Clinical evaluation of large volume subcutaneous injection tissue effects, pain, and acceptability in healthy adults.

Determining feasibility and tolerability of large volume viscous subcutaneous injection may enable optimized, intuitive delivery system design. A translational early feasibility clinical study examined large volume subcutaneous injection viability, tolerability, acceptability, tissue effects and depot location for ~1, 8, and 20 cP injections at volumes up to 10 ml in the abdomen and 5 ml in the thigh in 32 healthy adult subjects. A commercial syringe pump system delivered 192 randomized, constant rate (20 µl/s) injections (6/subject) with in-line injection pressure captured versus time.

Pharmacokinetics and postprandial glycemic excursions following insulin lispro delivered by intradermal microneedle or subcutaneous infusion.

Background: Intradermal (ID) delivery has been shown to accelerate insulin pharmacokinetics (PK). We compared the PK and pharmacodynamic (PD) effects of insulin lispro administered before two daily standardized solid mixed meals (breakfast and lunch), using microneedle-based ID or traditional subcutaneous (SC) delivery.

Method: The study included 22 subjects with type 1 diabetes in an eight-arm full crossover block design.

Microneedle-based intradermal versus subcutaneous administration of regular human insulin or insulin lispro: pharmacokinetics and postprandial glycemic excursions in patients with type 1 diabetes.

Background: This study assessed pharmacokinetics (PK) and pharmacodynamic postprandial glycemia (PPG) in patients with type 1 diabetes mellitus (T1DM) after a standardized liquid meal following insulin lispro (IL) or regular human insulin (RHI) given by microneedle-based intradermal (ID) versus subcutaneous (SC) delivery.

Research Design And Methods: In this randomized, open-label, five-way crossover study, 29 T1DM patients received IL and RHI (0.125 U/kg) at 2 min and 17 min premeal, respectively, by both the SC and ID routes and also received RHI by the ID route at 2 min premeal.

Microneedle-based intradermal delivery enables rapid lymphatic uptake and distribution of protein drugs.

Purpose: The purpose of this research was to examine the pharmacokinetics (PK) of drug uptake for microneedle-based intradermal (ID) delivery of several classes of protein drugs compared to standard subcutaneous (SC) administration.

Methods: Systemic absorption kinetics of various proteins were analyzed following microneedle-based ID delivery and standard injection methods in the swine model. Comparative PK data were determined using standard non-compartmental techniques based on blood serum levels.

Improved genetic immunization via micromechanical disruption of skin-barrier function and targeted epidermal delivery.

Skin is an attractive target for delivery of genetic therapies and vaccines. However, new approaches are needed to access this tissue more effectively. Here, we describe a new delivery technology based on arrays of structurally precise, micron-scale silicon projections, which we term microenhancer arrays (MEAs).