This disclosure relates to methods administering various compounds in conjunction with dextromethorphan to a human being. Dosage forms, drug delivery systems, and methods related to dextromethorphan or dextrorphan and bupropion, hydroxybupropion, erythrohydroxybupropion, threohydroxybupropion, or a metabolite or prodrug of any of these compounds are also disclosed

This disclosure relates to methods administering various compounds in conjunction with dextromethorphan to a human being. Dosage forms, drug delivery systems, and methods related to dextromethorphan or dextrorphan and bupropion, hydroxybupropion, erythrohydroxybupropion, threohydroxybupropion, or a metabolite or prodrug of any of these compounds are also disclosed

A multi-step stabilization method for connective tissue is described. Stabilized tissues can exhibit increased resistance to degradation due to enzyme activity, fatigue and storage. The multi-step method includes a first step during which the tissue can be incubated with a glycosaminoglycanase inhibitor such as a sulfated oligosaccharide, one example of which being neomycin, a second step during which the tissue can be incubated with a crosslink activator such as a carbodiimide crosslink activator and/or a crosslinking agent such as a heterobifunctional crosslinking agent and/or a phenolic compound such as a tannin, examples of which include tannic acid and pentagalloylglucose, and a third step during which the tissue can be incubated with a second crosslink activator that can be the same or different as the first crosslink activator.

A multi-step stabilization method for connective tissue is described. Stabilized tissues can exhibit increased resistance to degradation due to enzyme activity, fatigue and storage. The multi-step method includes a first step during which the tissue can be incubated with a glycosaminoglycanase inhibitor such as a sulfated oligosaccharide, one example of which being neomycin, a second step during which the tissue can be incubated with a crosslink activator such as a carbodiimide crosslink activator and/or a crosslinking agent such as a heterobifunctional crosslinking agent and/or a phenolic compound such as a tannin, examples of which include tannic acid and pentagalloylglucose, and a third step during which the tissue can be incubated with a second crosslink activator that can be the same or different as the first crosslink activator.

Disclosed are applications of substituent benzyloxy group containing ether compounds represented by general formula I for preparing antitumor drugs.

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The definition of the substituent groups in the formula I are provided in the specification.

The compounds having general formula I have desirable antitumor activity, particularly, and have excellent activity against leukemia strain HL-60, lung cancer A549, H157, H460, H520, bladder cancer T24, J82, prostate cancer LNCap, PC-3, rectal cancer HCT8, HCT116, RkO and the like.

Described herein are oxime compounds capable of inactivating a nerve agent, blood brain barrier (BBB)-penetration, and/or reactivation of nerve agent-inhibited acetylcholinesterase (AChE) and related methods, systems and compositions for inactivation of one or more nerve agents, therapeutic and/or prophylactic treatment of an individual, and/or decomposition of nerve agent for decontamination.

Described herein are oxime compounds capable of inactivating a nerve agent, blood brain barrier (BBB)-penetration, and/or reactivation of nerve agent-inhibited acetylcholinesterase (AChE) and related methods, systems and compositions for inactivation of one or more nerve agents, therapeutic and/or prophylactic treatment of an individual, and/or decomposition of nerve agent for decontamination.

The present invention concerns materials and methods for treating an ocular Demodex mite infestation of an eye of a human or animal subject, or for treating a condition of the eye or skin associated with ocular Demodex mite infestation, the method comprising topically administering a composition comprising one or more spinosyn compounds to the ocular surface (conjunctiva and/or cornea) or other anatomical structure of the eye, or to an area adjacent the eye.

The present invention provides a method for safe and efficacious administration of esketamine.

The present invention provides a method for safe and efficacious administration of esketamine.