Feasibility study of ultrasound-guided resection of tongue cancer with immediate specimen examination to improve margin control - Comparison with conventional treatment

Objectives: Squamous cell carcinoma of the tongue (SCCT) is preferably treated by surgery. Free resection margins (> 5 mm) provide local control and disease-free survival. However, close (1-5 mm) and positive margins (< 1 mm) are frequently encountered. We present our first experience of in-vivo ultrasound (US) guided SCCT resections followed by ex-vivo US control on the resection specimen to obtain free margins. We compare the results with those from a hisorical cohort of 91 conventionally treated SCCT patients. Materials and methods: Ten patients with SCCT were included in a consecutive US-cohort. We aimed for a 5-10 mm margin during surgery, while we visualized the resection plane on US. Ex-vivo US measurements on the resection specimen determined whether there was any need for an immediate re-resection. US measurements were then compared with histopathology. Histopathological margins were compared with a consecutive cohort of 91 patients who had undergone conventional surgery for a SCCT. Results: In the US cohort, 70% of the margins were free. In the conventional cohort, this figure was 17% (P = 0.005). US predicted minimal histopathological margin distance with a mean +/- SD error of 1.9 +/- 1.8 mm. The mean +/- SD of the histopathological overall submucosal/deep margin distance was 7.9 +/- 2.1 mm in the US cohort and 7.0 +/- 2.2 mm in the conventional cohort (P = 0.188). Ex-vivo examination through use of US indicated an immediate re-resection, which prevented local adjuvant treatment. Conclusion: Use of US-guided SCCT resection is feasible and improves margin control

Feasibility study of ultrasound-guided resection of tongue cancer with immediate specimen examination to improve margin control - Comparison with conventional treatment

Objectives: Squamous cell carcinoma of the tongue (SCCT) is preferably treated by surgery. Free resection margins (&gt; 5 mm) provide local control and disease-free survival. However, close (1-5 mm) and positive margins (&lt; 1 mm) are frequently encountered. We present our first experience of in-vivo ultrasound (US) guided SCCT resections followed by ex-vivo US control on the resection specimen to obtain free margins. We compare the results with those from a hisorical cohort of 91 conventionally treated SCCT patients. Materials and methods: Ten patients with SCCT were included in a consecutive US-cohort. We aimed for a 5-10 mm margin during surgery, while we visualized the resection plane on US. Ex-vivo US measurements on the resection specimen determined whether there was any need for an immediate re-resection. US measurements were then compared with histopathology. Histopathological margins were compared with a consecutive cohort of 91 patients who had undergone conventional surgery for a SCCT. Results: In the US cohort, 70% of the margins were free. In the conventional cohort, this figure was 17% (P = 0.005). US predicted minimal histopathological margin distance with a mean +/- SD error of 1.9 +/- 1.8 mm. The mean +/- SD of the histopathological overall submucosal/deep margin distance was 7.9 +/- 2.1 mm in the US cohort and 7.0 +/- 2.2 mm in the conventional cohort (P = 0.188). Ex-vivo examination through use of US indicated an immediate re-resection, which prevented local adjuvant treatment. Conclusion: Use of US-guided SCCT resection is feasible and improves margin control.</p

Effect of allergens and irritants on levels of natural moisturizing factor and corneocyte morphology

BACKGROUND: The irritant sodium lauryl sulfate (SLS) is known to cause a decrease in the stratum corneum level of natural moisturizing factor (NMF), which in itself is associated with changes in corneocyte surface topography. ----- OBJECTIVE: To explore this phenomenon in allergic contact dermatitis. ----- METHODS: Patch testing was performed on patients with previously positive patch test reactions to potassium dichromate (Cr), nickel sulfate (Ni), methylchloroisothiazolinone (MCI)/methylisothiazolinone (MI), or p-phenylenediamine. Moreover, a control (pet.) patch and an irritant (SLS) patch were applied. After 3 days, the stratum corneum from tested sites was collected, and NMF levels and corneocyte morphology, expressed as the amount of circular nanosize objects, quantified according to the Dermal Texture Index (DTI), were determined. ----- RESULTS: Among allergens, only MCI/MI reduced NMF levels significantly, as did SLS. Furthermore, only MCI/MI caused remarkable changes at the microscopic level; the corneocytes were hexagonal-shaped with pronounced cell borders and a smoother surface. The DTI was increased after SLS exposure but not after allergen exposure. ----- CONCLUSIONS: MCI/MI significantly decreased NMF levels, similarly to SLS. The altered corneocyte morphology suggests that skin barrier damage plays a role in the pathogenesis of MCI/MI contact allergy. The DTI seems to differentiate reactions to SLS from those to the allergens tested, as SLS was the only agent that caused a DTI increase

Efficacy of a Cream Containing Ceramides and Magnesium in the Treatment of Mild to Moderate Atopic Dermatitis: A Randomized, Double-blind, Emollient- and Hydrocortisone-controlled Trial

The aim of this randomized controlled trial was to assess the efficacy of a cream containing ceramides and magnesium (Cer-Mg) in the treatment of mild to moderate atopic dermatitis and to compare it with hydrocortisone and a commonly used emollient (unguentum leniens; cold cream). A total of 100 patients, randomized into 2 groups, were treated for 6 weeks simultaneously (left vs. right side of the body) with either Cer-Mg and hydrocortisone (group I) or Cer-Mg and emollient (group II). The primary outcome was a reduction in severity of lesions as assessed by (local) SCORAD (SCORing Atopic Dermatitis). Levels of trans-epidermal water loss (TEWL), skin hydration, and natural moisturizing factors (NMF) were then measured. After 6 weeks, group I showed comparable significant improvement in SCORAD and TEWL, while in group II, the decrease in SCORAD and TEWL was significantly greater after Cer-Mg compared with emollient. Finally, Cer-Mg cream was more effective in improving skin hydration and maintenance of levels of NMF than hydrocortisone and emollien

