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Acute generalized exanthematous pustulosis

October 30, 2023

Acute generalized exanthematous pustulosis (AGEP) (also known as pustular drug eruption and toxic pustuloderma) is a rare skin reaction that in 90% of cases is related to medication.

Acute generalized exanthematous pustulosis
Other namesToxic pustuloderma, pustular drug eruption
Acute generalized exanthematous pustulosis
SpecialtyDermatology

AGEP is characterized by sudden skin eruptions that appear on average five days after a medication is started. These eruptions are pustules, i.e. small red white or red elevations of the skin that contain cloudy or purulent material (pus).[1] The skin lesions usually resolve within 1–3 days of stopping the offending medication.[2] However, more severe cases are associated with a more persistent disorder that may be complicated by secondary skin infections and/or involvement of the liver, lung, and/or kidney.[3]

Severe cutaneous adverse reaction (SCAR) disorders are regarded as the drug-induced activation of T cells which then initiate innate immune responses that are inappropriately directed against self tissues. Studies on the DRESS syndrome, Stevens–Johnson syndrome (SJS), toxic epidermal necrolysis (TEN) and SJS/TEN overlap indicate that many individuals are predisposed to develop these reactions to a particular medication based on their genetically determined expression of particular human leukocyte antigen (i.e. HLA) alleles or T-cell receptors and/or their efficiencies in adsorbing, distributing to tissues, metabolizing, and/or eliminating) a particular SCARS-inducing medication. Evidence for these predispositions in AGEP has not been as well-established.[2][4][5]

Signs and symptoms edit

AGEP is an acute drug eruption characterized by numerous small, primarily non-follicular, sterile skin pustules arising within large areas of red swollen skin usually within days of taking an inciting drug.[6] The skin eruptions are often pruritic and accompanied by fever, headache, a high number of neutrophils and eosinophils in the blood, and elevated blood levels of markers for inflammation (i.e. erythrocyte sedimentation rate and C-reactive protein). The skin eruptions typically end within a week after causative drug is discontinued.[3]

Rare cases of lung and bone marrow involvement have also been reported to complicate AGEP.[3][7] However, involvement of these organs typically resolve along with the skin eruptions. AGEP typically shows a mild course: usually, it is not associated with life-threatening complicates although superinfections of skin lesions may be serious or even life-threatening. AGEP has a mortality rate of less than 5%.[2][7][8]

Cause edit

About 90% of AGEP reactions are associated with medications. The remaining cases of AGEP have been associated with infective and other agents.[7]

Medicines edit

The most frequently reported drugs that have been associated with the development of AGEP include penicillin, aminopenicillins, macrolides, quinolones, sulfonamides, hydroxychloroquine, terbinafine, and diltiazem.[7] A more complete list of drugs sorted by their intended actions are:[3][7][9][10][11]

Microbe infections edit

Infections with Parvovirus B19, mycoplasma, cytomegalovirus, coxsackie B4 virus, Epstein-Barr virus (EBV),[13][14] Chlamydophila pneumoniae, E. coli, and Echinococcus have been reported to be associated with the development of AGEP in the absence of an apparent drug-induced cause. The pathophysiology for the development of these drug-independent cases of AGEP is unclear.[7] Viral infections have also been observed to be associated with the development of SJS, SJS/TEN, and TEN in the absence of a causative drug.[7][10][15]

Other agents edit

Herbal medications, spider bites, iopamidol (used for radiocontrast), lacquers, mercury, psoralen (combined with ultraviolet A to treat psoriasis), and xenobiotics have been associated with the development of AGEP in case reports.[11]

Pathophysiology edit

Main article: Severe cutaneous adverse reactions § Pathophysiology

Like other drug-induced SCARs disorders, AGEP is a type IV hypersensitivity reaction in which a drug or its metabolite stimulates cytotoxic T cells (i.e. CD8+ T cells) or T helper cells (i.e. CD4+ T cells) to initiate autoimmune reactions that attack self tissues. SCARs are type IV, subtype IVb (DRESS syndrome), type IV, subtype IVc (SJS, SJS/TEN, TEN), or type IV, subtype IVd (AGEP) hypersensitivity reactions. AGEP therefore differs from the other SCARs disorders in that it involves the tissue-injuring action of inappropriately activated neutrophils and the excessive production of cytokines which stimulate production of, recruit to tissues, and/or activation of neutrophils (Interleukin 8, Interleukin 17, GM-CSF) and promote innate immune and autoimmune responses (Interleukin 22).[2][7][8]

