Described herein are systems and methods for transmucosal delivery of active agents. In some embodiments, a system may comprise one or more mucoadhesive devices configured for release of an active agent.

A medical device including an array of microneedles and a coating disposed on or within the microneedles and a method of making such a device are disclosed. The coating includes a peptide therapeutic agent and an amino acid. A method of stabilizing a peptide therapeutic agent with an amino acid on an array of microneedles is also disclosed. In some cases, the peptide therapeutic agent and the amino acid either both have a net positive charge or both have a net negative charge. In some cases, the peptide therapeutic agent is histidine.

A medical device including an array of microneedles and a coating disposed on or within the microneedles and a method of making such a device are disclosed. The coating includes a peptide therapeutic agent and an amino acid. A method of stabilizing a peptide therapeutic agent with an amino acid on an array of microneedles is also disclosed. In some cases, the peptide therapeutic agent and the amino acid either both have a net positive charge or both have a net negative charge. In some cases, the peptide therapeutic agent is histidine.

The present disclosure provides methods of treating a subject having decreased bone mineral density or at risk of developing decreased bone mineral density, and methods of identifying subjects having an increased risk of developing decreased bone mineral density.

The present disclosure provides methods of treating a subject having decreased bone mineral density or at risk of developing decreased bone mineral density, and methods of identifying subjects having an increased risk of developing decreased bone mineral density.

Room-temperature stable dosage forms for oral delivery of calcitonin are disclosed herein. Dosage forms for oral delivery of calcitonin with low water content are also disclosed herein. Further disclosed herein are methods for producing such room-temperature stable dosage forms and low-water content dosage forms. Methods of treatment comprising the administration of such room-temperature stable dosage forms and low-water content dosage forms are also disclosed herein.

Room-temperature stable dosage forms for oral delivery of calcitonin are disclosed herein. Dosage forms for oral delivery of calcitonin with low water content are also disclosed herein. Further disclosed herein are methods for producing such room-temperature stable dosage forms and low-water content dosage forms. Methods of treatment comprising the administration of such room-temperature stable dosage forms and low-water content dosage forms are also disclosed herein.

Calcitonin mimetic peptides having an amino acid sequence in accordance with SEQ ID NO:8 or SEQ ID NO:53, each of which may be carboxylated at its N-terminal or otherwise modified to reduce the positive charge of the first amino acid and independently of that may be amidated at its C-terminal, and in each of which the 1 and 7 position cysteine residues may together be replaced by -aminosuberic acid (Asu) are useful as medicaments for treating diabetes (Type I and/or Type II), excess bodyweight, excessive food consumption, metabolic syndrome, rheumatoid arthritis, non-alcoholic fatty liver disease, osteoporosis, or osteoarthritis, poorly regulated blood glucose levels, poorly regulated response to glucose tolerance tests, or poorly regulated of food intake.

Calcitonin mimetic peptides having an amino acid sequence in accordance with SEQ ID NO:8 or SEQ ID NO:53, each of which may be carboxylated at its N-terminal or otherwise modified to reduce the positive charge of the first amino acid and independently of that may be amidated at its C-terminal, and in each of which the 1 and 7 position cysteine residues may together be replaced by -aminosuberic acid (Asu) are useful as medicaments for treating diabetes (Type I and/or Type II), excess bodyweight, excessive food consumption, metabolic syndrome, rheumatoid arthritis, non-alcoholic fatty liver disease, osteoporosis, or osteoarthritis, poorly regulated blood glucose levels, poorly regulated response to glucose tolerance tests, or poorly regulated of food intake.

Calcitonin mimetic peptides having an amino acid sequence in accordance with SEQ ID NO:8 or SEQ ID NO:53, each of which may be carboxylated at its N-terminal or otherwise modified to reduce the positive charge of the first amino acid and independently of that may be amidated at its C-terminal, and in each of which the 1 and 7 position cysteine residues may together be replaced by -aminosuberic acid (Asu) are useful as medicaments for treating diabetes (Type I and/or Type II), excess bodyweight, excessive food consumption, metabolic syndrome, rheumatoid arthritis, non-alcoholic fatty liver disease, osteoporosis, or osteoarthritis, poorly regulated blood glucose levels, poorly regulated response to glucose tolerance tests, or poorly regulated of food intake.