1.In vitro constructing artificial biomimetic periosteum
Rui SUN ; Xiaofei CHEN ; Lin ZHAO ; Jianhong ZHAO ; Jiajia YU ; Guangtie REN ; Zhenhe TUO
Chinese Journal of Tissue Engineering Research 2013;(42):7349-7355
BACKGROUND:The smal intestinal submucosa has good biocompatibility and biodegradability, and also contains a variety of growth factors that can significantly promote celladhesion, proliferation and differentiation. Currently, the smal intestinal submucosa has been widely used in bone and cartilage, blood vessels, skin, bladder, smooth muscle and pancreatic tissue repair, showing good performance as a tissue-engineered cellscaffold.
OBJECTIVE:To investigate the in vitro feasibility of tissue engineered periosteum constructed by porcine smal intestinal submucosa and osteoblasts differentiated from bone marrow mesenchymal stem cells.
METHODS:Bone marrow mesenchymal stem cells were harvested from 2-week-old healthy New Zealand rabbits by using adherent method, and then cells were cultured, induced, differentiated and identified in vitro. Fol owing induced differentiation and identification, the bone marrow mesenchymal stem cells were compounded with porcine smal intestinal submucosa to fabricate tissue engineered periosteum. The adhesion, growth, and proliferation of cells on the materials were observed.
RESULTS AND CONCLUSION:At 5 days after inoculation, the cells receiving osteogenic induction could quickly adhere and proliferate on the surface of porcine smal intestinal submucosa and be interconnected;at 10 days, the desmosomes formed among the cells, cellprocesses from osteoblasts were visible and attached to the smal intestine submucosa;at 15 days, cellproliferation and secretion of matrix appeared, and multi-layer membrane-like structure formed on the surface of the smal intestine submucosa. These findings indicate that after osteogenic induction, the bone marrow mesenchymal stem cells can be combined with porcine smal intestinal submucosa to construct a tissue engineered periosteum, which is hoped to be an ideal scaffold for tissue engineering.
2.Design of a new type of adult scapular anatomic locking plate
Huiming SHI ; Yuanjun HU ; Jianhua CHEN ; Kun ZHANG ; Fei WANG ; Xiaolong ZHAO ; Guangtie REN
Chinese Journal of Orthopaedic Trauma 2018;20(7):617-622
Objective To evaluate a new type of adult scapular anatomical locking plate which was designed for fixation of the major fracture fragment based on the characteristics of major fracture location and posterior surgical approach.Methods The Computed Tomography (CT) data of the scapula were collected for this studv of the 80 normal adults who had undergone CT scanning from January 2015 to January 2018 at Department of Orthopedics,Hanzhong Central Hospital.They were 43 males and 37 females.3D models of the scapula were reconstructed using the CT data by computer.After scapular neck (CD),scapular lateral border (D)E),angulus scapulae (EF),scapular spine (HJJ2 and HKK2),and angles of the scapula (∠ CD)E,∠ DEF,∠ HKK2 and ∠ HJJ2) were measured,our new type of adult scapular anatomical locking plate was designed to meet the requirements of operation and fixation.Results The main parameters of the scapula at the major fixation region were CD of 10.27 ±0.99 mm,DE of 73.03 ±6.27 mm,EF of 52.03 ±6.85mm,HJ of 36.27 ± 2.10 mm,HKof41.44±2.58mm,∠ CDE of128.61° ± 6.30°,∠DEF1of 167.11 °±3.83°,∠DEF2 of 173.01 °±4.45°,∠HJJ2 of 133.43°±7.47°,and ∠HKK2 of 123.55°± 7.84°.The new type of claw-shaped scapular locking plate we had designed conformed to the segmental lengths and the angles between the adjacent segments of the scapula.Conclusions Our new type of adult scapular anatomical locking plate mav be used to fix the major scapular fracture fragment,providing a new choice to solve the problem in fixation of complex scapular fractures.However,its clinical practicality and effectiveness needs further clinical research.