Long-term stability and in vitro release of hPTH(1-34) from a multi-reservoir array.

Purpose: Therapeutic peptides generally exhibit poor oral bioavailability and require alternative methods of delivery. Implanted microelectromechanical systems-based multi-reservoir devices enable programmable, chronic, pulsatile peptide delivery. This report describes parathyroid hormone fragment (hPTH (1-34)) formulations suitable for delivery from a multi-reservoir array.

Dosage form development, in vitro release kinetics, and in vitro-in vivo correlation for leuprolide released from an implantable multi-reservoir array.

Purpose: Implanted multi-reservoir arrays improve dosing control relative to osmotic pumps or polymer depots. The limited reservoir volume requires concentrated formulations. This report describes the development of a stable solid phase formulation of leuprolide acetate for chronic in vivo delivery from a multi-reservoir microchip and examines the correlation between in vitro release kinetics and serum pharmacokinetics.

Chronic, programmed polypeptide delivery from an implanted, multireservoir microchip device.

Implanted drug delivery systems are being increasingly used to realize the therapeutic potential of peptides and proteins. Here we describe the controlled pulsatile release of the polypeptide leuprolide from microchip implants over 6 months in dogs. Each microchip contains an array of discrete reservoirs from which dose delivery can be controlled by telemetry.