- 서론
- 1. 구강 스캐너의 작동 원리와 각 스캐너의 특성
- 2. 구강 스캐너의 적용 분야와 그 분야에서의 정확성 기술
- 결론
- References
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https://www.riss.kr/link?id=A100899097
2015
Korean
515
KCI등재
학술저널
112-125(14쪽)
5
0
상세조회0
다운로드목차 (Table of Contents)
참고문헌 (Reference)
1 Scotti R, "WITHDRAWN: Clinical fitting of CAD/CAM zirconia single crowns generated from digital intraoral impressions based on active wavefront sampling" 2011
2 Abdel-Azim T, "The influence of digital fabrication options on the accuracy of dental implant-based single units and complete-arch frameworks" 29 : 1281-1288, 2014
3 Brawek PK, "The clinical accuracy of single crowns exclusively fabricated by digital workflow-the comparison of two systems" 17 : 2119-2125, 2013
4 Jacobson B., "Taking the headache out of impressions" 26 : 74-76, 2007
5 Logozzo S, "Recent advances in dental optics-Part I : 3D intra-oral scanners for restorative dentistry" 54 : 203-221, 2014
6 Wang YG, "Preliminary evaluation of clinical effect of computer aided design and computer aided manufacture zirconia crown" 48 : 355-358, 2013
7 Renne W, "Predicting marginal fit of CAD/CAM crowns based on the presence or absence of common preparation errors" 108 : 310-315, 2012
8 Fellers TJ, "Olympus FluoView Resource Center: introduction to confocal microscopy"
9 Stoetzer M, "Nonradiological method for 3-dimensional implant position assessment using an intra-oral scan : new method for postoperative implant control" 23 : 612-616, 2014
10 Babayoff N, "Method and apparatus for colour imaging a three dimensional structure"
1 Scotti R, "WITHDRAWN: Clinical fitting of CAD/CAM zirconia single crowns generated from digital intraoral impressions based on active wavefront sampling" 2011
2 Abdel-Azim T, "The influence of digital fabrication options on the accuracy of dental implant-based single units and complete-arch frameworks" 29 : 1281-1288, 2014
3 Brawek PK, "The clinical accuracy of single crowns exclusively fabricated by digital workflow-the comparison of two systems" 17 : 2119-2125, 2013
4 Jacobson B., "Taking the headache out of impressions" 26 : 74-76, 2007
5 Logozzo S, "Recent advances in dental optics-Part I : 3D intra-oral scanners for restorative dentistry" 54 : 203-221, 2014
6 Wang YG, "Preliminary evaluation of clinical effect of computer aided design and computer aided manufacture zirconia crown" 48 : 355-358, 2013
7 Renne W, "Predicting marginal fit of CAD/CAM crowns based on the presence or absence of common preparation errors" 108 : 310-315, 2012
8 Fellers TJ, "Olympus FluoView Resource Center: introduction to confocal microscopy"
9 Stoetzer M, "Nonradiological method for 3-dimensional implant position assessment using an intra-oral scan : new method for postoperative implant control" 23 : 612-616, 2014
10 Babayoff N, "Method and apparatus for colour imaging a three dimensional structure"
11 Almeida e Silva JS, "Marginal and internal fit of four-unit zirconia fixed dental prostheses based on digital and conventional impression techniques" 18 : 515-523, 2014
12 Souza RO, "Marginal and internal discrepancies related to margin design of ceramic crowns fabricated by a CAD/CAM system" 21 : 94-100, 2012
13 Kondon N., "Making the switch to the Lava C.O.S"
14 3M ESPE, "LavaTM ScanSToptical scanning system"
15 Kattadiyil MT, "Intra-oral scanning of hard and soft tissues for partial removable dental prosthesis fabrication" 112 : 444-448, 2014
16 Babayoff N, "Imaging a three dimensional structure by confocal focusing an array of light beams"
17 Pawley JB, "Handbook of biological confocal microscopy" Springer 2006
18 Mandelaris GA, "Guided implant surgery with placement of a presurgical CAD/CAM patient-specific abutment and provisional in the esthetic zone" 35 : 494-504, 2014
19 Babayoff N, "Glaser-Inbari I. Method and apparatus for imaging three-dimensional structure"
20 Fisker R, "Focus scanning apparatus"
21 Keul C, "Fit of 4-unit FDPs made of zirconia and CoCr-alloy after chairside and labside digitalization-a laboratory study" 30 : 400-407, 2014
22 Baig MR, "Evaluation of the marginal fit of a zirconia ceramic computer-aided machined(CAM)crown system" 104 : 216-227, 2010
