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World J Clin Cases. Mar 26, 2019; 7(6): 705-716
Published online Mar 26, 2019. doi: 10.12998/wjcc.v7.i6.705
Liver involvement in the drug reaction, eosinophilia, and systemic symptoms syndrome
Sylvia A Martinez-Cabriales, Neil H Shear, Department of Medicine, Division of Dermatology, Sunnybrook Health Sciences Centre, University of Toronto, Toronto, Ontario M4N 3M5, Canada
Sylvia A Martinez-Cabriales, Internal Medicine Department, Dermatology Division, Hospital Universitario “Dr. José Eleuterio González”, Universidad Autónoma de Nuevo León, Monterrey, Nuevo León 64460, Mexico
Emmanuel I Gonzalez-Moreno, Department of Medicine, Division of Gastroenterology, University of Calgary, Calgary, Alberta T2N 4Z6, Canada
Emmanuel I Gonzalez-Moreno, Internal Medicine Department, Gastroenterology Division, Hospital Universitario “Dr. José Eleuterio González”, Universidad Autónoma de Nuevo León, Monterrey, Nuevo León 64460, Mexico
ORCID number: Sylvia Aide Martinez-Cabriales (0000-0002-0190-5229); Neil H Shear (0000-0001-9151-1145); Emmanuel Irineo Gonzalez-Moreno (0000-0002-0661-6928).
Author contributions: Martinez-Cabriales SA designed research, performed research, analyzed data, wrote the paper, and approved the final manuscript version; Shear NH analyzed data, wrote the paper, and approved the final manuscript version; Gonzalez-Moreno EI designed research, performed research, analyzed data, wrote the paper, and approved the final manuscript version.
Conflict-of-interest statement: The authors have no conflict of interest and no financial support to disclose.
Open-Access: This article is an open-access article which was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/
Corresponding author: Emmanuel I Gonzalez-Moreno, MD, Assistant Professor, Staff Physician, Department of Medicine, Division of Gastroenterology, University of Calgary, Teaching, Research, and Wellness Building, 6D58, 3280 Hospital Drive NW, Calgary, Alberta T2N 4Z6, Canada. emmanuel.gonzalezmor@ucalgary.ca
Telephone: +1-403-5925089
Received: September 5, 2018
Peer-review started: September 6, 2018
First decision: October 11, 2018
Revised: February 5, 2019
Accepted: February 26, 2019
Article in press: February 26, 2019
Published online: March 26, 2019
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Abstract

First described in 1996, the drug reaction, eosinophilia, and systemic symptoms syndrome (DReSS) is considered, along with Stevens-Johnson syndrome and toxic epidermal necrolysis, a severe cutaneous drug reaction. It is characterized by the presence of a maculopapular erythematous skin eruption, fever, lymphadenopathy, influenza-like symptoms, eosinophilia, and visceral involvement such as hepatitis, pneumonitis, myocarditis, pericarditis, nephritis, and colitis. The prognosis of patients with DReSS is related to the severity of visceral involvement. The mortality ranges from approximately 5% to 10%, and death is mainly due to liver failure, which is also the organ most commonly involved in this syndrome. Although it was previously hypothesized in 1994, DReSS syndrome can lead to reactivation of one or more human herpesvirus family members. Now being included as diagnostic criteria in a proposed diagnostic score system, this reactivation can be detected up to 2-3 wk after DReSS syndrome onset. Other causes of mortality in DReSS syndrome include myocardial or pulmonary lesions and hemophagocytosis. We reviewed the literature of previously reported case-series of DReSS and liver involvement, highlighting the pattern of liver damage, the treatment used, and the outcome.

Key Words: Drug reaction, eosinophilia, and systemic symptoms syndrome, Severe cutaneous drug reactions, Drug-induced hypersensitivity syndrome, Drug-induced liver injury, Acute liver failure

Core tip: Drug reaction, eosinophilia, and systemic symptoms syndrome (DReSS) is considered a severe cutaneous drug reaction. It can present with a broad spectrum of clinical manifestations making its diagnosis challenging. Factors associated with a poor prognosis include delayed diagnosis, viral reactivation, the presence of systemic inflammatory response syndrome, and severe organ involvement. Liver injury, presented in more than half of DReSS patients, ranges from mild transaminasemia to acute liver failure and is one of the most common causes of death in these patients. Prompt withdrawal of the culprit agent and a multidisciplinary approach in patients with internal organ affection are of utmost importance.
INTRODUCTION