Stratum Corneum Tape Stripping: Monitoring of Inflammatory Mediators in Atopic Dermatitis Patients Using Topical Therapy

The aim of this study was to explore the tape strip sampling technique in the assessment of stratum corneum levels of inflammatory mediators in a clinical trial setting. Thirty-eight inflammatory mediators were analyzed by a multiplex-assay in the stratum corneum, collected by adhesive tapes before and after 6 weeks of therapy, in mild and moderate atopic dermatitis (AD) patients (n = 90). Treatment was a ceramide- and magnesium-containing emollient. Twenty-four mediators could quantitatively be determined. The Th2 mediators interleukin (IL)-4, IL-13, CCL2 (monocyte chemotactic protein-1), CCL22 (macrophage-derived chemokine), and CCL17 [thymus and activation-regulated chemokine (TARC)] were significantly decreased after therapy as well as IL-1β, IL-2, IL-8 (CXCL8), IL-10, acute-phase protein serum amyloid A, C-reactive protein, and vascular adhesion molecule-1. The decrease of CCL17 and IL-8 was correlated with the decrease in disease severity in a subgroup of moderate AD individuals. Stratum corneum tape stripping offers a minimally invasive approach for studying local levels of immunomodulatory molecules in the skin. CCL17 (TARC) and IL-8 were found to be the most promising biomarkers of AD and might be useful for investigating the course of skin diseases and the effect of local therap

Filaggrin breakdown products determine corneocyte conformation in patients with atopic dermatitis

Loss-of-function (LOF) mutations in the filaggrin gene (FLG) are a well-replicated risk factor for atopic dermatitis (AD) and are known to cause an epidermal barrier defect. The nature of this barrier defect is not fully understood. Patients with AD with FLG LOF mutations are known to have more persistent disease, more severe disease, and greater risk of food allergies and eczema herpeticum. Abnormalities in corneocyte morphology have been observed in patients with AD, including prominent villus-like projections (VP); however, these ultrastructural features have not been systematically studied in patients with AD in relation to FLG genotype and acute and convalescent status. We sought to quantitatively explore the relationship between FLG genotype, filaggrin breakdown products (natural moisturizing factor [NMF]), and corneocyte morphology in patients with AD. We studied 15 children at first presentation of AD and after 6 weeks of standard therapy. We applied atomic force microscopy to study corneocyte conformation in patients with AD stratified by FLG status and NMF level. By using a new quantitative methodology, the number of VPs per investigated corneocyte area was assessed and expressed as the Dermal Texture Index score. Corneocytes were also labeled with an anti-corneodesmosin antibody and visualized with scanning electron microscopy. We found a strong correlation between NMF levels and Dermal Texture Index scores in both acute and convalescent states (respective r = -0.80 and -0.75, P < .001 and P = .002). Most, but not all, VPs showed the presence of corneodesmosin abundantly all over the cell surface in homozygous/compound heterozygous FLG patients and, to a lesser extent, in heterozygous and wild-type patients. NMF levels are highly correlated with corneocyte morphology in patients with AD. These corneocyte conformational changes shed further insight into the filaggrin-deficient phenotype and help explain the barrier defect in patients with AD with FLG LOF mutation

Uncovering microstructural architecture from histology

UNLABELLED: Microstructural tissue organization underlies the complex connectivity of the brain and controls properties of connective, muscle, and epithelial tissue. However, discerning microstructural architecture with high resolution for large fields of view remains prohibitive. We address this challenge with computational scattered light imaging (ComSLI), which exploits the anisotropic light scattering of aligned structures. Using a rotating lightsource and a high-resolution camera, ComSLI determines fiber architecture with micrometer resolution from histological sections across preparation and staining protocols. We show complex fiber architecture in brain and non-brain sections, including histological paraffin-embedded sections with various stains, and demonstrate its applicability on animal and human tissue, including disease cases with altered microstructure. ComSLI opens new avenues for investigating fiber architecture in new and archived sections across organisms, tissues, and diseases.ONE SENTENCE SUMMARY: We uncover microstructural architecture of new or archived human and animal histological sections in health and disease.</p

Uncovering microstructural architecture from histology

UNLABELLED: Microstructural tissue organization underlies the complex connectivity of the brain and controls properties of connective, muscle, and epithelial tissue. However, discerning microstructural architecture with high resolution for large fields of view remains prohibitive. We address this challenge with computational scattered light imaging (ComSLI), which exploits the anisotropic light scattering of aligned structures. Using a rotating lightsource and a high-resolution camera, ComSLI determines fiber architecture with micrometer resolution from histological sections across preparation and staining protocols. We show complex fiber architecture in brain and non-brain sections, including histological paraffin-embedded sections with various stains, and demonstrate its applicability on animal and human tissue, including disease cases with altered microstructure. ComSLI opens new avenues for investigating fiber architecture in new and archived sections across organisms, tissues, and diseases.ONE SENTENCE SUMMARY: We uncover microstructural architecture of new or archived human and animal histological sections in health and disease.</p