AGEP also differs from the other SCARs disorders in respect to the level of evidence supporting the underlying mechanism by which a drug or its metabolite stimulates CD8+ T or CD4+ T cells. Studies indicate that the mechanism by which a drug or its metabolites accomplishes this stimulation involves subverting the antigen presentation pathways of the innate immune system. A drug or metabolite covalently binds with a host protein to form a non-self, drug-related epitope. An antigen-presenting cell (APC) takes up these proteins; digests them into small peptides; places the peptides in a groove on the human leukocyte antigen (i.e. HLA) component of their major histocompatibility complex (i.e. MHC) (APC); and presents the MHC-associated peptides to the T-cell receptor on CD8+ T or CD4+ T cells. Those peptides expressing a drug-related, non-self epitope on their HLA-A, HLA-B, HLA-C, HLA-DM, HLA-DO, HLA-DP, HLA-DQ, or HLA-DR proteins may bind to a T-cell receptor to stimulate the receptor-bearing parent T cell to attack self tissues. Alternatively, a drug or metabolite may also stimulate T cells by inserting into the groove on a HLA protein to serve as a non-self epitope, bind outside of this groove to alter a HLA protein so that it forms a non-self epitope, or bypass the APC by binding directly to a T cell receptor. However, non-self epitopes must bind to specific HLA serotypes to stimulate T cells and the human population expresses some 13,000 different HLA serotypes while an individual expresses only a fraction of them. Since a SCARs-inducing drug or metabolite interacts with only one or a few HLA serotypes, their ability to induce SCARs is limited to those individuals who express HLA serotypes targeted by the drug or metabolite.[5][8] Thus, only rare individuals are predisposed to develop SCARs in response to a particular drug on the basis of their expression of HLA serotypes.[16] Studies have identified several HLA serotypes associated with development of DRESS syndrome, SJS, SJS/TEN, and TEN in response to various drugs which elici these disorders, developed tests to identify individuals who express these serotypes, and thereby determined that these individuals should avoid the offending drug. HLA serotypes associated with AGEP and specific drugs have not been identified.[5] A study conducted in 1995 identified of HLA-B51, HLA-DR11, and HLA-DQ3 of unknown serotypes to be associated with development of AGEP but the results have not been confirmed, expanded to identify the serotypes involved, nor therefore useful in identifying individuals predisposed to develop AGEP in response to any drug.[2] Similarly, a specific T cell receptor variant has been associated with the development of DRESS syndrome, SJS, SJS/TEN, and TEN but not AGEP.[2][17]

Variations in ADME, i.e. an individual's efficiency in absorbing, distributing, metabolizing, and excreting a drug) has been found to occur in cases of the DRESS syndrome, SJS, SJS/TEN, and TEN. These variations influence the levels and duration of a drug or drug metabolite in tissues and thereby impact the drug's or drug metabolite's ability to evoke SCARs.[18]

In rare cases, the development of AGEP has been reported to occur in individuals with loss of function mutations in their IL36RN gene. This gene codes for the interleukin 36 receptor antagonist (IL36RA). IL36RA blocks the pro-inflammatory actions of Interleukin-36 cytokines (viz., IL-36α, IL-36β and IL-36γ) on keratinocytes, synoviocytes, dendritic cells, macrophages, and T cells. It does so by binding to, but not stimulating, these cytokines' receptors, IL1RL2 and IL1RAP, thereby interfering with the interleukin-36 cytokines' binding to and stimulating IL1RL2 and IL1RAP. However, the IL36RN loss of function mutation has been reported in cases of generalized pustular psoriasis.[3][19] The presence of this mutation in two seemingly unrelated disorders has led to suggestions that the classification of AGEP as a SCARs or a form of psoriasis requires study.[19]

Diagnosis edit

The diagnosis of AGEP may be forthright in typical cases in which an individual: has taken a drug known to cause the disorder; develops multiple sterile pustules overlying large areas of red swollen skin starting a few days after initial drug intake; and has a histology of biopsied lesions that shows pustules just below the skin's Stratum corneum (outermost layer), apoptotic (i.e. necrotic) keratinocytes, spongiosis of the stratum spinosum, and infiltration of these tissues by neutrophils plus, in many but not all cases, eosinophils.[7] Many cases of AGEP, however, present less clear cut clinical features of the disorder. AGEP must be differentiated from generalized pustular psoriasis (GPP) with which it shares many clinical and histological features. A history of psoriasis, the presence of typical psoriatic skin lesions at the time of diagnosis, and histological evidence in skin lesions of necrotic keratinocytes, neutrophil-rich infiltrates, eosinophil infiltrates, and/or lack of tortuous or dilated blood vessels favors a diagnosis of to AGEP.[20] Other conditions sometimes confused with AGEP include pustular eruptions caused by bacteria, funguses, herpesviridae, and the varicella zoster virus (i.e. causative agent of chicken pox).

