Introduction

Stevens Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN) can be life-threatening. They often occur as a severe adverse reaction to either a medication or, more rarely, an infection. Although systemic interventions may alter the clinical course of these conditions, supportive measures may enhance survival and expedite their resolution. The characteristics of these conditions are reviewed and the available therapies—including systemic agents and supportive management—are summarized.

This article is based on previously conducted studies and does not involve any new studies of human or animal subjects performed by any of the authors.

Discussion

History

SJS was first described in 1922 by A.M. Stevens and F.C. Johnson in a report of two children with eruptive fever, stomatitis, and ophthalmia [1]. The term TEN was first coined by A. Lyell in 1956; he reported four patients presenting with “a toxic eruption which closely resembles scalding in its clinical appearance and in the sensations to which it gives rise in the patient” [2].

Definition

SJS, SJS/TEN overlap, and TEN occur along a spectrum of disease; therefore, this article shall refer to these conditions as SJS/TEN. Skin biopsy is often essential in distinguishing SJS/TEN from clinical mimics. The characteristic pathologic finding is full-thickness epidermal necrosis. The sub-classification of SJS/TEN is based on the extent of epidermal detachment (Table 1) [3].

Table 1 Classification of SJS/TEN spectrum of disease

Clinical Presentation

SJS/TEN may manifest as erythematous or violaceous patches, atypical targetoid lesions, bullae, erosions, and ulcers. The bullae usually show a positive Nikolsky sign: slipping away of the upper layers of the skin from the lower layers when the skin is slightly rubbed. The hallmark feature of SJS/TEN is mucosal involvement (present in 80% of cases), with oral sites more commonly involved than ocular, genital, or anal mucosa [3]. Systemic symptoms, while not uniformly present, may precede skin and mucous membrane findings by 1 to 3 days. Symptoms may include pain of the skin, eyes, or other mucous membranes, headaches, rhinitis, malaise, sore throat, cough, and myalgias.

Disease severity and prognosis can be further delineated utilizing the SCORTEN criteria (Table 2) [4]. The SCORTEN criteria were introduced in 2000 by Bastuji-Garin et al. and identified seven risk factors that demonstrated excellent agreement between expected and actual mortality rates. Interestingly, one study published by some of the authors of the original SCORTEN paper found that the predictive value of the SCORTEN is most accurate when calculated on the 3rd day of hospitalization. Therefore, Guegan et al. suggest that the SCORTEN should be calculated not only on day 1, but also on day 3 of hospitalization [5].

Table 2 SCORTEN scale

Pathogenesis

Our understanding of the multifaceted pathogenesis of SJS/TEN continues to evolve. A combination of drug structure and host genetic factors (such as drug metabolism, immunity, and T cell clonotypes) contribute to the etiology of SJS/TEN. Roujeau et al. first noted in 1987 that specific HLA molecules were responsible for recognition of culprit drugs; they elucidated the association of HLA-B*12 with oxicam-induced and sulfonamide-induced TEN in Europeans [6]. Subsequently, dozens of additional HLA alleles and genetic variants of cytochrome P450 2C have been associated with SJS/TEN in various ethnicities and populations. Examples include HLA-B*58:01 (association with allopurinol-related SJS/TEN); HLA-B*15:08, HLA-B*15:11, HLA-B*15:18 and HLA-A*31:01 (carbamazepine-related SJS/TEN); HLA-B*15:02 (carbamazepine-, lamotrigine-, oxcarbazepine-, and phenytoin-related SJS/TEN); and HLA-B*51:01 (phenobarbital-related SJS/TEN) [7, 8]. Continued discovery and elucidation of these predisposing factors will undoubtedly play an increasing role in predicting and preventing these serious reactions in susceptible patients.

Delayed Hypersensitivity

SJS/TEN, from an immunologic standpoint, appears to behave most like a delayed-type hypersensitivity reaction (DTH) [9]. Drug or drug-peptide complexes are recognized by T-cell receptors. This results in downstream CD8+ cytotoxic T-cell and NK-cell-mediated cytotoxicity and cytokine expression [especially of tumor necrosis factor (TNF)-alpha and interferon (IFN)-gamma]. These effects drive and perpetuate the pathogenesis of SJS/TEN.

Fas Ligand

The role of cytotoxic molecules in SJS/TEN has been an important topic of research. Cytotoxic molecules provide the basis for many posited therapeutic approaches to the disease. Fas-Fas ligand (FasL) interactions were initially thought to be integral to keratinocyte apoptosis [10]. A 2003 study even demonstrated high levels of soluble FasL secretion upon drug stimulation by peripheral blood mononuclear cells obtained from TEN and SJS patients [10].

