The 6th International Symposium on Artificial Heart and Assist Devices met in Tokyo in July 1996, bringing together researchers and specialists from around the world. The symposiums proceedings in this volume comprise papers from nine sessions, each opening with contributions by leading scientists: TAH, heart transplantation, biomaterials, VAS, clinical application, pathophysiology, engineering, new approaches, and special sessions. Of special note is the inclusion, for the first time, of pathophysiology related to clinical use of assist devices. The clinical application section includes a…mehr
The 6th International Symposium on Artificial Heart and Assist Devices met in Tokyo in July 1996, bringing together researchers and specialists from around the world. The symposiums proceedings in this volume comprise papers from nine sessions, each opening with contributions by leading scientists: TAH, heart transplantation, biomaterials, VAS, clinical application, pathophysiology, engineering, new approaches, and special sessions. Of special note is the inclusion, for the first time, of pathophysiology related to clinical use of assist devices. The clinical application section includes a paper by Dr. Michael DeBakey on the progress made in recent years. With descriptions of the scientific exhibition, accompanied by photographs of all artificial heart devices and systems displayed by major laboratories and manufacturers, Artificial Heart 6 presents the latest information on developments in the field of artificial heart, biomaterials, and heart transplantation.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
I Total Artificial Heart.- Implantable Devices.- Ultracompact, High-Performance, Completely Implantable Permanent Electromechanical Total Artificial Heart.- Development of a Totally Implantable Intrathoracic Ventricular Assist Device.- Use of an Improved Linear Motor-Driven Total Artificial Heart in an Acute Animal Experiment.- Artificial Heart with a Highly Efficient and Sensorless Fuzzy-Controlled Energy Converter.- Basic Research.- Over 500 Days' Survival of a Goat with a Total Artificial Heart with 1/R Control.- Heat Dissipation from Artificial Hearts: Characterizing Tissue Responses and Defining Safe Levels.- Brain and Spinal Cord Lesions with Long-Term Total Artificial Heart Pumping.- An Adaptive Cardiac Output Control for the Total Artificial Heart Using a Self-Tuning Proportional-Integral-Derivative (PID) Controller.- Acoustical Characteristics of a Moving Actuator Type Total Artificial Heart.- Vortex Blood Pump.- II Heart Transplantation.- III Biomaterials.- Blood Compatibility.- Calcification and Thrombus Formation on Polymer Surfaces of an Artificial Heart.- Surface Modification Techniques for the Artificial Heart.- Durability of Endothelial Cell Monolayers Inside a Beating Cardiac Prosthesis.- Evaluation of a Newly Developed, Heparin-Bonded Artificial Lung in Chronic Animal Experiments.- Device-Related Problems.- Alumina Ceramic and Polyethylene: Materials for the Double Pivot Bearing System of an Implantable Centrifugal Ventricular Assist Device.- Highly Blood-Compatible Surface Consisting of a Silicon-Containing Block Copolymer with Supramolecular Structure.- Development of a Fracture and Wear-Resistant Titanium Graphite Composite.- Influence of Microporous Structures on Mural Thrombosis and Endothelialization at Blood-Contacting Surfaces.- IVVentricular Assist Devices.- V Clinical Application.- Clinical Application 1.- International Paediatric Ventricular Assist Device Registry.- The UCLA Experience with Assist Devices as a Bridge to Transplantation in End-Stage Heart Failure.- Medically Unresponsive Pulmonary Hypertension: Heterotopic Cardiac Transplant Versus Mechanical Support.- First Experience of Novacor Implant at the Heart Institute of Japan.- Application of Wearable Novacor Left Ventricular Assist System for Patients with End-Stage Cardiomyopathy: Osaka Experience.- Clinical Application 2.- Ventricular Circulatory Support with the Abiomed System as a Bridge to Heart Transplantation.- Bridging to Cardiac Transplantation with the Thoratec Ventricular Assist Device in Australia.- Patient Selection for Successful Outcome with the CardioWest Total Artificial Heart as a Bridge to Heart Transplantation.- Bridge for Transplantation with the Symbion and Cardiowest Total Artificial Heart: The Pitie Experience.- Muscle Pumps.- The Effect of Cardiomyoplasty on Coronary Blood Flow and Diastolic Dimension of the Left Ventricle.- What Is the Ideal Frequency for Skeletal Muscle Ventricle Electrical Stimulation?.- Muscle Blood Pump Driven by Roller Screw Linear Actuator.- Circulatory Assistance Using Linear Skeletal Muscle Ventricle.- VI Pathophysiology.- VII Engineering.- VIII New Approaches.- IX From Pulsatile to Nonpulsatile.- X Posters.- Scientific Exhibitions.- Key Word Index.