23 이완선, "Evaluation of different approaches for using a laser scanner in digitization of dental impressions" 대한치과보철학회 6 (6): 22-29, 2014
24 An S, "Evaluating the marginal fit of zirconia copings with digital impressions with an intra-oral digital scanner" 112 : 1171-1175, 2014
25 Fasbinder DJ., "Digital workflow for the Lava C.O.S system" 5 : 2009
26 Harrison L., "Digital impressions competition booming"
27 Re D, "Comparison of marginal fit of Lava CAD/CAM crown-copings with two finish lines" 9 : 426-435, 2014
28 El-Hakim SF, "Comparative evaluation of the performance of passive and active 3D vision systems" 14 : 1995
29 Syrek A, "Clinical evaluation of all-ceramic crowns fabricated from intra-oral digital impressions based on the principle of active wavefront sampling" 38 : 553-559, 2010
30 Tamim H, "Clinical evaluation of CAD/CAM metal-ceramic posterior crowns fabricated from intra-oral digital impressions" 27 : 331-337, 2014
31 Stapleton BM, "Application of digital diagnostic impression, virtual planning, and computer-guided implant surgery for a CAD/CAM-fabricated, implantsupported fixed dental prosthesis: a clinical report" 112 : 402-408, 2014
32 Thiel E, "Apparatus and method for optical 3D measurement"
33 Thiel F, "Apparatus and method for optical 3D measurement"
34 Nickenig HJ, "An alternative method to match planned and achieved positions of implants, after virtual planning using cone-beam CT data and surgical guide templates-a method reducing patient radiation exposure (part I)" 38 : 436-440, 2010
35 Papaspyridakos P, "Accuracy of implant impressions for partially and completely edentulous patients : a systematic review" 29 : 836-845, 2014
36 Seelbach P, "Accuracy of digital and conventional impression techniques and workflow" 17 : 1759-1764, 2013
37 Ender A, "Accuracy of complete-arch dental impressions : a new method of measuring trueness and precision" 109 : 121-128, 2013
38 Giménez, B, "Accuracy of a digital impression system based on parallel confocal laser technology for implants with consideration of operator experience and implant angulation and depth" 29 : 853-862, 2014
39 Lombardo V, "A time-of-scan laser triangulation technique for distance measurements" 39 : 247-254, 2003
40 Ali P, "A reliable 3D laser triangulationbased scanner with a new simple but accurate procedure for finding scanner parameters" 6 : 80-85, 2010
41 Ng J, "A comparison of the marginal fit of crowns fabricated with digital and conventional methods" 112 : 555-560, 2014
42 Wang L, "A Novel double triangulation 3D camera design" 877-882, 2006
43 Kostiukova VV, "A Comparative Analysis Of Intra-oral 3d digital scanners for restorative dentistry" 93 : 53-59, 2014
44 Franca JGDM, "A 3D scanning system based on laser triangulation and variable field of view" 1 : 425-428, 2005
45 Heber, "3d image reconstruction using active wavefront sampling"
46 3Shape, "3Shape TRIOSs digital impression solution"
47 Birnbaum NS, "3D digital scanners : a high tech approach to more accurate dental impressions" 5 : 70-74, 2009
48 Schmidt V., "3D dental camera for recording surface structures of a measuring object by means of triangulation"
49 Hart DP, "3-D imaging system"
하부구조물 및 두께에 따른 치과 수복용 세라믹의 색조에 대한 분광측색분석
콘빔CT (Cone beam computed tomography, CBCT)를 이용한 상악 대구치에서의 C-형 치근 및 근관에 관한 연구
학술지 이력
연월일 | 이력구분 | 이력상세 | 등재구분 |
---|---|---|---|
2022 | 평가예정 | 재인증평가 신청대상 (재인증) | |
2019-01-01 | 평가 | 등재학술지 유지 (계속평가) | |
2016-01-01 | 평가 | 등재학술지 선정 (계속평가) | |
2015-12-01 | 평가 | 등재후보로 하락 (기타) | |
2011-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
2010-08-25 | 학회명변경 | 한글명 : 대한치과턱관절기능교합학회 -> 대한턱관절교합학회 | |
2010-03-05 | 학술지명변경 | 한글명 : 대한치과턱관절기능교합학회지 -> 구강회복응용과학지외국어명 : The journal of Korean academy of stomatognathic function and occlusion -> Journal of Dental Rehabilitation and Applied Science | |
2008-01-01 | 평가 | 등재학술지 선정 (등재후보2차) | |
2007-01-01 | 평가 | 등재후보 1차 PASS (등재후보1차) | |
2005-01-01 | 평가 | 등재후보학술지 선정 (신규평가) |
학술지 인용정보
기준연도 | WOS-KCI 통합IF(2년) | KCIF(2년) | KCIF(3년) |
---|---|---|---|
2016 | 0.13 | 0.13 | 0.14 |
KCIF(4년) | KCIF(5년) | 중심성지수(3년) | 즉시성지수 |
0.15 | 0.15 | 0.466 | 0 |