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Medical devices : surgical and image-guided technologies / edited by Martin Culjat, Rahul Singh, Hua Lee
Contributor(s): Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Publisher: Hoboken, N.J : Wiley, c2013Edition: Online-AusgDescription: Online-Ressource (1 online resource (xxi, 429 p.)) : illISBN:- 9781283715164
- 1283715163
- 9781118452790
- 9781118453360
- 9781118453537
- 610.284
- 610.28;610.284
- 610.28/4 23
- SCI010000
- R856
Contents:
Summary: MARTIN CULJAT, PhD, is Adjunct Assistant Professor in the UCLA Departments of Bioengineering and Surgery and the Engineering Research Director of the UCLA Center for Advanced Surgical and Interventional Technology (CASIT), a research center that promotes collaboration between medicine and engineering. RAHUL SINGH, PhD, is Adjunct Assistant Professor in the UCLA Departments of Bioengineering and Surgery. He leads several collaborative research projects at the UCLA Center for Advanced Surgical and Interventional Technology (CASIT). HUA LEE, PhD, is Professor in the Department of Electrical and Computer Engineering at UC Santa Barbara. Well known for his pioneering research laboratory, Dr. Lee is also the author of three other books on imaging technology and engineering.Summary: Intro -- MEDICAL DEVICES -- CONTENTS -- PREFACE -- CONTRIBUTORS -- PART I INTRODUCTION TO MEDICAL DEVICES -- 1. Introduction -- 1.1 History of Medical Devices -- 1.2 Medical Device Terminology -- 1.3 Purpose of the Book -- 2. Design of Medical Devices -- 2.1 Introduction -- 2.2 The Medical Device Design Environment -- 2.2.1 US Regulation -- 2.2.2 Differences in European Regulation -- 2.2.3 Standards -- 2.3 Basic Design Phases -- 2.3.1 Feasibility -- 2.3.2 Planning and Organization-Assembling the Design Team -- 2.3.3 When to Involve Regulatory Affairs -- 2.3.4 Conceptualizing and Review -- 2.3.5 Testing and Refinement -- 2.3.6 Proving the Concept -- 2.3.7 Pilot Testing and Release to Manufacturing -- 2.4 Postmarket Activities -- 2.5 Final Note -- PART II MINIMALLY INVASIVE DEVICES AND TECHNIQUES -- 3. Instrumentation for Laparoscopic Surgery -- 3.1 Introduction -- 3.2 Basic Principles -- 3.3 Laparoscopic Instrumentation -- 3.3.1 Trocars -- 3.3.2 Standard Laparoscopic Instruments -- 3.3.3 Additional Laparoscopic Instruments -- 3.3.4 Specimen Retrieval Bags -- 3.3.5 Disposable Instruments -- 3.4 Innovative Applications -- 3.5 Summary and Future Applications -- 4. Surgical Instruments in Ophthalmology -- 4.1 Introduction -- 4.2 Cataract Surgery -- 4.2.1 Basic Technique -- 4.2.2 Principles of Phacoemulsification -- 4.2.3 Phacoemulsification Instruments -- 4.2.4 Phacoemulsification Systems -- 4.2.5 Future Directions -- 4.3 Vitreoretinal Surgery -- 4.3.1 Basic Techniques -- 4.3.2 Principles of Vitrectomy -- 4.3.3 Vitrectomy Instruments -- 4.3.4 Vitrectomy Systems -- 4.3.5 Future Directions -- 4.4 Other Ophthalmic Surgical Procedures -- 4.5 Conclusion -- 5. Surgical Robotics -- 5.1 Introduction -- 5.2 Background and Leading Concepts -- 5.2.1 Human-Machine Interfaces: System Approach -- 5.2.2 Tissue Biomechanics -- 5.2.3 Teleoperation.PPN: PPN: 809982471Package identifier: Produktsigel: ZDB-26-MYL | ZDB-30-PAD | ZDB-30-PQE
