Differential Etching of Rays at Wood Surfaces Exposed to an Oxygen Glow Discharge Plasma.

Basswood samples were exposed to oxygen glow-discharge plasmas for 30 min, and etching of radial and tangential longitudinal surfaces was measured. It was hypothesized that there would be a positive correlation between etching and plasma energy, and differential etching of wood surfaces because of variation in the microstructure and chemical composition of different woody tissues. Etching at the surface of basswood samples was examined using profilometry.

Total Synthesis of Tanshinone I.

A novel total synthesis of tanshinone I (1) via the intermediate 3-hydroxy-8-methyl-1,4-phenanthrenedione (8) is described. The low overall yields and the use of expensive reagents in the synthesis process were minimized by the use of the Diels-Alder reaction to directly construct the 1,4-phenanthrenedione scaffold, providing tanshinone I (1) in only three steps.

Development of intravenous lipid emulsion of α-asarone with significantly improved safety and enhanced efficacy.

Severe adverse events have been frequently associated with taking the commercially available formulation of α-asarone injection (α-asarone-I). Hence, we sought to develop an intravenous lipid emulsion of α-asarone (α-asarone-LE), where we hypothesized that these adverse events could be prevented. Using a central composite design-response surface methodology, we developed and optimized an emulsion formulation of α-asarone-LE that composed of 10.

Formulation optimization of prostaglandin E₁-loaded lipid emulsion: enhanced stability and reduced biodegradation.

The purpose of this study is to develop a new formulation for prostaglandin E₁ (PGE₁)-loaded lipid emulsion (Lipo-PGE₁) with improved stability and reduced biodegradation. High-pressure homogenization was used to prepare the Lipo-PGE₁, and high-performance liquid chromatography and accelerated test were used to evaluate its physicochemical stability. A tissue homogenate incubation test was firstly established and validated to assess its biodegradation.

Development of intravenous lipid emulsion of tanshinone IIA and evaluation of its anti-hepatoma activity in vitro.

The purpose of this study was to develop a lipid emulsion of tanshinone IIA (Tan IIA-LE) for intravenous administration and to investigate its feasibility for future clinical practice. The formulation was optimized using central composite design-response surface methodology (CCD-RSM), and the homogenization process was investigated systematically. The Tan IIA-LE was evaluated in terms of stability, safety and in vitro anti-hepatoma activity.