Global ETD Search

1	Kroppstemperatur och vattenavdunstning via huden hos extremt underburna barn vid vård i kuvös och med kängurumetoden Karlsson, Victoria, Heinemann, Ann-Britt January 2009 (has links) <p>Aim: To examine the reaction of extreme preterm infants with regarding to body temperature and transepidermal water loss during skin-to-skin care according to Kangaroo Mother Care (KMC) during the infant’s first week of life. Method: This was a descriptive quantitatively designed study, which was a pilot study within the framework of a larger project. Nine children, with a median gestational age of 24.91 weeks, were examined by measuring body temperature (axilla and skin temperature) as well as transepidermal water loss before, during and after KMC. Results: The study showed that skin temperature tended to rise during KMC, especially for those children who were nursed with KMC for more than 60 minutes. Eight out of nine children had, after completing KMC, a normal axilla temperature. As was expected, transepidermal water loss was elevated when measured both pre and post test. Despite this, the children showed normal body temperature. Conclusion: The results of the study support that KMC can create a micro-climate that, for at least one hour, makes it possible for even extreme preterm infants to maintain a body temperature within the normal range during their first week of life.</p> Kangaroo mother care body temperature extreme preterm infant bonding transepidermal water loss
2	Water transport through perinatal skin : Barrier function and aquaporin water channels Ågren, Johan January 2003 (has links) <p>While constituting a well functioning interface with the aqueous environment in utero, the skin offers a poor barrier after very preterm birth. As a result, transepidermal water loss (TEWL) is high, a fact which has important clinical consequences in these infants. To investigate the transport of water through perinatal skin and the potential role of aquaporin (AQP), a water channel protein, in this process, we determined TEWL in a group of extremely preterm infants, and in an experimental rat model we analyzed the expression and distribution of AQP in perinatal skin in relation to TEWL, skin surface hydration and water content. The effects of antenatal corticosteroids (ANS) and of restricted intake of fluids and nutrients on barrier characteristics of the perinatal skin and its AQP expression were also studied.</p><p>In infants born at 24 and 25 weeks of gestation TEWL was very high in the first days after birth and decreased with increasing postnatal age. At a postnatal age of 4 weeks, TEWL was still twice as high as previously reported in infants born at a gestational age of 25-27 weeks and four times higher than in infants born at term. In the rat model, immunohistochemical analysis revealed that AQP1 and AQP3 are abundantly expressed in the skin. AQP1 was expressed exclusively in dermal capillaries and AQP3 in basal layers of the epidermis. AQP1 and AQP3 mRNA as assessed by semiquantitative RT-PCR was higher in fetal than in adult skin. As in infants, TEWL and skin surface hydration were inversely related to gestational age in the rat. In preterm rat pups exposed to ANS, TEWL and skin surface hydration were lower than in unexposed controls, and AQP3 expression was selectively induced by ANS. In term newborn rat pups, restriction of fluid and nutrient intake resulted in a higher skin water content and higher TEWL early after birth, while at an age of 7 days TEWL was lower in fasting rat pups than in controls, although skin water content was still higher.</p><p>To conclude, TEWL is very high in extremely preterm infants early after birth and then decreases at a slower rate than previously reported for a group of slightly more mature infants. </p><p>This is the first time that the distribution and gene expression of AQP1 and AQP3 have been demonstrated in perinatal skin. The localization and expression of AQP in the skin might indicate that these water channels are involved in the regulation of skin hydration and transepidermal water transport in the fetus and newborn infant.</p> Pediatrics Preterm infant Transepidermal water loss Aquaporin Skin biology Hyperosmolarity Pediatrik Paediatric medicine Pediatrisk medicin
