The present invention relates to methods and compositions for the prevention and treatment of keratin-based skin diseases. In particular, the application describes compositions and methods of treating a patient suffering from skin blistering comprising the use of phase II enzyme inducers and/or activity modifiers.

The present invention relates to methods and compositions for the prevention and treatment of keratin-based skin diseases. In particular, the application describes compositions and methods of treating a patient suffering from skin blistering comprising the use of phase II enzyme inducers and/or activity modifiers.

The present invention provides a high-purity isothiocyanate compound preparation method for industrial production. Specifically, in the method, organic amine and CS2 are used as raw materials to prepare the thiocarbamate, and then desulfurization is carried out, and the high-purity isothiocyanate compound is obtained by using purification, post-processing and other methods. The method in the present invention is suitable for industrial production, is simple in the post-processing, has a high yield rate, and allows the product to have a high purity, and is suitable for the production of the isothiocyanate compound in the pharmaceutical industry.

The present invention provides a high-purity isothiocyanate compound preparation method for industrial production. Specifically, in the method, organic amine and CS2 are used as raw materials to prepare the thiocarbamate, and then desulfurization is carried out, and the high-purity isothiocyanate compound is obtained by using purification, post-processing and other methods. The method in the present invention is suitable for industrial production, is simple in the post-processing, has a high yield rate, and allows the product to have a high purity, and is suitable for the production of the isothiocyanate compound in the pharmaceutical industry.

An isothiocyanate functional surfactant, wherein the protonated Corm of said surfactant is represented by the following chemical structure:

##STR00001## wherein X includes an integer ranging from approximately 1 to approximately 25, and wherein Y includes an integer ranging from approximately 6 to approximately 25.

An isothiocyanate functional surfactant, wherein the protonated Corm of said surfactant is represented by the following chemical structure:

##STR00001## wherein X includes an integer ranging from approximately 1 to approximately 25, and wherein Y includes an integer ranging from approximately 6 to approximately 25.

The present invention relates to methods, formulations, and compositions for the treatment of biofilms. In particular, the application discloses isothiocyanate functional surfactants either alone or combination with adjunct agents to treat biofilms. One suitable isothiocyanate functional surfactant is represented by the following chemical structure:

##STR00001##

The present invention relates to methods, formulations, and compositions for the treatment of biofilms. In particular, the application discloses isothiocyanate functional surfactants either alone or combination with adjunct agents to treat biofilms. One suitable isothiocyanate functional surfactant is represented by the following chemical structure:

##STR00001##

The present invention provides a high-purity isothiocyanate compound preparation method for industrial production. Specifically, in the method, organic amine and CS2 are used as raw materials to prepare the thiocarbamate, and then desulfurization is carried out, and the high-purity isothiocyanate compound is obtained by using purification, post-processing and other methods. The method in the present invention is suitable for industrial production, is simple in the post-processing, has a high yield rate, and allows the product to have a high purity, and is suitable for the production of the isothiocyanate compound in the pharmaceutical industry.

The present invention provides a high-purity isothiocyanate compound preparation method for industrial production. Specifically, in the method, organic amine and CS2 are used as raw materials to prepare the thiocarbamate, and then desulfurization is carried out, and the high-purity isothiocyanate compound is obtained by using purification, post-processing and other methods. The method in the present invention is suitable for industrial production, is simple in the post-processing, has a high yield rate, and allows the product to have a high purity, and is suitable for the production of the isothiocyanate compound in the pharmaceutical industry.