Content and distribution of inorganic elements in Laminaria japonica based on ICP-MS and Micro-XRF / 中国中药杂志

In order to evaluate the composition and distribution characteristics of inorganic elements in Laminaria japonica, this study employed inductively coupled plasma mass spectrometry(ICP-MS) to detect the inorganic elements and used high performance liquid chromatography tandem ICP-MS(HPLC-ICP-MS) to determine the content of different arsenic species in L. japonica from diffe-rent origins. Micro X-ray fluorescence(Micro-XRF) was used to determine micro-area distribution of inorganic elements in L. japonica. The results showed that the average content of Mn, Fe, Sr, and Al was high, and that of As and Cr exceeded the limits of the national food safety standard. According to the results of HPLC-ICP-MS, arsenobetaine(AsB) was the main species of As contained in L. japonica. The more toxic inorganic arsenic accounts for a small proportion, whereas its content was 1-4 times of the limit in the national food safety standard. The results of Micro-XRF showed that As, Pb, Fe, Cu, Mn, and Ni were mainly distributed on the surface of L. japonica. Among them, As and Pb had a clear tendency to diffuse from the surface to the inside. The results of the study can provide a basis for the processing as well as the medicinal and edible safety evaluation of L. japonica.

Structure of the Conjugated Linoleic Acid-Paclitaxel Conjugate Self-Assembled Nanoparticles / 中国药学杂志

OBJECTIVE: To prepare, the conjugated linoleic acid-paclitaxel conjugate self-assembled nanoparticles (CLA-PTX NPs) by nanoprecipitation. METHODS: The Dynamic light scattering, nuclear magnetic resonance spectroscopy, raman spectroscopy, fourier transform infrared spectroscopy and nitrogen element distribution of CLA-PTX NPs were studied. RESULTS: The hydroxyl groups (C-4 and C-10 of PTX) and the acetyl groups (C-1 and C-7 of PTX) were on the surface of CLA-PTX NPs, CLA carbon chain, the benzene ring (C-2 and C-3' of PTX) and the amide bond (C-3' of PTX) were inside the CLA-PTX NPs. CONCLUSION: It is speculated that the self-assembly of CLA-PTX is that the non-polar CLA carbon chain spontaneously aggregates inward due to hydrophobic interaction, and the hydrophilic oxygen-containing groups of PTX (hydroxyl group and carbonyl group) are on the surface of the nanoparticle to form nanoparticles.