3D Printing Applications in Cardiovascular Medicine addresses the rapidly growing field of additive fabrication within the medical field, in particular, focusing on cardiovascular medicine. To date, 3D printing of hearts and vascular systems has been largely reserved to anatomic reconstruction with no additional functionalities. However, 3D printing allows for functional, physiologic and bio-engineering of products to enhance diagnosis and treatment of cardiovascular disease. This book contains the state-of-the-art technologies and studies that demonstrate the utility of 3D printing for these purposes. …mehr
3D Printing Applications in Cardiovascular Medicine addresses the rapidly growing field of additive fabrication within the medical field, in particular, focusing on cardiovascular medicine. To date, 3D printing of hearts and vascular systems has been largely reserved to anatomic reconstruction with no additional functionalities. However, 3D printing allows for functional, physiologic and bio-engineering of products to enhance diagnosis and treatment of cardiovascular disease. This book contains the state-of-the-art technologies and studies that demonstrate the utility of 3D printing for these purposes. Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. James K. Min specializes in the diagnosis of coronary heart disease with multi-detector CT angiography. He also has expertise in the identification novel clinical risk factors that place individuals at higher risk for the development of coronary heart disease.
Between 2010-2014 Dr. Min published 197 publications, with 93.4% in the Medicine category. He has an h-index of 40. He has 3,910 citations, a 3.59 FWCI and averages 19.8 citations per publication during this same time frame. 49% of his publications appear in the top 10% most cited publications worldwide.
Dr . Min has experience with international, national, and institutional collaboration having worked with 150 co-authors. He also has experience with single authorship.
Dr. Bobak Mosadegh uses interdisciplinary approaches to develop novel technologies for biomedical applications, particularly for cardiovascular diseases, cancer, and implantable/wearable therapeutics. His lab has specific interests in exploiting the properties of polymers and fluids to develop soft machines with integrated "smart? behaviors. These soft machines use technologies related to microfluidics, soft robotics, and 3D cell culture. As of 2017, Dr. Mosadegh published 42 publications throughout various disciplines. He has an h-index of 28, and over 2500 citations. From 2010-2014, Dr. Mosadegh has a 2.75 FWCI and averages 16 citations per publication during this same time frame. 63.2% of his publications appear in the top 10% most cited publications worldwide. Dr. Mosadegh has experience with international, national, and institutional collaboration having worked with over 100 co-authors.
Dr. Dunham's research centers on the development and testing of novel cardiovascular medical devices. His lab employs the use of soft materials, 3D printing, biomimicry, functional materials and flexible electronics to develop devices and tests methods with embedded functionality, sensing and other unique functionalities. Since joining the Dalio Institute for Cardiovascular Imaging at Weill Cornell Medicine, these efforts have been focused primarily on cardiovascular medicine. Between 2010-2014, Dr. Dunham published 12 papers across various disciplines. He has an h-index of 8 and 335 citations during that period of time.
Inhaltsangabe
1. History of 3D Printing 2. Methods of 3D Printing 3. 3D Printing Materials 4. Current and Future State of 3D Printers 5. Complex Congenital Heart Disease 6. Valvular Heart Disease 7. Simulation of Percutaneous Structural Interventions 8. 4D Printing of Actuating Cardiac Tissue 9. Bioprinting Cardiovascular Organs 10. Multimaterial Cardiovascular Printing 11. Assessing perfusion using 3D bioprinting 12. Surgical Predictive Planning Using 3D Printing 13. The Future of 3D Printing in Cardiovascular Disease
1. History of 3D Printing 2. Methods of 3D Printing 3. 3D Printing Materials 4. Current and Future State of 3D Printers 5. Complex Congenital Heart Disease 6. Valvular Heart Disease 7. Simulation of Percutaneous Structural Interventions 8. 4D Printing of Actuating Cardiac Tissue 9. Bioprinting Cardiovascular Organs 10. Multimaterial Cardiovascular Printing 11. Assessing perfusion using 3D bioprinting 12. Surgical Predictive Planning Using 3D Printing 13. The Future of 3D Printing in Cardiovascular Disease
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