3	Water transport through perinatal skin : Barrier function and aquaporin water channels Ågren, Johan January 2003 (has links) While constituting a well functioning interface with the aqueous environment in utero, the skin offers a poor barrier after very preterm birth. As a result, transepidermal water loss (TEWL) is high, a fact which has important clinical consequences in these infants. To investigate the transport of water through perinatal skin and the potential role of aquaporin (AQP), a water channel protein, in this process, we determined TEWL in a group of extremely preterm infants, and in an experimental rat model we analyzed the expression and distribution of AQP in perinatal skin in relation to TEWL, skin surface hydration and water content. The effects of antenatal corticosteroids (ANS) and of restricted intake of fluids and nutrients on barrier characteristics of the perinatal skin and its AQP expression were also studied. In infants born at 24 and 25 weeks of gestation TEWL was very high in the first days after birth and decreased with increasing postnatal age. At a postnatal age of 4 weeks, TEWL was still twice as high as previously reported in infants born at a gestational age of 25-27 weeks and four times higher than in infants born at term. In the rat model, immunohistochemical analysis revealed that AQP1 and AQP3 are abundantly expressed in the skin. AQP1 was expressed exclusively in dermal capillaries and AQP3 in basal layers of the epidermis. AQP1 and AQP3 mRNA as assessed by semiquantitative RT-PCR was higher in fetal than in adult skin. As in infants, TEWL and skin surface hydration were inversely related to gestational age in the rat. In preterm rat pups exposed to ANS, TEWL and skin surface hydration were lower than in unexposed controls, and AQP3 expression was selectively induced by ANS. In term newborn rat pups, restriction of fluid and nutrient intake resulted in a higher skin water content and higher TEWL early after birth, while at an age of 7 days TEWL was lower in fasting rat pups than in controls, although skin water content was still higher. To conclude, TEWL is very high in extremely preterm infants early after birth and then decreases at a slower rate than previously reported for a group of slightly more mature infants. This is the first time that the distribution and gene expression of AQP1 and AQP3 have been demonstrated in perinatal skin. The localization and expression of AQP in the skin might indicate that these water channels are involved in the regulation of skin hydration and transepidermal water transport in the fetus and newborn infant. Pediatrics Preterm infant Transepidermal water loss Aquaporin Skin biology Hyperosmolarity Pediatrik Paediatric medicine Pediatrisk medicin
4	Kroppstemperatur och vattenavdunstning via huden hos extremt underburna barn vid vård i kuvös och med kängurumetoden Karlsson, Victoria, Heinemann, Ann-Britt January 2009 (has links) Aim: To examine the reaction of extreme preterm infants with regarding to body temperature and transepidermal water loss during skin-to-skin care according to Kangaroo Mother Care (KMC) during the infant’s first week of life. Method: This was a descriptive quantitatively designed study, which was a pilot study within the framework of a larger project. Nine children, with a median gestational age of 24.91 weeks, were examined by measuring body temperature (axilla and skin temperature) as well as transepidermal water loss before, during and after KMC. Results: The study showed that skin temperature tended to rise during KMC, especially for those children who were nursed with KMC for more than 60 minutes. Eight out of nine children had, after completing KMC, a normal axilla temperature. As was expected, transepidermal water loss was elevated when measured both pre and post test. Despite this, the children showed normal body temperature. Conclusion: The results of the study support that KMC can create a micro-climate that, for at least one hour, makes it possible for even extreme preterm infants to maintain a body temperature within the normal range during their first week of life. Kangaroo mother care body temperature extreme preterm infant bonding transepidermal water loss
5	Využití a účinnost kolostra v kosmetických přípravcích / The use and effectiveness of colostrum in cosmetics Bartoňová, Klára January 2016 (has links) This thesis deals with efficiency of colostrum contained in cosmetics. The aim of study was to determine whether the colostrum contained in cosmetic preparations have any influence on the state of human skin. The theoretical part is a literary review and it deals with defining the basic concepts and phenomena, especially the colostrum, its composition and properties. There is also discussed the raw materials used for real samples preparation and efficiency evaluated on these samples. There are also described the methods used to evaluate cosmetic products. The practical part is focused on evaluating the influence of hydratation of prepared cosmetic products. The skin hydratation and transepidermal water loss was measured by MPA 5. Consumer tests are attached to this part. Chemical stability of these cosmetics is assessed in a special chapter.
