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Pemphigoid

Pemphigoid is a group of rare, chronic autoimmune blistering disorders characterized by the production of autoantibodies targeting structural proteins of the zone (BMZ) at the dermal-epidermal junction, resulting in subepidermal blisters, intense pruritus, and potential scarring of the skin and mucous membranes. These diseases primarily affect older adults, with having an incidence of approximately 10–40 cases per million people annually, though rates vary by subtype and region. The most prevalent form is bullous pemphigoid (BP), which accounts for about 80% of subepidermal immunobullous cases and typically presents in individuals over 60 years old with tense, fluid-filled bullae on erythematous or normal , often on the , , and flexural areas, accompanied by severe itching that may precede visible lesions by weeks or months. is triggered by autoantibodies against BP180 (type XVII collagen) and BP230 (BPAG1), leading to complement activation, infiltration, and dermal-epidermal separation, with possible drug-induced triggers such as diuretics, antibiotics, or nonsteroidal anti-inflammatory drugs. Complications include secondary infections, skin atrophy from treatment, and associations with neurological conditions like or , as well as increased cardiovascular risks. Another key subtype is mucous membrane pemphigoid (MMP), also known as cicatricial pemphigoid, which predominantly involves mucous membranes such as the oral cavity, conjunctiva, and genitals, causing erosions, ulcers, and progressive scarring that can lead to blindness, esophageal strictures, or airway obstruction if untreated. With an incidence of 0.87–1.16 cases per million per year and a female predominance, MMP arises from autoantibodies targeting BMZ proteins like laminin 332 or integrin β4, disrupting adhesion and promoting fibrosis, and it carries risks of malignancy in cases with anti-laminin 332 antibodies. Pemphigoid gestationis (PG) is a rare pregnancy-associated variant characterized by pruritic urticarial plaques and tense bullae, primarily on the and , typically in the second or third trimester, caused by autoantibodies against BP180 and potentially affecting the neonate. Related subepidermal autoimmune blistering diseases include , featuring annular "crown of jewels" vesicles often drug-induced and responsive to dapsone, and , a mechanobullous linked to type VII collagen autoantibodies, associated with and causing trauma-induced fragility and milia formation. across these diseases relies on clinical presentation, showing subepidermal splits with , direct revealing linear IgG and deposits at the BMZ, and serologic tests for specific autoantibodies. Treatment generally involves topical or systemic corticosteroids as first-line therapy, with immunosuppressants like or biologics such as rituximab for refractory cases, and emerging options including FcRn inhibitors like efgartigimod showing promise in recent trials.

Introduction

Definition and General Features

Pemphigoid encompasses a group of rare, chronic autoimmune blistering disorders characterized by the formation of tense subepidermal blisters due to targeting components of the dermal-epidermal junction, particularly hemidesmosomal proteins such as BP180 and BP230. These conditions primarily affect the skin, with mucous membranes involved in some variants, and are distinguished from intraepidermal blistering diseases like by the deeper level of autoantibody attack, leading to more stable, less fragile blisters. Unlike infectious or mechanical blistering, pemphigoid arises from immune dysregulation where the body mistakenly targets its own skin structures, often without a clear precipitating trigger, though associations with medications, exposure, or malignancies have been noted. The most prevalent subtype is (BP), accounting for approximately 80% of subepidermal immunobullous cases, and it predominantly occurs in individuals over 60 years of age, with peak incidence in those aged 70–80. typically manifests as widespread, pruritic urticarial plaques or eczematous lesions that evolve into vesicles and bullae measuring 1–3 cm in diameter, filled with clear fluid and arising on normal or erythematous . Common sites include the trunk, flexures (axillae, groin, and thighs), and extremities, though the face and mucous membranes are usually spared. A prodromal phase of intense itching without blisters may precede the full eruption by weeks to months, and the disease course is often relapsing-remitting, lasting months to years. Other variants within the pemphigoid spectrum include (also known as cicatricial pemphigoid), which preferentially involves mucosal surfaces like the mouth, eyes, and genitals, potentially leading to scarring; , a pruritic occurring in ; and epidermolysis bullosa acquisita, featuring trauma-induced blisters on extensor surfaces. These disorders share core pathogenic mechanisms involving IgG autoantibodies that disrupt dermoepidermal adhesion, resulting in subepidermal clefts and inflammation, but differ in antigen specificity and clinical distribution. Overall, pemphigoid diseases are non-contagious and, while not typically life-threatening, can significantly impair due to chronic pruritus and secondary complications like infections.

