Minyoung Jung scite author profile

Stem cells are undifferentiated cells, which have the important properties of self-renewal and differentiation. Adipose-derived stem cells (ADSC) have relative advantages in accessibility and abundance compared to other kinds of stem cells. Regeneration therapy using ADSC has received attention in the treatment of various dermatologic diseases. In previous studies, ADSC were shown to have antioxidant, whitening and wound-healing effects in the skin through secretion of growth factors and by activating fibroblasts. In this study, we investigated whether ADSC could be used as an anti-ageing therapy, especially by dermal collagen synthesis and angiogenesis. Subcutaneous injection of ADSC significantly increased collagen synthesis in hairless mice, and dermal thickness, collagen density and fibroblast number also increased. In addition, procollagen type I protein and mRNA expression increased, which accounts for the increased dermal collagen density. Angiogenesis, which was visualized by CD31 and NG2 immunofluorescence stains, also increased in ADSC-treated skin. Our results suggest that ADSC therapy may be useful in ageing skin. Its effects are mainly mediated by stimulating collagen synthesis in dermal fibroblasts and increasing angiogenesis.

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Effects of prestrain on behavior of dielectric elastomer actuator

Choi

Jung

Chúc

et al. 2005

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Among ElectroActive Polymers(EAPs) the dielectric elastomer actuator is regarded as one of the most practically applicable in the near future. So far, its effect on the actuation phenomena has not been discussed sufficiently, although its strong dependency on prestrain is a significant drawback as an actuator. Recent observations clarifies that prestrain has the following pros and cons: prestrain plays an important role in generating large strain, whereas it rather contributes to the reduction of the strain. Prestrain provides the advantages of improving the response speed, increase of the breakdown voltage, and removing the boundary constraint caused by the inactive actuation area of the actuator. On the contrary, the elastic forces by prestrain makes the deformation smaller and the induced stress relaxation is severely detrimental as an actuator. Also, the permittivity decreases as prestrain goes up, which adds an adverse effect because the strain is proportional to the permittivity. In the present work, a comprehensive study on the effects of prestrain is performed. The key parameters affecting the overall performances are extracted and it is experimentally validated how they work on the actuation performance.

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A long-standing hyperglycaemic condition impairs skin barrier by accelerating skin ageing process

Park

Kim

Jung

et al. 2011

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Uncontrolled chronic hyperglycaemia including type 2 diabetes mellitus (DM) induces many skin problems related to chronic impaired skin barrier state. However, little is known about the skin barrier state of chronic hyperglycaemia patients, the dysfunction of which may be a major cause of their skin problems. In this study, we investigated whether a long-standing hyperglycaemic condition including type 2 DM impairs skin barrier homoeostasis in proportion to the duration and its pathomechanism. We utilized the Otsuka Long-Evans Tokushima Fatty (OLETF) rats as an animal model of long-standing hyperglycaemia and Long-Evans Tokushima Otsuka rats as a control strain. We confirmed that a long-standing hyperglycaemia delayed skin barrier homoeostasis, which correlated with haemoglobin A1c levels. OLETF rats as a long-standing hyperglycaemia model exhibited decreased epidermal lipid synthesis and antimicrobial peptide expression with increasing age. Decreased epidermal lipid synthesis accounted for decreased lamellar body production. In addition, OLETF rats had significantly higher serum levels of advanced glycation end products (AGEs) and elevated levels of the receptor for AGE in the epidermis. A long-standing hyperglycaemic condition impairs skin barrier function including permeability and antimicrobial barriers by accelerating skin ageing process in proportion to the duration of hyperglycaemia, which could be a major pathophysiology underlying cutaneous complications of DM.

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Topical acidic cream prevents the development of atopic dermatitis‐ and asthma‐like lesions in murine model

Lee

Yoon

Lee

et al. 2014

Experimental Dermatology

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Long-standing or repeated skin barrier damage followed by atopic dermatitis (AD) is the initial step of the atopic march that eventually progresses to respiratory allergies. Maintenance of an acidic pH in the stratum corneum (SC) is an important factor for normal skin barrier function. We performed this study to determine whether an oxazolone (Ox)-induced AD murine model can develop airway inflammation by topical application and nasal inhalation of a house dust mite, Dermatofagoides pteronyssinus (Dp), which is a novel 'atopic march animal model', and whether an acidic SC environment, made by repeated application of acidic cream, can interrupt this atopic march. During repeated treatment with Ox and Dp to make an atopic march murine model, acidic cream (pH 2.8) and neutral cream (pH 7.4) adjusted by citric acid and sodium hydroxide mixed with vehicle were applied twice daily. Repeated treatment with Ox and Dp to hairless mice induced AD-like skin lesions followed by respiratory allergy, defining it as an atopic march model. Acidic cream inhibited the occurrence of respiratory allergic inflammation as well as AD-like skin lesions. These results indicate that a novel atopic march animal model can be developed by repeated topical and nasal treatments with house dust mite on Ox-induced AD mice and that the acidification of SC could be a novel intervention method to block the atopic march.

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Impaired permeability and antimicrobial barriers in type 2 diabetes skin are linked to increased serum levels of advanced glycation end‐product

Kim

Yoon

Kim

et al. 2018

Experimental Dermatology

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The incidence of type 2 diabetes mellitus (DM) has been increasing rapidly, and the disease has become a serious sociomedical problem. Many skin problems, such as xerosis, pruritus, skin infections and delayed wound healing, that might be related to chronic impairment of skin barrier function decrease the quality of life in patients with DM. However, the status of the permeability and antimicrobial barrier of the skin in DM remains unknown. This study aimed to elucidate skin barrier impairment in patients with type 2 DM and its pathomechanisms using classic animal models of type 2 DM. Functional studies of the skin barrier and an analysis of stratum corneum (SC) lipids were compared between patients with type 2 DM and age‐ and sex‐matched non‐diabetes controls. Also, functional studies on the skin barrier, epidermal lipid analyses, and electron microscopy and biomolecular studies were performed using type 2 DM animal models, db/db and ob/ob mice. Patients with type 2 DM presented with epidermal barrier impairments, including SC hydration, which was influenced by blood glucose control (HbA1c level). In the lipid analysis of SC, ceramides, fatty acids and cholesterol were significantly decreased in patients with type 2 DM compared with controls. Type 2 DM murine models presented with severe hyperglycaemia, impairment of skin barrier homeostasis, decreases in epidermal proliferation and epidermal lipid synthesis, decreases in lamellar body (LB) and epidermal antimicrobial peptides (AMPs), an increase in receptors for advanced glycation end‐product (AGE) in the epidermis and an increase in serum AGE. Impairment of the skin barrier was observed in type 2 DM, which results in part from a decrease in epidermal proliferation. Serum AGE and its epidermal receptors were increased in type 2 diabetic mice which display impaired skin barrier parameters such as epidermal lipid synthesis, LB production, epidermal AMP and SC lipids.

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Minyoung Jung

Adipose-derived stem cells as a new therapeutic modality for ageing skin

Effects of prestrain on behavior of dielectric elastomer actuator

A long-standing hyperglycaemic condition impairs skin barrier by accelerating skin ageing process

Topical acidic cream prevents the development of atopic dermatitis‐ and asthma‐like lesions in murine model

Impaired permeability and antimicrobial barriers in type 2 diabetes skin are linked to increased serum levels of advanced glycation end‐product

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