Risk Indicator for Necrotizing Fasciitis (LRINEC) scoring system for accurately identifying NSTI based on lab values at time of hospital admission (Table 1).This scoring system was derived using univariate and multivariate logistic regression analysis of 89 patients with surgically confirmed NSTI and 225 control patients with cellulitis or subcutaneous abscess.The LRINEC score considers the lab values for C-reactive protein, total white cell count, hemoglobin, sodium, serum creatinine, and glucose.The mainstay of treatment for necrotizing soft tissue infections is rapid surgical debridement followed by appropriate antibiotic therapy after initial resuscitation with fluid and electrolyte replacement and/or blood transfusion.Often multiple debridements are necessary.In the report by Wong, et al, 23 survivors underwent a mean of 2.7 debridements (range, 0-9) to control the infective process.While amputation was not found to reduce mortality, patients who underwent amputation had to undergo fewer operations to control the infection and to achieve wound coverage (2.59 compared with 3.45; p<0.05). 3Before cultures are available, empiric antibiotic therapy that is effective against gram positive, gram negative, and anaerobic bacteria should be initiated early.

© The Foot & Ankle Journal, 2008
In their series, Bosshardt, et al, 12 employed triple antibiotic therapy consisting of ampicillin or high dose penicillin G, an aminoglycoside, and clindamycin or metronidazole.
They suggested the combination of ampicillinsulbactam and high dose penicillin G for drug abusers due to the higher percentage of infections caused by oropharyngeal flora and Clostridial species.
The use of hyperbaric oxygen to treat NSTI may be beneficial.Wilkinson, et al, 24 reported a study of 44 patients with NSTI.Thirty-three patients received HBO 2 in addition to standard care and eleven patients received only standard care.They found a significant reduction in the incidence of amputation (p=0.05) and an 83% reduction in the relative risk of death for the HBO 2 group, which corresponds to a number needed to treat (NNT) of 3.
The diagnosis of necrotizing soft tissue infection can be elusive and requires an astute clinician to recognize it in its early stages.This will help to increase the patient's chance of survival and limb preservation.The clinician must realize that the pathognomonic skin changes do not appear until four or five days after initial presentation of pain, swelling and erythema.Though unconfirmed, we speculate that our case of NTSI was initiated by bacteremia from poor dentition.(Fig 7).
In our case, rapid identification of the NSTI and septicemia contributed to our ability to preserve life and limb, through a foot sparing amputation.The patient underwent a dental consultation immediately following surgery to evaluate necrotizing gingivitis and severe tooth decay.

Figure 1
Figure 1The initial presentation of the foot.There is extensive cyanotic skin changes and bullae formation.

Figure 2
Figure 2 Intra-operative photo of the plantar incision and drainage showing extensive myonecrosis with minimal bleeding.

Figures 3, 4
Figures 3,4Appearance of the foot after amputation of the fourth toe prior to the fourth surgical debridement.There is continued necrosis of soft tissue and loss of tissue viability to toes 1-3.

Figure 6
Figure 6The forefoot was disarticulated at the LisFranc joint and the medial and lateral forefoot skin was used as a fasciocutanous flap to cover the defect.

Figure 7 A
Figure 7 A view of the patient's oropharyngeal cavity exhibiting severe tooth decay and ginigivitis.