Adverse drug reactions commonly involve the liver, the main organ in which drug metabolism occurs. It has been estimated that more than 600 medications have been related to significant liver injury[1]. Furthermore, herbal, complementary, and alternative medications, as well as illicit drugs such as anabolic steroids and amphetamines, have also been related to this problem[2,3]. Drug-induced liver injury (DILI) is one type of adverse drug reaction, which was ranked as one of the major causes of acute liver failure[4-6]. It is classified into two main types: intrinsic or idiosyncratic[7]. The former is all the predictable adverse drug reactions that are dose-dependent and manifested shortly after the drug was ingested[8]. In this case, the culprit is direct-chemical damage to the drug or its metabolite[9]. The idiosyncratic drug reaction, which is unpredictable, is characterized by a delayed onset of symptoms once the drug was taken[10]. It is subdivided into two categories: non-allergic and allergic reaction. In the non-allergic, the liver frequently is the only organ involved; however, in the allergic reaction, multisystemic organ involvement may be observed[11,12].

Drug reaction, eosinophilia, and systemic symptoms syndrome (DReSS), also widely known as drug-induced hypersensitivity syndrome (DiHS), corresponds to a hypersensitivity drug reaction[13]. This syndrome was recognized in 1981 when Speilberg and Shear identified drug hepatotoxicity along with fever and a rash, which they called anticonvulsant hypersensitivity syndrome[14]. Several diagnostic criteria have been proposed for DReSS/DiHS, which is characterized by the presence of a maculopapular erythematous skin eruption, fever, lymphadenopathy, eosinophilia, and visceral involvement such as hepatitis, pneumonitis, myocarditis, pericarditis, nephritis, and colitis, and the liver is the most common organ involved[15]. Importantly, DReSS/DiHS might present with acute liver failure, which increases its mortality[16]. In this context, liver failure is usually classified in the group of drug-induced liver injuries[17]. This review focuses on the liver involvement present in DReSS/DiHS reported in the literature in case series.

LITERATURE REVIEW

We reviewed the literature and summarized all reported case-series of DReSS-associated with liver involvement obtained from MEDLINE and EMBASE between January 1990 and July 2018 using the following terms: “DReSS syndrome,” “drug reaction with eosinophilia and systemic symptoms,” “drug rash with eosinophilia and systemic symptoms,” “drug hypersensitivity and eosinophilia,” “drug-induced hypersensitivity syndrome”. The search was limited to the English language. After gathering all articles, we described the number of patients included, those with liver involvement, type of presentation, blood work, drug involved, other associations, treatment received, mortality, and follow-up.

DEFINITIONS

In this review, we will use the acronym DReSS/DiHS instead of DRESS as a recent review highlighted the importance of clarifying that eosinophilia is not mandatory to confirm this syndrome[18]. In 1996, Bocquet et al[19] established three criteria needed for diagnosis of DReSS/DiHS syndrome: skin eruption, eosinophilia (≥ 1.5 × 109/μL), and visceral involvement (transaminase elevation ≥ 2 times upper normal limit, lymphadenopathy > 2 cm in diameter, nephritis, interstitial pneumonia, or carditis). In 2006, Shiohara et al[20] proposed to include as diagnostic criteria the presence of human herpes virus 6 (HHV-6) reactivation, as they documented HHV-6 IgG titers and DNA 2-3 wk after the onset of the rash. The group suggested this virus to be a cause of this hypersensitivity syndrome. Finally, in 2007 the RegiSCAR group developed a new scoring system. Hospital admission as a result of the suspected drug-related reaction and at least three of the following findings: acute skin rash, fever, lymphadenopathy of at least two sites, the involvement of at least one internal organ, lymphocytosis/lymphocytopenia, peripheral eosinophilia, and throm-bocytopenia. According to this scoring system, patients were classified into definite, probable, possible, or no diagnosis of DReSS/DiHS (Table 1)[21].

Table 1 RegiSCAR scoring system for classifying drug reaction, eosinophilia, and systemic symptoms syndrome/drug-induced hypersensitivity syndrome.
Clinical manifestationsSCORE
Range
-1012MinMax
FeverNo/UYes-10
Enlarged lymph nodesNo/UYes01
Eosinophilia
EosinophilsNo/U700-1499/μL≥ 1500/μL02
Eosinophils, if leukocytes < 4000No/U(10%-19.9%)(≥ 20%)02
Atypical lymphocytesNo/UYes01
Skin involvement
Skin rash extent, % BSANo/U> 50%-22
Skin rash suggesting DReSSNoUYes
Biopsy suggesting DReSSNoYes/U
Organ involvement1
LiverNo/UYes02
KidneyNo/UYes02
LungNo/UYes02
Muscle/heartNo/UYes02
PancreasNo/UYes02
Other organ(s)No/UYes02
Resolution ≥ 15 dNo/UYes-10
Evaluation other potential causes: ANA; blood culture; serology for HVA/HVB/HVC/Chlamydia-/ Mycoplasma pneumonia; other serology/PCR.
If none positive and ≥ 3 of above negativeYes01
Total score-49
Final score meaning: < 2: no case; 2-3 possible case; 4-5: probable case; and > 5: definite case
1After exclusion of other explanations: 1 = 1 organ, 2 = ≥ 2 organs. Adapted from Kardaun et al[21]. U: Unknown/unclassifiable; DReSS: Drug reaction, eosinophilia, and systemic symptoms syndrome; ANA: Antinuclear antibody; PCR: Polymerase chain reaction.