Several tests have been proposed to be useful for supporting the diagnosis of and/or implicating a particular drug as the cause of AGEP particularly in individuals who develop skin lesions while taking multiple drugs. These include patch tests in which small amounts of suspect drugs absorbed on patches are applied to the skin; skin allergy tests in which drugs are applied by skin prick or intradermal injection; and oral provocation in which drugs are taken in a single small dose orally. These tests have not been widely adopted because of their insensitivity and, most particular with oral provocation tests, the possibility of causing a relapse or worsening or the disorder. In vitro tests, including mixed lymphocyte reaction tests in which the response of individuals' blood mononuclear cells to suspect drugs and ELISPOT tests in which specific drug-reactive lymphocytes or their drug-induced release of AGEP mediators (e.g. interferon-γ interleukin 4, or granulysin) are measured have likewise not been broadly adopted because of their lack of specificity.[8]

Classification edit

The disorder is classified in the group of severe cutaneous adverse reactions (i.e. SCARs). The SCARs group of disorders includes four other drug-induced skin reactions: drug reaction with eosinophilia and systemic symptoms (DRESS syndrome), Stevens–Johnson syndrome (SJS), toxic epidermal necrolysis (TEN), and Stevens–Johnson/toxic epidermal necrolysis overlap syndrome (SJS/TEN). SJS, SJS/TEN, and TEN, while initially described as distinct adverse drug-induced cutaneous reactions are now regarded as manifestations of epidermal necrolysis differing only in extent of skin involvement. While all of five SCARs disorders are potentially lethal, AGEP has the lowest mortality of the group.[2][7]

Treatment edit

The treatment of AGEP begins with the immediate cessation of the offending drug. For individuals developing AGEP while taking multiple drugs, non-essential drugs should be discontinued and essential drugs should be replaced by chemically unrelated drugs that are used as alternatives to the discontinued drug(s). In cases of multiple drug intake, skin and/or in vitro testing may be of some use in identifying the offending drug. Beyond identifying and discontinuing the offending drug, individuals with mild symptoms may require no further treatment. Those troubled by more significant symptoms such as itching or fever may require antihistamines, topical corticosteroids, systemic corticosteroids, and/or antipyretics. Individuals with liver, lung, kidney, and/or severe skin complications may require high dosage systemic corticosteroids and organ-specific interventions. Skin infections, which may lead to sepsis, are potentially lethal complications of AGEP; preventative methods and rapid treatment of such infections with appropriate antibiotics and, where needed, further supportive measures are critical in the treatment of this complication. Overall, however, AGEP has a lethality of less than 5% with recent reports showing no fatalities. Typically, individuals with AGEP have rapid rates of recovery even in when experiencing the cited complications.[3][8][9][21]

