Performance characteristics of UV imaging instrumentation for diffusion, dissolution and release testing studies.

UV imaging is capable of providing spatially and temporally resolved absorbance measurements, which is highly beneficial in drug diffusion, dissolution and release testing studies. For optimal planning and design of experiments, knowledge about the capabilities and limitations of the imaging system is required. The aim of this study was to characterize the performance of two commercially available UV imaging systems, the D100 and SDI.

In vitro release studies of insulin from lipid implants in solution and in a hydrogel matrix mimicking the subcutis.

Widely accepted in vitro methodologies for sustained release parenteral drug formulations remain to be established. Hydrogels have been proposed as a release matrix more closely resembling the in vivo conditions for formulations intended for subcutaneous administration. The perspective of the current work was to investigate the feasibility of developing UV imaging-based in vitro methods enabling visualization and characterization of drug release and transport of protein therapeutics intended for subcutaneous administration.

Real-time UV imaging identifies the role of pH in insulin dissolution behavior in hydrogel-based subcutaneous tissue surrogate.

For parenteral biopharmaceuticals, subcutaneous diffusion and, in the case of solid implants or suspensions, dissolution may govern the clinical profile of the drug product. Insight into the dissolution and diffusion processes of biopharmaceuticals after parenteral administration is fundamental in the development of new protein drug formulations. Using insulin as a model compound, the aim of this work was to develop a UV imaging-based method to study the real-time dissolution and diffusion behavior of solid protein drugs under stagnant conditions in a hydrogel matrix mimicking the subcutaneous tissue.

Insulin diffusion and self-association characterized by real-time UV imaging and Taylor dispersion analysis.

Assessment of release kinetics of subcutaneously administered protein therapeutics remains a complex challenge. In vitro methods capable of visualizing and characterizing drug transport properties, in the formulation as well as surrounding subcutaneous tissue environment, are desirable in drug development. Diffusion is a key process in drug release and transport.

Dissolution study of nanocrystal powders of a poorly soluble drug by UV imaging and channel flow methods.

Application of drug nanocrystals provides advantageous options for the pharmaceutical formulation development of poorly soluble drugs. The objective of this study was to investigate the dissolution behavior improving effects of differently sized nanocrystals of a poorly soluble model drug, indomethacin. Nanocrystal suspensions were prepared using a top-down wet milling technique with three stabilizers: poloxamer F68, poloxamer F127 and polysorbate 80.

Modification of concomitant drug release from oil vehicles using drug-prodrug combinations to achieve sustained balanced analgesia after joint installation.

Intra-articular injection of two drugs in a sustained drug delivery system combining the use of lipophilic solution with the prodrug approach may provide efficient and prolonged postoperative pain treatment after arthroscopic procedures. In the present study, the concomitant release of N,N-diethyl glycolamide ester of naproxen and ropivacaine from an oil vehicle consisting of medium-chain triglycerides were investigated in vitro. The release into both phosphate buffer and 80% (v/v) synovial fluid at pH 7.