6	Efekt kosmetických přípravků s různým pH na vlastnosti kůže mužů a žen / The effect of cosmetic products with different pH on the skin properties of men and women Drabová, Veronika January 2019 (has links) The aim of this diploma thesis was to summarize the basic knowledge of human skin and it's biophysical parameters. Attention was focused on influence of cosmetic products with different pH on the change of skin parameters especially. The first part describes the anatomical and histological structure of the skin, it's basic functions and development. In the following chapters of this work is mentioned physiological representation of microorganisms found on the skin surface and general characteristics of cosmetic products. There are used in everyday skin care that affect the natural skin surface pH value. Optimum surface pH is important for the proper functioning of human skin. The final chapters of the described the characteristics of the basic biophysical parameters of the skin (hydration, TEWL, pH, sebum) and methods for their measurement. Key words: skin, transepidermal water loss, pH, hydration, sebum, microbiome
7	Developments in silicone technology for use in stoma care Swift, Thomas, Westgate, Gillian E., Van Onselen, J., Lee, S. 15 June 2020 (has links) Yes / Soft silicone's flexibility, adhesive capacity and non-toxic, non-odourous and hypoallergenic nature have made it an established material for adhesive and protective therapeutic devices. In wound care, silicone is a component of contact layer dressings for superficial wounds and silicone gel sheeting for reducing the risk of scarring, as well as of barriers for incontinence-associated dermatitis. Regarding stoma accessories, silicone is established in barrier films to prevent contact dermatitis, adhesive removers to prevent skin stripping and filler gels to prevent appliance leaks. Until recently, silicone has not been used in stoma appliances flanges, as its hydrophobic nature has not allowed for moisture management to permit trans-epidermal water loss and prevent maceration. Traditional hydrocolloid appliances manage moisture by absorbing water, but this can lead to saturation and moisture-associated skin damage (MASD), as well as increased adhesion and resultant skin tears on removal, known as medical adhesive-related skin injury (MARSI). However, novel silicone compounds have been developed with a distinct evaporation-based mechanism of moisture management. This uses colloidal separation to allow the passage of water vapour at a rate equivalent to normal trans-epidermal water loss. It has been shown to minimise MASD, increase wear time and permit atraumatic removal without the use of adhesive solvents. Trio Healthcare has introduced this technology with a range of silicone-based flange extenders and is working with the University of Bradford Centre for Skin Sciences on prototype silicone-based stoma appliance flanges designed to significantly reduce the incidence of peristomal skin complications, such as MARSI and MASD. It is hoped that this will also increase appliance wear time, reduce costs and improve patient quality of life. Medical adhesive-related skin injury Moisture management Moisture-associated skin damage Silicone Transepidermal water loss
8	Nanoparticles as a carrier for protein and plasmid DNA vaccines in microneedle-mediated transcutaneous immunization Kumar, Amit, active 21st century 25 September 2014 (has links) Skin is the largest immune organ and an ideal site to administer vaccines. However, by nature, skin is not permeable to antigens, which are macromolecules. The major hurdle in skin permeation is the outermost stratum corneum layer. Microneedles have proven feasible to create micron-sized channels in the epidermis of the skin, through which protein and plasmid DNA antigens can penetrate into the viable skin epidermis and dermis. However, the immune responses induced by microneedle-mediated transcutaneous immunization with protein or plasmid DNA alone are generally weak, and a vaccine adjuvant is often required to induce strong immune responses. Data from numerous previous studies have shown that nanoparticles as a vaccine carrier can significantly enhance the immunogenicity of antigens, but the feasibility of utilizing nanoparticles as a vaccine carrier to enhance the immune responses induced by microneedle-mediated transcutaneous immunization has rarely been studied. In this dissertation, using protein antigen (OVA) chemically conjugated onto the surface of solid-lipid nanoparticles and plasmid DNA (pCMV-beta, pVax/opt-BoNT/C-Hc50, and pCI-neo-sOVA) physically coated on the surface of cationic polymeric nanoparticles, we showed that the immune responses induced by microneedle-mediated transcutaneous immunization with protein antigens or plasmid DNA vaccines are significantly enhanced by delivering the proteins and plasmid DNA with nanoparticles. Importantly, microneedle-mediated transcutaneous immunization with proteins or plasmid DNA induces not only systemic immune responses, but also mucosal immune responses. In addition, it is generally believed that microneedles are safe. However, it remained unclear whether the micropores created by microneedles on the skin will also facilitate the permeation of microbes such as bacteria into the skin. In this dissertation, we also designed an unique ex vivo model to evaluate the permeation of live bacteria through mouse skin pretreated with microneedles. The results demonstrated that the risk of potential bacterial infection associated with microneedle treatment is not greater than that associated with a hypodermic needle injection. / text Microneedles Transcutaneous immunization Antibody response Safety of microneedles Transepidermal water loss (TEWL) Cytokines Splenocyte proliferation Skin permeation Botulinum neurotoxin Neutralization
