Objective To establish a pre-column derivation HPLC-UV method for the content determination of hyodeoxycholic acid in artificial calculus bovis. Methods The hyodeoxycholic acid was derived by 2-bromo-2’-acetonaphthoneat using triethylamine as the catalyst in 60 ℃ water bath. After that, a HPLC-UV method was established to determine the content of hyodeoxycholic acid in artificial calculus bovis. Results When the derivatising time at 60 ℃ water bath was 50 min, the radio of the molar amount of derived reagents and hyodeoxycholic was over 20:1 and the radio of catalyst and hyodeoxycholic was over 15:1; the reaction was completed. The calibration curve was linear within the range of 0.1–2 μg for hyodeoxycholic acid (r=0.999 7), and the average recovery was 97.85% (RSD=1.6%). In this sample, the content of hyodeoxycholic is 4.12%. Conclusion The method is with high sensitivity, highly reproducible, reliable and accurate for the content determination of hyodeoxycholic acid in artificial calculus bovis.

This paper is to establish a three-dimensional finite element model (3D-FEM) of pelvic floor levator ani muscles in an old healthy women. We acquired the image data of the pelvic bones and pelvic floor muscles from CT and MRI scanning in a non-pregnant old healthy female volunteers. The 3-D reconstruction and mesh optimization of the whole pelvic bones and muscles with application of image processing software Mimics12.0 and Geomagic9.0 were obtained. Then we built the 3D-FEM of the musculoskeletal system of the pelvic bones and levator ani muscles with Ansys11.0 software. We obtained an accurate 3D-FEM of pelvic bones and levator ani muscles in the older healthy woman. The results showed that it was reliable to build 3D-FEM with CT and MRI scanning data and this model could vividly reflect the huge space anatomy of the real pelvic floor levator ani muscles. It avoids the defects to gain the model from the body of anatomical specimens in the past. The image data of model are closer to vivisection, and the model is more conducive to the latter finite element analysis.
Female ; Finite Element Analysis ; Humans ; Imaging, Three-Dimensional ; Magnetic Resonance Imaging ; Middle Aged ; Muscle, Skeletal ; anatomy & histology ; diagnostic imaging ; Pelvic Floor ; anatomy & histology ; diagnostic imaging ; Tomography, X-Ray Computed ; methods

Synthetic biology is an emerging interdisciplinary research field. By designing and constructing new or re-designing the existing natural systems, it confers them novel functions, which do not exist in nature. Owing to the predictability and controllability, synthetic biology attracts more and more interest from biologists, physicists, and engineers. Synthetic biology approaches not only can be widely used for biotechnological applications but also can be used to study complex biological systems to address fundamental questions. Here, we reviewed the recent studies following the concept of "build-to-understand", particularly, the studies to understand intracellular network structure, cell physiology, the behavior of multicellular populations, and ecosystems.