MEDICAL DEVICES; CONTENTS; PREFACE; CONTRIBUTORS; PART I INTRODUCTION TO MEDICAL DEVICES; 1. Introduction; 1.1 History of Medical Devices; 1.2 Medical Device Terminology; 1.3 Purpose of the Book; 2. Design of Medical Devices; 2.1 Introduction; 2.2 The Medical Device Design Environment; 2.2.1 US Regulation; 2.2.2 Differences in European Regulation; 2.2.3 Standards; 2.3 Basic Design Phases; 2.3.1 Feasibility; 2.3.2 Planning and Organization-Assembling the Design Team; 2.3.3 When to Involve Regulatory Affairs; 2.3.4 Conceptualizing and Review; 2.3.5 Testing and Refinement
2.3.6 Proving the Concept2.3.7 Pilot Testing and Release to Manufacturing; 2.4 Postmarket Activities; 2.5 Final Note; PART II MINIMALLY INVASIVE DEVICES AND TECHNIQUES; 3. Instrumentation for Laparoscopic Surgery; 3.1 Introduction; 3.2 Basic Principles; 3.3 Laparoscopic Instrumentation; 3.3.1 Trocars; 3.3.2 Standard Laparoscopic Instruments; 3.3.3 Additional Laparoscopic Instruments; 3.3.4 Specimen Retrieval Bags; 3.3.5 Disposable Instruments; 3.4 Innovative Applications; 3.5 Summary and Future Applications; 4. Surgical Instruments in Ophthalmology; 4.1 Introduction; 4.2 Cataract Surgery
4.2.1 Basic Technique4.2.2 Principles of Phacoemulsification; 4.2.3 Phacoemulsification Instruments; 4.2.4 Phacoemulsification Systems; 4.2.5 Future Directions; 4.3 Vitreoretinal Surgery; 4.3.1 Basic Techniques; 4.3.2 Principles of Vitrectomy; 4.3.3 Vitrectomy Instruments; 4.3.4 Vitrectomy Systems; 4.3.5 Future Directions; 4.4 Other Ophthalmic Surgical Procedures; 4.5 Conclusion; 5. Surgical Robotics; 5.1 Introduction; 5.2 Background and Leading Concepts; 5.2.1 Human-Machine Interfaces: System Approach; 5.2.2 Tissue Biomechanics; 5.2.3 Teleoperation; 5.2.4 Image-Guided Surgery
5.2.5 Objective Assessment of Skill5.3 Commercial Systems; 5.3.1 ROBODOC® (Curexo Technology Corporation); 5.3.2 daVinci (Intuitive Surgical); 5.3.3 Sensei® X (Hansen Medical); 5.3.4 RIO® MAKOplasty (MAKO Surgical Corporation); 5.3.5 CyberKnife (Accuray); 5.3.6 Renaissancetm (Mazor Robotics); 5.3.7 ARTAS® System (Restoration Robotics, Inc.); 5.4 Trends and Future Directions; 6. Catheters in Vascular Therapy; 6.1 Introduction; 6.2 Historic Overview; 6.3 Catheter Interventions; 6.4 Catheter and Guide Wire Shapes and Configurations; 6.4.1 Catheters; 6.4.2 Guide Wires; 6.5 Conclusion
PART III ENERGY DELIVERY DEVICES AND SYSTEMS7. Energy-Based Hemostatic Surgical Devices; 7.1 Introduction; 7.2 History of Energy-Based Hemostasis; 7.3 Energy-Based Surgical Methods and Their Effects on Tissues; 7.3.1 Disambiguation; 7.3.2 Thermal Effects on Tissues; 7.4 Electrosurgery; 7.4.1 Electrosurgical Theory; 7.4.2 Cutting and Coagulation Techniques; 7.4.3 Equipment; 7.4.4 Considerations and Complications; 7.5 Future Of Electrosurgery; 7.6 Conclusion; 8. Tissue Ablation Systems; 8.1 Introduction; 8.2 Evolving Paradigms in Cancer Therapy; 8.3 Basic Ablation Categories and Nomenclature
8.4 Hyperthermic Ablation
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