Alt Çene Hareketlerinin Kaydı ve Analizi
References
Soboļeva U, Lauriņa L, Slaidiņa A. Jaw tracking devices–historical review of methods development. Part I. Stomatologija. 2005;7(3):67-71.
Clayton JA, Kotowicz W, Zahler JM. Pantographic tracings of mandibular movements and occlusion. The Journal of prosthetic dentistry. 1971;25(4):389-96.
Howell P, Ellis S, Johnson C, Watson I, Klineberg I. The recording and analysis of EMG and jaw tracking. II. Reproducibility of jaw tracking. Journal of Oral Rehabilitation. 1993;20(1):33-43.
Ecker CA, Goodacre CJ, Dykema RW. A comparison of condylar control settings obtained from wax interocclusal records and simplified mandibular motion analyzers. The Journal of Prosthetic Dentistry. 1984;51(3):404-6.
Das A, Muddugangadhar BC, Mawani DP, Mukhopadhyay A. Comparative evaluation of sagittal condylar guidance obtained from a clinical method and with cone beam computed tomography in dentate individuals. The Journal of Prosthetic Dentistry. 2021;125(5):753-7.
Piehslinger E, Celar A, Celar R, Jaeger W, Slavicek R. Reproducibility of the condylar reference position. Journal of orofacial pain. 1993;7(1).
Soboļeva U, Lauriņa L, Slaidiņa A. Jaw tracking devices--historical review of methods development. Part II. Stomatologija. 2005;7(3):72-6.
Airoldi RL, Gallo LM, Palla S. Precision of the jaw tracking system JAWS-3D. Journal of Orofacial Pain. 1994;8(2).
Kwon JH, Im S, Chang M, Kim J-E, Shim J-S. A digital approach to dynamic jaw tracking using a target tracking system and a structured-light three-dimensional scanner. Journal of prosthodontic research. 2019;63(1):115-9.
Carossa M, Cavagnetto D, Ceruti P, Mussano F, Carossa S. Individual mandibular movement registration and reproduction using an optoeletronic jaw movement analyzer and a dedicated robot: a dental technique. BMC Oral Health. 2020;20:1-8.
Lauren M. A new 4-dimensional imaging system for jaw tracking. International journal of computerized dentistry. 2014;17(1):75-82.
Kurbad A. Three-dimensional registration of real jaw motion tracking data and its therapeutic consequences. International journal of computerized dentistry. 2018;21(1).
Hugger A, Boloni E, Berntien U, Stuttgen U, editors. Accuracy of an ultrasonic measurement system for jaw movement recording. Journal of Dental Research; 2001: INT AMER ASSOC DENTAL RESEARCHI ADR/AADR 1619 DUKE ST, ALEXANDRIA, VA 22314 ….
Uchida T, Sakai J, Okamoto Y, Watanabe T, Kitagawa T, Aida M, et al. Studies evaluating measurement accuracy of CMS-JAW, a jaw motion tracking device with six degrees of freedom using an ultrasonic recording system. Nihon Hotetsu Shika Gakkai Zasshi. 2008;52(3):350-9.
Ratzmann A, Mundt T, Schwahn C, Langforth G, Hutzen D, Gedrange T, et al. Comparative clinical investigation of horizontal condylar inclination using the JMA electronic recording system and a protrusive wax record for setting articulators. International journal of computerized dentistry. 2007;10(3):265-84.
Schierza O, Klingerb N, Schönc G, Reißmannd D. The Reliability of Computerized Condylar Path Angle Assessment Reliabilität der computergestützten Gelenkbahnneigungsvermessung. International journal of computerized dentistry. 2014;17(1):35-51.
Ruge S, Kordass B. 3D-VAS--initial results from computerized visualization of dynamic occlusion. International journal of computerized dentistry. 2008;11(1):9-16.