Global Epidemiology

Pemphigoid encompasses a group of rare autoimmune subepidermal blistering disorders, primarily (BP) and mucous membrane pemphigoid (MMP), with BP being the most prevalent subtype globally. The incidence of BP varies significantly by region, ranging from 0.21 cases per 100,000 person-years in to 7.63 per 100,000 in the . A and of studies from multiple continents reported a pooled cumulative incidence of 8.2 per million people per year (95% CI 4.8–13.7), corresponding to an incidence rate of 34.2 per million person-years (95% CI 19.2–60.7), or 3.42 per 100,000 person-years, though rates are higher in (pooled 10.3 per million cumulative incidence) and lower in (pooled 5.6 per million cumulative incidence). Prevalence estimates for BP similarly show geographic heterogeneity, from 1.46 per 100,000 in to 47.99 per 100,000 in the . These variations may reflect differences in population aging, diagnostic practices, and genetic factors. BP predominantly affects older adults, with a age at of 73.4 years (range 64–82.6 years), and exhibits a predominance, with a female-to-male ratio of 1.87 (ranging from 1.01 to 5.75). Incidence rates increase exponentially with , particularly above 70 years, aligning with the disease's with . In contrast, MMP is rarer, with an estimated annual incidence of 1 to 1.77 cases per million person-years in European populations such as and . Global data on MMP prevalence remain limited, but it also shows a slight predominance and typically onset in individuals aged 60–70 years, though cases can occur across all groups from infancy to elderly. Unlike BP, MMP has fewer reported geographic variations due to underdiagnosis, but studies suggest similar rarity in and . Trends indicate a rising incidence of over the past two decades, potentially driven by increasing , improved awareness, and triggers like medications in aging populations; for example, European rates have doubled in some regions since the . MMP incidence appears stable, though underreporting persists due to its insidious mucosal involvement. Overall, pemphigoid diseases impose a notable burden in elderly demographics, with higher rates in high-income countries reflecting demographic shifts.

Bullous Pemphigoid

Clinical Presentation

typically presents in individuals over the age of 60, with a peak incidence in those over 80 years. The condition often begins with a prodromal phase characterized by intense, generalized pruritus that may precede visible skin lesions by weeks to months, sometimes lasting up to several years in rare cases. During this phase, patients may develop erythematous or urticarial plaques, eczematous patches, or nonspecific papules on the , which can mimic other pruritic dermatoses. The bullous phase follows, marked by the appearance of tense, fluid-filled vesicles and bullae measuring 1 to 10 cm in diameter, often arising on normal-appearing or inflamed . These blisters contain clear or and are less prone to rupture than those in other blistering disorders, though they may become hemorrhagic in some instances; upon rupture, they form erosions or crusts that heal with postinflammatory . A negative Nikolsky sign—where friction does not induce blistering—is characteristic, distinguishing it from . Lesions commonly affect the , flexural areas such as the axillae, , and inner thighs, and the , particularly the forearms; the face, palms, soles, and mucous membranes are typically spared, though oral involvement occurs in up to 20% of cases and is usually mild. Pruritus remains prominent throughout, often severe enough to disrupt and daily activities, while constitutional symptoms like fever or are uncommon unless secondary develops. In about 20% of patients, bullae may be absent initially, presenting solely with pruritic plaques, necessitating clinical suspicion for . Clinical variants include the urticarial type, dominated by hive-like plaques without prominent bullae; the vesicular type, featuring smaller blisters; and rare forms such as erythrodermic or nodular pemphigoid, which may involve widespread or nodular lesions alongside blisters. Localized presentations can occur at sites of trauma, surgical scars, or stomas, while childhood —though exceptional—is often more widespread or acral in distribution. Eosinophilia in peripheral blood is frequently observed, correlating with disease activity.

