A Case of Multiple Miliary Osteoma Cutis on the Face of Middle-Aged Woman after Injection of Unspecified Filler Material / 대한피부과학회지

Multiple miliary osteoma cutis (MMOC) is a rare variant of osteoma, characterized by multiple eruptive hard nodules on the face. A 70-year-old female presented with multiple solid skin-colored papules on both cheeks, unresponsive to conventional medical treatments. She reported receiving an injection of an unknown cosmetic filler substance into her face by an unlicensed medical practitioner 20 years ago. Facial computed tomography showed multiple small calcifications immediately adjacent to foreign material assumed to be the filler substance in the dermis. Histological examination revealed osteoclasts, osteocytes, and eosinophilic bony tissue in the dermis, suggestive of osteoma cutis. Although the pathogenesis remains unclear, inflammation caused by injected foreign material may induce metaplastic transformation of multipotent mesenchymal cells into osteoblasts, resulting in heterotopic ossification. Dermatologists should be aware that MMOC may occur following injection of foreign material by unlicensed practitioners. Performing a detailed history and clinical evaluation may aid in the diagnosis of such recalcitrant skin lesions.

Expression of Antioxidant Response and Autophagy Markers in Patients with Vitiligo:An Immunohistochemical Study / 대한피부과학회지

Background@#Oxidative stress is generally accepted as one of the principal pathogenesis of vitiligo, and keratinocyte-melanocyte interactions are also thought to play critical roles. It is well-known that antioxidant response and autophagy protect cells against oxidative damage, but the details and the compensatory relationship between the two mechanisms in the keratinocytes of vitiligo lesions remain unclear. @*Objective@#To evaluate the antioxidant response and autophagy status of patients with vitiligo and to explore the interactions between these two mechanisms. @*Methods@#Ten patients with clinicopathologically proven vitiligo and 10 normal controls were enrolled in our Department of Dermatology, Soonchunhyang University Hospital, Bucheon, Korea. Tissue samples of vitiligo lesions in the patient group and normal skin in the control group were immunohistochemically stained for nuclear factor erythroid 2-related factor 2 (Nrf2), Beclin-1, microtubule-associated protein light chain 3 (LC3)-II, and p62. The immunopositivity of epidermal keratinocytes was evaluated. @*Results@#Keratinocytes in vitiligo lesions had a significantly lower expression of Nrf2 (p=0.002) than that in the cells of normal controls. The levels of autophagy markers did not differ significantly between the two groups, but decreases in the Beclin-1 and LC3-II levels, and an increase in the p62 level in the patient group may indicate a small decrease in autophagy of patients with vitiligo. @*Conclusion@#Decreased antioxidant response and reduced autophagy may trigger melanocyte apoptosis in vitiligo lesions.

Comparison of antigenic mutation during egg and cell passage cultivation of H3N2 influenza virus

Targeted and effective photodynamic therapy for cancer using functionalized nanomaterials

Photodynamic therapy (PDT) is an emerging, non-invasive therapeutic strategy that involves photosensitizer (PS) drugs and external light for the treatment of diseases. Despite the great progress in PS-mediated PDT, their clinical applications are still hampered by poor water solubility and tissue/cell specificity of conventional PS drugs. Therefore, great efforts have been made towards the development of nanomaterials that can tackle fundamental challenges in conventional PS drug-mediated PDT for cancer treatment. This review highlights recent advances in the development of nano-platforms, in which various functionalized organic and inorganic nanomaterials are integrated with PS drugs, for significantly enhanced efficacy and tumor-selectivity of PDT.