I Total Artificial Heart.- Implantable Devices.- Ultracompact, High-Performance, Completely Implantable Permanent Electromechanical Total Artificial Heart.- Development of a Totally Implantable Intrathoracic Ventricular Assist Device.- Use of an Improved Linear Motor-Driven Total Artificial Heart in an Acute Animal Experiment.- Artificial Heart with a Highly Efficient and Sensorless Fuzzy-Controlled Energy Converter.- Basic Research.- Over 500 Days' Survival of a Goat with a Total Artificial Heart with 1/R Control.- Heat Dissipation from Artificial Hearts: Characterizing Tissue Responses and Defining Safe Levels.- Brain and Spinal Cord Lesions with Long-Term Total Artificial Heart Pumping.- An Adaptive Cardiac Output Control for the Total Artificial Heart Using a Self-Tuning Proportional-Integral-Derivative (PID) Controller.- Acoustical Characteristics of a Moving Actuator Type Total Artificial Heart.- Vortex Blood Pump.- II Heart Transplantation.- III Biomaterials.- Blood Compatibility.- Calcification and Thrombus Formation on Polymer Surfaces of an Artificial Heart.- Surface Modification Techniques for the Artificial Heart.- Durability of Endothelial Cell Monolayers Inside a Beating Cardiac Prosthesis.- Evaluation of a Newly Developed, Heparin-Bonded Artificial Lung in Chronic Animal Experiments.- Device-Related Problems.- Alumina Ceramic and Polyethylene: Materials for the Double Pivot Bearing System of an Implantable Centrifugal Ventricular Assist Device.- Highly Blood-Compatible Surface Consisting of a Silicon-Containing Block Copolymer with Supramolecular Structure.- Development of a Fracture and Wear-Resistant Titanium Graphite Composite.- Influence of Microporous Structures on Mural Thrombosis and Endothelialization at Blood-Contacting Surfaces.- IVVentricular Assist Devices.- V Clinical Application.- Clinical Application 1.- International Paediatric Ventricular Assist Device Registry.- The UCLA Experience with Assist Devices as a Bridge to Transplantation in End-Stage Heart Failure.- Medically Unresponsive Pulmonary Hypertension: Heterotopic Cardiac Transplant Versus Mechanical Support.- First Experience of Novacor Implant at the Heart Institute of Japan.- Application of Wearable Novacor Left Ventricular Assist System for Patients with End-Stage Cardiomyopathy: Osaka Experience.- Clinical Application 2.- Ventricular Circulatory Support with the Abiomed System as a Bridge to Heart Transplantation.- Bridging to Cardiac Transplantation with the Thoratec Ventricular Assist Device in Australia.- Patient Selection for Successful Outcome with the CardioWest Total Artificial Heart as a Bridge to Heart Transplantation.- Bridge for Transplantation with the Symbion and Cardiowest Total Artificial Heart: The Pitie Experience.- Muscle Pumps.- The Effect of Cardiomyoplasty on Coronary Blood Flow and Diastolic Dimension of the Left Ventricle.- What Is the Ideal Frequency for Skeletal Muscle Ventricle Electrical Stimulation?.- Muscle Blood Pump Driven by Roller Screw Linear Actuator.- Circulatory Assistance Using Linear Skeletal Muscle Ventricle.- VI Pathophysiology.- VII Engineering.- VIII New Approaches.- IX From Pulsatile to Nonpulsatile.- X Posters.- Scientific Exhibitions.- Key Word Index.
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