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Id reaction
Id reaction
Id reaction
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Id reaction
Other namesCutaneous autosensitization
SpecialtyDermatology Edit this on Wikidata

Id reactions (also known as disseminated eczema[1] and generalized eczema[1]) are types of acute dermatitis developing after days or weeks at skin locations distant from the initial inflammatory or infectious site. They can be localised or generalised.[2][3] This is also known as an autoeczematous response[4] and there must be an identifiable initial inflammatory or infectious skin problem which leads to the generalised eczema. Often intensely itchy, the red papules and pustules can also be associated with blisters and scales and are always remote from the primary lesion.[5] It is most commonly a blistering rash with itchy vesicles on the sides of fingers and feet as a reaction to fungal infection on the feet, athlete's foot.[6] Stasis dermatitis, allergic contact dermatitis, acute irritant contact eczema and infective dermatitis have been documented as possible triggers, but the exact cause and mechanism is not fully understood.[7] Several other types of id reactions exist including erythema nodosum, erythema multiforme, Sweet's syndrome and urticaria.[3]

Presentation

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Complications

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Id reactions left untreated may become infected with bacteria.[2]

Causes

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Causes include infection with dermatophytosis, Mycobacterium, viruses, bacteria and parasites. Eczematous conditions including contact allergic dermatitis and stasis dermatitis as well as stitches and trauma have also been associated with id reactions.[2] Radiation treatment of tinea capitis has been reported as triggering an id reaction.[8]

Pathogenesis

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Potential explanations include

  1. Atypical immune recognition of autologous skin antigens
  2. Stimulation of normal T cells by changing skin constituents
  3. Lower threshold for skin irritation
  4. Spreading of infectious antigens causing a secondary response
  5. Hematogenous dissemination of cytokines from the primary site of inflammation[2]

Diagnosis

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Although there are a multitude of varying appearances, the id reaction often presents with symmetrical red patches of eczema with papules and vesicles, particularly on the outer sides of the arms, face and trunk which occur suddenly and are intensely itchy occur a few days to a week after the initial allergic or irritant dermatitis. Most commonly, athlete's foot can lead to localised vesicles on hands, bacterial infections to erythema nodosum and herpes simplex virus to erythema multiforme.[2][3]

The diagnosis is frequently made by treating the initial triggering skin problem and observing the improvement in the eczematous rash. Both the initial skin problem and the id reaction must be observed to make the diagnosis.[5][6]

Not all dyshidrotic rashes are id reactions, but id reactions are often dyshidrotic-like.[2]

Initial tests may include isolating a fungus by taking a swab and sending it for culture. Patch testing may be considered if there is suspicion of allergic contact dermatitis.[2]

A skin biopsy is rarely necessary,[2] but if done mostly shows an interstitial granulomatous dermatitis, some lesions being spongiotic.[4] Id reactions cannot be distinguished from other skin diseases by histopathology. However, they can be distinguished from other id reactions by histopathology.[3]

Differential diagnosis

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Other rashes that occur in a widespread distribution can look like an id reaction. These include atopic dermatitis, contact dermatitis, dyshidrosis, photodermatitis, scabies and drug eruptions.[2]

Treatment

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Id reactions are frequently unresponsive to corticosteroid therapy, but clear when the focus of infection or infestation is treated.[9][5]: 81  Therefore, the best treatment is to treat the provoking trigger. Sometimes medications are used to relieve symptoms. These include topical corticosteroids, and antihistamines. If opportunistic bacterial infection occurs, antibiotics may be required.[2]

Prognosis

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A full recovery is expected with treatment.[2] Recurrent id reactions are frequently due to inadequate treatment of the primary infection or dermatitis and often the cause of recurrence is unknown.[3]

Epidemiology

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With no particular affinity to any particular ethnic group, seen in all age groups and equally amongst males and females, the precise prevalence is not known.[2]

History

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The suffix -id has its origins in Greek, referring to a father–son relationship. German dermatologist Josef Jadassohn (1863–1936), who coined the term id, had observed a dermatophytosis causing a secondary allergic skin dermatitis. In 1928, Bloch recorded that the peak of the dermatophyte infection corresponded with the id reaction.[3]

See also

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References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Id reaction

