Handbook Of 3d Printing In Biomedical Applications
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Handbook of 3D Printing in Biomedical Applications
3D printing is a promising fabrication technique capable of creating objects with precise structures and shapes based on 3D model data, allowing for versatile alterations and production of intricate shapes while also reducing the consumption of feedstock, particularly crucial in the cost-sensitive realm of medicine. In the biomedical sphere the use of 3D printing spans various applications, from artificial organs to sensors and orthopedic implants. This handbook explores the transformative role of technology in healthcare, focusing on materials, design, and innovation. It covers diverse applications like prosthetics, devices, tissue engineering, and medicine. This comprehensive resource highlights cutting-edge advancements, ethical considerations, and future trends, offering insights for researchers, professionals, and students. Explores the latest advances, technologies, and practical applications of additive manufacturing in biomedical engineering, including its impact on tissue engineering, drug delivery systems, regenerative medicine, and orthodontics Covers polymer 3D bioprinting techniques and advanced materials pivotal for successful biomedical implants in clinical settings Discusses the integration of smart materials and their applications including point-of-care solutions Encompasses various facets of medical technology, including diagnostic instruments, therapeutic devices, tissue engineering, and regenerative medicine Examines both in vivo and in vitro studies related to 3D printing, unraveling their significance and implications in various contexts Considers challenges and future perspectives With its comprehensive approach, this handbook serves as the definitive resource for researchers, practitioners, and advanced students, fostering a deeper appreciation and understanding of the transformative power of 3D printing in shaping the future of biomedical engineering.
Handbook of Surgical Planning and 3D Printing
Handbook of Surgical Planning and 3D Printing: Applications, Integration, and New Directions covers 3D printing and surgical planning from clinical, technical and economic points-of-view. This book fills knowledge gaps by addressing: (1) What type of medical images are needed for 3D printing, and for which specific application? (2) What software should be used to process the images, should the software be considered a medical device? (3) Data protection? (4) What are the possible clinical applications and differences in imaging, segmentation, and 3D printing? And finally, (5) What skills, resources, and organization are needed? Sections cover technologies involved in 3D printing in health: data structure, medical images and segmentation, printing materials and 3d printing, 3D printing and Clinical Applications: orthopedic surgery, neurosurgery, maxillofacial, orthodontistry, surgical guides, integrating 3D printing Service in Hospitals: infrastructures, competences, organization and cost/benefits, and more. - Provides a unique insight into a technological process and its applications - Heps readers find answers to practical and technical questions concerning 3D printing and surgical planning - Presents deep insights into new directions of 3D printing in healthcare and related emerging applications such as bioprinting, biocompatible materials and metal printing for custom-made prosthetic design
Handbook of 3D Printing in Pharmaceutics
Three-dimensional (3D) printing has evolved as an emerging tool for the design of customized or personalized medication that provides the maximum therapeutic benefits to patients. The manufacturing of medicines in small batches customized with tailored dosages, sizes, shapes, and drug release properties is the key prospect of using 3D printing in pharmaceutics. Handbook of 3D Printing in Pharmaceutics: Innovations and Applications provides a detailed and in-depth technical discussion on the various additive manufacturing processes for the development of pharmaceutical products with experimental justification. It details the characterization, optimization, and numerical modeling of the processes involved and outlines the industrial implications of the resulting products as well as offering solutions for patient- tailored drugs processed by additive manufacturing. The handbook goes on to focus on the various post- processing technologies available to fortify the mechanical, chemical, biological, geometrical, and other characteristics of additively manufactured components and also discusses future directions and possible research gaps that need to be filled. The buyers of this cutting-edge handbook will learn the complete information and methodology for manufacturing drug delivery systems and customized medicine for biomedical applications. It is an ideal read for undergraduates, graduates, and postgraduate research scholars. Industrial and academic professionals working and studying industrial, manufacturing, and production engineering, along with those studying mechanical engineering, pharmaceutical sciences, material science, chemical engineering, biomedical engineering, automobile/aerospace engineering, and other relevant domains will want this handbook at their fingertips.