Computational Models in Biomedical Engineering 1st Edition

Capture the future of medical innovation with Computational Models in Biomedical Engineering, 1st Edition by Milos Kojic, Miljan Milosevic, and Arturas Ziemys. This authoritative volume brings together rigorous theory and practical application, making computational modeling accessible for engineers, clinicians, and researchers.

Explore clear explanations of multiphysics simulations, finite element analysis, and patient-specific modeling—each illustrated with real-world biomedical problems. The authors combine decades of expertise to show how computational tools inform tissue engineering, cardiovascular mechanics, orthopedic implant design, and medical device development. Step-by-step methodology and illustrative case studies guide readers from basic principles to advanced simulation workflows.

Ideal for graduate students, biomedical engineers, and translational researchers, this 1st Edition emphasizes reproducible modeling practices and clinically relevant solutions. You’ll learn to build models that improve diagnostic insight, optimize therapies, and accelerate device approvals—skills increasingly sought after in hospitals, research centers, and medtech firms across Europe, North America, Asia, and beyond.

Written in a professional yet engaging tone, the book balances mathematical rigor with practical tips for implementation, validation, and interpretation of model results. Whether you’re new to computational biomechanics or expanding into multiphysics simulations, this book provides a comprehensive foundation and actionable guidance.

Ready to elevate your research and practice? Add Computational Models in Biomedical Engineering, 1st Edition to your collection today and start transforming data into meaningful clinical impact.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.