Cost-effective 3D scanning and printing technologies for outer ear reconstruction: current status.

Current 3D scanning and printing technologies offer not only state-of-the-art developments in the field of medical imaging and bio-engineering, but also cost and time effective solutions for surgical reconstruction procedures. Besides tissue engineering, where living cells are used, bio-compatible polymers or synthetic resin can be applied. The combination of 3D handheld scanning devices or volumetric imaging, (open-source) image processing packages, and 3D printers form a complete workflow chain that is capable of effective rapid prototyping of outer ear replicas. This paper reviews current possibilities and latest use cases for 3D-scanning, data processing and printing of outer ear replicas with a focus on low-cost solutions for rehabilitation engineering.

[Presentation and evaluation of the haptic-visual ear surgery training system "HaptiVisT"]. / Vorstellung und Evaluation des haptisch-visuellen, ohrchirurgischen Trainingssystems "HaptiVisT".

BACKGROUND: Operations on the temporal bone are a special challenge for ENT surgeons. The aim of the BMBF-funded project was to develop a realistic training system for ear operations in the form of a "serious game". METHODS: The presented prototype of the HaptiVisT system functions as a training system for ear surgeries with visual feedback through a glasses-free 3D monitor and feedback by means of a haptic arm simulating the drill. A variety of training options is guaranteed by three available surgical procedures (antrotomy, mastoidectomy, posterior tympanotomy). A weighted point system enables the measurability of the training success. Following the technical development of the prototype, a prospective evaluation was carried out by eight ENT physicians and four students regarding "learning content" and "user experience". A standardized questionnaire was used (ordinal scale: 1=very good to 5=very bad). RESULTS: Regarding the learning content, the aspects "strengthening anatomy (mean=1.58)", "training hand-eye coordination (1.67)", "transferability into practice (1.83)", "usefulness for practice (1.33)" yielded good to very good scores. "User experience" also showed good results for the aspects "realism (2.29)", "interaction of haptics and optics (2.33)" and "immersion in the training system (1.89)". The "motivation factor" was very high for all test subjects (1.2). CONCLUSIONS: The training system for ear surgeries "HaptiVisT" offers the possibility of immersive training. Integration into the daily clinical routine and in particular into the medical training to become an ENT specialist therefore seems to make sense.