By Poul M.F. Nielsen, Martyn P. Nash, Xinshan Li, Karol Miller, Adam Wittek

Are you interested in the field of computational biomechanics and its applications in medicine? Look no further, as the book “Computational Biomechanics for Medicine – towards translation and better patient outcomes” brings together cutting-edge research and advancements in this exciting field. This book is a collection of papers presented at the MICCAI 2021 Computational Biomechanics for Medicine Workshop, showcasing the latest methods and applications of computational biomechanics to various medical disciplines.

Computational biomechanics is a field that combines engineering, computer science, and medicine to study the mechanical behavior of biological systems, such as the human body, and analyze the effects of forces and motions on these systems. By simulating and modeling physiological processes, computational biomechanics plays a crucial role in understanding diseases, designing medical interventions, and improving patient outcomes.

The book covers a wide range of topics related to computational biomechanics, including medical image analysis, image-guided surgery, surgical simulation, intervention planning, disease prognosis, injury analysis, implant design, prostheses design, artificial organ design, and medical robotics. Each chapter presents novel research, methodologies, and real-world applications that provide valuable insights for researchers, students, and professionals in the field.

One of the key highlights of this book is its focus on the translation of computational biomechanics into clinical practice. The authors explore the practical implications of their research and emphasize the potential impact on patient care. By bridging the gap between theoretical advancements and real-world applications, this book offers a unique perspective that is highly relevant to medical professionals looking to integrate computational biomechanics into their practice.

Furthermore, the book discusses the use of computational models and simulations in surgical planning and intervention. With the advancements in medical imaging technology, surgeons can now visualize and simulate procedures before performing them on patients. This allows for more accurate planning, reduced risks, and improved surgical outcomes. The authors discuss case studies and provide valuable insights into how computational biomechanics can revolutionize surgical procedures and enhance patient safety.

Another notable aspect of this book is its exploration of the design and development of medical devices, implants, and prostheses using computational biomechanics. By leveraging engineering principles and computer simulations, researchers can optimize the design and performance of these devices, leading to better patient outcomes and improved quality of life. The book presents case studies and examples of how computational biomechanics has contributed to the advancement of medical devices, demonstrating its potential to drive innovation in the field.

Readers will also find valuable information on the use of computational biomechanics in disease prognosis and diagnostics. By analyzing mechanical properties and behaviors of biological tissues, researchers can develop non-invasive diagnostic tools and predictive models for diseases such as cancer, cardiovascular disorders, and musculoskeletal conditions. The book sheds light on the latest research in this area and highlights the potential of computational biomechanics in improving early detection and personalized medicine.

Additionally, the book explores the emerging field of medical robotics and its intersection with computational biomechanics. Robotic technologies have the potential to revolutionize healthcare by enabling precise and minimally invasive procedures. Computational biomechanics plays a crucial role in the development and control of these robots, ensuring their safety and efficacy. The authors discuss the latest advancements in medical robotics and highlight the opportunities and challenges in this rapidly evolving field.

The book “Computational Biomechanics for Medicine – towards translation and better patient outcomes” is a comprehensive resource for anyone interested in the field of computational biomechanics and its applications in medicine. It provides a unique blend of theoretical insights, practical applications, and future perspectives that are highly relevant in today’s healthcare landscape. Whether you are a researcher, student, or professional in the field, this book will expand your knowledge and inspire you to explore the exciting possibilities of computational biomechanics in medicine.

Don’t miss out on this valuable resource. Order your copy today and embark on a journey into the fascinating world of computational biomechanics for medicine!

Product Details

• Publisher: Springer; 1st ed. 2022 edition (November 1, 2022)
• Language: English
• Format: eBook
• Pages: 204
• ISBN-10: 3031093267
• ISBN-13: 978-3031093265