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Comprehensive, yet concise, 3D Printing for the Radiologist presents an overview of three-dimensional printing at the point of care. Focusing on opportunities and challenges in radiology practice, this up-to-date reference covers computer-aided design principles, quality assurance, training, and guidance for integrating 3D printing across radiology subspecialties. Practicing and trainee radiologists, surgeons, researchers, and imaging specialists will find this an indispensable resource for furthering their understanding of the current state and future outlooks for 3D printing in clinical medicine. Covers a wide range of topics, including basic principles of 3D printing, quality assurance, regulatory perspectives, and practical implementation in medical training and practice. Addresses the challenges associated with 3D printing integration in clinical settings, such as reimbursement, regulatory issues, and training. Features concise chapters from a team of multidisciplinary chapter authors, including practicing radiologists, researchers, and engineers. Consolidates today’s available information on this timely topic into a single, convenient, resource.
This book describes the fundamentals of three-dimensional (3D) printing, addresses the practical aspects of establishing a 3D printing service in a medical facility, and explains the enormous potential value of rendering images as 3D printed models capable of providing tactile feedback and tangible information on both anatomic and pathologic states. Individual chapters also focus on selected areas of applications for 3D printing, including musculoskeletal, craniomaxillofacial, cardiovascular, and neurosurgery applications. Challenges and opportunities related to training, materials and equipment, and guidelines are addressed, and the overall costs of a 3D printing lab and the balancing of these costs against clinical benefits are discussed. Radiologists, surgeons, and other physicians will find this book to be a rich source of information on the practicalities and expanding medical applications of 3D printing.
Comprehensive, yet concise, 3D Printing for the Radiologist presents an overview of three-dimensional printing at the point of care. Focusing on opportunities and challenges in radiology practice, this up-to-date reference covers computer-aided design principles, quality assurance, training, and guidance for integrating 3D printing across radiology subspecialties. Practicing and trainee radiologists, surgeons, researchers, and imaging specialists will find this an indispensable resource for furthering their understanding of the current state and future outlooks for 3D printing in clinical medicine. Covers a wide range of topics, including basic principles of 3D printing, quality assurance, regulatory perspectives, and practical implementation in medical training and practice. Addresses the challenges associated with 3D printing integration in clinical settings, such as reimbursement, regulatory issues, and training. Features concise chapters from a team of multidisciplinary chapter authors, including practicing radiologists, researchers, and engineers. Consolidates today's available information on this timely topic into a single, convenient, resource.
Recent advances and technologies in 3D printing have improved and expanded applications for surgery, biomedical engineering, and nanotechnology. In this concise new title, Drs. Georgios Tsoulfas, Petros I. Bangeas, and Jasjit S. Suri synthesize state-of-the-art information on 3D printing and provide guidance on the optimal application in today’s surgical practice, from evaluation of the technology to virtual reality and future opportunities. Discusses challenges, opportunities, and limitations of 3D printing in the field of surgery. Covers patient and surgical education, ethics and intellectual property, quality and safety, 3D printing as it relates to nanotechnology, tissue engineering, virtual augmented reality, and more. Consolidates today’s available information on this burgeoning topic into a single convenient resource.
Magnetic resonance imaging (MRI) is an imaging technique used in biomedical imaging and radiology to visualize detailed internal structures of the body. The purpose of this book is to cover engineering and clinical benefits in diagnosing human pathologies using MRI. It will cover the protocols and potentialities of advanced MRI scanners in addition to explaining the physical principles of MRI and how to use this technique correctly. Each organ’s anatomy and pathological processes are highlighted with high-quality images.
Advances in Clinical Radiology was established to review the year’s most important questions in clinical radiology. A distinguished editorial board, headed by Dr. Frank Miller, identifies key areas of major progress and controversy, and invites preeminent specialists to contribute original articles devoted to these topics. These insightful overviews in radiology bring concepts to a clinical level and explore their everday impact on patient care.
