Background of Fournier’s Gangrene
Fournier’s gangrene includes any necrotizing soft tissue infections (NSTIs) involving the perineal, perianal, and genital area.1,2 Fournier’s gangrene has an incidence of 1.6 per 100,000 men in the United States, which peaks between the ages of 50 and 79 years (3.3 per 100,000) with the highest rates occurring in the South (1.9 per 100,000).3 In comparison, women have an incidence of 0.25 per 100,000.3 However, the incidence of Fournier’s gangrene is rising, likely due to an increase in the mean age of the population, in addition to increasing numbers of patients on immunosuppressive therapy or suffering from human immunodeficiency virus (HIV) infection.3,4
The overall case fatality rate ranges from 7.5% to upwards of 50%.3,5,6 This is likely due to the fact that many of the published literature tends to be from tertiary referral centers reflecting a more severely ill population.5 Most hospitals (approximately 66% overall) care for no patients with Fournier’s gangrene during a given year, and only 1% of hospitals cared for ≥5 cases per year.5 Primarily an infectious process, Fournier’s gangrene has several predisposing factors, and theoretically, any condition that impairs host immune response or microcirculation may predispose a patient to FG (Table 1).3,7-14
|Alcohol misuse disorder||25-50%|
|Hypertension||Up to 25%|
|Peripheral vascular disease||Up to 25%|
|HIV infection||Up to 16%|
|Tobacco use||Up to 15%|
|Chronic renal failure||Up to 15%|
|Hematologic disorders||Up to 14%|
|Congestive heart failure||Up to 11%|
|Chronic liver disease||Up to 11%|
|Malignancy||Up to 8%|
|Recent surgery||Up to 5%|
|No risk factors||Up to 10%|
Table 1. Risk factors for Fournier’s Gangrene.
Anatomy in Fournier’s Gangrene
Understanding the fascial anatomy of the perineum allows a better understanding of how NSTIs that originate in the urogenital and perianal region spread to involve the abdomen, flank, and chest (Figure 1). As Fournier’s gangrene spreads across the superficial and deep fascial planes of the urogenital and perianal regions, this deep tissue infection leads to local vascular occlusion, ischemia, and tissue necrosis.15 This hypoxia subsequently leads to infarction of surrounding nerves that initially is painful, but eventually causes localized anesthesia.16 The superficial skin is often spared during the initial stages of infection, whereas the necrotizing process spreads along the fascial planes at a rate reaching 2–3 cm/hour, masking the true extent of the disease.17
The infection in Fournier’s gangrene tends to spread along the fascial planes with initial involvement of the superficial (Colles fascia) and deep fascial planes of the genitalia.18 The infection preferentially spreads to the overlying perineum and subcutaneous tissue, sparing the deeper muscle layers which are protected by the fascial planes themselves.19 For instance, the Colles fascia attaches to the pubic ramus, as well as the sphincter urethrae and deep transverse perineal muscles, thereby limiting bacterial spread outside of these areas.15 It is important to note, however, that Colles fascia remains continuous with other surrounding fascial planes, facilitating rapid spread towards the abdomen and thorax (via Scarpa’s fascia), as well as the scrotum (via Buck’s and Dartos fascia). Deeper infection extending below the fascial plane involving myonecrosis is not classically thought to be a feature of Fournier’s gangrene, although it has been described.20
In addition to fascial spread, vascular supply plays an important role in local involvement. For instance, the external and internal pudendal arteries arise from the retroperitoneum and supply the testicles, which accounts for the limited testicular involvement seen in Fournier’s gangrene.2,21 Conversely, the inferior epigastric and circumflex iliac arteries must pierce Camper’s fascia in order to supply the abdominal wall are therefore at an increased risk of thrombosis.19,22 Therefore, involvement of the testicles suggests a retroperitoneal origin or spread of infection, and involvement of the abdominal wall implies involvement of Camper’s fascia.6,23
Etiology of Fournier’s Gangrene
The most common sources of Fournier’s gangrene arise from the gastrointestinal tract (30-50%), genitourinary tract (20-40%), and cutaneous injuries (20%).6 Local trauma is frequently associated with the underlying source of infection.6 Potential sources are provided below (Table 2).7,19,25,2612,13,15,27-29 Special attention must be paid to insect bites, burns, and circumcision as sources of pediatric FG.19,30
| Gastrointestinal (30-50%)|
– Local infections
– Surgical site infections
– Abscesses (perianal, perirectal, and ischiorectal regions)
– Anal fissures
– Colonic perforations
– Anorectal cancers
| Genitourinary (20-40%)|
– Urinary tract infections
– Hydrocele aspiration
– Prostatic biopsies
– Urethral calculi
– Intracavernosal injections or instrumentation
– Acute epididymitis/orchitis
– Penile implants
– Genital piercings
– Indwelling catheters
– Chronic prostatitis
– Bartholin gland or vulvar abscess
– Septic abortion
| Cutaneous (20%)|
– Pressure ulcers
– Superficial soft tissue infections
Table 2. Underlying etiologies of Fournier’s Gangrene.