9	Skin barrier responses to moisturizers Buraczewska, Izabela January 2008 (has links) Moisturizers are used in various types of dry skin disorders, but also by people with healthy skin. It is not unusual that use of moisturizers is continued for weeks, months, or even years. A number of moisturizers have been shown to improve the skin barrier function, while others to deteriorate it, but the reason for observed effects remains unknown. Further understanding of the mechanism by which long-term treatment with moisturizers influences the skin barrier would have clinical implications, as barrier-deteriorating creams may enhance penetration of allergens or irritants and predispose to dry skin and eczema, while barrier-improving ones could reduce many problems. The present research combined non-invasive techniques with analyses of skin biopsies, allowing studies of the epidermis at molecular and cellular level. Test moisturizers were examined on healthy human volunteers for their effect on the skin barrier, with regard to such factors as pH, lipid type, and presence of a humectant, as well as complexity of the product. After a 7-week treatment with the moisturizers, changes in transepidermal water loss, skin capacitance, and susceptibility to an irritant indicated a modified skin barrier function. Moreover, the mRNA expression of several genes involved in the assembly, differentiation and desquamation of the stratum corneum, as well as lipid metabolism, was altered in the skin treated with one of the moisturizers, while the other moisturizer induced fewer changes. In conclusion, long-term use of moisturizers may strengthen the barrier function of the skin, but also deteriorate it and induce skin dryness. Moisturizers have also a significant impact on the skin biochemistry, detectable at molecular level. Since the type of influence is determined by the composition of a moisturizer, more careful selection of ingredients could help to design moisturizers generating a desired clinical effect, and to avoid ingredients with a negative impact on the skin. skin barrier function moisturizers long-term treatment transepidermal water loss gene expression skin pH lipids urea Dermatology and venerology Dermatologi och venerologi
10	Skin Barrier Function and mRNA Expression Profiles in Patients with Atopic Dermatitis, Ichthyosis Vulgaris, and X-linked Recessive Ichthyosis : Aetiopathogenic Differences and the Impact of Moisturizing Treatment Sturesdotter Hoppe, Torborg January 2013 (has links) Atopic dermatitis (AD), ichthyosis vulgaris (IV), and X-linked recessive ichthyosis (XLRI) are characterized by dry skin and impaired skin barrier. AD and IV are related to loss-of-function mutations in FLG (encoding filaggrin), whereas XLRI is caused by deletions or inactivating mutations in the steroid sulphatase gene (STS). Patients regularly use moisturizing creams, but little is known about the creams’ effects on the skin barrier. The present work combines objective scorings, non-invasive techniques, and molecular analyses of skin biopsies to characterize the skin in 57 patients with AD, IV, or XLRI, and in 14 healthy controls. Patients were classified according to their FLG and STS mutation status: AD with FLG+/+ (n = 14), AD with FLG+/– (n = 14), AD/IV with FLG–/– (n = 15), and XLRI with STS– (n = 14), as well as one man with a novel point mutation. Assessments were conducted at baseline and after four weeks of treatment with three different moisturizers applied to volar forearm skin. At baseline, dryness scoring and non-invasive assessments verified impaired skin barrier function in all patients. In patients with AD/IV, microarray analysis identified 300–3000 up- or downregulated mRNA transcripts involved in signalling pathways important for inflammation and barrier repair. The skin phenotype and number of altered transcripts were correlated with the FLG mutation status, with FLG–/– patients displaying the highest transepidermal water loss (TEWL) and the most altered transcript levels. In contrast, despite an equally dysfunctional skin barrier, only limited changes in mRNA transcripts occurred in XLRI patients. Treatment with moisturizers improved skin dryness similarly in all groups, but TEWL behaved differently: it decreased slightly in the AD/IV group and increased in the XLRI group, especially after urea treatment. Only minute effects on skin pH and mRNA expression were observed. In conclusion, FLG mutations elicit pro-inflammatory mechanisms probably aimed at restoring barrier competence. This does not occur in patients with XLRI, presumably because STS deficiency automatically increases the barrier thickness. Moisturizing treatment improves skin dryness in patients with AD, IV, or XLRI, but does not seem to normalize the altered epidermal gene expression profile in AD/IV patients. atopic dermatitis ichthyosis vulgaris X-linked recessive ichthyosis skin barrier function moisturizers transepidermal water loss gene expression

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