The present invention is based, at least in part, on the identification of a pharmaceutical container formed, at least in part, of a glass composition which exhibits a reduced propensity to delaminate, i.e., a reduced propensity to shed glass particulates. As a result, the presently claimed containers are particularly suited for storage of pharmaceutical compositions and, specifically, a pharmaceutical solution comprising a pharmaceutically active ingredient, for example, HUMALOG (insulin lispro), HUMALOG MIX 75-25 (insulin lispro), HUMALOG MIX 50-50 (insulin lispro), HUMILIN 70-30 (insulin), HUMILIN N (insulin), HUMULIN R (insulin) or GEMZAR (gemcitabine).

A pharmaceutically acceptable insulin premix formulation contains about 0.1-10.0 Unit/mL of insulin for intravenous administration and preferably further contains a tonicity adjuster. The methods for making and using such formulation are also provided. The pharmaceutically acceptable insulin premix formulation may be aseptically filled into a flexible container assembly to form a pharmaceutical insulin premix product. The insulin premix product can be a sterile and ready-to-use aqueous solution for glycemic control in an individual with metabolic disorders through intravenous infusion. The insulin premix product is unexpectedly stable when freshly prepared and also during its shelf-life of storage at refrigeration temperatures of 2° C. to 5° C. for 24 months followed by additional 30 days at room temperatures of 23° C. to 27° C., even without any added preservative, any added zinc, any added surfactant or any other added stabilizing excipient.

A pharmaceutically acceptable insulin premix formulation contains about 0.1-10.0 Unit/mL of insulin for intravenous administration and preferably further contains a tonicity adjuster. The methods for making and using such formulation are also provided. The pharmaceutically acceptable insulin premix formulation may be aseptically filled into a flexible container assembly to form a pharmaceutical insulin premix product. The insulin premix product can be a sterile and ready-to-use aqueous solution for glycemic control in an individual with metabolic disorders through intravenous infusion. The insulin premix product is unexpectedly stable when freshly prepared and also during its shelf-life of storage at refrigeration temperatures of 2° C. to 5° C. for 24 months followed by additional 30 days at room temperatures of 23° C. to 27° C., even without any added preservative, any added zinc, any added surfactant or any other added stabilizing excipient.

An injectable aqueous solution, of which the pH is from 6.0 to 8.0, comprising at least: a) amylin, an amylin receptor agonist or an amylin analog; b) a co-polyamino acid bearing carboxylate charges and hydrophobic radicals Hy, said co-polyamino acid consisting of glutamic or aspartic units and said hydrophobic radicals Hy having the following formula I: ##STR00001## wherein the composition does not comprise a basal insulin of which the isoelectric point pI is from 5.8 to 8.5. It also relates to a composition wherein it moreover comprises a prandial insulin.

An injectable aqueous solution, of which the pH is from 6.0 to 8.0, comprising at least: a) amylin, an amylin receptor agonist or an amylin analog; b) a co-polyamino acid bearing carboxylate charges and hydrophobic radicals Hy, said co-polyamino acid consisting of glutamic or aspartic units and said hydrophobic radicals Hy having the following formula I: ##STR00001## wherein the composition does not comprise a basal insulin of which the isoelectric point pI is from 5.8 to 8.5. It also relates to a composition wherein it moreover comprises a prandial insulin.

A nosepiece for delivering substance to a nasal cavity of a subject, the nosepiece comprising a body part which comprises a base portion which defines a flow passage therethrough, and a projection at a distal end of the base portion which at least in part provides a tip of the nosepiece and confers a rigidity in the sagittal direction, which enables the tip to open fleshy tissue at an upper region of the nasal valve and thereby expand an open area of the nasal valve, and a flexibility in a lateral direction, orthogonal to the sagittal plane, which facilitates insertion of the tip into the nasal valve.

A nosepiece for delivering substance to a nasal cavity of a subject, the nosepiece comprising a body part which comprises a base portion which defines a flow passage therethrough, and a projection at a distal end of the base portion which at least in part provides a tip of the nosepiece and confers a rigidity in the sagittal direction, which enables the tip to open fleshy tissue at an upper region of the nasal valve and thereby expand an open area of the nasal valve, and a flexibility in a lateral direction, orthogonal to the sagittal plane, which facilitates insertion of the tip into the nasal valve.

A wearable drug delivery device, techniques, and computer-readable media that provide an application that implements a diabetes treatment plan for a user are described. The drug delivery device may include a controller operable to direct operation of the wearable drug delivery device. The controller may provide a selectable activity mode of operation for the user. Operation of the drug delivery device in the activity mode of operation may reduce a likelihood of hypoglycemia during times of increased insulin sensitivity for the user and may reduce a likelihood of hyperglycemia during times of increased insulin requirements for the user. The activity mode of operation may be manually activated by the user or may be activated automatically by the controller. The controller may automatically activate the activity mode of operation based on a detected activity level of the user and/or a detected location of the user.

A wearable drug delivery device, techniques, and computer-readable media that provide an application that implements a diabetes treatment plan for a user are described. The drug delivery device may include a controller operable to direct operation of the wearable drug delivery device. The controller may provide a selectable activity mode of operation for the user. Operation of the drug delivery device in the activity mode of operation may reduce a likelihood of hypoglycemia during times of increased insulin sensitivity for the user and may reduce a likelihood of hyperglycemia during times of increased insulin requirements for the user. The activity mode of operation may be manually activated by the user or may be activated automatically by the controller. The controller may automatically activate the activity mode of operation based on a detected activity level of the user and/or a detected location of the user.

The invention relates to a water insoluble solid crosslinked dextrin-based matrix, wherein the crosslinking agent is sodium trimetaphosphate (STMP), its use and method of preparation.