2010 | | Imiquimod induces apoptosis of human melanocytes. | 강희영, 김철호 |
2010 | | In vivo reflectance confocal microscopy detects pigmentary changes in melasma at a cellular level resolution. | 강희영 |
2016 | | In vivo time-sequential histological study focused on melanocytes: suggestion of golden time for intervention to prevent post-laser pigmentary changes | 강희영 |
2016 | | Involvement of T cells in early evolving segmental vitiligo | 강희영 |
2007 | | Is apoptosis involved in the development of balloon cell nevus? Suggestion from a case report. | 강희영, 김유찬 |
2023 | | Maintenance effect of stromal targeting therapy on the treatment of melasma | 한희정 |
1999 | | Melanocyte Stimulating Hormone이 멜라닌 색소침착에 미치는 영향 | - |
2023 | | Melanocytes in idiopathic guttate hypomelanosis disappear and are senescent | 강희영 |
2021 | | Melanogenesis-promoting effect of Cirsium japonicum flower extract in vitro and ex vivo | 강희영 |
2002 | | Melasma: histopathological characteristics in 56 Korean patients. | 강원형, 손성향, 윤경한, 이기범, 이은소, 임성빈, 임현이 |
2018 | | Paracrine crosstalk between endothelial cells and melanocytes through clusterin to inhibit pigmentation | 강희영, 김미선, 박태준 |
2006 | | Peroxisome proliferator-activated receptors-gamma activator, ciglitazone, inhibits human melanocyte growth through induction of apoptosis. | 강희영 |
2018 | | Photodynamic therapy inhibits melanogenesis through paracrine effects by keratinocytes and fibroblasts | 김유선, 김유찬 |
2014 | | Pleiotrophin inhibits melanogenesis in normal human melanocyte | 최우종 |
2015 | | Pleiotrophin inhibits melanogenesis via Erk1/2-MITF signaling in normal human melanocytes. | 강희영, 박지윤, 박태준 |
2022 | | Ponatinib-induced eruptive nevi and melanocytic proliferation | 강희영, 박태준 |
2007 | | PPAR-gamma agonist, ciglitazone, increases pigmentation and migration of human melanocytes. | 강희영 |
2010 | | Reflectance confocal microscopy for pigmentary disorders. | 강희영 |
2002 | | Role of dermal melanocytes in cutaneous pigmentation of stasis dermatitis: a histopathological study of 20 cases. | 강원형 |
2016 | | Secreted Frizzled-Related Protein 2 (sFRP2) Functions as a Melanogenic Stimulator: the Role of sFRP2 in UV-Induced Hyperpigmentary Disorders | 강희영, 김미선, 김장희, 박태준, 한재호 |
2020 | | Senescent Fibroblast-Derived GDF15 Induces Skin Pigmentation | 강희영, 박태준 |
2023 | | Senescent melanocytes driven by glycolytic changes are characterized by melanosome transport dysfunction | 강희영, 김진철, 박순상, 박영준, 박태준 |
2022 | | Skin-Aging Pigmentation: Who Is the Real Enemy? | 강희영, 김진철, 박태준 |
1993 | | The change of melanocyte cytotoxicity after systemic steroid treatment in vitiligo patients. | 김형일 |
2015 | | The effect of cutaneous vasculature on skin pigmentation | 박지윤 |
2000 | | The melanocortin-1 receptor is a key regulator of human cutaneous pigmentation. | 임성빈 |
2004 | | The ultrastructural characteristics of the hair bulb of segmented heterochromia in the scalp hair. | 강희영, 손성향, 이은소 |
2011 | | Transcriptional profiling shows altered expression of wnt pathway- and lipid metabolism-related genes as well as melanogenesis-related genes in melasma. | 강희영 |
2017 | | Two histopathological patterns of postinflammatory hyperpigmentation: epidermal and dermal | 강희영, 권지은, 김유찬, 이은소 |
2014 | | Wnt inhibitory factor (WIF)-1 promotes melanogenesis in normal human melanocytes. | 강희영, 박태준 |
2016 | | Wnt Modulators, Secreted Frizzled Related Protein (sFRP) 2 and Wnt Inhibitory Factor (WIF)-1, Stimulate Melanogenesis in Normal Human Melanocytes | 김미선 |