Bacterial invasion across the human skin barrier – mechanisms and ensuing tissue degradation.

Atopic Dermatitis (AD) is associated with a deficiency of skin lipids, increased populations of Staphylococcus aureus in the microbiome, and structural defects in the stratum corneum (SC), the outermost layer of human skin. However, the pathogenesis of AD is ambiguous as it is unclear whether observed changes are the result of AD or contribute to the pathogenesis of the disease. Previous studies have shown that S. aureus is capable of permeating across isolated human SC tissue when lipids are depleted to levels consistent with AD conditions. In this study, we expand upon this discovery to determine the mechanisms of bacterial penetration into the SC barrier. Specifically, we establish whether bacteria are permeating intercellularly, between corneocytes, or employing a combination pathway of both inter- and intra-cellular travel. The mechanical implications of bacterial invasion, lipid depletion, and media immersion are also evaluated using a newly developed, physiologically relevant, temperature-controlled drip chamber. Results reveal that S. aureus can be internalized by corneocytes, indicating transcellular movement through the tissue during permeation, consistent with previous theoretical models. S. aureus also degrades the mechanical integrity of human SC, particularly when the tissue is partially depleted of lipids. These observed mechanical changes are likely the cause of broken or ruptured tissue seen as exudative lesions in AD flares. This work further highlights the necessity of lipids in skin microbial barrier function.

Dermatophytosis in a Suburban Hospital-A Study on Distribution and Clinical Types According to Age and Sex

Aim and Objectives: Dermatophytosis is a fungal infection of the outermost layer of skin and its appendages such as hair, nails and scalp. The present study was undertaken with a view to find out the clinical pattern of dermatophytic infections in our hospital. Materials and Methods: A total of 100 patients were included in the study. History was taken, general and physical examination was done. Multiple sites were involved in some cases, but were categorised prioritising the most predominant site involved. Patient was diagnosed and classified based on clinical types, age and sex. Results and Conclusion: A total of 100 patients were enrolled in the study in which 56 males and 44 females were affected. The most commonly affected age group was 19 to 59 years (63%). The most common clinical type of infection was T. cruris affecting 41% of the study population.

The Multitasking Surface Protein of Staphylococcus epidermidis: Accumulation-Associated Protein (Aap)

The stratum corneum is the outermost layer of the epidermis and is thus directly exposed to the environment. It consists mainly of corneocytes, which are keratinocytes in the last stage of differentiation, having neither nuclei nor organelles.

Investigation of the Oxidation of Plasma Sprayed Silicon Coating

The quality of plasma sprayed silicon coating determined by density and spreading condition of lamella greatly influences its performance. The oxidation of silicon coating deteriorates its performance. However, the investigators mostly focus on the oxidation and mechanism of amorphous silicon, porous silicon and specific crystal planes on single crystal. The factors which influence the quality and oxidation of silicon coating has never be studied. The helium secondary gas flow has more influence on the quality of silicon coating than other spraying parameters. So, we prepare the silicon coating by plasma spraying technology with different secondary gas flow. The relationship between silicon coating’s quality and secondary gas flow is investigated. Furthermore, the oxidation of plasma sprayed silicon coating is discussed. We find that the secondary gas has an adverse effect on quality and oxidation degree of silicon coating. With the decrease of secondary gas flow, both quality and oxygen content of coatings increase. Besides, the oxygen atoms heterogeneously concentrate at the outermost layer of silicon lamellas. Components of oxygen enrichment area (OEA) from outside to inside are Si + SiOx+SiO2→Si + Si2O + SiO2→Si + SiOx→Si (1 < x < 1.5). The width of OEA in lamellas at top layer of silicon coating is about 180nm, obviously thicker than that in inner lamellas. The results obtained from research can provide support to better understand the behavior of silicon coating in the service process.

The developing epicardium regulates cardiac chamber morphogenesis by promoting cardiomyocyte growth

The epicardium, the outermost layer of the heart, is an important regulator of cardiac regeneration. However, a detailed understanding of the crosstalk between the epicardium and myocardium during development requires further investigation. Here, we generated three models of epicardial impairment in zebrafish by mutating the transcription factor genes tcf21 and wt1a, and by ablating tcf21+ epicardial cells. Notably, all three epicardial-impairment models exhibit smaller ventricles. We identified the initial cause of this phenotype as defective cardiomyocyte growth, resulting in reduced cell surface and volume. This failure of cardiomyocytes to grow is followed by decreased proliferation and increased abluminal extrusion. By temporally manipulating its ablation, we show that the epicardium is required to support ventricular growth during early cardiac morphogenesis. By transcriptomic profiling of sorted epicardial cells, we identified reduced expression of FGF and VEGF ligand genes in tcf21-/- hearts, and pharmacological inhibition of these signaling pathways partially recapitulated the ventricular growth defects. Thus, the analysis of these epicardial-impairment models further elucidates the distinct roles of the epicardium during cardiac morphogenesis and the signaling pathways underlying epicardial-myocardial crosstalk.