Ruge S, Quooss A, Kordass B. Variability of closing movements, dynamic occlusion, and occlusal contact patterns during mastication. International journal of computerized dentistry. 2011;14(2):119-27.
Mehl A. A new concept for the integration of dynamic occlusion in the digital construction process. International journal of computerized dentistry. 2012;15(2):109-23.
Kim J-E, Park J-H, Moon H-S, Shim J-S. Complete assessment of occlusal dynamics and establishment of a digital workflow by using target tracking with a three-dimensional facial scanner. Journal of prosthodontic research. 2019;63(1):120-4.
D’haese R, Vrombaut T, Roeykens H, Vandeweghe S. In vitro accuracy of digital and conventional impressions for full-arch implant-supported prostheses. Journal of Clinical Medicine. 2022;11(3):594.
Sornsuwan T, Swain MV. Influence of occlusal geometry on ceramic crown fracture; role of cusp angle and fissure radius. Journal of the mechanical behavior of biomedical materials. 2011;4(7):1057-66.
Olthoff L, Meijer I, De Ruiter W, Bosman F, Van der Zel J. Effect of virtual articulator settings on occlusal morphology of CAD/CAM restorations. International journal of computerized dentistry. 2007;10(2):171-85.
Valenti M, Schmitz JH. A reverse digital workflow by using an interim restoration scan and patient-specific motion with an intraoral scanner. The Journal of Prosthetic Dentistry. 2021;126(1):19-23.
Lee Y-C, Lee C, Shim J-S, Park J-M, Shin Y, Kim J-E, et al. Comparison between occlusal errors of single posterior crowns adjusted using patient specific motion or conventional methods. Applied Sciences. 2020;10(24):9140.
Li Q, Bi M, Yang K, Liu W. The creation of a virtual dental patient with dynamic occlusion and its application in esthetic dentistry. The Journal of Prosthetic Dentistry. 2021;126(1):14-8.
Sun A, Yang Y, Gao H, Lin WS, Chen L, Tan J. Integrating facial and intraoral scans for digital esthetic and occlusal design: a technical report. Journal of Prosthodontics. 2021;30(8):729-33.
Clayton JA, Kotowicz W, Zahler JM. Pantographic tracings of mandibular movements and occlusion. The Journal of prosthetic dentistry. 1971;25(4):389-96.
Howell P, Ellis S, Johnson C, Watson I, Klineberg I. The recording and analysis of EMG and jaw tracking. II. Reproducibility of jaw tracking. Journal of Oral Rehabilitation. 1993;20(1):33-43.
Ecker CA, Goodacre CJ, Dykema RW. A comparison of condylar control settings obtained from wax interocclusal records and simplified mandibular motion analyzers. The Journal of Prosthetic Dentistry. 1984;51(3):404-6.
Das A, Muddugangadhar BC, Mawani DP, Mukhopadhyay A. Comparative evaluation of sagittal condylar guidance obtained from a clinical method and with cone beam computed tomography in dentate individuals. The Journal of Prosthetic Dentistry. 2021;125(5):753-7.
Piehslinger E, Celar A, Celar R, Jaeger W, Slavicek R. Reproducibility of the condylar reference position. Journal of orofacial pain. 1993;7(1).
Soboļeva U, Lauriņa L, Slaidiņa A. Jaw tracking devices--historical review of methods development. Part II. Stomatologija. 2005;7(3):72-6.
Airoldi RL, Gallo LM, Palla S. Precision of the jaw tracking system JAWS-3D. Journal of Orofacial Pain. 1994;8(2).
Kwon JH, Im S, Chang M, Kim J-E, Shim J-S. A digital approach to dynamic jaw tracking using a target tracking system and a structured-light three-dimensional scanner. Journal of prosthodontic research. 2019;63(1):115-9.
Carossa M, Cavagnetto D, Ceruti P, Mussano F, Carossa S. Individual mandibular movement registration and reproduction using an optoeletronic jaw movement analyzer and a dedicated robot: a dental technique. BMC Oral Health. 2020;20:1-8.
