1.Study on the Absorption of Silymarin Enteric Coated-PLGA Nanoparticles in Rat in situ Intestine Perfu-sion Model and Caco-2 Cell Model
Jing HE ; Yanchuan QIU ; Yanyin YANG ; Fengyun LIN ; Songqing LIU ; Shangfei JIANG ; Zhaojing ZHU
China Pharmacy 2017;28(1):46-49
OBJECTIVE:To study the absorption features of Silymarin enteric coated-polyllactic-co-glycolic acid (PLGA) nanoparticles in rat in situ intestine perfusion model and colonic adenoma Caco-2 cell model. METHODS:HPLC method was used to determine the content of silymarin. The absorption rate constant(Ka)and apparent absorption coefficient(Kapp)of Silymarin sus-pension,Silymarin PLGA nanoparticles and Silymarin enteric coated-PLGA nanoparticles were investigated in duodenum,jejunum, ileum and colon of rat in situ intestine perfusion model;the apparent permeability coefficient (Papp) of those drugs containing low-concentration,medium-concentration and high-concentration(20,40,60 μg/mL)of silymarin in Caco-2 cell model were also investigated. RESULTS:Compared with Silymarin suspension,Ka and Kapp of Silymarin PLGA nanoparticles and Silymarin enteric coated-PLGA nanoparticles were all increased in duodenum,jejunum,ileum and colon(P<0.05);compared with the correspond-ing concentration Silymarin suspension,two-way Papp of Silymarin PLGA nanoparticles and Silymarin enteric coated-PLGA nanopar-ticles containing low-concentration,medium-concentration and high-concentration of silymarin were all increased in Caco-2 cell model (P<0.05);there was no statistical significance between Silymarin PLGA nanoparticles and Silymarin enteric coated-PLGA nanoparticles (P>0.05). CONCLUSIONS:Silymarin enteric coated-PLGA nanoparticles can effectively increase the intestinal ab-sorption,cellular uptake and transmembrane transport rate of silymarin.
2.Optimized choice of tissue-engineered tendon suture materials based on biomechanics characteristics
Jihong WANG ; Shuzheng WEN ; Xiaohui LIN ; Chao YIN ; Dongsheng FAN ; Zengtao HAO ; Shangfei JING ; Chaoqian HAN ; Yongfei WANG
Chinese Journal of Tissue Engineering Research 2015;(12):1948-1952
BACKGROUND:The therapeutic effectiveness on tendon injury is closely related to the material of tendon suture.
OBJECTIVE: To review the progress of tendon suture materials and tendon biomechnics in recent years.
METHODS:A computer-based search of CNKI (January 1999 to December 2014), and PubMed (January 1950 to December 2014) was performed for relevant articles using the keywords of “tendon, suture materials,
biomechanics” in Chinese and English, respectively.
RESULTS AND CONCLUSION:Ideal tendon repair refers to the restoration of the continuity of its anatomical structure, tensile strength and sliding function in physiology, which is influenced by many factors. Suture technique and choice of suture materials are two steps that cannot be ignored. With the development of surgical tendon suture technique, in order to improve the quality of tendon healing, ideal tendon suture is first to have sufficient strength to avoid an early tensile fracture; secondly, the elasticity cannot be too large that can cause a gap between suturing ends and affect tendon healing, and time for protecting the tendon strength is as long as possible. Therefore, the optimal choice of tendon suture materials should be based on suture methods and biomechanical characteristics of suture lines, thereby to promote tendon healing.