With regard of DILI, a previous definition set the following threshold for defining its diagnosis: elevation of AST and/or ALT or bilirubin or alkaline phosphatase > 2 upper limit of normal (ULN)[22,23]. Subsequently, given the adaptation or tolerance that may occur in up to 20% of drugs, the levels of transaminases elevations were modified to > 5 ULN without symptoms, or rise in alkaline phosphatase > 2 ULN, or rise in bilirubin > 2 ULN with any transaminases increasing. Alternatively, AST or ALT < 5 ULN with symptoms also defines DILI[24].

Patients with acute hepatitis and elevated prothrombin time or international normalized ratio levels without mental status changes are frequently labeled as having a severe acute liver injury[25].

EPIDEMIOLOGY

Although liver involvement is the most common visceral manifestation of patients with DReSS/DiHS, it presents mainly as hepatocellular injury, sometimes cholestasis, or both and rarely fulminant hepatitis and death[26]. Asymptomatic transaminasemia may occur in up to 20% of patients on drugs[27]. An estimation of a severe cutaneous drug reaction is about 1 of every 1000 hospitalized patients[28]. The DReSS/DiHS belongs to this category with an estimated incidence of one in 1000 to one in 10000 drug exposures[29,30] and mortality of approximately 5% to 10%[31]. Liver injury is the most common organ damage seen in cases of DReSS/DiHS with rates ranging from 51% to 87%[15,31-34]. Kardaun et al[35] reported that liver injury was the most common internal organ involvement seen in 75% (81/114) of DReSS/DiHS cases, in which 91% of the cases had visceral organ involvement. Shiohara[20] reported liver complications in up to 70% of drug-induced hypersensitivity syndrome patients. Cacoub et al[13] reported liver injury in 94% of DReSS/DiHS patients. One study reported β-lactams antibiotics, allopurinol, non-steroidal anti-inflammatory drugs, and sulfonamide as the most commonly associated drugs with DReSS/DiHS accompanied by liver dysfunction in 23 cases[36]. Another study reported sulfonamides (13/14; 92.9%), followed by antiepileptic drugs (19/22; 86.3%), and allopurinol (15/19; 78%) to have the highest risk of inducing liver injury in DReSS/DiHS [37]. To put DILI in context, Russo et al[38] reported that drug hepatotoxicity was the cause in 15% of liver transplantation as a result of acute liver failure from 2291 transplants in the United States between 1990 and 2002. Even though acetaminophen either as a single treatment or combined with another drug, was the principal drug related in 133/270 (49%) cases, idiosyncratic liver injury leading to 42% of liver transplants, was associated with four drugs: isoniazid, propylthiouracil, phenytoin, and valproate[38].

PATHOGENESIS

The pathogenesis of DReSS/DiHS is multifactorial including genetic polymorphisms and environmental factors. One hypothesis is based on the combination of a drug covalently joined to a protein acting as a hapten, accompanied by a co-stimulatory trigger-virus infection or reactivation, bacterial infection, or inflammatory disorder in a genetically susceptible individual leading to T-cell responses to the antigen, which could be expressed on the hepatocytes surface[39]. Studies have shown the presence of drug-specific cytotoxic T cells in the serum and liver of DILI patients and the skin of DReSS/DiHS patients[40,41]. These cells, which release perforin, granzyme B, and Fas⁄Fas L-dependent cell death, are believed to induce cell death in both organs[40,42].

Another proposed mechanism involves the immune response to reactivation of latent viruses of the herpesvirus family[43,44], which is seen in DReSS/DiHS complicated cases. It is hypothesized that DReSS/DiHS triggers reactivation of latent viral infection, which may produce a viral exanthema of fevers and rash that may overlap with, or be difficult to distinguish from DReSS/DiHS. Tohyama et al[43] compared 100 patients with or without an increase of anti-HHV-6 IgG titers and reported that the flare-up of symptoms such as fever and hepatitis was closely related to HHV-6 reactivation. In Eshki et al[45] retrospective study, only seven patients were examined for an active HHV-6 infection. An active HHV-6 infection was found in six patients, including a patient with fulminant liver failure. Further tests confirmed that HHV-6 infection was a reactivation and not a primary infection. Furthermore, HHV-6 may also cause hepatitis, including fulminant liver failure that is rapidly reversed when antiviral treatment is promptly initiated[46].