See also edit

References edit

  1. ^ James, William; Berger, Timothy; Elston, Dirk (2005). Andrews' Diseases of the Skin: Clinical Dermatology. (10th ed.). Saunders. ISBN 0-7216-2921-0.: 124 
  2. ^ a b c d e f g Hoetzenecker W, Nägeli M, Mehra ET, Jensen AN, Saulite I, Schmid-Grendelmeier P, Guenova E, Cozzio A, French LE (2016). "Adverse cutaneous drug eruptions: current understanding". Seminars in Immunopathology. 38 (1): 75–86. doi:10.1007/s00281-015-0540-2. PMID 26553194. S2CID 333724.
  3. ^ a b c d e f Alniemi DT, Wetter DA, Bridges AG, El-Azhary RA, Davis MD, Camilleri MJ, McEvoy MT (2017). "Acute generalized exanthematous pustulosis: clinical characteristics, etiologic associations, treatments, and outcomes in a series of 28 patients at Mayo Clinic, 1996-2013". International Journal of Dermatology. 56 (4): 405–414. doi:10.1111/ijd.13434. PMID 28084022. S2CID 21325754.
  4. ^ Halevy S (August 2009). "Acute generalized exanthematous pustulosis". Curr Opin Allergy Clin Immunol. 9 (4): 322–8. doi:10.1097/ACI.0b013e32832cf64e. PMID 19458527. S2CID 205434868.
  5. ^ a b c Garon SL, Pavlos RK, White KD, Brown NJ, Stone CA, Phillips EJ (2017). "Pharmacogenomics of off-target adverse drug reactions". British Journal of Clinical Pharmacology. 83 (9): 1896–1911. doi:10.1111/bcp.13294. PMC 5555876. PMID 28345177.
  6. ^ Rapini, Ronald P.; Bolognia, Jean L.; Jorizzo, Joseph L. (2007). Dermatology: 2-Volume Set. St. Louis: Mosby. pp. 297, 303, 308, 309, 470. ISBN 978-1-4160-2999-1.
  7. ^ a b c d e f g h i j Feldmeyer L, Heidemeyer K, Yawalkar N (July 2016). "Acute Generalized Exanthematous Pustulosis: Pathogenesis, Genetic Background, Clinical Variants and Therapy". International Journal of Molecular Sciences. 17 (8): 1214. doi:10.3390/ijms17081214. PMC 5000612. PMID 27472323.
  8. ^ a b c d e Duong TA, Valeyrie-Allanore L, Wolkenstein P, Chosidow O (2017). "Severe cutaneous adverse reactions to drugs". Lancet. 390 (10106): 1996–2011. doi:10.1016/S0140-6736(16)30378-6. PMID 28476287. S2CID 9506967.
  9. ^ a b Thienvibul C, Vachiramon V, Chanprapaph K (2015). "Five-Year Retrospective Review of Acute Generalized Exanthematous Pustulosis". Dermatology Research and Practice. 2015: 260928. doi:10.1155/2015/260928. PMC 4689982. PMID 26783390.
  10. ^ a b Szatkowski J, Schwartz RA (November 2015). "Acute generalized exanthematous pustulosis (AGEP): A review and update". Journal of the American Academy of Dermatology. 73 (5): 843–8. doi:10.1016/j.jaad.2015.07.017. PMID 26354880.
  11. ^ a b Choi MJ, Kim HS, Park HJ, Park CJ, Lee JD, Lee JY, Kim HO, Park YM (May 2010). "Clinicopathologic manifestations of 36 Korean patients with acute generalized exanthematous pustulosis: a case series and review of the literature". Annals of Dermatology. 22 (2): 163–9. doi:10.5021/ad.2010.22.2.163. PMC 2883418. PMID 20548906.
  12. ^ "HYDROXYZINE HYDROCHLORIDE tablet". Daily Med. U.S. National Library of Medicine. Retrieved 25 October 2020.
  13. ^ Ropars, Nolwenn; Darrieux, Laure; Tisseau, Laurent; Safa, Gilles (2014-09-28). "Acute generalized exanthematous pustulosis associated with primary Epstein-Barr virus infection". JAAD Case Reports. 1 (1): 9–11. doi:10.1016/j.jdcr.2014.09.004. ISSN 2352-5126. PMC 4802527. PMID 27075126.
  14. ^ "Acute generalised exanthematous pustulosis | DermNet NZ". dermnetnz.org. Retrieved 2021-01-14.
  15. ^ Lerch M, Mainetti C, Terziroli Beretta-Piccoli B, Harr T (February 2018). "Current Perspectives on Stevens-Johnson Syndrome and Toxic Epidermal Necrolysis". Clinical Reviews in Allergy & Immunology. 54 (1): 147–176. doi:10.1007/s12016-017-8654-z. PMID 29188475. S2CID 46796285.
  16. ^ Pichler WJ, Hausmann O (2016). "Classification of Drug Hypersensitivity into Allergic, p-i, and Pseudo-Allergic Forms". International Archives of Allergy and Immunology. 171 (3–4): 166–179. doi:10.1159/000453265. PMID 27960170.
  17. ^ Wang CW, Dao RL, Chung WH (2016). "Immunopathogenesis and risk factors for allopurinol severe cutaneous adverse reactions". Current Opinion in Allergy and Clinical Immunology. 16 (4): 339–45. doi:10.1097/ACI.0000000000000286. PMID 27362322. S2CID 9183824.
  18. ^ Adler NR, Aung AK, Ergen EN, Trubiano J, Goh MS, Phillips EJ (November 2017). "Recent advances in the understanding of severe cutaneous adverse reactions". The British Journal of Dermatology. 177 (5): 1234–1247. doi:10.1111/bjd.15423. PMC 5582023. PMID 28256714.
  19. ^ a b Bachelez H (January 2018). "Pustular psoriasis and related pustular skin diseases". The British Journal of Dermatology. 178 (3): 614–618. doi:10.1111/bjd.16232. PMID 29333670. S2CID 4436573.
  20. ^ Orime M (2017). "Immunohistopathological Findings of Severe Cutaneous Adverse Drug Reactions". Journal of Immunology Research. 2017: 6928363. doi:10.1155/2017/6928363. PMC 5684554. PMID 29226159.
  21. ^ Canadian Medical Association Journal, September 15, 2009, pp 393-396

