Blue light‐emitting diode technology‐operated microscopy is preferable to both short arc mercury lamp‐operated microscopy and laser scanning confocal microscopy for direct immunofluorescence images evaluation in routinely diagnosing subepidermal autoimmune blistering diseases

Gornowicz‐Porowska, Justyna; Bowszyc‐Dmochowska, Monika; Raptis-Bolwach, M.; Seraszek‐Jaros, Agnieszka; Kaczmarek, Elżbieta; Dmochowski, Marian

doi:10.1002/jemt.23339

Cited by 7 publications

(7 citation statements)

References 26 publications

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“…DIF can be visualized with short arc mercury lamp-operated microscopy, blue light-emitting diode technologyoperated microscopy and laser scanning confocal microscopy [5] (Figure 1). Conceptually, a super/high resolution microscopy technique known under the acronym STED (stimulated emission depletion) [6], if adapted for the routine laboratory use, should also be useful for evaluation DIF images, especially as nowadays it can be fixed to the microscope of any type utilizing just the shoebox size equipment.…”

Section: Direct Immunofluorescence: Present and Futurementioning

confidence: 99%

An update on direct immunofluorescence for diagnosing dermatitis herpetiformis

Dmochowski

Gornowicz‐Porowska

Bowszyc‐Dmochowska

2019

pdia

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This mini-review presents an update on the direct immunofluorescence (DIF) for diagnosing dermatitis herpetiformis. The DIF of uninvolved, perilesional skin is a crucial laboratory procedure in diagnosing dermatitis herpetiformis (DH). IgA deposits at the dermal-epidermal junction (DEJ) of perilesional skin with DIF can also be found in coeliac patients with inflammatory skin diseases different from DH. In certain patients presenting with the rash resembling DH, the deposition of exclusively C3 at DEJ can be found. The term "granular C3 dermatosis" was proposed to name such a rash. Recent data on DH suggest that perhaps the very concept of DH that we are universally accepting now is misleading and should be revised.

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Section: Direct Immunofluorescence: Present and Futurementioning

confidence: 99%

An update on direct immunofluorescence for diagnosing dermatitis herpetiformis

Dmochowski

Gornowicz‐Porowska

Bowszyc‐Dmochowska

2019

pdia

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“…In order to limit subjectivity, the assessment of DIF specimens for unequivocal identification of the types of immunoreactants present was performed by two independent evaluators, using two different fluorescence microscopic systems: blue light-emitting diode technology-operated microscopy (EuroStar III Plus microscope, Euroimmun, Germany) (concluded to be preferable for routine laboratory diagnostics of ABDs) and short arc mercury lamp-operated microscopy (BX40, Olympus, Japan) at identical objective magnifications (20×, 40×) [ 25 ].…”

Section: Methodsmentioning

confidence: 99%

Conceptualization and validation of an innovative direct immunofluorescence technique utilizing fluorescein conjugate against IgG + IgG4 for routinely diagnosing autoimmune bullous dermatoses

