R_Bibb_Medical_Modelling_The_Application_of_Adv.pdf
R_Bibb_Medical_Modelling_The_Application_of_Adv.pdf
R_Bibb_Medical_Modelling_The_Application_of_Adv.pdf
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148 <strong>Medical</strong> modelling<br />
6. Park H S, Kim Y K, Yoon C H (2001), ‘Various applications <strong>of</strong> titanium mesh<br />
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H, Steffen H (2001), ‘Effectiveness <strong>of</strong> a new perforated 0.15 mm poly-pdioxanon-foil<br />
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fl oor’, Journal <strong>of</strong> Craniomaxill<strong>of</strong>acial Surgery, 2, 82–8.<br />
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models derived from x-ray computed tomography: reproduction accuracy’,<br />
Surgical and Radiologic Anatomy, 3, 193–9.<br />
9. <strong>Bibb</strong> R, Brown R (2000), ‘<strong>The</strong> application <strong>of</strong> computer aided product development<br />
techniques in medical modelling’, Biomedical Sciences Instrumentation,<br />
36, 319–24.<br />
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6.6 Surgical applications case study 4: Rapid<br />
manufacture <strong>of</strong> custom fi tting surgical guides<br />
6.6.1 Acknowledgements<br />
<strong>The</strong> work described in this case study was fi rst reported in the reference<br />
below.<br />
• <strong>Bibb</strong> R, Eggbeer D, Bocca A, Sugar A, 2005, ‘Rapid design and manufacture<br />
<strong>of</strong> custom fi tting stainless steel surgical guides’, Proceedings <strong>of</strong><br />
the Sixth National Conference on Rapid Design, Prototyping and<br />
Manufacture, pages 65–72, ISBN: 0973778318.<br />
6.6.2 Introduction<br />
Over the last decade rapid prototyping (RP) techniques have been employed<br />
widely in maxill<strong>of</strong>acial surgery. However, this has concentrated on the