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The Id reaction, also known as autoeczematization or dermatophytid, is a secondary immunologic cutaneous response characterized by an acute, pruritic, eczematous that develops distant from a primary infectious or inflammatory , such as tinea pedis or . This reaction arises from an abnormal immune recognition of antigens disseminated from the initial site, involving T-cell activation and release, though the exact remains incompletely understood. Common triggers include superficial fungal infections like , in which Id reactions occur in 4-5% of cases, as well as bacterial infections, parasitic infestations, viral conditions, and noninfectious factors such as contact dermatitis, medications (e.g., intravenous immunoglobulin), or even tattoos and radiotherapy. The typically manifests 1-2 weeks after the primary insult, presenting with variable features including erythematous papules, vesicles, bullae, or plaques, often most severe on the extremities and palms but potentially generalized. Epidemiologically, Id reactions lack clear predilections for age, sex, or race, but they occur in up to 37% of patients with and in two-thirds of those with superimposed . Diagnosis relies on clinical correlation with the underlying condition, supported by showing and lymphocytic infiltration, without direct evidence of the primary pathogen at the reaction site. Management centers on resolving the primary trigger—such as antifungals for tinea—while using topical corticosteroids and emollients to alleviate the secondary eruption, which usually resolves within weeks once the source is addressed. Differentials include drug eruptions or primary eczematous disorders, emphasizing the need to avoid misattributing the reaction to treatment of the initial condition.

Clinical Aspects

Presentation

The id reaction, also known as autoeczematization or autosensitization , is an acute, generalized that manifests at sites distant from the primary inflammatory or infectious trigger. It typically presents as a secondary cutaneous response, sparing the original site of involvement. Clinically, the reaction features symmetrical erythematous patches, papules, and vesicles accompanied by intense pruritus, often evolving into a blistering, eczematous . Common morphologies include maculopapular eruptions, papulovesicular lesions, or pompholyx-like vesicles on the palms and sides of the fingers, with the appearing 7-14 days after the initial stimulus. The eruption commonly affects the extremities, trunk, forearms, thighs, and face, while typically avoiding the primary affected area. The onset occurs days to weeks following primary site involvement, with symptoms such as tenderness in the fingers and varying degrees of itching contributing to discomfort. Uncommon extracutaneous manifestations may include fever, , generalized , , and . Resolution generally follows effective management of the underlying trigger, leading to gradual clearing of the distant rash. For instance, id reactions are frequently associated with underlying infections like tinea pedis, where the secondary eruption may mimic dyshidrotic eczema on the hands.

Complications

One significant complication of the id reaction arises from the intense pruritus associated with its eczematous eruption, which often leads to excoriation and subsequent secondary bacterial infections. These infections can manifest as , characterized by honey-crusted lesions, or , involving deeper with and swelling. If the underlying primary trigger remains untreated, recurrent id reactions may occur, leading to repeated episodes of widespread . Additionally, resolution of the acute phase frequently leaves post-inflammatory , particularly in individuals with darker tones, where overproduction leads to persistent brownish discoloration that can last for months. The profound pruritus also impairs by causing sleep disturbances, with frequent awakenings due to scratching, contributing to daytime fatigue and reduced functional capacity.

Causes and Pathogenesis

Causes

The id reaction, also known as autoeczematization, is a secondary cutaneous response triggered by the dissemination of antigens or inflammatory mediators from a primary site of , leading to distant eczematous eruptions. This dissemination occurs hematogenously or via lymphatic spread, inciting an immune-mediated reaction in sensitized individuals. Infectious causes predominate, with dermatophyte infections being the most frequent trigger. Fungal etiologies, particularly tinea pedis caused by Trichophyton species or Epidermophyton floccosum, often result in dermatophytid reactions, manifesting as vesicular or papular rashes on the extremities distant from the feet. Specific subtypes include the trichophytid, linked to Trichophyton infections. Bacterial infections, such as streptococcal pharyngitis or impetigo due to Streptococcus pyogenes, can provoke bacterids, including pustular variants. Parasitic infestations like scabies (Sarcoptes scabiei) lead to scabid reactions, while pediculosis from lice elicits pediculids, such as annular erythematous plaques. Mycobacterial infections, notably tuberculosis, cause tuberculids like papulonecrotic or lichenoid forms through antigen spread from pulmonary or cutaneous foci. Non-infectious causes involve inflammatory or traumatic insults to the skin. Eczematous conditions, including and (e.g., to or allergens), frequently incite id reactions via release from the primary site. Trauma, such as wounds or excoriations, and arthropod bites can trigger dissemination of inflammatory signals, resulting in generalized eruptions. Additionally, and dyshidrotic eczema have been associated with id-like responses due to local tissue damage and antigen exposure.

