The present invention relates to the discovery that etanercept reduces the rate of resistance to intravenous gamma globulin (IVIG) in subjects with acute Kawasaki disease (KD). In certain embodiments, the co-administration of etanercept and IVIG more effectively treats acute KD in subjects older than 12 months than IVIG alone. In other embodiments, the co-administration of etanercept and IVIG ameliorates coronary artery dilation in high risk subjects.

Compositions and methods for the treatment of hair growth and the prevention of hair loss.

Compositions and methods for the treatment of hair growth and the prevention of hair loss.

The present specification discloses pharmaceutical compositions, methods of preparing such pharmaceutical compositions, and methods and uses of treating a chronic inflammation and/or an inflammatory disease in an individual using such pharmaceutical compositions.

A modified release benzonatate solid tablet or capsule is described which comprises a benzonatate adsorbate in a matrix with a sufficient amount of one or more pharmaceutically acceptable modified release pH-independent, substances to provide a modified release profile to the benzonatate, wherein there is substantially no benzonatate release from the tablet or capsule in the buccal cavity and no more than about 25% release of the benzonatate within 1 hour as determined in an in vitro dissolution assay.

A modified release benzonatate solid tablet or capsule is described which comprises a benzonatate adsorbate in a matrix with a sufficient amount of one or more pharmaceutically acceptable modified release pH-independent, substances to provide a modified release profile to the benzonatate, wherein there is substantially no benzonatate release from the tablet or capsule in the buccal cavity and no more than about 25% release of the benzonatate within 1 hour as determined in an in vitro dissolution assay.

The present specification discloses pharmaceutical compositions, methods of preparing such pharmaceutical compositions, and methods and uses of treating a chronic inflammation and/or an inflammatory disease in an individual using such pharmaceutical compositions.

The present invention is directed to pharmaceutical formulations of therapeutic proteins that comprise one or more polyethoxylated fatty alcohol (PFA) surfactants that are resistant to lipase mediated degradation. The present invention is also directed to methods of reducing aggregate and/or particulate formation in pharmaceutical formulations of therapeutic proteins and methods of maintaining a stable surfactant level in pharmaceutical formulations of therapeutic proteins.

The present invention is directed to pharmaceutical formulations of therapeutic proteins that comprise one or more polyethoxylated fatty alcohol (PFA) surfactants that are resistant to lipase mediated degradation. The present invention is also directed to methods of reducing aggregate and/or particulate formation in pharmaceutical formulations of therapeutic proteins and methods of maintaining a stable surfactant level in pharmaceutical formulations of therapeutic proteins.

The present invention provides cannabinoid derivatives, a pharmaceutical composition comprising said derivative and a method of using said derivatives in treating or preventing a disease associated with cannabinoid receptors. The claimed cannabinoid derivatives are described by formula (I) or an enantiomer, diastereomer, racemate, tautomer, or metabolite thereof, or a pharmaceutically acceptable salt, solvate or hydrate of the compound.