Etiology

Bullous pemphigoid (BP) is an autoimmune blistering disorder characterized by the production of autoantibodies targeting hemidesmosomal proteins at the dermal-epidermal junction, primarily bullous pemphigoid antigen 180 (BP180, also known as type XVII collagen) and BP230 (BPAG1). These autoantibodies, predominantly IgG class (especially IgG4 subclass), disrupt adhesion between the epidermis and dermis, leading to subepidermal blister formation. The exact mechanisms initiating autoantibody production remain incompletely understood, but loss of immune tolerance is central, involving autoreactive T cells and dysregulated cytokine responses. Genetic predisposition plays a significant role in BP susceptibility, with strong associations identified in the (HLA) class II region. The HLA-DQB103:01 is consistently linked to increased risk across diverse populations, including , , and cohorts, conferring an of approximately 3-4 for disease development. Other HLA variants, such as HLA-DQA105 and certain DRB1 alleles, show population-specific associations, particularly in drug-induced cases. Non-HLA genes involved in innate immunity, including those regulating Toll-like receptors and production (e.g., IL-17 pathway), may also contribute to immune dysregulation, though their impact is less pronounced. Environmental triggers and risk factors are implicated in up to 15% of cases, often interacting with genetic susceptibility. Advanced age is the strongest demographic risk factor, with incidence rising sharply after 70 years (up to 300 cases per million in those over 80), likely due to and reduced regulatory T-cell function. Medications represent major inducers, particularly (DPP-4) inhibitors (e.g., vildagliptin, gliptins), which are associated with a 2- to 6-fold increased risk in epidemiological studies and higher reporting odds in data, accounting for over 100 reported cases, often within 1-13 months of initiation. Other drugs include PD-1/ inhibitors (e.g., nivolumab), diuretics (), and NSAIDs. Comorbidities such as neurological disorders (e.g., , ; prevalence 40-55%), , and malignancies (e.g., gastrointestinal cancers) heighten susceptibility, possibly through shared inflammatory pathways or spreading. Additional triggers encompass infections (e.g., viruses, C), physical insults (e.g., UV radiation, radiotherapy), and rarely vaccinations (e.g., ). No definitive dietary or lifestyle factors have been established.

Pathophysiology

Bullous pemphigoid (BP) is an autoimmune subepidermal blistering disorder driven by humoral and cellular immune responses targeting hemidesmosomal proteins in the dermal-epidermal junction. The primary autoantigens are BP180 (type XVII , also known as BPAG2) and BP230 (BPAG1-e), which anchor basal to the . Autoantibodies, predominantly IgG but also IgE, bind to conformational epitopes on these proteins, with the non-collagenous NC16A domain of BP180 serving as the immunodominant site in most patients. This autoantibody production arises from a breakdown in , potentially triggered by environmental factors such as drugs (e.g., inhibitors) or neurological comorbidities, though the precise initiating events remain incompletely understood. The pathogenic cascade begins with autoantibody deposition along the , activating both complement-dependent and independent pathways. Complement activation recruits and activates and the membrane attack complex, promoting degranulation and influx of inflammatory cells, including neutrophils and . Complement-independent mechanisms involve Fcγ receptor cross-linking on immune cells and direct signaling through , leading to the release of pro-inflammatory cytokines such as IL-6 and IL-8. A key process is the antibody-induced and degradation of BP180 via macropinocytosis in basal , which disrupts integrity and weakens without requiring complement. These events culminate in proteolytic degradation of the by enzymes like elastase and matrix metalloproteinase-9 (MMP-9), causing subepidermal cleft formation and tense development. Inflammation in BP is characterized by a type 2 immune skew, with autoreactive Th2 cells producing IL-4, IL-5, IL-13, and IL-31, which amplify recruitment and activation. , often comprising a significant portion of the perivascular infiltrate, release toxic granule proteins (e.g., , major basic protein) and proteases that directly mediate dermo-epidermal separation and contribute to pruritus. Dysregulated regulatory T cells fail to suppress this aberrant response, and spreading—from initial BP230 reactivity to BP180—may perpetuate chronicity. Single-cell analyses have revealed heterogeneous inflammatory profiles, including stromal-immune via IL-17 and gut-skin axis influences, underscoring the multifaceted . Overall, while IgG-driven mechanisms predominate in blister formation, IgE and involvement highlight the eosinophil-rich, pruritic typical of BP.