Microbiology of Fournier’s Gangrene
Characteristic of many NSTIs, Fournier’s gangrene severity is derived from the synergism of multiple bacteria that are not highly aggressive when encountered alone, with up to 80% of cases being polymicrobial in nature.31 Typically, upwards of four organisms are cultured from each Fournier’s gangrene patient.15,32
The organisms most commonly found in Fournier’s gangrene are species that normally exist below the pelvic diaphragm in the perineum and genitalia.6 These include aerobic microorganisms (e.g. Escherichia coli, Klebsiella pneumoniae, and Staphylococcus aureus), as well as anaerobic microorganisms (e.g. Bacteroides fragilis, Clostridium species). 31,33,34 Other species isolated include Vibrio, Streptococcus, Enterococcus, Pseudomonas, Proteus, Klebsiella pneumonia, and Corynebacterium.2 More recently, resistant strains of bacteria, including methicillin-resistant Staphylococcus aureus (MRSA), as well as extended-spectrum beta lactamase resistant E coli have been reported.35 Likewise, fungal sources such as Candida albicans and Zygomycetes have been reported.36-40 Within the subset of patients with monomicrobial Fournier’s gangrene, Group A streptococcus is the most commonly isolated organism.29
History and Physical Exam in Fournier’s Gangrene
Fournier’s gangrene is a clinical diagnosis based on the presence of fluctuance, crepitus, exquisite tenderness, and wounds of the genitalia and perineum.19 Although the diagnosis is straightforward in the classic presentation, failure to examine the older or obtunded patient can result in misdiagnosis. Furthermore, the early symptoms of FG and NSTIs are not characteristic; hence, Fournier’s gangrene is often misdiagnosed as cellulitis or abscess in 75% of cases.41,42
The clinical presentation of Fournier’s gangrene varies widely depending on the extent of infection as well as patient comorbidities. Typically, the infection begins as a localized cellulitis adjacent to the portal of entry, commonly in the perineum or perianal region, with an insidious presentation. Like many NSTIs, the early presenting features are often non-specific and common to other infectious etiologies. In one study of NSTIs, the most common initial chief complaints were swelling (80.8%), pain (79%), and erythema (70.7%).41 Bullae (26%), overlying skin necrosis (24%), and crepitus (20%) were less common upon initial examination, but associated with later stages of necrotizing fasciitis.41
Presence of subcutaneous gas and crepitus are highly specific for clostridial infections.1,43 Fever and tachycardia are present in 40% and 61% of these patients, respectively.12,41,44 The affected area may also appear swollen, dusky, and/or present with a characteristic purulent “dishwater” discharge with associated feculent odor, attributable to the presence of anaerobes.45,46 The presence of hypotension and septic shock is a late and ominous sign, occurring in roughly 21% of patients with NSTIs, associated with high specificity (93.3%).41,47 This has a strong correlation with mortality, and, along with associated multiorgan failure, is the principal cause of death in patients with NSTIs.19,48
The presenting tenderness, erythema, and swelling may mimic less severe infections including erysipelas and cellulitis. However, a key feature of Fournier’s gangrene is pain out of proportion to physical examination and should alert the clinician to the possibility of Fournier’s gangrene. However, this is not always present, as local anesthesia may develop secondary to local nerve ischemia or due to a preexisting neuropathy (e.g. diabetic neuropathy).16 Furthermore, cellulitis and erysipelas often present with well-demarcated areas of inflammation and erythema. In contrast, Fournier’s gangrene may present with areas of poorly demarcated erythema, as well as blisters and bullae during the later stages of infection.2 While cellulitis and erysipelas may present with symptoms of generalized infection, including malaise and fever, Fournier’s gangrene can result in severe systemic toxicity with associated multiorgan failure. Furthermore, as Fournier’s gangrene may spread rapidly along fascial planes, areas of tenderness and erythema may extend as far up as the clavicle.49
The extent of necrosis is an important prognostic factor as some studies have shown that patients with a necrotic area less than 3% of total body surface area rarely die, whereas patients presenting with involvement of 5% total body surface area or more have a worse prognosis.10,23,50,51
Laboratory Investigations in Fournier’s Gangrene
While no single laboratory test has adequate sensitivity and specificity to discern NSTIs from other soft tissue infections, The Laboratory Risk Indicator for Necrotizing Fasciitis (LRINEC) score may suggest the presence of NSTI (Table 3); however, it should not be used to exclude the diagnosis. The original data examined age, gender, serum potassium, platelet count, C-reactive protein (CRP), leukocyte count, hemoglobin, sodium, creatinine, and glucose from 89 consecutive patients with NSTIs compared to 225 control patients.52 Patients were stratified into low-risk (≤5), intermediate-risk (6-7), and high-risk (≥8) categories, corresponding to a probability of <50%, 50%-75%, and >75% for the development of a NSTI, respectively. A score ≥ 6 was found to have 92% positive predictive value and a 96% negative predictive value for presence of a NSTI.52
|WBC (per mm3)||<15|
|Composite Score||Score <6|
Score ≥ 8
Table 3. The Laboratory Risk Indicator for Necrotizing Fasciitis (LRINEC) score.