External links edit

October 30, 2023
acute, generalized, exanthematous, pustulosis, agep, also, known, pustular, drug, eruption, toxic, pustuloderma, rare, skin, reaction, that, cases, related, medication, other, namestoxic, pustuloderma, pustular, drug, eruptionspecialtydermatologyagep, characte. Acute generalized exanthematous pustulosis AGEP also known as pustular drug eruption and toxic pustuloderma is a rare skin reaction that in 90 of cases is related to medication Acute generalized exanthematous pustulosisOther namesToxic pustuloderma pustular drug eruptionAcute generalized exanthematous pustulosisSpecialtyDermatologyAGEP is characterized by sudden skin eruptions that appear on average five days after a medication is started These eruptions are pustules i e small red white or red elevations of the skin that contain cloudy or purulent material pus 1 The skin lesions usually resolve within 1 3 days of stopping the offending medication 2 However more severe cases are associated with a more persistent disorder that may be complicated by secondary skin infections and or involvement of the liver lung and or kidney 3 Severe cutaneous adverse reaction SCAR disorders are regarded as the drug induced activation of T cells which then initiate innate immune responses that are inappropriately directed against self tissues Studies on the DRESS syndrome Stevens Johnson syndrome SJS toxic epidermal necrolysis TEN and SJS TEN overlap indicate that many individuals are predisposed to develop these reactions to a particular medication based on their genetically determined expression of particular human leukocyte antigen i e HLA alleles or T cell receptors and or their efficiencies in adsorbing distributing to tissues metabolizing and or eliminating a particular SCARS inducing medication Evidence for these predispositions in AGEP has not been as well established 2 4 5 Contents 1 Signs and symptoms 2 Cause 2 1 Medicines 2 2 Microbe infections 2 3 Other agents 3 Pathophysiology 4 Diagnosis 4 1 Classification 5 Treatment 6 See also 7 References 8 External linksSigns and symptoms editAGEP is an acute drug eruption characterized by numerous small primarily non follicular sterile skin pustules arising within large areas of red swollen skin usually within days of taking an inciting drug 6 The skin eruptions are often pruritic and accompanied by fever headache a high number of neutrophils and eosinophils in the blood and elevated blood levels of markers for inflammation i e erythrocyte sedimentation rate and C reactive protein The skin eruptions typically end within a week after causative drug is discontinued 3 Rare cases of lung and bone marrow involvement have also been reported to complicate AGEP 3 7 However involvement of these organs typically resolve along with the skin eruptions AGEP typically shows a mild course usually it is not associated with life threatening complicates although superinfections of skin lesions may be serious or even life threatening AGEP has a mortality rate of less than 5 2 7 8 Cause editAbout 90 of AGEP reactions are associated with medications The remaining cases of AGEP have been associated with infective and other agents 7 Medicines edit The most frequently reported drugs that have been associated with the development of AGEP include penicillin aminopenicillins macrolides quinolones sulfonamides hydroxychloroquine terbinafine and diltiazem 7 A more complete list of drugs sorted by their intended actions are 3 7 9 10 11 Antibiotics Penicillin ampicillin amoxicillin clindamycin cephalexin cefepime cefoxitin cefazolin various sulfonamides various quinolones vancomycin levofloxacin imipenem meropenem pristinamycin Antifungals Terbinafine ketoconazole fluconazole Anti inflammatories Aspirin celecoxib Other agents Hydroxychloroquine an antimalarial agent diltiazem a calcium channel blocker omeprazole a proton pump inhibitor clenbuterol a decongestant bronchodilator hydroxyzine 12 An antihistamine medication and clopidogrel an indirectly acting platelet inhibitor Microbe infections edit Infections with Parvovirus B19 mycoplasma cytomegalovirus coxsackie B4 virus Epstein Barr virus EBV 13 14 Chlamydophila pneumoniae E coli and Echinococcus have been reported to be associated with the development of AGEP in the absence of an apparent drug induced cause The pathophysiology for the development of these drug independent cases of AGEP is unclear 7 Viral infections have also been observed to be associated with the development of SJS SJS TEN and TEN in the absence of a causative drug 7 10 15 Other agents edit Herbal medications spider bites iopamidol used for