Diagnosis

Diagnosis of typically begins with clinical suspicion based on characteristic features in elderly patients, including tense subepidermal bullae on an erythematous or urticarial base, pruritus, and absence of mucosal involvement. A validated set of clinical criteria supports this initial assessment, requiring age greater than 70 years, absence of atrophic scars, absence of mucosal involvement, and absence of predominant head and neck bullae, achieving 90% sensitivity and 83% specificity when combined with findings. Confirmatory diagnosis relies on histopathological examination of a skin biopsy from perilesional skin, which reveals subepidermal blisters with a mixed inflammatory infiltrate predominantly composed of eosinophils. The gold standard is direct (DIF) of perilesional skin, demonstrating linear deposition of IgG and/or along the dermoepidermal junction, often with an n-serrated pattern specific to . DIF exhibits high sensitivity (82-90.5%) and specificity (98%) for the disease. Serological testing complements biopsy findings by detecting circulating autoantibodies. Indirect immunofluorescence (IIF) on salt-split human skin shows IgG binding to the epidermal roof of the split, supporting bullous pemphigoid over other subepidermal blistering disorders. Enzyme-linked immunosorbent assays (ELISAs) targeting BP180 (NC16A domain) and BP230 antigens are highly sensitive and specific; BP180 ELISA has a pooled sensitivity of 82.0% and specificity of 94.1%, while BP230 ELISA offers a pooled sensitivity of 58.6% and specificity of 94.8%, with combined use improving overall diagnostic performance. These assays are particularly useful for monitoring disease activity and in atypical or non-bullous presentations. In cases where fresh frozen tissue for DIF is unavailable, routine formalin-fixed paraffin-embedded (FFPE) tissue can serve as an alternative, detecting IgG, C3d, or C4d deposits along the dermoepidermal junction with 65-80% sensitivity and 75-95% specificity, though it is less reliable than DIF. Blood tests may also be performed to rule out comorbidities or triggers, such as drug-induced cases. According to S2k guidelines, is confirmed when three of four clinical criteria are met alongside positive DIF, or in non-bullous forms, by positive DIF and autoantibodies.

Management and Treatment

The management of (BP) focuses on achieving disease control, minimizing blister formation and pruritus, and preventing complications while reducing long-term exposure due to associated risks in elderly patients. Treatment is tailored to disease severity, assessed using tools like the Bullous Pemphigoid Disease Area Index (BPDAI), with mild disease defined as BPDAI <20 (limited extent), moderate as BPDAI 20-56, and severe as BPDAI >56 (extensive). Initial evaluation includes screening for comorbidities, such as neurological disorders, and excluding drug triggers like inhibitors. For mild or localized BP, high-potency topical corticosteroids (TCS), such as clobetasol propionate 0.05% cream at 10-30 g/day applied once or twice daily, are recommended as first-line therapy, often leading to control within weeks and tapered over 4-12 months. In moderate to severe cases, oral at 0.5 mg/kg/day (maximum 60 mg/day) combined with (20-40 g/day) is standard, aiming for rapid remission within 10-30 days; doses are tapered based on clinical response, such as new blister cessation. Supportive measures include wound care with non-adherent dressings, emollients for barrier support, and antihistamines or gabapentinoids for relief. If first-line therapy fails or steroid dependence occurs, second-line steroid-sparing immunosuppressants are introduced, such as methotrexate (7.5-15 mg/week subcutaneously), azathioprine (1-3 mg/kg/day, adjusted for thiopurine methyltransferase activity), or mycophenolate mofetil (2 g/day). For mild cases with corticosteroid contraindications, doxycycline (200 mg/day) plus nicotinamide (500 mg three times daily) or dapsone (up to 1.5 mg/kg/day) may be considered, though evidence is moderate and hemolysis risk requires glucose-6-phosphate dehydrogenase screening. In refractory or severe BP unresponsive to conventional therapies, biological agents are employed. Rituximab (1 g intravenously on days 0 and 14, repeatable) achieves complete remission in approximately 70% of cases, particularly in steroid-dependent patients, with low adverse event rates. (Dupixent), FDA-approved in June 2025 for adults with , is administered as an initial subcutaneous dose of 600 mg (two 300 mg injections), followed by 300 mg every other week. In the phase 3 LIBERTY-BP ADEPT trial, it reduced pruritus and scores by over 50% compared to , offering a corticosteroid-sparing option for moderate-to-severe disease. (300-600 mg subcutaneously every 4 weeks) is effective for pruritus-dominant cases, with partial or complete remission in about 68% of patients. Other options for recalcitrant disease include intravenous immunoglobulin (2 g/kg over 2-5 days monthly) or immunoadsorption. Monitoring involves clinical assessment (BPDAI, blister count) at baseline, week 2, and monthly thereafter, plus anti-BP180 IgG enzyme-linked immunosorbent assay () titers at days 0, 60, and 150 to predict response and relapse; titers >20 U/mL post-treatment indicate higher risk. Multidisciplinary care addresses comorbidities, with precautions for infections and prophylaxis in prolonged steroid use. Emerging therapies, including inhibitors and FcRn antagonists like efgartigimod, are under investigation for targeted . Adherence to S2K guidelines ensures , emphasizing individualized tapering to maintain remission.

