Abstract: The present invention provides an adhesive skin patch containing a support and an adhesive layer containing a drug which is formed on the support, wherein the adhesive layer comprises a thermoplastic elastomer, a liquid component in an amount exceeding 300 parts by weight per 100 parts by weight of the thermoplastic elastomer, a therapeutic drug having an anticholinergic activity or a salt thereof for overactive bladder as a drug, (A) a non-volatile hydrocarbon oil as a liquid component, and one or more kinds selected from the group consisting of (B) an amide solvent, (C) an alcohol solvent and (D) a liquid organic acid as a liquid component, or a fatty acid salt, and optionally comprises a tackifier at a content of not more than 10 wt % of the adhesive layer.

Abstract: The present invention provides transdermal absorption preparation having a support, and a drug-containing adhesive layer formed on the support, wherein a drug-containing adhesive layer contains donepezil or a salt thereof, and a higher fatty acid salt.

Abstract: The invention provides a patch containing a support and, formed thereon, an adhesive layer retaining a drug. The adhesive layer contains a thermoplastic elastomer, a liquid component in an amount exceeding 300 parts by weight relative to 100 parts by weight of the elastomer, and risperidone or a salt thereof, and optionally a tackifier of not more than 10 wt %.

Abstract: A pressure-sensitive adhesive sheet to be stuck to the skin which comprises a support and a pressure-sensitive adhesive layer located on the support, characterized in that the pressure-sensitive adhesive layer is formed by curing a composition containing (A) a polyoxyalkylene polymer having at least one alkenyl group per molecule, (B) a compound having hydrosilyl groups at both ends, (C) a compound having two or more hydrosilyl groups on average per molecule, and (D) a hydrosilylation catalyst. Compared with the existing pressure-sensitive adhesive sheets to be stuck to the skin, the pressure-sensitive adhesive sheet to be stuck to the skin as described above little irritates the skin and can achieve a sufficient pressure-sensitive adhesion force and a long-lasting fixation force to the skin.

Abstract: It is intended to provide a resin foam which can be preferably used for medical use, and a flexible silicone type resin foam having a water-absorbing property. The resin foam which has a low toxicity and excellent physical properties for medical use such as moisture permeability, skin compatibility and low irritation can be obtained by using a resin which has a siloxane unit and an oxyalkylene unit in its molecular structure and does not contain a unit derived from an isocyanate group. Further, the flexible silicone type resin foam having a water-absorbing property can be obtained by allowing it to have a specific resin composition and a foam structure.

Abstract: A regenerated collagen fiber is subjected to water-insolubilizing treatment with a monofunctional epoxy compound to produce a water-insolubilized regenerated collagen fiber which can substantially maintain the color and the high knot tenacity, inherent in the collagen. Where the monofunctional epoxy compound is an epihalohydrin, a regenerated collagen fiber can be treated with this epihalohydrin and a sulfur compound to produce a water-insolubilized regenerated collagen fiber which can be permanent-wave set. In addition, the water-insolubilized regenerated collagen fiber can be converted into a fiber which can be permanent-wave set, by introducing a disulfide linkage into carboxylic groups of the collagen, which remain unmodified by the insolubilizing treatment.

Abstract: The present invention provides a regenerated collagen fiber exhibiting a draping, luster and feel close to those of a natural protein fiber such as a human hair and capable of application of a permanent wave treatment, and a method of manufacturing the regenerated collagen fiber. The amino group and/or carboxyl group of the regenerated collagen is chemically modified to introduce a mercapto group and/or a disulfide linkage to the regenerated collagen. When subjected to a permanent wave treatment, the regenerated collagen fiber retains the waved shape.