Microencapsulation of Radix salvia miltiorrhiza nanoparticles by spray-drying

About 133.5 nm Radix salvia miltiorrhiza nanoparticles were prepared by high speed centrifugal sheering pulverizer and the nanoparticles were characterized by TEM in this study. Microcapsules containing R. salvia miltiorrhiza nanoparticles were produced by spray-drying technique using different proportions of gelatin and sodium salt of carboxymethylcellulose (CMC-Na) as wall materials. The effects of inlet temperature, flow rate, spray-gas flow and the ratio of Mcore/Mwall on encapsulation yield (EY) and encapsulation efficiency (EE) were investigated. The EE was determined by reverse high performance liquid chromatography (HPLC); the resulting microcapsules were characterized by FT-IR, SEM, and X-ray diffraction analysis. In addition, in vitro release characters of R. salvia miltiorrhiza raw powder, spray-dried powder and microcapsules were also studied. The results showed that spray-dried microcapsules had a regular spherical shape but the majority presented rough surfaces or invaginations with a diameter of 2–5 μm. R. salvia miltiorrhiza nanoparticles were embedded in the wall system consisting of gelatin and CMC-Na. Higher EE and EY were obtained under the inlet temperature of 80 °C and the ratio of Mcore/Mwall of 1/4. In vitro release study showed that R. salvia miltiorrhiza microcapsules could regulate drug release. This study may be helpful to the pharmaceutical application of R. salvia miltiorrhiza.

Radix salvia miltiorrhiza nanoparticles (showing as the following figure) were prepared by high speed centrifugal sheering pulverizer and 2–5 ìm microcapsules containing nanoparticles were produced by spray-drying using gelatin and CMC-Na as wall materials. A satisfactory encapsulation yield of 59.64% and encapsulation efficiency of 75.66–90.42% were obtained under the inlet temperature of 80 °C and the ratio of Mcore/Mwall of 1/4.Figure optionsDownload as PowerPoint slide