Release-Modulated Antioxidant Activity of a Composite Curcumin-Chitosan Polymer.

Curcumin is known to have immense therapeutic potential but is hindered by poor solubility and rapid degradation in solution. To overcome these shortcomings, curcumin has been conjugated to chitosan through a pendant glutaric anhydride linker using amide bond coupling chemistry. The hybrid polymer has been characterized by UV-visible, fluorescence, and infrared spectroscopies as well as zeta potential measurements and SEM imaging.

Curcumin encapsulation in submicrometer spray-dried chitosan/Tween 20 particles.

Optimal curcumin delivery for medicinal applications requires a drug delivery system that both solubilizes curcumin and prevents degradation. To achieve this, curcumin has been encapsulated in submicrometer chitosan/Tween 20 particles via a benchtop spray-drying process. Spray-drying parameters have been optimized using a Taguchi statistical approach to minimize particle size and to favor spheroid particles with smooth surfaces, as evaluated with scanning electron microscopy (SEM) imaging.

Enhancing skin wound healing by direct delivery of intracellular adenosine triphosphate.

Background: A new intracellular adenosine triphosphate (ATP) delivery technique has been developed and was tested for skin wound care.

Methods: Eleven pairs of adult nude mice were used. ATP-vesicles were applied in 11 mice, and another 11 mice were treated with lipid vesicles only.

Direct energy delivery improves tissue perfusion after resuscitated shock.

Background: Conventional resuscitation (CR) from hemorrhagic shock (HS) does not restore intestinal blood flow. Indicators of anaerobic metabolism suggest that cellular energy production also is compromised. We hypothesize that the direct intravenous delivery of lipid-encapsulated high-energy phosphates to cells improves intestinal perfusion during HS and resuscitation (RES).

Establishing the inhibitory effects of bradykinin on thrombin.

Bradykinin, RPPGFSPFG, has been reported to be an inhibitor of thrombin's roles in blood clotting, platelet activation, and cellular permeability. The exact target, magnitude, and type of inhibition occurring are not well characterized. Based on the individual kinetic parameters calculated here, bradykinin is classified as a weak competitive inhibitor against hydrolysis of S-2238 and of a PAR4-like peptide.