radiocontrast lacquers mercury psoralen combined with ultraviolet A to treat psoriasis and xenobiotics have been associated with the development of AGEP in case reports 11 Pathophysiology editMain article Severe cutaneous adverse reactions Pathophysiology Like other drug induced SCARs disorders AGEP is a type IV hypersensitivity reaction in which a drug or its metabolite stimulates cytotoxic T cells i e CD8 T cells or T helper cells i e CD4 T cells to initiate autoimmune reactions that attack self tissues SCARs are type IV subtype IVb DRESS syndrome type IV subtype IVc SJS SJS TEN TEN or type IV subtype IVd AGEP hypersensitivity reactions AGEP therefore differs from the other SCARs disorders in that it involves the tissue injuring action of inappropriately activated neutrophils and the excessive production of cytokines which stimulate production of recruit to tissues and or activation of neutrophils Interleukin 8 Interleukin 17 GM CSF and promote innate immune and autoimmune responses Interleukin 22 2 7 8 AGEP also differs from the other SCARs disorders in respect to the level of evidence supporting the underlying mechanism by which a drug or its metabolite stimulates CD8 T or CD4 T cells Studies indicate that the mechanism by which a drug or its metabolites accomplishes this stimulation involves subverting the antigen presentation pathways of the innate immune system A drug or metabolite covalently binds with a host protein to form a non self drug related epitope An antigen presenting cell APC takes up these proteins digests them into small peptides places the peptides in a groove on the human leukocyte antigen i e HLA component of their major histocompatibility complex i e MHC APC and presents the MHC associated peptides to the T cell receptor on CD8 T or CD4 T cells Those peptides expressing a drug related non self epitope on their HLA A HLA B HLA C HLA DM HLA DO HLA DP HLA DQ or HLA DR proteins may bind to a T cell receptor to stimulate the receptor bearing parent T cell to attack self tissues Alternatively a drug or metabolite may also stimulate T cells by inserting into the groove on a HLA protein to serve as a non self epitope bind outside of this groove to alter a HLA protein so that it forms a non self epitope or bypass the APC by binding directly to a T cell receptor However non self epitopes must bind to specific HLA serotypes to stimulate T cells and the human population expresses some 13 000 different HLA serotypes while an individual expresses only a fraction of them Since a SCARs inducing drug or metabolite interacts with only one or a few HLA serotypes their ability to induce SCARs is limited to those individuals who express HLA serotypes targeted by the drug or metabolite 5 8 Thus only rare individuals are predisposed to develop SCARs in response to a particular drug on the basis of their expression of HLA serotypes 16 Studies have identified several HLA serotypes associated with development of DRESS syndrome SJS SJS TEN and TEN in response to various drugs which elici these disorders developed tests to identify individuals who express these serotypes and thereby determined that these individuals should avoid the offending drug HLA serotypes associated with AGEP and specific drugs have not been identified 5 A study conducted in 1995 identified of HLA B51 HLA DR11 and HLA DQ3 of unknown serotypes to be associated with development of AGEP but the results have not been confirmed expanded to identify the serotypes involved nor therefore useful in identifying individuals predisposed to develop AGEP in response to any drug 2 Similarly a specific T cell receptor variant has been associated with the development of DRESS syndrome SJS SJS TEN and TEN but not AGEP 2 17 Variations in ADME i e an individual s efficiency in absorbing distributing metabolizing and excreting a drug has been found to occur in cases of the DRESS syndrome SJS SJS TEN and TEN These variations influence the levels and duration of a drug or drug metabolite in tissues and thereby impact the drug s or drug metabolite s ability to evoke SCARs 18 In rare cases the development of AGEP has been reported to occur in individuals with loss of function mutations in their IL36RN gene This gene codes for the interleukin 36 receptor antagonist IL36RA IL36RA blocks the pro inflammatory actions of Interleukin 36 cytokines viz IL 36a IL 36b and IL 36g on keratinocytes synoviocytes dendritic cells macrophages and T cells It does so by binding to but not stimulating these cytokines receptors IL1RL2 and IL1RAP thereby interfering with the interleukin 36 cytokines binding to and stimulating IL1RL2 and IL1RAP