Criticisms of the LRINEC scoring system include its retrospective development and poor sensitivity among ED patients.53 The score was not explicitly designed to exclude NF in patients with a low-risk score, and subsequent studies externally validating the score have thus far failed to replicate the high sensitivity and negative predictive value reported in the initial paper. The LRINEC score, applied in isolation to ED patients, would miss over 20% of cases of NSTIs, with an associated sensitivity between 68% and 80%.47,53-55 There have also been cases of NSTI with LRINEC scores of 0.56As the LRINEC score has limited sensitivity, it should not be used as the sole determinant of clinical decision-making for the diagnosis of Fournier’s gangrene.
Imaging in Fournier’s Gangrene
The diagnosis of Fournier’s gangrene is primarily clinical, and in many cases, imaging is not necessary, nor is it desirable if it leads to a delay in surgical management.19 Nevertheless, imaging is a useful adjunct in those cases in which the presentation is atypical, or when there is concern regarding the true extent of the disease.
Conventional radiography can be used to detect the presence of soft tissue swelling as well as gas in the perineal fascial planes before crepitus is noted on physical examination (Figure 2).19 Subcutaneous emphysema may extend from the scrotum and perineum to the inguinal regions, anterior abdominal wall, and thighs. Evidence of gas formation is present in nearly half of all patients with FG and is highly specific (94%). However, the absence of gas formation on imaging should not exclude the diagnosis due to poor sensitivity (49%).16,47,57
Point-of-care ultrasound (POCUS) allows for the evaluation of soft tissue inflammation, collections/abscesses, as well as identification of subcutaneous gas.58,59 Characteristic findings include thickened perineal tissue caused by inflammation and edema, as well as a “cobblestone” appearance throughout the subcutaneous tissue. Acoustic shadowing of subcutaneous gas secondary to bacteria may result in a “snow globe” or “dirty shadowing” appearance caused by hyperechoic foci demonstrating reverberation artifacts (Figure 3).60 While POCUS has been shown to be highly specific for NSTIs (up to 93%), it is insufficiently sensitive (approximately 88%) to exclude a diagnosis with such a high morbidity and mortality.61,62
CT imaging plays an important role in the diagnosis of Fournier’s gangrene and to evaluate the extent of the disease to further guide appropriate surgical treatment. Intravenous contrast can further characterize the soft tissue and should be used if possible.64,65 Characteristic findings include asymmetric fascial thickening, fluid collections, abscess formation, fat stranding around involved structures, and evidence of subcutaneous emphysema (Figure 4).60,66,67 CT may uncover the underlying etiology of Fournier’s gangrene, such as a perineal abscess, fistula formation, or any infectious process in the intra-abdominal or retroperitoneal spaces.60,66 It assists in differentiating FG from less severe infections and allows evaluation of both the superficial and deep fascial planes.19CT has the highest sensitivity (88.5%) of any imaging modality, in addition to high specificity (93.3%) for the diagnosis of NSTIs.47
MRI with gadolinium contrast is an excellent imaging modality to characterize soft tissues.68 However, in the ED setting, it is of limited value due to its high cost, extended time of examination, and the fact that it requires a clinically stable patient.2 Although it has been shown to have a high sensitivity (100%) and specificity (86%) to diagnose NSTIs, MRI has a limited role for evaluation of Fournier’s gangrene in the acute care setting (Table 4).2,69
|Modality||Test Characteristics||Findings in Fournier’s Gangrene|
|– Hyperlucencies representing subcutaneous emphysema|
– Soft tissue swelling
|– Thickened, edematous soft tissue with “cobblestoning”|
– Reactive unilateral or bilateral hydroceles
– Acoustic shadowing of subcutaneous gas resulting in a “snow globe” or “dirty shadowing” appearance
|– Asymmetric fascial thickening|
– Underlying etiology (abscess, fistula, etc.)- Fluid collections with possible air/fluid levels
– Subcutaneous emphysema
– Fat stranding
|– Asymmetric fascial thickening|
– Partial or complete absence on post-gadolinium images of signal enhancement of the thickened fas ial planes
– Fluid collections with possible air/fluid levels
– Subcutaneous emphysema
– Fat stranding
Table 4. Imaging modalities in Fournier’s gangrene.