Lauren M. A new 4-dimensional imaging system for jaw tracking. International journal of computerized dentistry. 2014;17(1):75-82.
Kurbad A. Three-dimensional registration of real jaw motion tracking data and its therapeutic consequences. International journal of computerized dentistry. 2018;21(1).
Hugger A, Boloni E, Berntien U, Stuttgen U, editors. Accuracy of an ultrasonic measurement system for jaw movement recording. Journal of Dental Research; 2001: INT AMER ASSOC DENTAL RESEARCHI ADR/AADR 1619 DUKE ST, ALEXANDRIA, VA 22314 ….
Uchida T, Sakai J, Okamoto Y, Watanabe T, Kitagawa T, Aida M, et al. Studies evaluating measurement accuracy of CMS-JAW, a jaw motion tracking device with six degrees of freedom using an ultrasonic recording system. Nihon Hotetsu Shika Gakkai Zasshi. 2008;52(3):350-9.
Ratzmann A, Mundt T, Schwahn C, Langforth G, Hutzen D, Gedrange T, et al. Comparative clinical investigation of horizontal condylar inclination using the JMA electronic recording system and a protrusive wax record for setting articulators. International journal of computerized dentistry. 2007;10(3):265-84.
Schierza O, Klingerb N, Schönc G, Reißmannd D. The Reliability of Computerized Condylar Path Angle Assessment Reliabilität der computergestützten Gelenkbahnneigungsvermessung. International journal of computerized dentistry. 2014;17(1):35-51.
Ruge S, Kordass B. 3D-VAS--initial results from computerized visualization of dynamic occlusion. International journal of computerized dentistry. 2008;11(1):9-16.
Ruge S, Quooss A, Kordass B. Variability of closing movements, dynamic occlusion, and occlusal contact patterns during mastication. International journal of computerized dentistry. 2011;14(2):119-27.
Mehl A. A new concept for the integration of dynamic occlusion in the digital construction process. International journal of computerized dentistry. 2012;15(2):109-23.
Kim J-E, Park J-H, Moon H-S, Shim J-S. Complete assessment of occlusal dynamics and establishment of a digital workflow by using target tracking with a three-dimensional facial scanner. Journal of prosthodontic research. 2019;63(1):120-4.
D’haese R, Vrombaut T, Roeykens H, Vandeweghe S. In vitro accuracy of digital and conventional impressions for full-arch implant-supported prostheses. Journal of Clinical Medicine. 2022;11(3):594.
Sornsuwan T, Swain MV. Influence of occlusal geometry on ceramic crown fracture; role of cusp angle and fissure radius. Journal of the mechanical behavior of biomedical materials. 2011;4(7):1057-66.
Olthoff L, Meijer I, De Ruiter W, Bosman F, Van der Zel J. Effect of virtual articulator settings on occlusal morphology of CAD/CAM restorations. International journal of computerized dentistry. 2007;10(2):171-85.
Valenti M, Schmitz JH. A reverse digital workflow by using an interim restoration scan and patient-specific motion with an intraoral scanner. The Journal of Prosthetic Dentistry. 2021;126(1):19-23.
Lee Y-C, Lee C, Shim J-S, Park J-M, Shin Y, Kim J-E, et al. Comparison between occlusal errors of single posterior crowns adjusted using patient specific motion or conventional methods. Applied Sciences. 2020;10(24):9140.
Li Q, Bi M, Yang K, Liu W. The creation of a virtual dental patient with dynamic occlusion and its application in esthetic dentistry. The Journal of Prosthetic Dentistry. 2021;126(1):14-8.
Sun A, Yang Y, Gao H, Lin WS, Chen L, Tan J. Integrating facial and intraoral scans for digital esthetic and occlusal design: a technical report. Journal of Prosthodontics. 2021;30(8):729-33.
Pages
33-44
Published
November 21, 2024
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