Pathogenesis

The id reaction, also known as autosensitization dermatitis, represents a secondary immunologic response triggered by a primary cutaneous or systemic insult, such as an or , leading to a disseminated eczematous eruption at distant sites. This phenomenon is hypothesized to arise from the dissemination of microbial antigens, haptens, or inflammatory mediators from the primary site via hematogenous or lymphatic routes, sensitizing previously unaffected skin and eliciting a response. The underlying mechanism is primarily a type IV delayed-type hypersensitivity reaction mediated by T lymphocytes, involving both CD4+ helper T cells (Th1 and Th2 subsets) and CD8+ cytotoxic T cells. Activated T cells, sensitized to haptens derived from nonviable microbial components, proliferate and release proinflammatory cytokines including interferon-gamma (IFN-γ), tumor necrosis factor-alpha (TNF-α), interleukin-2 (IL-2), IL-4, IL-5, and IL-13, which orchestrate activation, damage, and the recruitment of additional immune cells to distant sites. In some cases, altered T-cell responses may lead to auto-sensitization against self-antigens, such as damaged proteins, further amplifying the eczematous response through overactivation of autoreactive T cells expressing and IL-2 receptors. This immune activation results in a vesicular or papulovesicular eruption remote from the primary , without evidence of direct invasion at the secondary sites. Unlike the primary reaction, which involves localized replication and direct tissue , the id reaction manifests as a systemic immunologic driven by circulating sensitized lymphocytes rather than contiguous spread or metastatic . The exact remains incompletely understood, with ongoing investigations exploring potential contributions from host genetic factors influencing immune hyperresponsiveness and specific microbial triggers that enhance . Current evidence underscores the role of immune dysregulation, but further research is needed to clarify the precise interplay of these elements.

Diagnosis and Differential

Diagnosis

The diagnosis of id reaction is primarily clinical and relies on identifying a temporal association between a primary cutaneous or infectious trigger and the subsequent development of a distant, often symmetrical . Patients typically present with a history of recent onset of a primary , such as tinea pedis, , or , followed by pruritic vesicles, papules, or eczematous eruptions at remote sites like the hands, feet, or trunk. A key diagnostic clue is the resolution or improvement of the secondary rash upon effective treatment of the primary trigger, without direct intervention on the id lesions themselves. Laboratory investigations focus on confirming the underlying primary condition rather than the id reaction itself, as the secondary sites are typically sterile. Swabs, cultures, or potassium hydroxide (KOH) preparations from the primary site are used to identify infectious causes, such as dermatophytes in fungal id reactions. Patch testing may be employed if an allergic contact dermatitis is suspected as the trigger, helping to delineate hypersensitivity contributions. Skin biopsy of the id lesions, when performed, reveals nonspecific findings such as spongiotic dermatitis with a superficial perivascular lymphocytic infiltrate and possible vesiculation or eosinophils, but no evidence of infectious agents. Imaging or advanced molecular tests like (PCR) for pathogens are rarely required but may be considered if a systemic is suspected as the primary trigger. No formal diagnostic criteria exist for id reaction; instead, diagnosis depends on the clinical , exclusion of direct involvement at secondary sites, and the characteristic response to addressing the inciting factor.

