1. |
李晋蒙, 欧国敏. 计算机辅助设计种植导板精度及其影响因素. 华西口腔医学杂志, 2017, 35(1): 93-98.
|
2. |
施文斌, 毛红. 数字化口腔种植技术及其临床应用. 石家庄: 河北科学技术出版社, 2019: 1-111.
|
3. |
Kaewsiri D, Panmekiate S, Subbalenkha K, et al. The accuracy of static vs. dynamic computer-assisted implant surgery in single tooth space: a randomized controlled trial. Clin Oral Impl Res, 2019, 30: 505-514.
|
4. |
Guzmán A M, Deglow E R, Zubizarreta-Macho A, et al. Accuracy of computer-aided dynamic navigation compared to computer-added static navigation for dental implant placement: an in vitro study. J Clin Med, 2019, 8: 2123.
|
5. |
Parra-Tresserra A, Marquès-Guasch J, Ortega-Martínez J, et al. Current state of dynamic surgery. a literature review. Med Oral Patol Oral Cir Bucal, 2021, 26(5): e576-e581.
|
6. |
Nagata K, Fuchigami K, Hoshi N, et al. Accuracy of guided surgery using the silicon impression and digital impression method for the mandibular free end: a comparative study. International Journal of Implant Dentistry, 2021, 7: 2.
|
7. |
Murat S, Kamburoğlu K, Özen T. Accuracy of a newly developed cone-beam computerized tomography-aided surgical guidance system for dental implant placement: an ex vivo study. J Oral Implantol, 2012, 38(6): 706-712.
|
8. |
Ravidà A, Barootchi S, Tattan M, et al. Clinical outcomes and cost effectiveness of computer-guided versus conventional implant-retained hybrid prostheses: a long-term retrospective analysis of treatment protocols. J Periodontol, 2018, 89(9): 1015-1024.
|
9. |
Kiatkroekkrai P, Takolpuckdee C, Subbalekha K, et al. Accuracy of implant position when placed using static computer-assisted implant surgical guides manufactured with two different optical scanning techniques: a randomized clinical trial. Int J Oral Maxillofac Surg, 2020, 49(3): 377-383.
|
10. |
Martelli N, Serrano Carole, Brink H, et al. Advantages and disadvantages of 3-dimensional printing in surgery: a systematic review. Surgery, 2016, 159(6): 1485-1500.
|
11. |
Lin C C, Ishikawa M, Huang B H, et al. In vitro accuracy of static guided implant surgery measured by optical scan: examining the impact of operator experience. Appl Sci, 2020, 10: 2718.
|
12. |
Franchina A, Stefanelli L V, Maltese F, et al. Validation of an intra-oral method versus cone beam computed tomography superimposition to assess the accuracy between planned and achieved dental implants: a randomized in vitro study. Int J Environ Res Public Health, 2020, 17: 9358.
|
13. |
Skjerven H, Olsen-Bergem H, Rønold H J, et al. Comparison of postoperative intraoral scan versus cone beam computerised tomography to measure accuracy of guided implant placement-a prospective clinical study. Clin Oral Implants Res, 2019, 30(6): 531-541.
|
14. |
Van Assche N, Vercruyssen M, Coucke W, et al. Accuracy of computer-aided implant placement. Clin Oral Implants Res, 2012, 23 Suppl 6(Suppl.6): 112-123.
|
15. |
Tahmaseb A, Wu V, Wismeijer D, et al. The accuracy of static computer-aided implant surgery: a systematic review and meta-analysis. Clin Oral Implants Res, 2018, 29(Suppl.16): 416-435.
|
16. |
Sigcho López D A, García I, Da Silva Salomao G, et al. Potential deviation factors affecting stereolothograpchic surgical guides: a systematic review. Implant Dentistry, 2019, 28(1): 68-73.
|
17. |
Lin C C, Wu C Z, Huang M S, et al. Fully digital workflow for planning static guided implant surgery: a prospective accuracy study. J Clin Med, 2020, 9: 980.
|
18. |
Vasak C, Strbac G D, Huber C D, et al. Evaluation of three different validation procedures regarding the accuracy of template-guided implant placement: an in vitro study. Clinical Implant Dentistry and Related Research, 2015, 17(1): 142-159.
|
19. |
Jamjoom F Z, Kim D G, Mcglumphy E A, et al. Positional accuracy of a prosthetic treatment plan incorporated into a cone beam computed tomography scan using surface scan registration. J Prosthet Dent, 2018, 120(3): 367-374.
|
20. |
Woo H W, Mai H N, Lee D H. Comparison of the accuracy of image registration methods for merging optical scan and radiographic data in edentulous jaws. J Prosthodont, 2020, 29(8): 707-711.
|
21. |
Matta R E, Bergauer B, Adler W A, et al. The impact of the fabrication method on the three-dimensional accuracy of an implant surgery template. Journal of Cranio-Maxillofacial Surgery, 2017, 45(6): 804-808.
|
22. |
Schnutenhaus S, Edelmann C, Rudolph H, et al. Does the macro design of an implant affect the accuracy of template-guided implantation? a prospective clinical study. International Journal of Implant Dentistry, 2021, 7(1): 42.
|
23. |
Gjelvold B, Mahmood D J H, Wennerberg A. Accuracy of surgical guides from 2 different desktop 3D printers for computed tomography-guided surgery. The Journal of Prosthetic Dentistry, 2019, 121(3): 498-503.