Prognosis

Bullous pemphigoid (BP) is associated with a guarded , primarily due to its occurrence in elderly patients and frequent comorbidities, leading to substantial morbidity and mortality. The one-year mortality rate is approximately 23.5% globally, with cumulative rates reaching 22.8% at one year, 31.2% at three years, and 34.5% at five years in large cohorts. One-year survival rates vary from 74% to 90% depending on patient factors, often comparable to severe comorbidities like end-stage heart disease, with over 40% mortality in some untreated or advanced cases. Remission is achievable but often requires ongoing therapy, with complete remission off-therapy rates accumulating to 10.9% at one year, 32.9% at three years, and 47.5% at five years. However, relapse is common, affecting 73.6% of patients, with cumulative relapse rates of 21.9% at one year, 46.6% at three years, and 60.9% at five years. Prognostic models emphasize age and overall performance status; for instance, patients over 83 years with a Karnofsky score ≤40 exhibit a one-year survival of only 38%, compared to 90% for those ≤83 years with a score >40. Key adverse prognostic factors include older age at onset (hazard ratio [HR] 1.08 per year), extensive disease involvement (>10% body surface area, HR 7.19–9.84), positive anti-BP180 antibodies (HR 1.85), and comorbidities such as dementia (HR 2.26), stroke (HR 2.09), heart disease (HR 1.96), and diabetes mellitus (HR 2.39). Double-positive IgG/C3 deposition on direct immunofluorescence also worsens outcomes (HR 1.37), while prompt diagnosis and certain treatments like corticosteroids plus immunosuppressants can improve survival (HR 0.50). Factors like sex, hypertension, and lesion extent independent of severity do not significantly influence prognosis.

Mucous Membrane Pemphigoid

Clinical Presentation

Mucous membrane pemphigoid (MMP), also known as cicatricial pemphigoid, is a rare chronic autoimmune blistering disorder that primarily affects the mucous membranes, with possible skin involvement in 25–30% of cases. It typically presents in individuals aged 60–80 years, with a female predominance (ratio 1.5:1 to 7:1 depending on population). The disease is characterized by erosions, ulcers, and progressive scarring rather than tense bullae, distinguishing it from . Oral involvement occurs in up to 85% of patients, manifesting as , painful erosions on the gingiva, , or buccal mucosa, gingival bleeding, halitosis, and potential due to scarring. Ocular involvement affects 65–67% of cases, starting with chronic , burning, , and tearing, progressing to (adhesions between and ), entropion, corneal ulceration, and blindness in untreated cases. Other sites include the nasopharynx (20–40%), presenting with crusted nasal lesions, epistaxis, or ; larynx (5–15%), causing hoarseness, , or from ; esophagus (5–15%), leading to , , and strictures; and anogenital area (20%), with erosions, , or vaginal/anal strictures. Skin lesions, when present, are often tense blisters or atrophic scars on the head, , or , but mucous membranes are the predominant site. Symptoms are often insidious, with exacerbations and remissions, and constitutional symptoms like fever are rare unless secondary occurs. Sites are classified as low-risk (oral, ) or high-risk (ocular, pharyngeal, laryngeal, esophageal) based on scarring potential and morbidity.

Etiology

The exact etiology of MMP remains unknown, but it is an autoimmune disorder driven by loss of tolerance to zone (BMZ) components at the dermal-epidermal or epithelial-connective tissue junction. Genetic predisposition is implicated, with strong associations to HLA class II alleles, particularly HLA-DQB1*03:01, conferring increased susceptibility similar to other pemphigoid diseases. Environmental triggers are rare but include certain medications such as , nonsteroidal anti-inflammatory drugs, or inhibitors, though drug-induced MMP accounts for less than 10% of cases. Unlike , advanced age and female sex are key demographic risks, with incidence rising after age 50. Comorbidities such as malignancies (particularly in anti-laminin 332-positive cases, with 25–30% risk of solid tumors) or other autoimmune diseases may contribute via epitope spreading or shared inflammatory pathways. No definitive infectious, dietary, or lifestyle factors have been established.

