Delayed postburn blisters: an immunohistochemical and ultrastructural study

Local tissue flaps: definitive treatment for chronic blisters after chemical burns

Chronic blistering in grafted burn wounds is an infrequently described but severely debilitating complication that can appear after alkali burns and seems to coincide with a delay in initial treatment. Histological studies have concluded that the pathogenesis of chronic subepidermal blister formation in previously grafted burn wounds is related to abnormalities in the basement membrane. Although several reports have described this problem, none have reported adequate treatment for the chronic blistering in previously grafted alkali burns. The authors describe the case of a 30-year-old man in whom caustic soda burns treated with excision and split-thickness skin grafting resulted in chronic subepidermal blistering that failed to improve over the next 2 years. The problem was resolved with full-thickness skin excision and reconstruction with bipedicled fasciocutaneous flaps.

Dyskeratosis as a histologic feature in epidermolysis bullosa simplex-Dowling Meara

BACKGROUND

Intracellular keratin aggregation and clumping is a characteristic ultrastructural feature in epidermolysis bullosa simplex (EBS)-Dowling Meara (DM) yet without histologic correlates in routinely stained specimens.

OBJECTIVE

We sought to detect histologic clues to keratin aggregation and clumping in the involved epidermis of EBS-DM.

METHODS

Four cases of EBS-DM caused by dominant keratin (KRT)5 and KRT14 mutations were studied histologically and ultrastructurally. The histologic slides of 11 additional EBS cases (9 Weber-Cockayne subtypes and two Koebner subtypes) were also reviewed histologically.

RESULTS

Intracytoplasmic aggregation and clumping of tonofilaments were observed ultrastructurally in all 4 EBS-DM cases. Intracytoplasmic eosinophilic homogenizations and inclusions (ie, dyskeratosis) in individual keratinocytes were detected histologically in 3 of the 4 EBS-DM cases, but in none of the 9 EBS-Weber-Cockayne cases or the two EBS-Koebner cases.

LIMITATIONS

This was a relatively small studied group.

CONCLUSION

The histopathological detection of dyskeratosis in individual keratinocytes may provide a valuable clue to keratin aggregation and clumping, and to the diagnosis in EBS-DM.

New skin-equivalent model from de-epithelialized amnion membrane

The presence of pre-existing basement membrane (BM) components improves the morphogenesis of epidermis and BM in constructing a human living skin-equivalent (LSE). De-epithelialized amniotic membrane (AM) retains key BM components. We have therefore investigated the usefulness of AM for constructing LSE. De-epithelialized AM was overlaid on type I collagen gel embedded with fibroblasts. Normal human keratinocytes (NHKs) were then seeded onto the epithelial side of the AM to construct an AM-LSE. A conventional LSE was constructed by seeding NHKs on a fibroblast-populated type I collagen gel. When the keratinocytes reached confluence, the LSE was lifted to the air-liquid interface and cultured for up to 3 weeks. Samples were harvested at various times and investigated morphologically, immunohistochemically, and ultrastructurally. In AM-LSE, the epidermis was better stratified, with more compact, polarized, columnar basal cells, and the expression of differentiation and proliferation markers was more similar to that of normal human skin than was that of LSE without AM. A more continuous BM and better-developed hemidesmosomes were found in AM-LSE. The epidermis of AM-LSE outgrew much faster than that of LSE without AM. When transplanted onto nude mice, both LSEs took well; however, the AM-LSE graft showed better morphogenesis of the epidermis, BM, and hemidesmosomes. The better epidermal morphology and better-developed BM in AM-LSE in vitro and in vivo indicates its superiority over LSE without AM for clinical applications.

The problem of subepidermal blisters in neoformed integuments

The present paper is a review of articles on the onset of subepidermal blisters in neoformed integuments. Considering the discrepancy between the literature data and our clinical experience concerning spontaneous onset of subepidermal blisters in neoformed integuments, we decided to conduct an extensive review of the literature. The main finding arising from it was the lack of characterization of the neoformed integument where the blisters were formed. These were normally referred to only by clinical descriptions such as "spontaneously healed burn", "grafted site", "donor site", "epidermal graft". Anatomical and clinical pathology aspects such as the formation mechanism of these integuments and the respective tissues that comprise them were not considered. We concluded that by adopting more precise criteria to classify neoformed integuments we would realize that split thickness grafts are not susceptible to blister formation.

Absence of intraepidermal glycosyltransferase ppGalNac-T3 expression in familial tumoral calcinosis

