A catch-up validation study of an in vitro skin irritation test method using reconstructed human epidermis LabCyte EPI-MODEL24.

Three validation studies were conducted by the Japanese Society for Alternatives to Animal Experiments in order to assess the performance of a skin irritation assay using reconstructed human epidermis (RhE) LabCyte EPI-MODEL24 (LabCyte EPI-MODEL24 SIT) developed by the Japan Tissue Engineering Co., Ltd. (J-TEC), and the results of these studies were submitted to the Organisation for Economic Co-operation and Development (OECD) for the creation of a Test Guideline (TG). In the summary review report from the OECD, the peer review panel indicated the need to resolve an issue regarding the misclassification of 1-bromohexane. To this end, a rinsing operation intended to remove exposed chemicals was reviewed and the standard operating procedure (SOP) revised by J-TEC. Thereafter, in order to confirm general versatility of the revised SOP, a new validation management team was organized by the Japanese Center for the Validation of Alternative Methods (JaCVAM) to undertake a catch-up validation study that would compare the revised assay with similar in vitro skin irritation assays, per OECD TG No. 439 (2010). The catch-up validation and supplementary studies for LabCyte EPI-MODEL24 SIT using the revised SOPs were conducted at three laboratories. These results showed that the revised SOP of LabCyte EPI-MODEL24 SIT conformed more accurately to the classifications for skin irritation under the United Nations Globally Harmonised System of Classification and Labelling of Chemicals (UN GHS), thereby highlighting the importance of an optimized rinsing operation for the removal of exposed chemicals in obtaining consistent results from in vitro skin irritation assays.

Complete Genome Sequence of a Pepper Yellow Leaf Curl Indonesia Virus Isolated from Tomato in Bali, Indonesia.

We report a complete genome sequence of a pepper yellow leaf curl Indonesia virus (PepYLCIV) isolated in Bali, Indonesia. This virus shares around 90% identity with other PepYLCIV DNA-As and 86% identity with DNA-Bs, suggesting that it is a novel isolate of PepYLCIV.

Efficacy of an emollient containing diethylene glycol/dilinoleic acid copolymer for the treatment of dry skin and pruritus in patients with senile xerosis.

BACKGROUND AND AIMS: Pruritus frequently reduces quality of life (QOL) in patients with senile xerosis. This study investigated the moisturizing and antipruritic effects of a topical emollient containing a diethylene glycol/dilinoleic acid copolymer (D/DC) in patients with pruritic senile xerosis. METHODS: This single-blind study involved 50 subjects, aged 50-75 years. Patients were randomized to self-applied treatment of the lower legs with 10% (n = 20) or 20% (n = 20) D/DC-containing cream, white petrolatum (n = 5), or no treatment (n = 5) thrice daily for four weeks. Clinical scores of skin dryness and scratch marks, skin conductance, and Skindex-16 were evaluated before and after treatment. The degree of pruritus was evaluated by visual analog scale (VAS) score once a week. RESULTS: Patients treated with 10% and 20% D/DC showed significant improvements in skin dryness and scratch mark scores, as well as increased skin conductance, compared with the untreated group, whereas white petrolatum treatment improved only skin dryness scores. Moreover, patients treated with 20% D/DC showed significant improvements in skin dryness scores and skin conductance compared with white petrolatum treatment. The VAS scores in the D/DC-treated and white petrolatum-treated groups were significantly lower than in the untreated group, being particularly lower after one week of treatment with 20% D/DC. CONCLUSION: Topical application of an emollient containing D/DC is effective in improving skin dryness and pruritus in patients with senile xerosis.