Thermal property analysis of tri layer composite fabric towards the utility of sleeping bag

Purpose This paper aims to investigate on composite fabrics to develop the improved sleeping bag using trilayered textile structures. A thermal comfort analysis of fabrics is essential to design an enhanced type of sleeping bag. Design/methodology/approach In this study, optimizing thermal and permeability properties of different combinations of trilayer composite fabrics was done. The inner layer was 100% wool-knitted single jersey fabric. The middle layer was polyester needle punched non-woven fabric. The outermost layer was nylon-based Core-Tex branded waterproof breathable fabric. Five variations in wool-knitted samples were developed by changing the loop length and yarn count to optimize the best possible combination. Two different polyester non-woven fabrics have been produced with the changes in bulk density. Twelve trilayer composite fabric samples have been produced, and thermal comfort properties such as thermal conductivity, thermal absorptivity, thermal resistance, air permeability and relative water vapour permeability have been analysed. Findings Among the 12 samples, one optimized sample has been found with the specification of 100% wool with 25 Tex yarn linear density having 4.432-mm loop length inner-layered fabric, 96 g/m2 polyester nonwoven fabric as the middle layer, and 220 g/m2 Nylon-Core tex branded outermost layer. All the functional properties of the composite fabric are significantly different with the knitted wool fabrics and polyester nonwoven fabrics, which have been confirmed by analysis of variance study. Originality/value This research work supports for producing sleeping bag with enhanced comfort level.

Modeling the Glomerular Filtration Barrier and Intercellular Crosstalk

The glomerulus is a compact cluster of capillaries responsible for blood filtration and initiating urine production in the renal nephrons. A trilaminar structure in the capillary wall forms the glomerular filtration barrier (GFB), composed of glycocalyx-enriched and fenestrated endothelial cells adhering to the glomerular basement membrane and specialized visceral epithelial cells, podocytes, forming the outermost layer with a molecular slit diaphragm between their interdigitating foot processes. The unique dynamic and selective nature of blood filtration to produce urine requires the functionality of each of the GFB components, and hence, mimicking the glomerular filter in vitro has been challenging, though critical for various research applications and drug screening. Research efforts in the past few years have transformed our understanding of the structure and multifaceted roles of the cells and their intricate crosstalk in development and disease pathogenesis. In this review, we present a new wave of technologies that include glomerulus-on-a-chip, three-dimensional microfluidic models, and organoids all promising to improve our understanding of glomerular biology and to enable the development of GFB-targeted therapies. Here, we also outline the challenges and the opportunities of these emerging biomimetic systems that aim to recapitulate the complex glomerular filter, and the evolving perspectives on the sophisticated repertoire of cellular signaling that comprise the glomerular milieu.

Endometrial Perivascular Progenitor Cells and Uterus Regeneration

Ovarian steroid-regulated cyclical regeneration of the endometrium is crucial for endometrial receptivity and embryo implantation, and it is dependent on the dynamic remodeling of the endometrial vasculature. Perivascular cells, including pericytes surrounding capillaries and microvessels and adventitial cells located in the outermost layer of large vessels, show properties of mesenchymal stem cells, and they are thus promising candidates for uterine regeneration. In this review, we discuss the structure and functions of the endometrial blood vasculature and their roles in endometrial regeneration, the main biomarkers and characteristics of perivascular cells in the endometrium, and stem cell-based angiogenetic therapy for Asherman’s syndrome.

Asymbiotic germination of Vanilla planifolia in relation to the timing of seed collection and seed pretreatments

Background Vanilla planifolia is an important tropical orchid for production of natural vanilla flavor. Traditionally, V. planifolia is propagated by stem cuttings, which produces identical genotype that are sensitive to virulent pathogens. However, propagation with seed germination of V. planifolia is intricate and unstable because the seed coat is extremely hard with strong hydrophobic nature. A better understanding of seed development, especially the formation of impermeable seed coat would provide insights into seed propagation and conservation of genetic resources of Vanilla. Results We found that soaking mature seeds in 4% sodium hypochlorite solution from 75 to 90 min significantly increased germination. For the culture of immature seeds, the seed collection at 45 days after pollination (DAP) had the highest germination percentage. We then investigated the anatomical features during seed development that associated with the effect of seed pretreatment on raising seed germination percentage. The 45-DAP immature seeds have developed globular embryos and the thickened non-lignified cell wall at the outermost layer of the outer seed coat. Seeds at 60 DAP and subsequent stages germinated poorly. As the seed approached maturity, the cell wall of the outermost layer of the outer seed coat became lignified and finally compressed into a thick envelope at maturity. On toluidine blue O staining, the wall of outer seed coat stained greenish blue, indicating the presence of phenolic compounds. As well, on Nile red staining, a cuticular substance was detected in the surface wall of the embryo proper and the innermost wall of the inner seed coat. Conclusion We report a reliable protocol for seed pretreatment of mature seeds and for immature seeds culture based on a defined time schedule of V. plantifolia seed development. The window for successful germination of culturing immature seed was short. The quick accumulation of lignin, phenolics and/or phytomelanins in the seed coat may seriously inhibit seed germination after 45 DAP. As seeds matured, the thickened and lignified seed coat formed an impermeable envelope surrounding the embryo, which may play an important role in inducing dormancy. Further studies covering different maturity of green capsules are required to understand the optimal seed maturity and germination of seeds.

Law Making Treaties: The Implication of International Law towards Indonesia’s Legislations

In relation to promoting global issues in international forums, several sources of international law are formed. These formed laws are in the figure of law-making treaties, which are closely related to international regimes that influence the behavior of international actors. However, in developing countries, such as Indonesia, International law is considered the outermost layer of the legal order under national law, colonial law, religious law, and customary law. Thus, it is a challenge for international laws to be enforced in a broad society. Therefore to make international law hold an implementative power, the laws need to be adopted in the national law. This article aims to examine the implication of international laws, especially in international treaties towards Indonesia legislation. It is carried out by mapping a series of international treaties ratified and enacted through national laws in Indonesia. The results of this study demonstrates that until 2019 the Indonesian Government has bound itself in 302 agreements. From the 302 treaties, only 61 international treaties were Law-Making Treaty, and only UNCLOS 1982 has implicated by the Indonesian Government through Law No. 32 of 2014 concerning Maritime Law.