Abstract: The present invention relates to a method of reducing type IV rubber allergy of synthetic rubber latex products caused by chemical residues remaining after manufacture of the synthetic rubber products by reducing levels of chemical residues found for said products, said method comprising the steps of: subjecting said products to a wash in a strong alkaline solution to remove the chemical residues remaining after manufacture of the rubber latex products, and a system for reducing type IV allergenicity of synthetic rubber products caused by chemical residues remaining after manufacture of the synthetic rubber latex products by reducing residual levels of chemical residues found for said products, and a product, such as a glove, manufactured from synthetic rubber latex processed in accordance with the method and/or using the system.
Abstract: The present invention relates to a method of reducing allergenicity of natural rubber latex products caused by allergens by reducing extractable protein levels found for said products, said method comprising the steps of: subjecting said products to a wash in a strong alkaline solution to deteriorate the allergens, and a system for reducing allergenicity of natural rubber latex products caused by allergens by reducing extractable protein levels found for said products, and a product, such as a glover or condom, manufactured from natural rubber latex.
Abstract: The present invention relates to a method of reducing allergenicity of natural rubber latex products caused by allergens by reducing extractable protein levels found for said products, said method comprising the steps of: subjecting said products to a wash in a strong alkaline solution to deteriorate the allergens, and a system for reducing allergenicity of natural rubber latex products caused by allergens by reducing extractable protein levels found for said products, and a product, such as a glover or condom, manufactured from natural rubber latex.
Abstract: A flexible laminate, comprising: the light-active second layer acts without external energizing to change the properties of incident light such that the light reflected by this layer has signaling properties; a first layer serving as carrier layer; a light-active second layer situated on an outer surface of this laminate; and a permanent magnetic third layer for releasable magnetic attachment of the laminate to a ferromagnetic surface. The laminate has the feature that the light-active second layer acts without external energizing to change the properties of incident light such that the light reflected by this layer has signaling properties.