Pathophysiology

MMP pathogenesis involves autoantibodies, primarily IgG but also IgA, targeting structural proteins of the BMZ, leading to subepithelial separation, inflammation, and fibrosis. Key autoantigens include the C-terminal portion of BP180 (type XVII collagen), laminin 332 (formerly laminin 5), and integrin β4/α6, with laminin 332 being the most common in scarring variants (detected in 40–50% of cases). Antibody binding activates complement, recruits inflammatory cells (neutrophils, eosinophils, lymphocytes), and induces protease release (e.g., matrix metalloproteinases), causing dermo-epidermal detachment. Unlike non-scarring pemphigoids, MMP promotes fibroblast activation and excessive collagen deposition, resulting in cicatrization. The NC16A domain of BP180 is less frequently targeted compared to bullous pemphigoid. Inflammatory cytokines (e.g., IL-6, TGF-β) drive chronicity, and in high-risk sites, persistent inflammation leads to adhesions and strictures. Circulating autoantibodies are present in 50–70% of patients, with epitope spreading potentially exacerbating multi-site involvement.

Diagnosis

Diagnosis of MMP requires integration of clinical findings, , and , as symptoms can mimic infections, , or Stevens-Johnson syndrome. Clinical suspicion arises from chronic erosive/scarring lesions in mucous membranes of patients over 50, particularly with or ocular . Multiple biopsies (from perilesional mucosa/) are recommended due to sampling variability. shows subepithelial clefting with a mixed inflammatory infiltrate of lymphocytes, plasma cells, and , without . Direct (DIF) on perilesional tissue is the gold standard, revealing linear deposition of IgG, IgA, and/or along the BMZ (sensitivity 80–90%, specificity >95%); salt-split may show epidermal or dermal staining depending on the antigen. Serologic testing via enzyme-linked immunosorbent assay () detects circulating autoantibodies to BP180 (sensitivity ~50%), 332 (~70% in scarring forms), or , aiding in subclassification and monitoring; indirect (IIF) on monkey or salt-split skin has lower sensitivity (50–60%) but supports . In ocular MMP, conjunctival is preferred. According to 2022 S2k guidelines, is confirmed by clinical features plus positive DIF, with serology for antigen mapping. Screening for is advised in anti- 332-positive cases. Differential includes acquisita, linear IgA disease, and paraneoplastic .

Management and Treatment

Management of MMP is guided by disease extent, site involvement, and scarring risk, aiming to control , prevent progression, and preserve function; early intervention is crucial for high-risk sites. Mild/low-risk (limited oral/skin) is treated with topical corticosteroids (e.g., 0.05% ointment or gel applied 2–4 times daily) or intralesional steroids, often combined with topical inhibitors (e.g., 0.1%) for oral/ocular use. Dapsone (50–200 mg/day, after G6PD screening) is first-line for mild-moderate cases responsive to it (up to 70% efficacy), providing steroid-sparing effects. Supportive care includes , ocular lubricants, and dressings. For moderate-severe or high-risk disease (ocular, laryngeal, esophageal), is essential: (0.5–1 mg/kg/day) plus steroid-sparing agents like (1–2.5 mg/kg/day, TPMT-adjusted), mycophenolate mofetil (2 g/day), or (7.5–15 mg/week). High-risk cases require (1–2 mg/kg/day oral or pulsed IV) with corticosteroids, achieving remission in 70–80% but with risks of and . Refractory disease uses biologics: rituximab (1 g IV on days 0 and 14, repeated as needed) induces remission in 75–90% of cases, per 2022 S2k guidelines; intravenous immunoglobulin (2 g/kg monthly) or for specific subsets. Site-specific: ocular MMP may involve amniotic membrane grafts; esophageal strictures require dilation post-remission. Multidisciplinary care (, , ENT) is recommended, with monitoring via clinical scores (e.g., Ocular Scarring Score) and titers. Emerging therapies include FcRn inhibitors, under investigation as of 2025.