Liver damage in patients with DReSS/DiHS could be caused by eosinophilic infiltration driven by interleukin IL-5[47-49]. Hypereosinophilia, if persistent, can be toxic to endothelial cells and contribute to organ damage such as interstitial nephritis, pneumonitis, myositis, eosinophilic carditis, pancreatitis, thyroiditis or encephalitis, and possibly hepatitis[21].

CLINICAL PRESENTATION

The liver may be the first organ involved in a hypersensitivity drug reaction[37]. It could range from a mild increase of liver enzymes to acute fulminant hepatic failure with the cholestatic type as the most common. The cholestatic pattern is characterized by increased serum transaminases and alkaline phosphatase with prolonged jaundice after drug withdrawal. The hepatocellular pattern presents with increased serum transaminases, minimal serum alkaline phosphatase elevation, and variable jaundice. A mixed pattern has combined features of hepatocellular and cholestatic injury (Figure 1). Peyrière et al[15] reported liver involvement in more than 60% of 216 DReSS/DiHS cases with a hepatocellular necrosis more common than the cholestasis. Lin et al[37] reported that atypical lymphocytosis was seen more frequently on DReSS/DiHS cases with liver injury than cases without liver involvement (74.2% vs 30.0%, P = 0.010). One study reported that younger patients most commonly presented with a hepatocellular-type, and that the cholestatic-type was seen more often in older patients (P = 0.044).

Figure 1
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Figure 1 Diagnostic algorithm of drug reaction, eosinophilia, and systemic symptoms syndrome / drug-induced hypersensitivity syndrome case series. ALT: Alanine aminotransaminase; AST: Aspartate aminotransferase; ALP: Alkaline phosphatase; BALP: Broncho-alveolar lavage fluid; BG: Blood gasses; cB: Conjugated bilirubin; cdefects: Conduction defects; CPK: Creatine phosphokinase; CPK-2/MB: Creatine phosphokinase for heart muscle involvement; CPK-3/CPK-MM: Creatine phosphokinase for skeletal muscle involvement; creaCl: Creatinine clearance; CT: Computed tomography; CXR: Chest-x-ray; ECG: Electrocardiogram; ECHO: Echocardiogram; EMG: Electromyography; EM: Endomyocardial; HP: Histopathology; MRI; TB: Total bilirubin; UNL: Upper normal limit. 1The RegiSCAR criteria should be done to potential cases of DReSS for more accurate diagnosis and classification (see Table 1). 2Organ involvement after exclusion of other explanations.

Compared to other severe drug hypersensitivity reactions such as Stevens-Johnson syndrome, a study found a more severe hepatocellular pattern and a moderate to severe cholestatic-type liver injury along with longer liver recovery in DReSS/DiHS cases. They emphasized that the long duration of the liver involvement could last months after the rash resolved[36]. Wang et al[50] reported a hyperbilirubinemia in 12 (31.58%) patients, aspartate aminotransferase (AST) elevation (> 100 IU/L) in 19 (50.50%) patients, and 9 (23.68%) patients developed hepatic failure. Several case reports have reported liver injury before skin eruption. Lin et al[37] noticed this clinical presentation in 9.7% of cases. Lee et al[17] reported that renal dysfunction was more common in patients with liver dysfunction (39% vs 1%, P = 0.001), and patients with liver dysfunction were more likely to have renal dysfunction (96% vs 34%, P = 0.001). Lymphadenopathy was also commonly seen in patients with liver involvement (23% vs 6%, P = 0.005). Mortality was significantly higher in patients with liver dysfunction (11% vs 1%, P = 0.018). Ichai et al[16] described the histological features on the liver from DReSS/DiHS cases. They reported acute hepatitis with cytotoxic phenotype. Eosinophils were found in five of seven cases. Kupffer cell hyperplasia with erythrophagocytosis was observed in six of seven cases. They also reported a diminished factor V level at admission (less than 40%), or a reduction at day 2 was predictive of death or liver transplant (Table 2).