|
24. |
Chen L, Lin W S, Polido W D, et al. Accuracy, reproducibility, and dimensional stability of additively manufactured surgical templates. The Journal of Prosthetic Dentistry, 2019, 122(3): 309-314.
|
25. |
Herschdorfer L, Negreiros W M, Gallucci G O, et al. Comparison of the accuracy of implants placed with CAD-CAM surgical templates manufactured with various 3D printers: an in vitro study. J Prosthet Dent, 2021, 125(6): 905-910.
|
26. |
Pieralli S, Spies B C, Hromadnik V, et al. How accurate is oral implant installation using surgical guides printed from a degradable and steam-sterilized biopolymer?. J Clin Med, 2020, 9(8): 2322.
|
27. |
Henprasert P, Dawson D V, El-Kerdani T, et al. Comparison of the accuracy of implant position using surgical guides fabricated by additive and subtractive techniques. J Prosthodont, 2020, 29(6): 534-541.
|
28. |
Chai J Y, Liu X Q, Schweyen R, et al. Accuracy of implant surgical guides fabricated using computer numerical control milling for edentulous Jaws:a pilot clinical trial. BMC Oral Health, 2020, 20: 288.
|
29. |
Abduo J, Lau D. Effect of manufacturing technique on the accuracy of surgical guides for static computer-aided implant surgery. Int J Oral Maxillofac Implants, 2020, 35(5): 931-938.
|
30. |
Revilla-León M, Sadeghpour M, Özcan M. An update on applications of 3D printing technologies used for processing polymers used in implant dentistry. Odontology, 2020, 108(3): 331-338.
|
31. |
Mai H N, Lee D H. Effects of supporting conditions and anchor microscrew on the stabilization of the implant guide template during the drilling process: an in vitro study. The Journal of Prosthetic Dentistry, 2020, 124(6): 727.e1-727.e8.
|
32. |
Lou F Z, Rao P C, Zhang M R, et al. Accuracy evaluation of partially guided and fully guided templates applied to implant surgery of anterior teeth: a randomized controlled trial. Clin Implant Dent Relat Res, 2021, 23(1): 117-130.
|
33. |
Chen Y, Zhang X Q, Wang M X, et al. Accuracy of full-guided and half-guided surgical templates in anterior immediate and delayed implantation:a retrospective study. Materials, 2021, 14: 26.
|
34. |
Abduo J, Lau D. Accuracy of static computer-assisted implant placement in anterior and posterior sites by clinicians new to implant dentistry: in vitro comparison of fully guided, pilot-guided, and freehand protocols. International Journal of Implant Dentistry, 2020, 6: 10.
|
35. |
Schulz M C, Hofmann F, Range U, et al. Pilot-drill guided vs. full-guided implant insertion in artificial mandibles-a prospective laboratory study in fifth-year dental students. International Journal of Implant Dentistry, 2019, 5: 23.
|
36. |
Younes F, Cosyn J, de Bruyckere T, et al. A randomized controlled study on the accuracy of free-handed,pilot-drill guided and fully guided implant surgery in partially edentulous patients. J Clin Periodontol, 2018, 45(6): 721-732.
|
37. |
Lin C C, Ishikawa M, Maida T, et al. Stereolithographic surgical guide with a combination of tooth and bone support: accuracy of guided implant surgery in distal extension situation. J Clin Med, 2020, 9: 709.
|
38. |
El Kholy K, Lazarin R, Janner S, et al. Influence of surgical guide support and implant site location on accuracy of static computer-assisted implant surgery. Clin Oral Implants Res, 2019, 30(11): 1067-1075.
|
39. |
Tang T H, Huang Z L, Liao L M, et al. Factors that influence direction deviation in freehand implant placement. J Prosthodont, 2019, 28(5): 511-518.
|
40. |
Zhou W, Liu Z, Song L, et al. Clinical factors affecting the accuracy of guided implant surgery-a systematic review and meta-analysis. J Evid Based Dent Pract, 2018, 18(1): 28-40.
|
41. |
Vinci R, Manacorda M, Abundo R, et al. Accuracy of edentulous computer-aided implant surgery as compared to virtual planning: a retrospective multicenter study. J Clin Med, 2020, 9: 774.
|
42. |
Schnutenhaus S, Brunken L, Edelmann C, et al. Alveolar ridge preservation and primary stability as influencing factors on the transfer accuracy of static guided implant placement: a prospective clinical trial. BMC Oral Health, 2020, 20: 178.
|
43. |
Kivovics M, Pénzes D, Németh O, et al. The influence of surgical experience and bone density on the accuracy of static computer-assisted implant surgery in edentulous jaws using a mucosa-supported surgical template with a half-guided implant placement protocol-a randomized clinical study. Materials, 2020, 13: 5759.
|
44. |
Rungcharassaeng K, Caruso J M, Kan J Y, et al. Accuracy of computer-guided surgery: a comparison of operator experience. J Prosthet Dent, 2015, 114(3): 407-413.
|
45. |
El Kholy K, Janner S F M, Schimmel M, et al. The influence of guided sleeve height, drilling distance, and drilling key length on the accuracy of static computer-assisted implant surgery. Clin Implant Dent Relat Res, 2019, 21(1): 101-107.
|
46. |
Lim J H, Bayarsaikhan E, Shin S H, et al. Effects of groove sealing of the posterior occlusal surface and offset of the internal surface on the internal fit and accuracy of implant placements using 3D-printed surgical guides:an in vitro study. Polymers, 2021, 13: 1236.
|