However the IL36RN loss of function mutation has been reported in cases of generalized pustular psoriasis 3 19 The presence of this mutation in two seemingly unrelated disorders has led to suggestions that the classification of AGEP as a SCARs or a form of psoriasis requires study 19 Diagnosis editThe diagnosis of AGEP may be forthright in typical cases in which an individual has taken a drug known to cause the disorder develops multiple sterile pustules overlying large areas of red swollen skin starting a few days after initial drug intake and has a histology of biopsied lesions that shows pustules just below the skin s Stratum corneum outermost layer apoptotic i e necrotic keratinocytes spongiosis of the stratum spinosum and infiltration of these tissues by neutrophils plus in many but not all cases eosinophils 7 Many cases of AGEP however present less clear cut clinical features of the disorder AGEP must be differentiated from generalized pustular psoriasis GPP with which it shares many clinical and histological features A history of psoriasis the presence of typical psoriatic skin lesions at the time of diagnosis and histological evidence in skin lesions of necrotic keratinocytes neutrophil rich infiltrates eosinophil infiltrates and or lack of tortuous or dilated blood vessels favors a diagnosis of to AGEP 20 Other conditions sometimes confused with AGEP include pustular eruptions caused by bacteria funguses herpesviridae and the varicella zoster virus i e causative agent of chicken pox Several tests have been proposed to be useful for supporting the diagnosis of and or implicating a particular drug as the cause of AGEP particularly in individuals who develop skin lesions while taking multiple drugs These include patch tests in which small amounts of suspect drugs absorbed on patches are applied to the skin skin allergy tests in which drugs are applied by skin prick or intradermal injection and oral provocation in which drugs are taken in a single small dose orally These tests have not been widely adopted because of their insensitivity and most particular with oral provocation tests the possibility of causing a relapse or worsening or the disorder In vitro tests including mixed lymphocyte reaction tests in which the response of individuals blood mononuclear cells to suspect drugs and ELISPOT tests in which specific drug reactive lymphocytes or their drug induced release of AGEP mediators e g interferon g interleukin 4 or granulysin are measured have likewise not been broadly adopted because of their lack of specificity 8 Classification edit The disorder is classified in the group of severe cutaneous adverse reactions i e SCARs The SCARs group of disorders includes four other drug induced skin reactions drug reaction with eosinophilia and systemic symptoms DRESS syndrome Stevens Johnson syndrome SJS toxic epidermal necrolysis TEN and Stevens Johnson toxic epidermal necrolysis overlap syndrome SJS TEN SJS SJS TEN and TEN while initially described as distinct adverse drug induced cutaneous reactions are now regarded as manifestations of epidermal necrolysis differing only in extent of skin involvement While all of five SCARs disorders are potentially lethal AGEP has the lowest mortality of the group 2 7 Treatment editThe treatment of AGEP begins with the immediate cessation of the offending drug For individuals developing AGEP while taking multiple drugs non essential drugs should be discontinued and essential drugs should be replaced by chemically unrelated drugs that are used as alternatives to the discontinued drug s In cases of multiple drug intake skin and or in vitro testing may be of some use in identifying the offending drug Beyond identifying and discontinuing the offending drug individuals with mild symptoms may require no further treatment Those troubled by more significant symptoms such as itching or fever may require antihistamines topical corticosteroids systemic corticosteroids and or antipyretics Individuals with liver lung kidney and or severe skin complications may require high dosage systemic corticosteroids and organ specific interventions Skin infections which may lead to sepsis are potentially lethal complications of AGEP preventative methods and rapid treatment of such infections with appropriate antibiotics and where needed further supportive measures are critical in the treatment of this complication Overall however AGEP has a lethality of less than 5 with recent reports showing no fatalities Typically individuals with AGEP have rapid rates of recovery even in when experiencing the cited complications 3 8 9 21 See also editList of skin