Perforin and Granzyme B

Additional studies from the early 2000s highlighted the role of perforin and granzyme B expression in the pathogenesis of SJS/TEN. The investigators demonstrate that inhibition of expression of perforin and granzyme B diminished cytotoxicity. They also reported that increased levels of perforin and granzyme B (along with those of TNF-alpha and FasL) correlated with SJS/TEN [11, 12].

Granulysin

Granulysin has been identified as the “key mediator” for keratinocyte death in SJS/TEN [13]. Researchers demonstrated that granulysin, produced and excreted by CD8+ and NK cells, was not only the most highly expressed cytotoxic molecule in blister fluid, but also able to induce skin changes mimicking SJS/TEN when injected into mouse skin. They also reported that depleting granulysin reduced cytotoxicity [13].

Management

Supportive Care

Identification and early withdrawal of the offending medication(s) is the most important action in caring for a patient with SJS/TEN (Table 3) [14,15,16]. Supportive care in a burn intensive care unit is recommended, with a focus on assessment and management of airway, renal function, fluid and electrolyte balance, nutrition, skin and ocular surfaces, pain control, and prevention of infection [14,15,16].

Table 3 A step-wise approach to patients with SJS/TEN

Wound Care

Consensus regarding optimal wound care has not been reached. Some centers utilize surgical debridement and whirlpool therapy [17]. In contrast, others leave detached skin in place to function as a biologic dressing; this has been referred to as “antishear wound care” [17]. The two approaches are a frequent source of disagreement between consulting specialties. However, patients treated with either debridement or antishear wound care demonstrate equivalent rates of survival and reepithelialization [17].

Petrolatum-impregnated gauze and nonadherent nanocrystalline gauze containing silver have not been compared in a controlled fashion. In addition, neither has been compared in a controlled trial with biosynthetic skin substitutes. Certain centers may opt for one product over another based on availability, familiarity with the product(s), and decisions regarding the frequency of dressing changes. For example, nanocrystalline gauze may be left in place much longer than petrolatum-impregnated gauze, thereby reducing the frequency of dressing changes.

Environment

Despite the appearance of SJS/TEN mimicking burns, fluid, electrolyte, and nutrition requirements differ markedly from similarly sized burns. Oxygen consumption and carbon dioxide production for SJS/TEN patients were in the high-normal range compared to metabolic rates nearly twice the normal range in patients with burns of similar size. Energy requirements (in calories) for pediatric SJS/TEN patients is estimated by the following equation: (preinjury weight [kg] × 24.6) + (wound size [% of body surface area] × 4.1) + 940 calories [18, 19].

Fluid and Nutrition

Fluid replacement requirements are about 30% lower than the volumes required for burns affecting similar body surface areas. Fluid replacement with electrolyte solution (0.7 ml/kg/% affected area) and albumin solution (5% human albumin, 1 ml/kg/% affected area) is recommended, titrating to maintain a urine output of 0.5–1 ml/kg/h [20, 21]. Maintaining room temperature of 30–32 °C has been recommended [22].

Consultations

In addition to dermatologic consultation, ophthalmologic consultation is essential. Preventive care, including lubrication, topical antibiotics, topical corticosteroids, lysis of adhesions, and, in severe cases, amniotic membrane transplantation, is effective in reducing ocular sequelae [23,24,25]. In patients with genitourinary involvement, urologic consultation is recommended. Catheterization may result in lower rates of strictures and scarring; however, infection risk should be considered and decisions regarding catheterization should be made on a case-by-case basis [26].

Adjunctive Therapies

Discussion during inpatient rounding regarding adjunctive therapies frequently consumes a disproportionate amount of time when compared to the specifics of supportive care as outlined in Table 3 [14,15,16]. This may occur since the data surrounding this topic are often contradictory. This article attempts to summarize the current literature regarding various adjunctive therapeutic options for SJS/TEN. However, the information in this area is continuously expanding.

Systemic Corticosteroids

Early observational studies suggested that patients treated with corticosteroids had significantly higher rates of infection (including candida sepsis) and overall complications, including higher rates of mortality [27,28,29]. A seemingly contradictory multicenter European study noted a “trend for a beneficial effect of corticosteroids.” However, an updated analysis of the RegiSCAR study and a systematic review of case series utilizing the SCORTEN failed to demonstrate a survival advantage between patients treated with corticosteroids compared to those treated with supportive care only [30,31,32,33].

How can these contradictory observations be explained? It is possible that the early findings of increased mortality in association with corticosteroid use have changed; improved response to therapy may be a result of improved infection control, wound management, and other supportive care measures. However, based on a lack of recent evidence to support their benefit, the authors would advise against the use of corticosteroids as single-agent adjuvant therapy for SJS/TEN.

