1Leong KF, Cheah CM, Chua CK. Solid freeform fabrica- tion of three-dimensional scaffolds for engineering replace-ment tissues and organs[J]. Biomaterials, 2003, 24(13):2363- 2378. 被引量:1
2Yeong WY, Chua CK, Leong KF, et al. Rapid prototyping in tissue engineering: challenges and potential[J]. Trends Biotechnol, 2004, 22(12):643-652. 被引量:1
3Hodosh M, Povar M, Shklar G. The dental polymer implant concept[J]. J Prosthet Dent, 1969, 22(3):371-380. 被引量:1
4Moin DA, Hassan B, Parsa A, et al. Accuracy of preemp- tively constructed, cone beam CT-, and CAD/CAM tech- nology-based, individual root analogue implant technique: an in vitro pilot investigation[J]. Clin Oral Implants Res, 2014, 25(5):598-602. 被引量:1
5Figliuzzi M, Mangano F, Mangano C. A novel root analo- gue dental implant using CT scan and CAD/CAM: selective laser melting technology[J]. Int J Oral MaxillofacSurg, 2012, 41(7):858-862. 被引量:1
6Nainar SMM, Begum S, Ansari MNM, et al. Effect of com- patibilizers on in vitro biocompatibility of PLA-HA bios- caffold[J]. Bioinspired Biomimetic Nanobiomaterials, 2014, 3(4):208-216. 被引量:1
7Jaszkiewicz A, Bledzki AK, Franciszczak P. Improving the mechanical performance of PLA composites with natural, man-made cellulose and glass fibers-a comparison to PP counterparts[J]. Polimery, 2013, 58(6):435-442. 被引量:1
8Goh BT, Chanchareonsook N, Tideman H, et al. The use of a polycaprolactone-tricalcium phosphate scaffold for bone regeneration of tooth socket facial wall defects and simultaneous immediate dental implant placement in Maca- cafascicularis[J]. J Biomed Mater Res A, 2014, 102(5):1379- 1388. 被引量:1
9Goh BT, Teh LY, Tan DB, et al. Novel 3D polycaprolac- tone scaffold for ridge preservation-a pilot randomised controlled clinical trial[J]. Clin Oral Implants Res, 2015, 26(3):271-277. 被引量:1
10Al-Rawi B, Hassan B, Vandenberge B, et al. Accuracy as- sessment of three-dimensional surface reconstructions of teeth from cone beam computed tomography scans[J]. J Oral Rehabil, 2010, 37(5):352-358. 被引量:1