Differential Diagnosis

The differential diagnosis of id reaction encompasses a range of eczematous, infectious, and systemic dermatoses that present with widespread papulovesicular or erythematous eruptions, necessitating careful clinical correlation to identify the secondary nature of id reaction to a primary trigger. Among similar dermatoses, dyshidrotic eczema (pompholyx) features symmetric vesicles confined to the palms, soles, and lateral fingers, lacking the disseminated distribution and identifiable primary infectious or inflammatory focus seen in id reaction. typically manifests asymmetrically in areas of allergen exposure, with improvement upon allergen avoidance, unlike the distant, autosensitized spread in id reaction. often begins with a herald patch followed by oval scaly plaques in a Christmas-tree pattern on the trunk, resolving spontaneously without treatment of a distant site, distinguishing it from id reaction's acute onset tied to a primary lesion. Viral exanthems, such as those from enteroviruses or varicella-zoster, present with polymorphic lesions and accompanying systemic symptoms like fever or , but lack the specific temporal association with a localized or infection. Systemic mimics include drug eruptions, which commonly appear as rashes within 1-2 weeks of medication initiation and resolve upon discontinuation, without dependence on treating a cutaneous primary site. Autoimmune blistering diseases, exemplified by , involve tense subepidermal bullae predominantly in elderly patients, confirmed by direct showing linear IgG and C3 at the , contrasting with the spongiotic vesicles of id reaction. Paraneoplastic syndromes may produce generalized pruritic eruptions linked to underlying , but typically lack the rapid response to eradication of a superficial trigger and show variable unrelated to autosensitization. Key differentiators for id reaction include its temporal onset 7-14 days after a primary dermatosis or at a distant site, absence of mucosal involvement (in contrast to ), and prompt resolution upon treatment of the inciting focus, such as antifungal therapy for tinea pedis. may aid exclusion by revealing nonspecific and lymphocytic infiltrate without organisms or interface changes. Rare overlaps occur with conditions like Sweet's syndrome, which presents as tender erythematous plaques with fever and , differentiated by showing dense dermal neutrophilic infiltrates and rather than . Urticaria can mimic id-like reactions with transient wheals, but features without epidermal changes on and responds to antihistamines independently of a primary site.

Treatment and Prognosis

Treatment

The primary approach to managing id reaction involves treating the underlying trigger to facilitate resolution of the secondary eruption. For instance, in cases associated with infections such as tinea, oral antifungals like (200 mg daily for 2-4 weeks) are administered to eradicate the primary infection. Similarly, bacterial triggers require appropriate antibiotics, such as those targeting staphylococcal or streptococcal infections. Failure to address the inciting cause often leads to recurrence of the id reaction. Symptomatic relief focuses on alleviating pruritus, inflammation, and vesicular components of the rash. Mid-potency topical corticosteroids, such as triamcinolone 0.1% ointment applied twice daily for 2-4 weeks, are commonly used to reduce and itching in mild to moderate cases. Oral antihistamines, including hydroxyzine (25-50 mg at bedtime) or (5 mg daily), provide additional effects. Wet compresses with cool water or (aluminum acetate) for 15-20 minutes several times daily can soothe acute vesicular lesions, while emollients like petrolatum help maintain skin barrier function and prevent dryness. Avoidance of irritants, such as harsh soaps or allergens, is recommended as an adjunctive measure. In severe or refractory cases, systemic corticosteroids such as (0.5-1 mg/kg/day for 5-10 days, followed by taper) may be necessary to control widespread , particularly if topical therapies prove insufficient. Immunosuppressants like (15 mg daily) have been reported in exceptional refractory instances but are not first-line. Secondary bacterial infections, if present, warrant targeted antibiotics, though these are managed conservatively to avoid complicating the primary therapy.

Prognosis

The prognosis for id reaction is generally excellent when the primary triggering condition is promptly identified and treated, leading to resolution of the secondary . With appropriate of the underlying , such as a , the eruption typically resolves within 1 to 3 weeks. Recurrence risk remains high if the underlying condition persists or is inadequately addressed, for example, in cases of untreated tinea pedis, whereas it is low once the primary trigger is fully eradicated. Several factors can influence the overall , including the severity of the primary infection, patient compliance with treatment to eliminate the trigger, and comorbidities such as , which may prolong or complicate recovery. Long-term effects are uncommon, with scarring being rare due to the eczematous nature of the reaction; however, recurrent episodes driven by persistent itching can contribute to psychological impacts, such as anxiety or reduced .