Intravenous Immunoglobulin (IVIG)

IVIG is one of the most commonly employed and consensus-approved therapies for SJS/TEN. IVIG is frequently the first adjunctive therapy utilized for severe patients seen in the tertiary care setting. However, IVIG data (of both low- and high-dose regimens) are also equivocal.

While some case reports have posited that IVIG treatment improves survival in SJS/TEN, the largest restrospective analysis of IVIG treatment in SJS/TEN concluded that IVIG did not confer a statistically significant mortality benefit compared to SCORTEN-predicted mortality [34]. Furthermore, multiple case series, meta-analyses, and systematic reviews have failed to demonstrate a statistically significant survival advantage in patients treated with IVIG when compared with supportive care alone [35,36,37,38,39,40,41]. In summary, while IVIG is a reasonable approach to treating patients with SJS/TEN, it is reasonable to advise prioritizing and optimizing supportive care measures and considering potential risks particular to each patient prior to initiating IVIG therapy—especially older patients and patients with renal, thrombotic, or cardiovascular disease.

Tumor Necrosis Factor (TNF) Inhibitors

Etanercept and Infliximab

A small number of case reports have described treatment of SJS/TEN with TNF inhibitors, such as infliximab and etanercept, within the last 8 years. The reports suggest that TNF inhibitors may halt progression of skin detachment and induce re-epithelialization. In addition, the agents appear to confer a survival benefit to the patients when compared to SCORTEN-predicted mortality [42,43,44,45].

Thalidomide

The potential therapeutic effect of thalidomide for TEN was evaluated in a single randomized placebo-controlled trial. In contrast to the other TNF-alpha inhibitors demonstrating benefit, thalidomide increased mortality. Therefore, the trial was consequently stopped [46].

Cyclosporine A

Cyclosporine A, dosed at 3–5 mg/kg per day, may slow progression of SJS/TEN. Case reports and case series have noted improved survival of these patients as compared to SCORTEN predictions of SJS/TEN patients. The RegiSCAR cohort is a European registry of patients with severe cutaneous adverse reactions (SCAR) to drugs collated in an effort to study the outcome, prognostic factors, and sequelae of these reactions. Analysis of this cohort also suggested benefit; however, the small number of SJS/TEN patients treated precluded statistical significance [47,48,49,50]. Similarly, a 2017 analysis of a cohort of 44 patients (24 treated with cyclosporine) revealed a statistically insignificant survival benefit compared to supportive care [51].

Combination Therapies

SJS/TEN patients were treated with a combination of IVIG and corticosteroids; however, the supporting data are equivocal [52,53,54,55]. Combination therapy for SJS/TEN has been compared to SCORTEN mortality prediction, IVIG alone, and corticosteroid alone therapy. A statistically insignificant mortality benefit was observed. Hence, these observations highlight the need for further studies [52,53,54,55].

The combination of infliximab and high-dose IVIG was used to successfully treat an elderly patient with TEN. A 74-year-old female received trimethoprim-sulfamethoxazole for a urinary tract infection and developed TEN (SCORTEN 3). She received a bolus of methylprednisolone 500 mg IV followed by infliximab 5 mg/kg IV and intravenous immunoglobulin 2 g/kg over 5 days. Her skin condition stabilized by the 2nd day of hospitalization and was noted to improve rapidly, with successful discharge on day 19 and no sequelae at 9 months [56].

Plasmapheresis

There are a few series and individual case reports, published between 1985–2002, that suggested that plasmapheresis may be beneficial for SJS/TEN. However, there were no statistically significant improvements in mortality, length of stay, or re-epithelialization [57,58,59,60,61,62].

Recent Developments

The state of the art in the management of SJS/TEN continues to evolve based on clinical practices and retrospective evaluation of previously treated patients. A 2016 summary and list of guidelines for management of SJS/TEN was published in the UK; it also confirms that, as yet, there is no active therapeutic regimen with unequivocal benefit [63].

Conclusion

The definitive management of SJS/TEN remains to be established. The importance of supportive care and identification and withdrawal of potential offending drugs is underscored; these are the measures that provide the most proven benefit to SJS/TEN patients. It is incumbent on the consulting subspecialists to make these supportive care recommendations clear as they differ from the protocol employed for burn patients with the same body surface involvement. Unfortunately, the data regarding adjunctive systemic therapy are, thus far, underwhelming. TNF inhibitors (such as etanercept and infliximab) and cyclosporine A are promising potential therapies. It is worth noting that the treatment outcomes for cyclosporine, etanercept, and infliximab have been unidirectional (have only shown benefit) compared with conflicting outcomes described with many of the other adjunctive therapies. From a pathophysiologic standpoint, their use should be efficacious. However, randomized controlled trials have yet to provide definitive evidence of improved outcomes with these agents. Table 3 provides a concise listing of recommendations that can be utilized when caring for patients with SJS/TEN.