A process and system directed to a more effective, individual based treatment regimen which is built on clinical identified target biomarkers associated with gender differential responses to mesalamine, and includes one or more panels of target biomarkers that distinguishes mesalamine response differences between genders and determines the efficacy of mesalamine for patients being treated for various UC conditions and effectively identifies and validates novel drug targets for new UC therapeutics, new diagnostics and diagnostics standards for UC therapeutic strategies.

The disclosure relates to therapeutic proteins and pharmaceutical compositions comprising said proteins, which have utility in treating various human diseases. In particular aspects, the disclosed therapeutic proteins are useful for treating human gastrointestinal inflammatory diseases and gastrointestinal conditions associated with decreased epithelial cell barrier function or integrity. Further, the disclosed therapeutic proteins are useful for treating human inflammatory bowel disease, including inter alia, Crohn's disease and ulcerative colitis.

The disclosure relates to therapeutic proteins and pharmaceutical compositions comprising said proteins, which have utility in treating various human diseases. In particular aspects, the disclosed therapeutic proteins are useful for treating human gastrointestinal inflammatory diseases and gastrointestinal conditions associated with decreased epithelial cell barrier function or integrity. Further, the disclosed therapeutic proteins are useful for treating human inflammatory bowel disease, including inter alia, Crohn's disease and ulcerative colitis.

Disclosed herein are methods for treating a cancer comprising: a. administering a Btk inhibitor to a subject sufficient to result in an increase or appearance in the blood of a subpopulation of lymphocytes defined by immunophenotyping; b. determining the expression profile of one or more biomarkers from one or more subpopulation of lymphocytes; and c. administering a second agent based on the determined expression profile.

Disclosed herein are methods for treating a cancer comprising: a. administering a Btk inhibitor to a subject sufficient to result in an increase or appearance in the blood of a subpopulation of lymphocytes defined by immunophenotyping; b. determining the expression profile of one or more biomarkers from one or more subpopulation of lymphocytes; and c. administering a second agent based on the determined expression profile.

Disclosed herein are methods for treating a cancer comprising: a. administering a Btk inhibitor to a subject sufficient to result in an increase or appearance in the blood of a subpopulation of lymphocytes defined by immunophenotyping; b. determining the expression profile of one or more biomarkers from one or more subpopulation of lymphocytes; and c. administering a second agent based on the determined expression profile.

A multicomponent crystal (or co-crystal) comprising a first active pharmaceutical ingredient and a second active pharmaceutical ingredient. The multicomponent crystal is formed/sustained by non-covalent interactions between the nitrogen-containing heterocycle alpha-substituted with an amino group of the first active pharmaceutical ingredient and a carboxylic acid group of the second active pharmaceutical ingredient, suitably as well as other further non-covalent interactions with other H-bond forming groups. The multicomponent crystal may provide an improved multidrug dosage form comprising lamotrigine and valproic acid as the first and second active pharmaceutical ingredients, respectively. A pharmaceutical composition comprising a therapeutically effective amount of the multicomponent crystal and a pharmaceutically acceptable excipient, and a method of forming the multicomponent crystal, are also provided.

A multicomponent crystal (or co-crystal) comprising a first active pharmaceutical ingredient and a second active pharmaceutical ingredient. The multicomponent crystal is formed/sustained by non-covalent interactions between the nitrogen-containing heterocycle alpha-substituted with an amino group of the first active pharmaceutical ingredient and a carboxylic acid group of the second active pharmaceutical ingredient, suitably as well as other further non-covalent interactions with other H-bond forming groups. The multicomponent crystal may provide an improved multidrug dosage form comprising lamotrigine and valproic acid as the first and second active pharmaceutical ingredients, respectively. A pharmaceutical composition comprising a therapeutically effective amount of the multicomponent crystal and a pharmaceutically acceptable excipient, and a method of forming the multicomponent crystal, are also provided.

A salfaprodil freeze-dried powder injection, and a preparation method thereof and the use thereof are proposed. The preparation method may include adding salfaprodil into water for injection, filtering after the salfaprodil is completely dissolved, and adjusting pH of filtrate with an alkaline substance water solution. The method may also include adding the injection water to achieve a constant volume, filling with an inert gas for protection, and performing sterilization and filtration to obtain a salfaprodil solution, which is then freeze-dried to obtain the -salfaprodil freeze-dried powder injection.

A salfaprodil freeze-dried powder injection, and a preparation method thereof and the use thereof are proposed. The preparation method may include adding salfaprodil into water for injection, filtering after the salfaprodil is completely dissolved, and adjusting pH of filtrate with an alkaline substance water solution. The method may also include adding the injection water to achieve a constant volume, filling with an inert gas for protection, and performing sterilization and filtration to obtain a salfaprodil solution, which is then freeze-dried to obtain the -salfaprodil freeze-dried powder injection.