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200 00$aAdvanced manufacturing technology for medical applications$b[electronic resource] $ereverse engineering, software conversion, and rapid prototyping /$fedited by Ian Gibson
210   $aChichester, West Sussex, England ;$aHoboken, NJ, USA $cJ. Wiley$dc2005
215   $a1 online resource (256 p.)
225 1 $aEngineering Research Series (REP)
300   $aDescription based upon print version of record.
311   $a0-470-01688-4 
320   $aIncludes bibliographical references and index.
327   $aAdvanced Manufacturing Technology for Medical Applications; Contents; Contributors; 1 Rapid Prototyping for Medical Applications; 1.1 Overview; 1.2 Workshop on Medical Applications for Reverse Engineering and Rapid Prototyping; 1.3 Purpose of This Chapter (Overview); 1.4 Background on Rapid Prototyping; 1.5 Stereolithography and Other Resin-type Systems; 1.6 Fused Deposition Modelling and Selective Laser Sintering; 1.7 Droplet/Binder Systems; 1.8 Related Technology: Microsystems and Direct Metal Systems; 1.9 File Preparation; 1.10 Relationship with Other Technologies
327   $a1.11 Disadvantages with RP for Medical Applications1.12 Summary; Bibliography; 2 Role of Rapid Digital Manufacture in Planning and Implementation of Complex Medical Treatments; 2.1 Introduction; 2.2 Primer on Medical Imaging; 2.3 Surgical Planning; 2.3.1 Virtual planning; 2.3.2 Implementation of the plan; 2.4 RDM in Medicine; 2.4.1 RP-generated anatomical models; 2.4.2 Custom treatment devices with ADM; 2.5 The Future; 2.6 Conclusion; References; 3 Biomodelling; 3.1 Introduction; 3.2 Surgical Applications of Real Virtuality; 3.2.1 Cranio-maxillofacial biomodelling
327   $a3.2.1.1 Integration of biomodels with dental castings3.2.1.2 Use of biomodels to shape maxillofacial implants; 3.2.1.3 Use of biomodels to prefabricate templates and splints; 3.2.1.4 Use of biomodels in restorative prosthetics; 3.2.2 Use of real virtuality in customized cranio-maxillofacial prosthetics; 3.2.2.1 Computer mirroring techniques for the generation of prostheses; 3.2.2.2 Results of implantation; 3.2.2.3 Advantages of prefabricated customized cranioplastic implants; 3.2.3 Biomodel-guided stereotaxy; 3.2.3.1 Development of stereotaxy
327   $a3.2.3.2 Development of biomodel-guided stereotactic surgery3.2.3.3 Biomodel-guided stereotactic surgery with a template and markers; 3.2.3.4 Biomodel-guided stereotactic surgery using the D'Urso frame; 3.2.3.5 Utility of biomodel-guided stereotactic surgery; 3.2.4 Vascular biomodelling; 3.2.4.1 Biomodelling from CTA; 3.2.4.2 Biomodelling from MRA; 3.2.4.3 Clinical applications of vascular biomodels; 3.2.4.4 Vascular biomodelling: technical note; 3.2.5 Skull-base tumour surgery; 3.2.6 Spinal surgery; 3.2.6.1 Spinal biomodel stereotaxy; 3.2.6.2 Technical considerations in spinal biomodelling
327   $a3.2.7 Orthopaedic biomodelling3.3 Case Studies; References; 4 Three-dimensional Data Capture and Processing; 4.1 Introduction; 4.2 3D Medical Scan Process; 4.2.1 3D scanning; 4.2.1.1 Computed tomography imaging and its applications; 4.2.1.2 Magnetic resonance imaging and its applications; 4.2.1.3 Ultrasound imaging and its applications; 4.2.1.4 3D laser scanning; 4.2.2 3D reconstruction; 4.3 RE and RP in Medical Application; 4.3.1 Proposed method for RP model construction from scanned data; 4.3.2 Reconstruction software; 4.3.3 Accuracy issues; 4.4 Applications of Medical Imaging
327   $a4.5 Case Study
330   $aAdvanced manufacturing technologies (AMTs) combine novel manufacturing techniques and machines with the application of information technology, microelectronics and new organizational practices within the manufacturing sector. They include ""hard"" technologies such as rapid prototyping, and ""soft"" technologies such as scanned point cloud data manipulation. AMTs contribute significantly to medical and biomedical engineering. The number of applications is rapidly increasing, with many important new products now under development. Advanced Manufacturing Technology for Medical Applications<
410  0$aEngineering Research Series (REP)
606   $aMedical technology
606   $aMedical innovations
606   $aManufacturing processes
608   $aElectronic books.
615  0$aMedical technology.
615  0$aMedical innovations.
615  0$aManufacturing processes.
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200 10$aStandard operation procedures (SOPs) for the palla VM-KT vibrating cryomill $eproduction of fresh frozen standard reference and control materials (SRMs/CMs) at the NIST reference material production facility /$fAmanda J. Moors, Rebecca S. Pugh, Jody R. Evans, Jennifer M. Ness, Debra L. Ellisor, Melannie J. Bachman
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