Hyperphosphatemic familial tumoral calcinosis (HFTC) is a rare autosomal recessive disorder characterized by progressive, tumor-like calcifications in the dermis and subcutaneous tissues. The disease is associated with primary hyperphosphatemia due to increased renal tubular reabsorption of phosphate. We recently identified mutations in GALNT3 as the proximal cause of this metabolic disorder. GALNT3 encodes the glycosyltransferase UDP-N-acetyl-alpha-D-galactosamine:polypeptide N-acetylgalactosaminyl-transferase 3 (ppGalNAc-T3), which initiates mucin-type O-glycosylation and thus takes part in posttranslational modification and formation of mucin-type glycoproteins. A number of studies have previously described the histopathological and ultrastructural features of lesional skin in HFTC, but little is currently known about the morphology of the normal-appearing non-lesional skin. We obtained biopsies of uninvolved skin from two HFTC patients carrying a known splice site mutation in GALNT3. Light and electron microscopic examination of a biopsy of one of the two patients did not reveal abnormal findings in the epidermis or dermis. However, immunohistochemical studies of frozen skin sections of biopsies of the two patients using monoclonal antibodies directed against three ppGalNac isoforms revealed the complete absence of immunostaining for ppGalNAc-T3 while the staining pattern for ppGalNAc-T2 and -T6 was identical in skin biopsies obtained from HFTC patients and healthy control individuals. Our data provide for the first time evidence for ppGalNAc-T3 deficiency in the skin of HFTC patients and suggest that immunostaining of skin biopsy samples for ppGal-Nac-T3 might be a useful tool for the diagnosis of HFTC.

Homozygous splice site mutations in PKP1 result in loss of epidermal plakophilin 1 expression and underlie ectodermal dysplasia/skin fragility syndrome in two consanguineous families

During the last years, a growing number of inherited skin disorders have been recognized to be caused by abnormal function of desmosomal proteins. In the present study, we describe the first female individuals affected with the ectodermal dysplasia/skin fragility syndrome (MIM604536), a rare autosomal recessive disease due to mutations in the PKP1 gene encoding plakophilin 1, a critical component of desmosomal plaque. One patient was shown to carry a homozygous splice site mutation in intron 4. The second patient displayed a homozygous recurrent mutation affecting the acceptor splice site of intron 1. Both mutations were associated with intraepidermal separation, widening of intercellular spaces, and abnormal desmosome ultrastructure, and were found to result in the absence of immunoreactive plakophilin 1 in the epidermis of the affected individuals. These two cases emphasize the role of molecular genetics in the assessment of congenital blistering in newborns and illustrate the importance of proper desmosomal activity for normal epidermis development and function.

A comparative study of immunohistochemistry and electron microscopy used in the diagnosis of epidermolysis bullosa

Electron microscopic examination still is the gold standard for classifying epidermolysis bullosa, although it is relatively expensive, time consuming, and not readily available. Immunoreagents have been developed recently to map antigens in the basement membrane on routinely processed specimens. The current study was performed to examine the diagnostic usefulness of immunohistochemistry, as compared with electron microscopic examination, for analyzing routine formalin-fixed paraffin-embedded sections of epidermolysis bullosa. This study investigated 39 consecutively diagnosed cases of epidermolysis bullosa in which both electron microscopic examination and immunohistochemistry were used. In each case, three monoclonal antibodies were used to stain for laminin 1, collagen IV, and keratin. The immunohistochemical patterns were defined as follows: epidermolysis bullosa simplex (laminin, collagen IV, or both at the dermal floor of the blister and keratin at both the dermal floor and the epidermal roof), junctional epidermolysis bullosa (laminin, collagen IV, or both at the dermal floor of the blister and keratin only at the epidermal roof), and dystrophic epidermolysis bullosa (collagen IV, laminin, or both, and keratin all at the epidermal roof). Altogether, electron microscopic examination subclassified epidermolysis bullosa into its three major forms in 37 of the 39 cases (95%), and immunohistochemistry in 33 of the 39 cases (85%). All of the classifiable cases were concordant. Specifically, immunohistochemistry was diagnostic in 10 of 14 (71%) epidermolysis bullosa simplex cases, 14 of 14 (100%) junctional epidermolysis bullosa cases, and 9 of 11 (82%) dystrophic epidermolysis bullosa cases. The most frequent cause for inconclusive immunohistochemical results was failure in staining of the basement membrane with the antibodies to both laminin and collagen IV. In conclusion, the use of immunohistochemistry on routinely processed specimens may be useful for subclassifying epidermolysis bullosa into its major forms in the majority of the cases, although it still cannot fully replace electron microscopic examination or immunofluorescence mapping in the diagnosis of epidermolysis bullosa.

DNA based prenatal testing for the skin blistering disorder epidermolysis bullosa simplex

Epidermolysis bullosa simplex (EBS) is a skin fragility disorder in which mild physical trauma leads to blistering. The phenotype of the disorder is variable, from relatively mild affecting only the hands and/or feet, to very severe with widespread blistering. For the severest forms of EBS there is a demand for prenatal diagnosis which until now has involved a fetal skin biopsy in the second trimester. The identification of mutations in the genes encoding keratins K5 and K14 as the cause of EBS opens up the possibility of much earlier diagnosis of the disease. We report here four cases in which prenatal testing was performed. In three of the cases the genetic lesions were unknown at the start of the pregnancy, requiring the identification of the causative mutation prior to testing fetal DNA. In two of the four cases novel mutations were identified in K14 and in the two remaining families, a previously identified type of mutation was found. Fetal DNA, obtained by chorionic villus sampling or amniocentesis, was analysed for the identified mutations. Three of the DNA samples were found to be normal; a mutant K14 allele was identified in the fourth case and the pregnancy was terminated. These results demonstrate the feasibility of DNA-based prenatal testing for EBS in families where causative mutations can be found.