The present invention relates to methods and compositions for anti-aging therapy and for the treatment and prophylaxis of age-related diseases and disorders in a human subject in need of such therapy or treatment, the methods comprising the pulmonary administration to the subject, preferably via inhalation, of composition comprising rapamycin, or a prodrug or derivative thereof.

The present invention relates to methods and compositions for anti-aging therapy and for the treatment and prophylaxis of age-related diseases and disorders in a human subject in need of such therapy or treatment, the methods comprising the pulmonary administration to the subject, preferably via inhalation, of composition comprising rapamycin, or a prodrug or derivative thereof.

Devices and methods are described for preparing, managing, and/or administering metered doses of substances for vaporized administration. In some embodiments, dose cartridges comprising at least one botanical substance include a heating element integrated into the cartridge in close contact with the botanical substance. In some embodiments, cartridge-mounted doses are stored in a magazine, optionally in carousel form, before use. Transport of a cartridge from a magazine to an electrically operated vaporizing chamber which activates the heating element is provided by a mechanical pickup means.

The present invention relates to methods and compositions for anti-aging therapy and for the treatment and prophylaxis of age-related diseases and disorders in a human subject in need of such therapy or treatment, the methods comprising the pulmonary administration to the subject, preferably via inhalation, of composition comprising rapamycin, or a prodrug or derivative thereof.

Cyclic peptide of formula TABLE-US-00001 I X.sub.1-GQRETPEGAEAKPWY-X.sub.2,
wherein
X.sub.1 comprises an amino acid (sequence), with 1 to 4 members, comprising natural and unnatural amino acids, and X.sub.2 comprises a natural amino acid, and wherein X.sub.1 comprises the N-terminal amino acid left in position 1, and X.sub.2 the C-terminal amino acid in the ultimate, right position, in the form of a lyophilisate without additives and/or stabilizers and its use.

Formulations and methods are provided for improving the function, i.e. clinical outcome, of solid organ transplants. Lung transplantation is of particular interest. In the methods of the invention, a nanoparticle formulation comprising an effective dose of an iron chelator active agent in nanoparticle form, including without limitation, deferoxamine (DFO), deferasirox (DFX), and deferiprone (DFP), etc. is topically applied to the surface of tissues during episodes of graft rejection.