Prognosis

MMP follows a , relapsing course with variable depending on site and response; overall mortality is low (5–10%), but morbidity is high due to scarring. Ocular involvement leads to blindness in –25% of untreated cases, while laryngeal/esophageal disease risks airway obstruction or (mortality up to 20% in severe strictures). Remission rates vary: 40–60% achieve partial/complete response with first-line therapy, but relapses occur in 50–70%, often requiring lifelong . Anti-laminin 332-positive patients have a 25% risk, necessitating . Prognostic factors include early (improves outcomes), high-risk site involvement (worse), and comorbidities (e.g., age >70, HR 2–3 for progression). Long-term survival exceeds 80% at 5 years with aggressive management, but is impacted by functional losses; regular follow-up reduces complications.

Pemphigoid Gestationis

Clinical Presentation

Pemphigoid gestationis (PG), formerly known as herpes gestationis, is a rare autoimmune blistering disorder that typically manifests during , most commonly in the second or third , though it can occur in the first , at delivery, or postpartum. The condition begins with an abrupt onset of intense, severe pruritus, often starting in the periumbilical region of the abdomen, which may precede visible lesions by days to weeks. Initial skin findings include polymorphic lesions such as erythematous urticarial papules and plaques, annular or polycyclic configurations, and eczematous patches, which can mimic (PUPPP) but characteristically involve the umbilicus. Within days to weeks, the urticarial phase progresses to a bullous phase in over 65% of cases, featuring tense, serous- or blood-filled vesicles and bullae (1–3 cm in diameter) that arise on normal or inflamed skin, spreading centrifugally to the , proximal , palms, and soles. Lesions may become widespread, covering up to 80% of the in severe cases. The face and mucous membranes are usually spared, though mild oral involvement occurs rarely. Pruritus is often debilitating, interfering with and daily activities, while systemic symptoms like fever are uncommon unless secondary develops. Postpartum flares occur in about 75% of cases, typically within the first week after delivery. In multiparous women, the disease may present more severely or earlier in gestation. Neonatal involvement, termed "neonatal pemphigoid gestationis," affects approximately 5–10% of newborns, presenting with transient annular erythematous plaques or mild bullae that resolve within weeks without scarring. The condition recurs in 30–50% of subsequent pregnancies, often starting earlier (e.g., first ) and with greater intensity, and may also flare with or oral contraceptive use.

Etiology

Pemphigoid gestationis is an autoimmune disorder triggered by a loss of maternal to skin antigens, leading to the production of autoantibodies against hemidesmosomal proteins at the dermal-epidermal junction. The primary autoantigens are BP180 (type XVII collagen) and, less commonly, BP230 (BPAG1), similar to but occurring in the context of . The initiating event is thought to involve between placental zone antigens and skin hemidesmosomes, possibly due to increased expression of ( molecules on trophoblasts, exposing hidden epitopes. Genetic predisposition is significant, with strong associations to (HLA) alleles, particularly HLA-DR3 (DRB103:01) in 61–80% of cases and (DRB104:01/04:XX) in 52–53%, conferring increased susceptibility across ethnic groups. No specific environmental triggers beyond have been definitively identified, though multiple , unrelated to partner change, may increase risk. The incidence is estimated at 1 in 10,000–50,000 pregnancies worldwide, with no clear ethnic predilection, though it appears more common in White populations. Comorbidities include an elevated risk of (10–20% of cases), possibly due to shared autoimmune mechanisms.

Pathophysiology

The pathophysiology of pemphigoid gestationis mirrors that of but is uniquely tied to pregnancy-induced immune dysregulation. Autoantibodies, predominantly IgG1 and IgG3 subclasses, target the extracellular domain of BP180, particularly the NC16A region, binding to the zone and activating complement via the classical pathway. This leads to deposition and recruitment of inflammatory cells, including and neutrophils, which release proteases (e.g., matrix metalloproteinase-9) and toxic granule proteins that degrade hemidesmosomes and cause subepidermal separation. Pregnancy-related factors contribute to : the expresses MHC class II antigens, potentially stimulating maternal T-helper cells and breaking self-tolerance. Th2-skewed immune responses, elevated in , amplify activation and production (e.g., IL-4, IL-5), exacerbating pruritus and . Complement-independent mechanisms, such as antibody-mediated of BP180, further weaken dermoepidermal . Histologically, early lesions show dermal with perivascular lymphocytic and infiltrates, progressing to subepidermal blisters filled with . Placental transfer of maternal IgG autoantibodies explains neonatal , though fetal outcomes are generally favorable. Recent studies (as of 2024) highlight potential roles for regulatory T-cell dysfunction and gut-skin axis influences in sustaining the autoimmune response.