Over 1,500 high quality dental radiographs, full color photos, and illustrations clearly demonstrate core concepts and reinforce the essential principles and techniques of oral and maxillofacial radiology. updated Extensive coverage of all aspects of oral radiology for the entire predoctoral curriculum. NEW! Chapter Radiological Anatomy includes all radiological anatomy content allowing students to better visualize and understand normal appearances of structures on conventional and contemporary imaging, side-by-side. NEW! Chapter! Beyond 3D Imaging: introduces applications of 3D imaging such as stereolithic models. UPDATED Comprehensive coverage of diseases affecting the teeth and jaws, relating their pathogenesis to their key imaging features and image interpretation. NEW! New editors Drs. Sanjay Mallya and Ernest Lam along with new contributors bring a fresh perspective on oral radiology. A wide array of radiographs including advanced imaging such as MRI and CT. An easy-to-follow format simplifies the key radiographic features of each pathologic condition, including location, periphery, shape, internal structure, and effects on surrounding structures are placed in context with clinical features, differential interpretation, and management. Expert contributors include many authors with worldwide reputations. Case studies apply imaging concepts to real-world scenarios.
New technologies in 3D printing offer innovative capabilities in surgery, from planning complex operations to providing alternatives to traditional training with more cost-effective outcomes. In 3D Printing: Application in Medical Surgery, Volume 2, Drs. Vasileios N. Papadopoulos, Vassilios Tsioukas, and Jasjit S. Suri bring together up-to-date information on 3D printing and its application in surgical specialties such as hebatobilliary and pancreatic surgery, vascular surgery, orthopedic surgery, obstetrics and gynecology, cardiovascular and thoracic surgery, and more. Discusses challenges and opportunities of 3D printing in the field of surgery. Covers 3D printing and its application in major surgical subspecialties, as well as dentistry, transplantation, global surgery, and diagnostic and interventional radiology. Consolidates today’s available information on this burgeoning topic into a single convenient resource.
This new edition describes the fundamentals of three-dimensional (3D) printing as applied to medicine and extends the scope of the first edition of 3D Printing in Medicine to include modern 3D printing within Health Care Facilities, also called at the medical "Point-Of-Care" (POC). This edition addresses the practical considerations for, and scope of hospital 3D printing facilities, image segmentation and post-processing for Computer Aided Design (CAD) and 3D printing. The book provides details regarding technologies and materials for medical applications of 3D printing, as well as practical tips of value for physicians, engineers, and technologists. Individual, comprehensive chapters span all major organ systems that are 3D printed, including cardiovascular, musculoskeletal, craniomaxillofacial, spinal, neurological, thoracic, and abdominal. The fabrication of maxillofacial prosthetics, the planning of head and neck reconstructions, and 3D printed medical devices used in cranial reconstruction are also addressed. The second edition also includes guidelines and regulatory considerations, costs and reimbursement for medical 3D printing, quality assurance, and additional applications of CAD such as virtual reality. There is a new Forward written by Ron Kikinis, PhD and a new Afterword written by Michael W. Vannier, MD. This book offers radiologists, surgeons, and other physicians a rich source of information on the practicalities and expanding medical applications of 3D printing. It will also serve engineers, physicist, technologists, and hospital administrators who undertake 3D printing. The second edition is designed as a textbook and is expected to serve in this capacity to fill educational needs in both the medical and engineering sectors.
In this issue, guest editors bring their considerable expertise to this important topic. Contains 12 practice-oriented topics including pediatric spine tumors and dysontogenetic masses; conventional and advanced imaging of intramedullary tumors; diffusion-weighted imaging in spine tumors; management algorithm for osseous metastatic disease: what the treatment teams want to know; artificial intelligence integration in spine imaging and its role in spine tumors; and more. Provides in-depth clinical reviews on spine tumors, offering actionable insights for clinical practice. Presents the latest information on this timely, focused topic under the leadership of experienced editors in the field. Authors synthesize and distill the latest research and practice guidelines to create clinically significant, topic-based reviews.