Management of Fournier’s Gangrene
The cornerstones of treatment of Fournier’s gangrene include emergent surgical debridement of all necrotic tissue, broad-spectrum antibiotics, and hemodynamic resuscitation with intravenous fluids as well as vasoactive medications as needed.6,18,19 As the rate of fascial necrosis has been noted as high as 2–3 cm per hour, FG is considered a surgical emergency necessitating early involvement of the appropriate surgical teams, which decreases mortality.17,70,71 However, as up to 21% of patients present with symptoms of hypotension and septic shock, hemodynamic resuscitation and patient optimization prior to surgical intervention are important aspects of acute management.41,47
Broad-spectrum parenteral antibiotic therapy is initiated empirically upon diagnosis of Fournier’s gangrene and then subsequently tailored based on culture results.19 Any initial antibiotic regimen must have a broad range of activity against commonly implicated organisms, most notably staphylococcal and streptococcal species, as well as coliforms, gram-negative bacteria, Clostridium, Bacteroides, and Pseudomonas (Table 5).12Empiric antibiotics for Fournier’s gangrene must cover for MRSA, typically with linezolid or vancomycin, which is combined with a carbapenem or beta-lactam-beta-lactamase inhibitor.72Clindamycin should be added, as it can suppress toxin production and modulate cytokine production, as well as decrease mortality from NSTIs.12,73In those patients with severe penicillin hypersensitivity, clindamycin or metronidazole combined with an aminoglycoside or fluoroquinolone should be administered.72Additionally, many have suggested adding penicillin for treatment of streptococci and, in particular, when Clostridium species are suspected.72 Likewise, the addition of doxycycline should be considered for those patients with significant risk for Vibrio vulnificus and Aeromonas hydrophila involvement, including exposure to marine exposure, and exposure to seafood.72 In Forunier’s gangrene, special consideration should be given to initiating early antifungal therapy with amphotericin B or fluoroconazoles in those patients with a history of fungal infections and immunocompromised patients, as fungal sources are now an emerging cause of NSTIs.74,75
|Carbapenem OR Beta lactam-beta lactamase inhibitor PLUS Clindamycin PLUS Vancomycin, daptomycin, or linezolid|
|In patients with severe hypersensitivity to carbapenems or beta lactam-beta lactamase inhibitors, consider substituting:|
Aminoglycoside OR Fluoroquinolone PLUS Metronidazole
|In patients with salt or freshwater exposure and risk for Vibrio vulnificus or Aeromonas hydrophila involvement, consider adding Doxycycline|
|In patients with significant risk for fungal involvement, consider adding Amphotericin B or Fluoroconazoles|
Table 5. Initial empiric antibiotics for patients with suspected Fournier’s gangrene.