Diagnosis

Diagnosis of pemphigoid gestationis relies on a combination of clinical presentation in a pregnant patient, histopathological findings, and studies to differentiate it from other pruritic dermatoses of pregnancy, such as PUPPP or atopic eruption of pregnancy. Clinical suspicion arises from pruritic urticarial plaques around the umbilicus progressing to bullae, absent in PUPPP. A perilesional is essential, revealing subepidermal vesicles or bullae with a mixed inflammatory infiltrate rich in (>20 per ) and papillary dermal edema; early lesions may show only without blisters. The gold standard confirmatory test is direct (DIF) of perilesional skin, demonstrating linear deposition of (in 100% of cases) and IgG (in 40–50%) along the zone, often with an n-serrated pattern. Indirect (IIF) on salt-split skin shows IgG binding to the epidermal roof, supporting the . Serological enzyme-linked (ELISA) for anti-BP180 NC16A IgG antibodies has high sensitivity (86–97%) and specificity (95–100%), aiding in monitoring disease activity and predicting flares; anti-BP230 antibodies are less common. In resource-limited settings, C4d on formalin-fixed tissue can detect complement activation with 80–90% sensitivity. Blood tests may reveal peripheral (up to 30%) and elevated total IgE, but routine labs are otherwise nonspecific. excludes polymorphic eruption of (no bullae, spares umbilicus) and (infectious).

Management and Treatment

Management of pemphigoid gestationis aims to alleviate pruritus, suppress blister formation, and ensure maternal-fetal safety, with treatment tailored to severity and . Mild cases, limited to <20% , are managed with high-potency topical corticosteroids (e.g., clobetasol propionate 0.05% ointment, 10–30 g/day) combined with emollients and oral antihistamines (e.g., hydroxyzine 25 mg at bedtime or nonsedating options like cetirizine). These measures control symptoms in 50–70% of patients without systemic therapy. For moderate to severe disease or extensive involvement (>20% body surface area), systemic corticosteroids are first-line, typically or prednisolone at 0.5–1 mg/kg/day (maximum 60 mg/day), initiated after 12–16 weeks to minimize fetal risks; doses are tapered based on clinical response (e.g., cessation within 1–2 weeks). In the third or postpartum, higher doses may be used. Supportive care includes wound dressings for erosions, prophylaxis, and fetal monitoring for preterm labor. is encouraged, as topical agents are safe. Refractory cases or contraindications to steroids warrant second-line agents: dapsone (50–100 mg/day, after screening) is effective postpartum but avoided antepartum due to risk; intravenous immunoglobulin (IVIG, 1–2 g/kg over 2–5 days, monthly) is safe in for steroid-sparing. Emerging biologics include rituximab (postpartum) and (300 mg subcutaneously every 2–4 weeks), which showed promise in case reports for refractory pruritus and bullae as of 2024, with minimal fetal risk. Immunosuppressants like or cyclosporine are reserved for severe postpartum flares. Multidisciplinary care involving , , and is recommended, with delivery mode (vaginal preferred) not altered unless obstetric indications exist.

Prognosis

Pemphigoid gestationis is generally self-limiting with a favorable maternal , resolving spontaneously within 2–12 weeks postpartum in most cases (mean duration 7–9 months), though residual postinflammatory may persist. occurs in 30–50% of subsequent pregnancies, typically earlier and more severe, and in 10–20% with hormonal triggers like or therapy. Long-term sequelae are rare, but there is a 10–20% risk of developing other autoimmune diseases, particularly . Fetal risks include (20–30% of cases), , and small-for-gestational-age infants (up to 20%), attributed to placental involvement or treatment effects, but overall is low (<5%). Neonatal pemphigoid gestationis affects 5–10% of infants, presenting as mild, self-resolving lesions without scarring or long-term effects. Prompt treatment improves maternal comfort and may reduce preterm delivery rates. As of 2024, no increased risk of congenital anomalies has been linked to the disease or standard therapies.