Table 2 Liver involvement reported in drug reaction, eosinophilia, and systemic symptoms syndrome/drug-induced hypersensitivity syndrome case series.
Ref.NLiver, n (%)Presentation, n (%)Blood work,n (%)Drug, n (%)AssociationsTreatmentMortality,n (%)Follow-up,n (%)
Chiou et al[32]30 (M: 15 F: 15)26 (86.6)Jaundice 5 (16.6); Mild LI to FH; Toxic liver 6 (20)Eos (> 1500/ μL) 14 (48); Serology HHV-6: 7/11 (63); CMV, EBV, HSV IgM: all negative; HIV 3Allopurinol 11 (37); CBZ 6 (20)RI 16 (53.3); ATL 13 (45)HC/PDN: 22 (76); TS + Anti-H: 7 (23)3 (10) (acute RF, sepsis, and GA bleeding)DM type 1: 2 patients
Mansur et al[56]131 (M: 15; F: 16)22 (71) 2LI: > 2 fold of UNP to 20 –fold of increase; Hepatitis 16 (51); Hepatomegaly 7 (22.6)ALT: 2–5 fold increase 3 (10.0); ≥ 5 fold increase 4 (13.3); AST: 2–5 fold increase 1 (3.3); ≥ 5 fold increase 4 (13.3); GGT: 2–5 fold increase 6 (20.7); ≥ 5 fold increase 9 (31); Eos (> 350) 18/28 (64.3)CBZ 11 (48); Phenytoin 11(35.4); Lamotrigine 3 (9.6)RI 2 (6.45)MTP: 27; TS + anti-H: 3One TEN patient died of sepsis6 (19.4) developed a blister dermatitis: 3 SJS and 3 TEN. All the hepatitis recovered well
Ben m’rad et al[34]24 (M: 12; F: 12)22 (91.6)Cholangitis or non-lithiasis cholecystitisALT increased in 22 patients; ≥ 5N 13 (54); Eos (> 500 μ/L) 12 (50); Serology/PCR for HHV6, HHV8, CMV, and EBV were negativeAllopurinol 4; SSE 3; SMX-TMP 3RI 4 (17); Heart 5 (21); ATL 14PDN: 11 (45)0No relapses occurred; Sequelae: myocarditis 1; Steroid dependent: 1
Eshki et al[45]15 (M: 5; F: 10)9 (60)HP of FH: massive hepatic necrosis + eosinophilic and lymphocytic inflammatory infiltratesDNA PCR HHV-6: serum 6/7 patients; liver 1/7; CNS: 1/7; HHV-6-IgM and IgG1 patient with FH (reactivation); HIV+ I patientAllopurinol 4; Minocycline 3; Antiepileptics 3FH + HHV-6: 1: Hypertensive encephalitis (HHV-6 DNA CSF): 1 RI: 6Non-AT: 5; SS: 10; + IVIG: 3; LT: 13 (20); MOF + DIC: 114 were admitted to the ICU where 3 died; 1 Flared twice when tapering of SS
Picard et al[57]40 (M: 19 F: 21)39 (99)Eos 32 (80); EBV react 16 (42); HHV-6 react 17 (45); HHV-7 react 12 (32)Anticonvulsants 12 (30); Antibiotics 11 (27)RF 10 (25); FH 2 (5)LT: 13 (7.5); Endocarditis (1) septicemia (1) stroke (1, unrelated to DReSS)17 (42) symptoms were still present at 180 d
Chen et al[31]60 (M: 26, F: 34)48 (80)LI > 2 UNLEos (> 700/μL) 31 (52) EBV and CMV IgG + 9 patients; HHV-6-IgG + 1 patient, but negative PCR (only patient tested)Allopurinol (32); Phenytoin (18); Dapsone (17)RI 24 (40); RF 5 (8); HF 4; ATL (63)SS: 45 (75); + IVIG: 2; Non-AT: 66 (10) (1 MOF; 3 septic shock; 1 cardiogenic shock; 1 shock)Hyperthyroidism
Ang et al[58]27 (M: 12 F: 15)26 (96.3)Liver enzymes > 10 UNL: 13 (48); Eos 22 (%); Serology was not donePhenytoin 5; CBZ 4RI 4 (15); RF 2SS: 25 (93); TS: 2 (7); LT: 008 (32) flared while SS tapering; 17 completed SS treatment (7 to 160 d, mean of 50); Sequelae: RI 3; AT 1, and myocarditis 1
Um et al[47]38 (M: 18, F: 20)38 (100)ALT (mean 383.39 IU/L, range 26-3633); AST (mean 382.73 IU/L, range 28-2360); Eos (> 500/μL) 35 (91); Serology negative to CMV, EBV, or HSVAnticonvulsants 18 (47); Antibiotics 7 (18); NSAIDs 5 (13)RI 6 (16); ATL 18 (47)TS + anti-H: 22 (58); SS: 16 (42)1 (3) LF + opportunistic infection36 (95) recovered completely; 1 (2.6) LI was lost at FU
Wongkitisophon et al[59]27 (M: 14; F: 13)26 (96.3)LI > 2 UNL; Hepatomegaly (7.4)ALT mean 188 IU/L (r 132–1708); AST 132 IU/L (r 89–857); TB 9 (33.3) mean 32.7 μmol/L (r 18.9–244.2 μmol/L); Eos (> 700/μL) 19 (70)Phenytoin 9 (33) Allopurinol 4 (15) Nevirapine 4 (15)RI 2 (7); ATL (19)Non-AT: 4; SS (DMT/PDNL): 23 (85.2)1 (4) died from MOF5 (19) relapse of DReSS during tapering of SS; 21 (77.8) recovered well; Sequelae: 5 (19) that recovered within 6 mo
