期刊
INTERNATIONAL JOURNAL OF MEDICAL ROBOTICS AND COMPUTER ASSISTED SURGERY
卷 10, 期 4, 页码 482-494出版社
WILEY-BLACKWELL
DOI: 10.1002/rcs.1560
关键词
femtosecond laser; miniature robotic device; tooth crown preparation; optical transfer model
类别
资金
- National Key Technology R and D Program of China [2012BAI07B04]
- National Natural Science Foundation of China [61170187]
BackgroundThe existing methods in dental clinical operations for hard tissue removal have several drawbacks which affect the long-term success of the dental treatment. MethodsIn this paper, we introduce a miniature robotic device called LaserBot, which can manipulate a femtosecond laser beam to drill/burr a decayed tooth to realize clinical tooth crown preparation. In order to control the 3D motion of the laser focal point on the surface of a tooth, three miniature voice-coil motors with optical grating rulers are utilized to drive the 2D pitch/yaw rotation of a vibration mirror and 1D translation of a protruding optical lens. This method can provide high-resolution control of the laser beam. In order to maintain the small size of the robot, a parallel five linkage mechanism combined with a slider-rocker mechanism is developed to realize 2D pitch/yaw rotation of the vibration mirror. ResultsExperiment results show that the movement range and resolution of the laser beam point can meet the requirement of typical dental operations. The size of the working end of the device that enters the mouth is 25x22x57 mm (heightxwidthxlength), which is small enough to be mounted on any tooth. The average repeatability error of the laser focal point is about 40 mu m. Ablation experiments on wax-resin material and on tooth validate that a femtosecond laser can be used for tooth ablation. ConclusionsThe developed robotic device achieved precise 3D motion control of a laser focal point and is small enough to be used in the narrow workspace of the oral cavity. Limitations of the prototype have been identified, and quantified specifications are identified for designing the next generation prototype. Copyright (c) 2014 John Wiley & Sons, Ltd.
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