conditions Skin lesion PustulosisReferences edit James William Berger Timothy Elston Dirk 2005 Andrews Diseases of the Skin Clinical Dermatology 10th ed Saunders ISBN 0 7216 2921 0 124 a b c d e f g Hoetzenecker W Nageli M Mehra ET Jensen AN Saulite I Schmid Grendelmeier P Guenova E Cozzio A French LE 2016 Adverse cutaneous drug eruptions current understanding Seminars in Immunopathology 38 1 75 86 doi 10 1007 s00281 015 0540 2 PMID 26553194 S2CID 333724 a b c d e f Alniemi DT Wetter DA Bridges AG El Azhary RA Davis MD Camilleri MJ McEvoy MT 2017 Acute generalized exanthematous pustulosis clinical characteristics etiologic associations treatments and outcomes in a series of 28 patients at Mayo Clinic 1996 2013 International Journal of Dermatology 56 4 405 414 doi 10 1111 ijd 13434 PMID 28084022 S2CID 21325754 Halevy S August 2009 Acute generalized exanthematous pustulosis Curr Opin Allergy Clin Immunol 9 4 322 8 doi 10 1097 ACI 0b013e32832cf64e PMID 19458527 S2CID 205434868 a b c Garon SL Pavlos RK White KD Brown NJ Stone CA Phillips EJ 2017 Pharmacogenomics of off target adverse drug reactions British Journal of Clinical Pharmacology 83 9 1896 1911 doi 10 1111 bcp 13294 PMC 5555876 PMID 28345177 Rapini Ronald P Bolognia Jean L Jorizzo Joseph L 2007 Dermatology 2 Volume Set St Louis Mosby pp 297 303 308 309 470 ISBN 978 1 4160 2999 1 a b c d e f g h i j Feldmeyer L Heidemeyer K Yawalkar N July 2016 Acute Generalized Exanthematous Pustulosis Pathogenesis Genetic Background Clinical Variants and Therapy International Journal of Molecular Sciences 17 8 1214 doi 10 3390 ijms17081214 PMC 5000612 PMID 27472323 a b c d e Duong TA Valeyrie Allanore L Wolkenstein P Chosidow O 2017 Severe cutaneous adverse reactions to drugs Lancet 390 10106 1996 2011 doi 10 1016 S0140 6736 16 30378 6 PMID 28476287 S2CID 9506967 a b Thienvibul C Vachiramon V Chanprapaph K 2015 Five Year Retrospective Review of Acute Generalized Exanthematous Pustulosis Dermatology Research and Practice 2015 260928 doi 10 1155 2015 260928 PMC 4689982 PMID 26783390 a b Szatkowski J Schwartz RA November 2015 Acute generalized exanthematous pustulosis AGEP A review and update Journal of the American Academy of Dermatology 73 5 843 8 doi 10 1016 j jaad 2015 07 017 PMID 26354880 a b Choi MJ Kim HS Park HJ Park CJ Lee JD Lee JY Kim HO Park YM May 2010 Clinicopathologic manifestations of 36 Korean patients with acute generalized exanthematous pustulosis a case series and review of the literature Annals of Dermatology 22 2 163 9 doi 10 5021 ad 2010 22 2 163 PMC 2883418 PMID 20548906 HYDROXYZINE HYDROCHLORIDE tablet Daily Med U S National Library of Medicine Retrieved 25 October 2020 Ropars Nolwenn Darrieux Laure Tisseau Laurent Safa Gilles 2014 09 28 Acute generalized exanthematous pustulosis associated with primary Epstein Barr virus infection JAAD Case Reports 1 1 9 11 doi 10 1016 j jdcr 2014 09 004 ISSN 2352 5126 PMC 4802527 PMID 27075126 Acute generalised exanthematous pustulosis DermNet NZ dermnetnz org Retrieved 2021 01 14 Lerch M Mainetti C Terziroli Beretta Piccoli B Harr T February 2018 Current Perspectives on Stevens Johnson Syndrome and Toxic Epidermal Necrolysis Clinical Reviews in Allergy amp Immunology 54 1 147 176 doi 10 1007 s12016 017 8654 z PMID 29188475 S2CID 46796285 Pichler WJ Hausmann O 2016 Classification of Drug Hypersensitivity into Allergic p i and Pseudo Allergic Forms International Archives of Allergy and Immunology 171 3 4 166 179 doi 10 1159 000453265 PMID 27960170 Wang CW Dao RL Chung WH 2016 Immunopathogenesis and risk factors for allopurinol severe cutaneous adverse reactions Current Opinion in Allergy and Clinical Immunology 16 4 339 45 doi 10 1097 ACI 0000000000000286 PMID 27362322 S2CID 9183824 Adler NR Aung AK Ergen EN Trubiano J Goh MS Phillips EJ November 2017 Recent advances in the understanding of severe cutaneous adverse reactions The British Journal of Dermatology 177 5 1234 1247 doi 10 1111 bjd 15423 PMC 5582023 PMID 28256714 a b Bachelez H January 2018 Pustular psoriasis and related pustular skin diseases The British Journal of Dermatology 178 3 614 618 doi 10 1111 bjd 16232 PMID 29333670 S2CID 4436573 Orime M 2017 Immunohistopathological Findings of Severe Cutaneous Adverse Drug Reactions Journal of Immunology Research 2017 6928363 doi 10 1155 2017 6928363 PMC 5684554 PMID 29226159 Canadian Medical Association Journal September 15 2009 pp 393 396External links edit Retrieved from https en wikipedia org w index php title Acute generalized exanthematous pustulosis amp oldid 1161990142, wikipedia, wiki, book, books, library,

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