Kardaun et al[35]117 (M: 52; F 65)86/114 (75)Transiently disturbed; liver function tests; Hepatomegaly and coagulopathyEos (≥ 1500 μL-1) 92 (81); (700–1499 μL-1) 16 (14); HIV 1; HHV-6 react 21/58 (36)Anticonvulsants 41 (35); Allopurinol 21 (18); Sulfonamide 14 (12)RI 40/108 (37); ATL 68/102 (67); SJS, TEN or AGEP features were seen in 8 patientsNA2 (2)1 overlap with SJS/TEN; and 1 overlap with AGEP
Walsh et al[51]27 (M: 10; F: 17)27 (100); TRC of HPBLI before rash 4 (14.8); Significant LI: 20; Mild LI: 7; Cholestatic pattern was associated with interface dermatitis (P = 0.036)AST mean 970 IU/L, median 250 (31-5183); GGT mean 522 IU/L, median 379 (9-1903); ALP mean 295 IU/L, median 266 (57-819); Eos (> 0.4 × 109/ L) 25 (93)Anticonvulsants 12; Antimicrobials 10; Anti-rheumatics 5RI 2 (7); Pericarditis (1 patient); GA (1 patient) MOD 3 patientsLT: 23 (11) All had severe liver injured. Two after failed LT18 patients completed FU and normalized liver function
Lee et al[36]23 (M: 12; F: 11)23 (100)Significant LI 23 (100)ALT 186 IU/L (114.0-458.0); AST 207 IU/L (90.0-766.0); ALP 147 IU/L (116.0-338.0); TB 1.1 (0.8-13.3); Eos 17 (74)Beta-lactams 7 (54); Allopurinol 3 (13); Sulfonamide 2 (15)RI 13 (56); If LI higher risk of RI (P < 0.001); and of LN (P = 0.005)LT: (2 patients; 1 died); IVIG: 1 (4); PDNL4 (17.39)Duration of the disease in survivors on steroids: 25.3 ± 14.8 d
Uhara et al[60]12 (M: 4; F: 8)11 (92)Peak of LI appeared 7 d after the rash (range 3-22); ALT mean 176 (range 91- 311)Eos (>1.5 × 109 ⁄ L) 4; HHV-6-IgG 12 (100)CBZ 6; Salazosulfapyridine 4ATL 8 (66)Non-AT on the first weeks of examination Hydration: 7; TS: 5 PDN: 1 patient had RA; DMT (single dose): 10All patients recovered; 7 to 37 d (median, 18) after withdrawal of the drug
Sultan et al[61]17 (M: 8 F: 9)17 (100)LI defined as ALT > 100 IU/L; Hyperbilirubinemia 11 (64.7); Hepatomegaly 5 (29.4)ALT (> 100 IU/L) 17 (100); AST (> 100 IU/L) 7 (41); HF 1 (5.9); Eos (> 1.5 9 109 cells/ ) 15 (88.2)Anti-convulsivants (65); Phenytoin 6 (35.3); Phenobarbitone 2 (12)RI 11 (64.7); RF 1 (5.9) requiring dialysis; ATL 2 (11.7)SS (DMT switched to PDNL): 17 (100)1 (6) died of HF13 (76.5) recovered without complication 1 (5.9) DReSS recurrence after withdrawal of steroids
Avancini et al[62]27 (M: 17; F: 10)23 (85.1)LI defined as liver enzyme level > 3 UNLALT 569 ± 911.5 U/L (mean ± SD; 46–4347 U/L); AST 474 ± 743 U/L (mean ± SD; 38–2662 U/L); Eos 26 (96); HCV + 1 patientPhenytoin 12 (44); CBZ 8 (30)ATL 17 (62.9); Associated to and higher ALT (r = 0.62; P < 0.001)PDN: 27 (100); LT: (1 patient)1 (4) due to HF1 AT
Funck-Brentano et al[33]38 (M: 19; F: 19)29 (76)Cytolysis 27 (71). Duration of 47 d (12-120); Cholestasis 26 (68); No HF was observedEos (> 7-1.5) 8 (21); (>1.5 × 109/L) 26 (68); PCR HHV-6 11/28 (39); EBV 3/28 (11); CMV 2/29 (7)Allopurinol 13 (34); CBZ 4 (11); Sulfonamide 4 (11)RI 21 (55); ORF 16 (42); FRF 8 (21); ATL 21 (55)SS (MTP/PDN): 13 (34); TS: 25 (66)1 (3); Hypovolemic shock few weeks post-dischargedTreatment duration 40 d (15-360); Relapses 15 (39)
Lin et al[37]72 (M: 34; F: 38)62 (86.1)LI before rash 6 (9.7); Pattern: Cholestasis 23 (37.1); Mixed 17 (27.) Hepatocellular 12 (19.4); Unknown 10 (16.1)Eos (> 700/ml) 49 (58.3); ALT values as high as 3806 U/L or ALP values of up to 2616 U/LAnticonvulsants (30.6); Phenytoin 13 (18); Allopurinol; 19 (26.4)3; Sulfonamides 14 (19.4)ATL (79.2): related to LI (P = 0.010) and with fever (P = 0.026).PDNL + IVIG: 1; NAC: 0022 (35.5) recovered in 30 d; 40 (64.5) recovered after
