BACKGROUND: Advances in computing over the last 10 years have rapidly improved imaging and simulation in health care. Implementation of three-dimensional protocols and image fusion techniques are moving diagnosis, treatment planning, and teaching to a next-generation paradigm. In addition, decreasing cost and increasing availability make generalized use of these techniques possible. METHODS: In this article, the authors present a Web-based, integrated simulation system for craniofacial surgical planning and treatment. Image fusion technology was utilized to create a realistic virtual image that can be manipulated in real time. The resultant data can then be shared over the Internet by distantly located practitioners. RESULTS: Initial use of this system proved to be beneficial from a planning standpoint and to be accurate as to the reliability of landmark identification. Additional case studies are needed to further document the results of actual surgical simulation. CONCLUSION: This technology presents significant advantages in surgical planning and education, both of which can improve patient safety and outcomes.
BACKGROUND: Advances in computing over the last 10 years have rapidly improved imaging and simulation in health care. Implementation of three-dimensional protocols and image fusion techniques are moving diagnosis, treatment planning, and teaching to a next-generation paradigm. In addition, decreasing cost and increasing availability make generalized use of these techniques possible. METHODS: In this article, the authors present a Web-based, integrated simulation system for craniofacial surgical planning and treatment. Image fusion technology was utilized to create a realistic virtual image that can be manipulated in real time. The resultant data can then be shared over the Internet by distantly located practitioners. RESULTS: Initial use of this system proved to be beneficial from a planning standpoint and to be accurate as to the reliability of landmark identification. Additional case studies are needed to further document the results of actual surgical simulation. CONCLUSION: This technology presents significant advantages in surgical planning and education, both of which can improve patient safety and outcomes.
Authors: Lucia H C Cevidanes; Scott Tucker; Martin Styner; Hyungmin Kim; Jonas Chapuis; Mauricio Reyes; William Proffit; Timothy Turvey; Michael Jaskolka Journal: Am J Orthod Dentofacial Orthop Date: 2010-09 Impact factor: 2.650