The feasibility of a three-dimensional charting interface for general dentistry.

BACKGROUND Most current paper- and computer-based formats for patient documentation use a two-dimensional dental chart, a design that originated almost 150 years ago in the United States. No studies have investigated the inclusion of a three-dimensional (3-D) charting interface in a general dental record. METHODS A multidisciplinary research team with expertise in human-computer interaction, dental informatics and computer science conducted a 14-week project to develop and evaluate a proof of concept for a 3-D dental record. Through several iterations of paper- and computer-based prototypes, the project produced a high-fidelity (hi-fi) prototype that was evaluated by two dentists and two dental students. RESULTS The project implemented a prototypical patient record built around a 3-D model of a patient's maxillofacial structures. Novel features include automatic retrieval of images and radiographs; a flexible view of teeth, soft tissue and bone; access to historical patient data through a timeline; and the ability to focus on a single tooth. CONCLUSIONS Users tests demonstrated acceptance for the basic design of the prototype, but also identified several challenges in developing intuitive, easy-to-use navigation methods and hi-fi representations in a 3-D record. CLINICAL IMPLICATIONS Test participants in this project accepted the preliminary design of a 3-D dental record. Significant further research must be conducted before the concept can be applied and evaluated in clinical practice.

[1]  Heiko Spallek,et al.  Research Paper: A Qualitative Investigation of the Content of Dental Paper-based and Computer-based Patient Record Formats , 2007, J. Am. Medical Informatics Assoc..

[2]  Yangxi Chen,et al.  Three-dimensional spiral computed tomographic imaging: a new approach to the diagnosis and treatment planning of impacted teeth. , 2006, American journal of orthodontics and dentofacial orthopedics : official publication of the American Association of Orthodontists, its constituent societies, and the American Board of Orthodontics.

[3]  Manuel O Lagravère,et al.  The treatment effects of Invisalign orthodontic aligners: a systematic review. , 2005, Journal of the American Dental Association.

[4]  P. Trefný,et al.  Three-dimensional visualisation and analysis of post-operative changes in the size and shape of the dental arch and palate. , 2005, Acta chirurgiae plasticae.

[5]  Judith A Buchanan,et al.  Experience with virtual reality-based technology in teaching restorative dental procedures. , 2004, Journal of dental education.

[6]  Denise Estafan,et al.  An overview of the CEREC 3D CAD/CAM system. , 2004, General dentistry.

[7]  G Arnetzl,et al.  PREPassistant: a system for evaluating tooth preparations. , 2004, International journal of computerized dentistry.

[8]  T.L.J. Ferris,et al.  User-Centered Design: An Integrated Approach , 2004, IEEE Transactions on Professional Communication.

[9]  A F Ayoub,et al.  Applications of 3D Imaging in Orthodontics: Part I , 2004, Journal of orthodontics.

[10]  R Enciso,et al.  Three-dimensional visualization of the craniofacial patient: volume segmentation, data integration and animation. , 2003, Orthodontics & craniofacial research.

[11]  R. Langlais,et al.  Magnetic resonance imaging in dentistry. , 2000, Dental clinics of North America.

[12]  A Kawamata,et al.  Three-dimensional computed tomography imaging in dentistry. , 2000, Dental clinics of North America.

[13]  E. Parks,et al.  Computed tomography applications for dentistry. , 2000, Dental clinics of North America.

[14]  Alan Cooper,et al.  The Inmates Are Running the Asylum: Why High Tech Products Drive Us Crazy and How to Restore the Sanity (2nd Edition) , 1999 .

[15]  Alan Cooper,et al.  The Inmates are Running the Asylum , 1999, Software-Ergonomie.

[16]  Jakob Nielsen,et al.  Usability engineering , 1997, The Computer Science and Engineering Handbook.

[17]  P Suetens,et al.  Computer-assisted planning of oral implant surgery. An approach using virtual reality. , 1996, Studies in health technology and informatics.

[18]  Jakob Nielsen,et al.  A mathematical model of the finding of usability problems , 1993, INTERCHI.

[19]  Stacey Ashlund Human Factors in Computing Systems : INTERCHI '93 : proceedings of the INTERCHI '93, Amsterdam, the Netherlands, April 24-29, 1993 , 1993 .

[20]  Donald A. Norman,et al.  User Centered System Design: New Perspectives on Human-Computer Interaction , 1988 .

[21]  J. Graham Substitution of perceptual-motor ability test for chalk carving in Dental Admission Testing Program. , 1972, Journal of dental education.

[22]  Bruton Lee Thorpe Biographies of pioneer American dentsits and their successors , 1909 .

[23]  P.,et al.  Clinical Computing in General Dentistry , 2022 .