Jałowska¹,

Gornowicz‐Porowska²,

Seraszek‐Jaros³

et al. 2021

cejoi

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Introduction: Autoimmune bullous diseases (ABDs) are potentially life-threatening mucocutaneous illnesses that require diagnosis with direct immunofluorescence (DIF). In this study we compared the diagnostic accuracy of traditional DIF (DIFt; separate immunoglobulin (Ig) G, IgG1, IgG4, IgA, IgM and C3 deposits detection) and modified DIF (DIFm; simultaneous IgG + IgG4 deposits detection instead of separate IgG and IgG4 deposits detection) in routine diagnostics of ABDs.Material and methods: Eighteen patients with ABDs (7 with pemphigus dermatoses and 11 with subepithelial ABDs) were evaluated with DIFt and DIFm.Results: The agreement of detectability of IgG immunoreactants was obtained in 16 ABD cases (88.89%), as positive results in both DIFt and DIFm were obtained in 13 cases and negative results in both DIFt and DIFm were obtained in 3 cases. One ABD case (Brunsting-Perry pemphigoid) (5.56%) was negative in DIFm with a positive DIFt result (IgG1 deposits). One ABD case (bullous pemphigoid) (5.56%) had only C3 deposits in DIFt with a positive DIFm reading (IgG + IgG4 deposits). A statistically significant relationship (p = 0.0186) between DIFm and DIFt results was revealed using Fisher's exact test.Conclusions: Both DIFt and DIFm are useful methods to detect deposition of IgG immunoreactants, but it seems that the innovative DIFm method slightly increases the detectability of IgG/IgG4 immunoreactants in relation to DIFt. The introduction of DIFm into routine laboratory diagnostics of ABDs seems to be justified, as it enables the abandonment of separate FITC conjugates for IgG and IgG4, which is important for cost-effectiveness.

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“…The slides were then coverslipped and examined. Skin samples were examined by up to three independent observers using up to three methods, including blue light-emitting diode technology-operated microscopy (EuroStar III Plus microscope, Euroimmun, Germany), short arc mercury lamp-operated microscopy (BX40, Olympus, Japan) and laser-scanning confocal microscopy (the ZEISS LSM510 system with Axiovert 200M laser-scanning confocal microscope, Carl Zeiss Jena GmbH, Germany) [24].…”

Section: Direct Immunofluorescence and Microscopic Examinationmentioning

confidence: 99%

A Comparative Analysis of CD32A and CD16A Polymorphisms in Relation to Autoimmune Responses in Pemphigus Diseases and Subepithelial Autoimmune Blistering Disorders

Gornowicz‐Porowska

Kowalczyk

Seraszek‐Jaros

et al. 2020

Genes

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Autoimmune blistering dermatoses (ABDs) are characterized by autoantibodies to keratinocyte surface antigens and molecules within the dermal–epidermal junction causing disruption of skin integrity. The affinity of Fc receptors (FcRs) causing an autoimmune response in ABDs may vary based on single-nucleotide polymorphisms (SNPs) in FcRs determining the course of disease. This study aimed to explore the effects of CD16A and CD32A SNPs on the autoimmune response in several ABDs. In total, 61 ABDs patients were investigated. ELISA tests, direct immunofluorescence (DIF), TaqMan SNP Genotyping Assays, and statistical analyses were performed. The CA genotype (composed of allele C and A) of rs396991 in CD16A had a higher affinity for tissue-bound IgG1 in pemphigus and for C3 in subepithelial ABDs, showing statistical significance. The greatest relative risk (odds ratio) was reported for AA (rs396991 of CD16A) and CC (rs1801274 of CD32A) homozygotes. There were no statistically significant differences between certain genotypes and specific circulating autoantibodies (anti-DSG1, anti-DSG3 IgG in pemphigus; anti-BP180, anti-BP230 IgG) in subepithelial ABDs. Our findings indicated that rs396991 in CD16A may be of greater importance in ABDs development. Moreover, FcR polymorphisms appeared to have a greater impact on tissue-bound antibodies detected using DIF than circulating serum antibodies in ABDs.

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Blue light‐emitting diode technology‐operated microscopy is preferable to both short arc mercury lamp‐operated microscopy and laser scanning confocal microscopy for direct immunofluorescence images evaluation in routinely diagnosing subepidermal autoimmune blistering diseases

Cited by 7 publications

References 26 publications

An update on direct immunofluorescence for diagnosing dermatitis herpetiformis

An update on direct immunofluorescence for diagnosing dermatitis herpetiformis

Conceptualization and validation of an innovative direct immunofluorescence technique utilizing fluorescein conjugate against IgG + IgG4 for routinely diagnosing autoimmune bullous dermatoses

A Comparative Analysis of CD32A and CD16A Polymorphisms in Relation to Autoimmune Responses in Pemphigus Diseases and Subepithelial Autoimmune Blistering Disorders

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