Hemodynamic resuscitation and optimization of the patient’s comorbidities play an integral role in ED management of Fournier’s gangrene. Patients with Fournier’s gangrene may present hypotensive or in septic shock characterized by hypoperfusion, which can result in organ dysfunction. As a result, aggressive fluid resuscitation and hemodynamic support are often required, as evidence of end-organ dysfunction is associated with increased mortality.76 As many patients with Fournier’s gangrene have underlying comorbidities that may exacerbate underlying infectious process, most commonly diabetes mellitus, it is important to treat these underlying comorbidities. While few data exist concerning optimizing patient comorbidities in those with Fournier’s gangrene, a treatment strategy may be extrapolated from current critical care literature. Insulin therapy for glycemic control for a target blood glucose level of 140 to 200 mg/dl has been suggested in critically ill patients, which is reasonable for patients presenting with hyperglycemia.77 These patients may also present with an episode of diabetic ketoacidosis (DKA) secondary to Fournier’s gangrene and should be managed in accordance with current guidelines.78 Likewise, up to 50% of patients with Fournier’s gangrene have an underlying alcohol use disorder and may be suffering from concomitant alcohol withdrawal or delirium tremens. These patients should be treated with adequate supportive care, as well as benzodiazepines administered in a symptom-triggered fashion, guided by the Clinical Institute Withdrawal Assessment of Alcohol scale, revised (CIWA-Ar).79
Prompt surgical consultation is recommended for all patients in whom Fournier’s gangrene is suspected and should not be delayed by laboratory or imaging investigations.19,72 Depending on local practice patterns, as well as individual patient characteristics, this may involve physicians from the general surgery, urology, or obstetrics and gynecology services, or any combination thereof. The most important variable affecting mortality in patients with NSTIs is time to admission and debridement.70 One study suggests that survival decreases from 93.2 to 75.2% with a delay in debridement from 24 to 48 hours.41 Similarly, in another study, the average time from admission to operation was 90 hours in non-survivors versus 25 hours in survivors, making early surgical intervention imperative.80
Hyperbaric Oxygen Therapy (HBOT) is used as an adjunctive therapy for the optimization of infected tissue oxygenation and for its bactericidal and bacteriostatic effects, especially in the post-surgical period.81 However, the lack of randomized controlled studies limits the use of HBOT to patients unresponsive to conventional surgical and intensive care management.82,83 As such, HBOT is not routinely recommended prior to surgical debridement, and consultation with a hyperbarics specialist is typically not a consideration in the acute care setting.
Early surgical consultation and involvement of the critical care team facilitates timely management and coordinated handoff to ensure the best patient care possible, as prolonged boarding in the ED has been associated with increased risk of mortality.42 Level of care is dependent on the patient’s underlying pathophysiology, hemodynamic status, need for invasive monitoring, and underlying comorbidities, but typically these patients will require admission to the intensive care unit. Additional considerations for under-resourced hospitals include transfer to a higher level of care, as up to 66% of hospitals in the United States do not encounter cases of FG, and adequate surgical capabilities may not be present.3 However, the decision to transfer should be made in consultation with the receiving facility’s surgical team, as well as the transferring facility’s surgeon, as interhospital transfer has been associated with increased mortality, although this remains controversial.84,85
Take Home Points
- Fournier’s gangrene is most likely to present in an obese male patient between the ages of 50 and 79 years of age, with one or more risk factors- immunosuppression, alcohol use disorder, or diabetes.
- Fascial anatomy plays an important role in the pathophysiology of Fournier’s gangrene. The Colles fascia remains continuous with other surrounding fascial planes, facilitating rapid spread towards the abdomen and thorax (via Scarpa’s fascia), as well as the scrotum (via Buck’s and Dartos fascia).
- The most common sources of Fournier’s gangrene arise from the gastrointestinal tract (30-50%), genitourinary tract (20-40%), and cutaneous injuries (20%).
- Up to 80% of FG cases are polymicrobial, with an average of four organisms per patient.
- FG is often misdiagnosed as cellulitis or abscess in 75% of cases, and any crepitus, pain out of proportion, or ecchymosis should clue you in to possible FG.
- The Laboratory Risk Indicator for Necrotizing Fasciitis (LRINEC) score may suggest the presence of NSTI, however, it should not be used to exclude the diagnosis of FG.
- CT has the highest sensitivity (88.5%) and specificity (93.3%) of any imaging modality for the diagnosis of Fournier’s gangrene.
- The cornerstones of treatment of FG include emergent surgical debridement of all necrotic tissue, broad-spectrum antibiotics, and hemodynamic resuscitation with intravenous fluids as well as vasoactive medications as needed.
- emDOCs- Necrotizing Fasciitis
- emDOCs- EM@3AM: Necrotizing Fasciitis
- emDOCs- Necrotizing Fasciitis Pearls and Pitfalls
- EM Cases- Best Case Ever 69 Necrotizing Fasciitis
- Life in the Fast Lane- Necrotising Fasciitis
- Taming the SRU- Necrotizing Fasciitis and the Spectrum of Soft Tissue Infections
- MDCalc- LRINEC Score
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