The present invention relates to MEK inhibitors that are capable of displaying one or more beneficial therapeutic effects. The MEK inhibitors can be used in the prevention and/or treatment of viral infection. MEK inhibitors in combination with a cap-dependent endonuclease inhibitor are capable of displaying one or more beneficial therapeutic effects in the treatment of viral diseases.

The present invention relates to a use of imidazopyrimidine or imidazotriazine compounds of Chemical Formula 1, or pharmaceutically acceptable salts, solvates, or hydrates thereof, for preventing, alleviating or treating cognitive disorder or for improving enhancing cognitive function.

The present invention relates to a use of imidazopyrimidine or imidazotriazine compounds of Chemical Formula 1, or pharmaceutically acceptable salts, solvates, or hydrates thereof, for preventing, alleviating or treating cognitive disorder or for improving enhancing cognitive function.

The present technology is directed to compositions comprising d-threo-methylphenidate conjugates and/or unconjugated methylphenidate. The present technology also relates to compositions and oral formulations comprising d-threo-methylphenidate conjugated to nicotinoyl-L-serine, and/or a pharmaceutically acceptable salt thereof, and unconjugated methylphenidate and/or a pharmaceutically acceptable salt thereof. The present technology additionally relates to a pharmaceutical kit containing the composition comprising d-threo-methylphenidate conjugated to nicotinoyl-L-serine, and/or a pharmaceutically acceptable salt thereof, and unconjugated methylphenidate and/or a pharmaceutically acceptable salt thereof.

The present technology is directed to compositions comprising d-threo-methylphenidate conjugates and/or unconjugated methylphenidate. The present technology also relates to compositions and oral formulations comprising d-threo-methylphenidate conjugated to nicotinoyl-L-serine, and/or a pharmaceutically acceptable salt thereof, and unconjugated methylphenidate and/or a pharmaceutically acceptable salt thereof. The present technology additionally relates to a pharmaceutical kit containing the composition comprising d-threo-methylphenidate conjugated to nicotinoyl-L-serine, and/or a pharmaceutically acceptable salt thereof, and unconjugated methylphenidate and/or a pharmaceutically acceptable salt thereof.

An earplug (1) for administering a fluid agent into an ear canal is provided. The earplug (1) comprises a first part (10) adapted for insertion in the ear canal. The first part comprises an elongated member (11) having a chamber (12) for containing the fluid agent, the chamber (12) having at least one outlet (13) at a proximal end (14) of the elongated member (11); and a malleable member (17) disposed laterally of the elongated member (11). The earplug (1) further comprises a second part (20) comprising a piston (21). The piston (21) has a first end (22) which is insertable in the elongated member (11), and a second end (23) which has a push member (24). The piston (21) is displaceable from a first position (A) distally of the chamber (12) to a second position (B) within the chamber (12), such that the fluid agent is injected from the chamber (12) through the outlet (13) into the ear canal.

The present disclosure provides oral drug dosage forms comprising: (a) an erodible non-stimulant material admixed with an ADHD non-stimulant; and (b) an erodible stimulant material admixed with an ADHD stimulant, wherein the erodible non-stimulant material admixed with the ADHD non-stimulant is embedded in a substrate material, and wherein upon exposure to gastrointestinal fluid the ADHD non-stimulant is released according to a desired non-stimulant release profile and the ADHD stimulant is released according to a desired stimulant release profile. In some embodiment, the ADHD non-stimulant is released according to a sustained release profile. In some embodiments, the ADHD stimulant is released according to an immediate release profile. The oral drug dosage forms of the present disclosure are useful for the treatment of attention deficit hyperactivity disorder (ADHD). Also provided herein are methods of designing and manufacturing the oral drug dosage forms described herein.

The present disclosure provides oral drug dosage forms comprising: (a) an erodible non-stimulant material admixed with an ADHD non-stimulant; and (b) an erodible stimulant material admixed with an ADHD stimulant, wherein the erodible non-stimulant material admixed with the ADHD non-stimulant is embedded in a substrate material, and wherein upon exposure to gastrointestinal fluid the ADHD non-stimulant is released according to a desired non-stimulant release profile and the ADHD stimulant is released according to a desired stimulant release profile. In some embodiment, the ADHD non-stimulant is released according to a sustained release profile. In some embodiments, the ADHD stimulant is released according to an immediate release profile. The oral drug dosage forms of the present disclosure are useful for the treatment of attention deficit hyperactivity disorder (ADHD). Also provided herein are methods of designing and manufacturing the oral drug dosage forms described herein.

The present disclosure provides oral drug dosage forms comprising: (a) an erodible non-stimulant material admixed with an ADHD non-stimulant; and (b) an erodible stimulant material admixed with an ADHD stimulant, wherein the erodible non-stimulant material admixed with the ADHD non-stimulant is embedded in a substrate material, and wherein upon exposure to gastrointestinal fluid the ADHD non-stimulant is released according to a desired non-stimulant release profile and the ADHD stimulant is released according to a desired stimulant release profile. In some embodiment, the ADHD non-stimulant is released according to a sustained release profile. In some embodiments, the ADHD stimulant is released according to an immediate release profile. The oral drug dosage forms of the present disclosure are useful for the treatment of attention deficit hyperactivity disorder (ADHD). Also provided herein are methods of designing and manufacturing the oral drug dosage forms described herein.

Substances and methods are dislosed for reducing or preventing metastatic behaviour in VGSC expressing cancer by the effect of at least reducing the persistent part of the voltage gated sodium channel current without eliminating the transient part. Inhibition of metastatic cell behaviours such as detachability, lateral motility, transverse migration and invasiveness is demonstrated using the known drugs ranolazine and riluzole.