Lee et al[63]25 (M: 11; F: 14)20 (80)LI if liver enzymes > 2 UNLBT increased 6 (24); Eos (> 0.7 × 109/L), 20 (80), 7 of them had (> 1.5 9 109/L). PCR HHV-6 tested in 1 patient: negativeCBZ (28); Allopurinol (16); Anti-tuberculosis drugs (12)RI 7 (28); ATL 12 (48); Pulmonary involvement 5 (20)SS (MTP or PDN): 13 (52); + IVIG: 2 (8); TS + anti-H: 12 (48)3 (12); 1 Septic shock + LI; 1 septic shock + LI +RF; 1 septic shock + LI+ RI + PneumoniaThe remaining patients had fully recovered. No significant cutaneous sequelae
Wang et al[64]104 (M: 38; F: 66)94 (90.4)Jaundice 5 patientsEos 72 (69.2): (0.7 × 109/L-1.499 × 109/L) 37 (35.6); (≥ 1.5 × 109/L) 35 (33.7); HIV 1 (1); Serology for HVA/HBV/HCV 18 (17.3)Antibiotics 37 (35.6); CBZ 7 (6.7); TCMs 14 (13.5)RI 9 (8.7) ATL 26 (25); MOD 19 patientsPDN: 58 (58) + IVIG: 1 patient; + Cy: 1 patient; Anti-H: 45 (43); IVIG: 1 patient1 (< 1) had progression of his previously renal disease + Acinetobacter baumannii103 were successfully discharged
Ichai et al[16]16 (M: 5 F: 11)(100) TTCENC: 7 (43.75) Admission 3 (Grade I: 1; III: 2); After admission 4 Liver necrosis (10%-90% of parenchymal surface) 7: panlobular 1; central; 3; periportal 1; spotty 2. Kupffer cell hyperplasia: 6; and ErythrophagocytosisALT 1693 IU/L (1252-2256); PCR HHV6 5/6 (83); HIV+ 4 (25)Allopurinol 2; CBZ 2 Anti-tuberculosis drugs 3RI 5 (31.2)NAC: 16 (100); PDNL: 9 (56); LT: 5 (31.2)4 (25): 2 MOF; 1 LR 4 yr after LT; 1 systemic fungal infection + HF 4 d after LTLT survival: 60%; DReSS recurrence 75 ± 91 d after LT in 3/5 patients. LR was rule out. DReSS recurrence in 1 patient 2 months after spontaneously recovery
Wu et al[65]52 (M: 34; F: 18)43 (83)LI if ALT >2 UNLEos (> 700/μL) 42 (81); DNA HHV-6 17 (33); DNA EBV 10 (19)Allopurinol 18 (35); SSP 11 (21); CBZ 5 (10)RI 2 (4)MTP: 52 (100); + IVIG: 32 (62)3 (6) MOF + sepsis within 3 months post-discharge.3 (6) AT
1Case series with Anticonvulsant hypersensitivity syndrome.
2Authors reported that DReSS induced by phenytoin appeared sooner after the drug intake compared to carbamazepine (P = 0.01).
3Allopurinol was related to cholestatic pattern. Hepatocellular-type pattern was seen in younger people while the cholestatic-type was seen in elderly (P = 0.044). Patients treated with SS had more ATL and Eos than those treated with TS (P < 0.05), but no differences in liver involvement. AGEP: Acute generalized exanthematous pustulosis; Anti-H: Antihistamines; AHA: Autoimmune hemolytic anemia; AT: Autoimmune thyroid; ATL: Atypical lymphocytosis; BT: Bilirubin total; CBZ: Carbamazepine; CMV: Cytomegalovirus; CNS: Central nervous system; CSF: Cerebrospinal fluid; Cy: Cyclosporine; DIC: Disseminated intravascular coagulation; GA: Gastrointestinal; ICU: Intensive care unit; DMT: Dexamethasone; EBV: Epstein Barr virus; Eos: Eosinophilia; ENC: Encephalopathy; FH: Fulminant hepatitis; FU: Follow-up; HC: Hydrocortisone; HSV: Herpes simplex virus; HHV-6: Herpes virus type 6; HPB: Hepatobiliary disease; LN: Lymphadenopathies; LT: Liver transplant; LR: Liver rejection; MOD: Multi-organ damage; MOF: Multi-organ failure; MTP: Methylprednisolone; NA: Not-available; NAC: N-acetylcysteine; Non-AT: Non-active treatment; NSAIDs: Non-steroidal anti-inflammatory drugs; PCR: Polymerase chain reaction; PDN: Prednisone; PDNL: Prednisolone; RI: Renal injury; RF: Renal failure (ORF: Organic RF; FRF: Functional RF); SJS: Stevens–Johnson syndrome; SMX-TMP: Sulfamethoxazole-trimethoprim; SS: Systemic steroids; SSE: Sulfasalazine; SSP: Salazosulphapyridine; TEN: Toxic epidermal necrolysis; TMCs: Traditional Chinese Medicines; TRC: Tertiary Referral Center; TS: Topical steroids; TTC: Tertiary Transplant Center.
SKIN BIOPSY

