The use and validation of a laser scanner for computer aided design and manufacturing of wheelchair seating.

Professionals in wheelchair seating services over several decades have captured many thousands of patient shapes in various forms to manufacture customized seating systems for people with complex disabilities. With the exception of a few commercial companies, the predominant methodology employs a plaster casting technique to record the required shape. This can be labour-intensive and shape information is often retained in the cast and may not be recoverable over time due to storage issues. This paper describes the development of processes utilizing a laser scanner to advance the fabrication of customized seating systems. The study employed two 3D laser scanners and hence validated the use of the lower cost scanner (accuracy ± 0.1 mm) for both research purposes and clinical work. The paper concludes that these technologies have the potential to develop the knowledge of individuals' shapes with complex disabilities within specialist seating and other clinical fields.

Suitability of electrosurgical analysers for routine maintenance testing of electrosurgery units - a technical note.

PRIMARY OBJECTIVE: To evaluate the use of electrosurgical analysers in testing power output and leakage current from an electrosurgery unit and compare this to the manufacturer recommendations for routine testing. METHOD: Two electrosurgical analysers were compared to reference measurements (carried out using non-inductive resistors, a current transformer and oscilloscope) over a range of tests described in IEC 60601-2-2: 1998 measuring power output and leakage currents in different conditions. The analysers used were Metron QA-ES and Fluke 454A. OUTCOMES: Both analysers gave similar results to the reference measurements for power output. The Metron QA-ES gave similar results to the reference measurements for leakage current testing; however the Fluke 454A gave substantially different results when used as described in the manual. CONCLUSIONS: Electrosurgical analysers can be a valuable tool in the workshop, enabling rapid, accurate testing of electrosurgery equipment without needing additional equipment and setting up times. Not all analysers can perform all the tests that may be needed and in some cases the accuracy of the results is questionable. Users must be certain of the capabilities and limitations of the analyser before making decisions based on the results.

Applications of nanotechnology in orthopaedics.

Nanotechnology is the application of science and engineering at the nanoscale. A diverse range of applications are beginning to emerge in all areas of medicine. We performed a survey from November 2005 to March 2006 using the Internet search engines PubMed, ScienceDirect, ISI Web of Knowledge, and Google Scholar. We report on the role of nanotechnology in orthopaedics, exploring current and potential applications. Nanostructured materials have been proposed as the next generation of orthopaedic implant properties by creating a surface environment more conducive for osteoblast function. Bone substitute materials, whose nanoscale composition emulates the hierarchic organization of natural bone, shows initiation of the desirable formation of an apatite layer. Nanotechnology also has been harnessed to improve the cutting performance and quality of surgical blades. Postoperative infection rates may be reduced by using nanofibrous membrane wound dressings containing antibacterial properties. The most notable application of nanotechnology in orthopaedics may be drug delivery, including nanotherapeutics for treating bone cancer and arthritis. Nanotechnology is being used in orthopaedics, and likely will play a valuable role in future developments.