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This book provides an overview of the use of rapid prototyping in patients with cardiac pathology. With the exponential increase in the use of prototyping, or 3D printing technology, medical applications are becoming more widespread across specialties. Although medical centers are beginning to apply this technology for improved patient care, there is no single text to which specialists can refer for guidance about this emerging modality. The book discusses the use of rapid prototyping in medicine; model creation; image acquisition; rapid prototyping techniques; applications in congenital and…mehr
This book provides an overview of the use of rapid prototyping in patients with cardiac pathology. With the exponential increase in the use of prototyping, or 3D printing technology, medical applications are becoming more widespread across specialties. Although medical centers are beginning to apply this technology for improved patient care, there is no single text to which specialists can refer for guidance about this emerging modality. The book discusses the use of rapid prototyping in medicine; model creation; image acquisition; rapid prototyping techniques; applications in congenital and structural heart disease; and development and management of a rapid prototyping service. The use of rapid prototyping for pre-procedural planning in patients with cardiac disorders such as septal defects, Tetralogy of Fallot, transcatheter aortic valve replacement, and ventricular assist devices and heart transplant significantly enhances visualization of cardiovascular anatomy. Rapid Prototyping in Cardiac Disease is a unique and valuable resource for cardiac imaging specialists, cardiothoracic surgeons, radiologists, and biomedical engineers.
Kanwal Majeed Farooqi, MD, Assistant Professor of Pediatrics, Division of Pediatric Cardiology, Rutgers, New Jersey Medical School, Newark, NJ, USA, Adjunct Assistant Professor of Pediatrics, Division of Pediatric Cardiology, Icahn School of Medicine at Mount Sinai, New York, NY, USA
Inhaltsangabe
Part I: Introduction.- History of Rapid Prototyping.- Creation of a 3D Printed Model from Virtual to Physical.- Image Acquisition for Creation of a 3D Model: CT, CMR and Echocardiography.- Postprocessing–Software and Technique Options.- Rapid Prototyping Technologies.- Part 2: Pediatrics.- Imaging Considerations and Challenges in Pediatrics.- Septal Defects.- Tetralogy of Fallot with Major Aortopulmonary Collateral Arteries.- Double Outlet Right Ventricle.- Utilization of 3D Printing for Pulmonary Valve Placement.- 3D Printing in Adult Congenital Heart Disease.- Part 3: Structural Heart Disease.- Patient-Specific Modeling for Transcatheter Aortic Valve Replacement.- Rapid Prototyping in Valvular Heart Disease.- Three-Dimensional Models for Assessing Ventricular Assist Device Placement and Function.- Cardiac Tumors.- Part 4: Management Strategies.- Establishing a Cardiovascular Rapid Prototyping Service.- Utility of a 3D File Database.- 3D Bioprinting for Cardiovascular Tissue Engineering.- Past Developments and Future Directions of 3D Cardiac Printing—A Surgeon’s Perspective.
Part I: Introduction.- History of Rapid Prototyping.- Creation of a 3D Printed Model from Virtual to Physical.- Image Acquisition for Creation of a 3D Model: CT, CMR and Echocardiography.- Postprocessing-Software and Technique Options.- Rapid Prototyping Technologies.- Part 2: Pediatrics.- Imaging Considerations and Challenges in Pediatrics.- Septal Defects.- Tetralogy of Fallot with Major Aortopulmonary Collateral Arteries.- Double Outlet Right Ventricle.- Utilization of 3D Printing for Pulmonary Valve Placement.- 3D Printing in Adult Congenital Heart Disease.- Part 3: Structural Heart Disease.- Patient-Specific Modeling for Transcatheter Aortic Valve Replacement.- Rapid Prototyping in Valvular Heart Disease.- Three-Dimensional Models for Assessing Ventricular Assist Device Placement and Function.- Cardiac Tumors.- Part 4: Management Strategies.- Establishing a Cardiovascular Rapid Prototyping Service.- Utility of a 3D File Database.- 3D Bioprinting for Cardiovascular Tissue Engineering.- Past Developments and Future Directions of 3D Cardiac Printing-A Surgeon's Perspective.
Part I: Introduction.- History of Rapid Prototyping.- Creation of a 3D Printed Model from Virtual to Physical.- Image Acquisition for Creation of a 3D Model: CT, CMR and Echocardiography.- Postprocessing–Software and Technique Options.- Rapid Prototyping Technologies.- Part 2: Pediatrics.- Imaging Considerations and Challenges in Pediatrics.- Septal Defects.- Tetralogy of Fallot with Major Aortopulmonary Collateral Arteries.- Double Outlet Right Ventricle.- Utilization of 3D Printing for Pulmonary Valve Placement.- 3D Printing in Adult Congenital Heart Disease.- Part 3: Structural Heart Disease.- Patient-Specific Modeling for Transcatheter Aortic Valve Replacement.- Rapid Prototyping in Valvular Heart Disease.- Three-Dimensional Models for Assessing Ventricular Assist Device Placement and Function.- Cardiac Tumors.- Part 4: Management Strategies.- Establishing a Cardiovascular Rapid Prototyping Service.- Utility of a 3D File Database.- 3D Bioprinting for Cardiovascular Tissue Engineering.- Past Developments and Future Directions of 3D Cardiac Printing—A Surgeon’s Perspective.
Part I: Introduction.- History of Rapid Prototyping.- Creation of a 3D Printed Model from Virtual to Physical.- Image Acquisition for Creation of a 3D Model: CT, CMR and Echocardiography.- Postprocessing-Software and Technique Options.- Rapid Prototyping Technologies.- Part 2: Pediatrics.- Imaging Considerations and Challenges in Pediatrics.- Septal Defects.- Tetralogy of Fallot with Major Aortopulmonary Collateral Arteries.- Double Outlet Right Ventricle.- Utilization of 3D Printing for Pulmonary Valve Placement.- 3D Printing in Adult Congenital Heart Disease.- Part 3: Structural Heart Disease.- Patient-Specific Modeling for Transcatheter Aortic Valve Replacement.- Rapid Prototyping in Valvular Heart Disease.- Three-Dimensional Models for Assessing Ventricular Assist Device Placement and Function.- Cardiac Tumors.- Part 4: Management Strategies.- Establishing a Cardiovascular Rapid Prototyping Service.- Utility of a 3D File Database.- 3D Bioprinting for Cardiovascular Tissue Engineering.- Past Developments and Future Directions of 3D Cardiac Printing-A Surgeon's Perspective.
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