Epidemiology and History

Epidemiology

The id reaction, also known as autoeczematization, demonstrates no specific predilection for , , or age group, affecting individuals across all demographics influenced primarily by the underlying triggering condition. While it can occur at any age, reports are more frequent in adults, likely due to higher exposure to common triggers such as tinea pedis, which increases with age-related activities and environmental factors. Exact prevalence rates for id reactions remain unknown, as they are often underdiagnosed and misattributed to the primary dermatological condition or other eczematous disorders. Dermatophytid reactions, a common subtype, occur in approximately 4-5% of patients with infections overall, with higher rates observed in specific contexts: up to 17% in tinea pedis cases and 37% in those with . Incidence appears elevated in regions with endemic fungal infections, such as humid or tropical climates where dermatophytoses like tinea pedis are more prevalent due to favorable environmental conditions for fungal growth. Key risk factors include exposure to infectious agents, particularly dermatophytes, which are more common in hot, humid environments and among individuals with occupational or lifestyle factors increasing fungal contact, such as athletes or those in crowded settings. Noninfectious triggers like also contribute, particularly in older adults with vascular comorbidities. Significant gaps persist in epidemiological knowledge, stemming from a paucity of large-scale, population-based studies and potential underreporting in nondermatological clinical settings where id reactions may be overlooked in favor of treating the primary lesion. Most available data derive from small cohort analyses focused on specific triggers, limiting generalizability and highlighting the need for broader surveillance to better quantify true incidence and demographic patterns.

History

The term "" derives from suffix "-id," denoting a "father-son" relationship, implying a secondary manifestation akin to a descendant of the primary condition. German dermatologist Josef Jadassohn coined the term in to describe an allergic cutaneous response at distant sites to a primary , initially referring to it as "lichen trichophyticus" in cases of trichophytic . A key milestone came in when Bruno Bloch detailed the linkage between id reactions and , observing that these secondary eruptions, termed dermatophytids, often peaked during active infection or following provocations like therapy or trichophytin testing. Bloch's work emphasized the role of , building on Jadassohn's observations and establishing dermatophytids as a classic form of id reaction primarily associated with fungal triggers. Initially focused on fungal causes, such as dermatophytides, the concept evolved in the mid-20th century to encompass non-fungal triggers, including bacterial, viral, and parasitic infections, reflecting broader recognition of autosensitization mechanisms. Influential contributions from figures like Jadassohn and Bloch laid the foundation, with modern reviews, such as that by Ilkit et al. in 2012, clarifying the diverse clinical types and emphasizing underreported instances in conditions like .

References

  1. https://emedicine.medscape.com/article/1049760-overview
  2. https://www.pcds.org.uk/clinical-guidance/tinea-dermatophytide-reactions-id-or-ide-reactions
  3. https://pubmed.ncbi.nlm.nih.gov/22300403/
  4. https://dermnetnz.org/topics/dermatophytide-reactions
  5. https://emedicine.medscape.com/article/1049760-clinical
  6. https://emedicine.medscape.com/article/1049760-treatment
  7. https://www.sciencedirect.com/topics/pharmacology-toxicology-and-pharmaceutical-science/id-reaction
  8. https://www.aafp.org/pubs/afp/issues/2014/0815/p229.html
  9. https://accessemergencymedicine.mhmedical.com/content.aspx?bookid=2969&sectionid=250461851
  10. https://www.researchgate.net/profile/Macit-Ilkit/post/How-common-are-Dermatophytids-and-are-they-related-to-urticaria/attachment/59d62e2ac49f478072e9ee0d/AS%253A273572478554122%25401442236169957/download/id%2Breaction.pdf
  11. https://www.ncbi.nlm.nih.gov/books/NBK559150/
  12. https://doi.org/10.3109/1040841X.2011.645520
  13. https://www.jaadcasereports.org/article/S2352-5126(19)30091-8/fulltext
  14. https://cdn.mdedge.com/files/s3fs-public/issues/articles/ct108003163.pdf
  15. https://emedicine.medscape.com/article/1049760-workup
  16. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1770784/
  17. https://www.sciencedirect.com/science/article/pii/S074025701730028X
  18. https://www.aafp.org/pubs/afp/issues/2010/0315/p726.html
  19. https://pmc.ncbi.nlm.nih.gov/articles/PMC12226108/
  20. https://emedicine.medscape.com/article/1049760-medication
  21. https://dermnetnz.org/topics/disseminated-secondary-eczema
  22. https://www.sciencedirect.com/topics/medicine-and-dentistry/id-reaction
  23. https://www.researchgate.net/publication/221801263_Cutaneous_id_reactions_A_comprehensive_review_of_clinical_manifestations_epidemiology_etiology_and_management
  24. https://www.psychiatrist.com/pcc/psychiatric-impact-of-skin-disease/
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