Lin et al[37] did not find any difference in the eosinophils in the dermis between patients with or without liver injury (64.5% vs 60%, P = 1). On the other hand, they reported that eosinophils in the dermis were present more frequently in patients with non-severe hypersensitivity hepatitis (88.9% vs 30.8%, P = 0.002), concluding that the extreme group cases might be more related to the immunoallergic attack to the hepatocytes[37]. Walsh et al[51] reported that patients with clinical presentation of erythema multiforme-like were associated with higher elevations of AST (P = 0.01), concluding these patients have worse liver involvement[51].

TREATMENT

Although further studies are needed to evaluate the role of systemic corticosteroids in drug-induced systemic hypersensitivity and liver injury, it seems this therapy has a role in the treatment with DReSS/DiHS and liver involvement. A favorable outcome has been reported when fulminant hepatitis associated with DReSS/DiHS was treated with intensive corticosteroid therapy (methylprednisolone 1 g/d) for 3 d (3750 mg prednisone within 30 d)[52]. On the other hand, the study by Lee et al[36] demonstrated that in patients with DReSS/DiHS associated with liver injury, the use of systemic corticosteroids did not confer additional benefits regarding disease duration and recovery of liver function.

MORTALITY

Concerning DReSS/DiHS, acute-stage mortality ranges from 5% to 10% and is mainly attributed to specific liver injury, myocardial or pulmonary lesions, and hemo-phagocytosis[19,26]. Fifteen percent of liver transplantation cases in the United States are caused by DILI[38]. The mortality of 10% in those patients with a combination of hepatocellular injury and jaundice, first described by Zimmerman, has been confirmed in several studies[53-55]. In their case-series Ichai et al[16] reported that 43.7% of patients (7/16) with DReSS/DiHS related acute liver injury/acute liver failure underwent transplantation (n = 5) or died (n = 2).

CONCLUSION

Although rare, DReSS/DiHS is considered a severe cutaneous drug reaction, which could potentially lead to death, especially in patients with delayed diagnosis, viral reactivation, the presence of systemic inflammatory response syndrome, and severe organ involvement. A better understanding of its pathophysiology is required to elucidate risk factors for severe visceral involvement, as it is demonstrated to be the main cause of mortality. Patients with ongoing deterioration of liver function must be tested for reactivation of latent viruses of the herpesvirus family. Furthermore, a multidisciplinary approach in patients with severe internal organ affection is of utmost importance.

Footnotes

Manuscript source: Invited manuscript

Specialty type: Medicine, Research and Experimental

Country of origin: Canada

Peer-review report classification

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P-Reviewer: Ahmed OM, Carter WG, Tanaka N, Lin J S-Editor: Dou Y L-Editor: Filipodia E-Editor: Wu YXJ

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