Biomedical Engineering Fundamentals 2nd edition by Joseph Bronzino, Donald Peterson ISBN 1439825181 978-1439825181

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ISBN 10: 1439825181
ISBN 13: 978-1439825181
Author: Joseph Bronzino, Donald Peterson

Known as the bible of biomedical engineering, The Biomedical Engineering Handbook, Fourth Edition, sets the standard against which all other references of this nature are measured. As such, it has served as a major resource for both skilled professionals and novices to biomedical engineering.

Biomedical Engineering Fundamentals, the first volume of the handbook, presents material from respected scientists with diverse backgrounds in physiological systems, biomechanics, biomaterials, bioelectric phenomena, and neuroengineering.

More than three dozen specific topics are examined, including cardiac biomechanics, the mechanics of blood vessels, cochlear mechanics, biodegradable biomaterials, soft tissue replacements, cellular biomechanics, neural engineering, electrical stimulation for paraplegia, and visual prostheses. The material is presented in a systematic manner and has been updated to reflect the latest applications and research findings.

Biomedical Engineering Fundamentals 2nd Table of contents:

Preface

• Overview of the 2nd Edition
• Acknowledgments
• How to Use This Book

Chapter 1: Introduction to Biomedical Engineering
1.1. What is Biomedical Engineering?
1.2. History and Evolution of Biomedical Engineering
1.3. Role of Biomedical Engineers in Healthcare
1.4. Ethical Issues in Biomedical Engineering
1.5. Challenges and Opportunities in the Field
1.6. Overview of the Biomedical Engineering Curriculum

Chapter 2: Fundamentals of Biological Systems
2.1. Basic Cellular Biology
2.2. Organ Systems and Their Functions
2.3. The Nervous and Endocrine Systems
2.4. Blood Circulation and Respiratory Systems
2.5. Immune System and Metabolism
2.6. Mechanical Properties of Biological Tissues

Chapter 3: Biomechanics
3.1. Introduction to Biomechanics
3.2. The Human Skeleton and Musculoskeletal System
3.3. Biomechanics of Movement and Gait
3.4. Forces in the Human Body
3.5. Tissue Mechanics and Properties
3.6. Biomechanical Modeling and Simulation

Chapter 4: Biomaterials
4.1. Introduction to Biomaterials
4.2. Types of Biomaterials (Metals, Polymers, Ceramics)
4.3. Biocompatibility and Biodegradability
4.4. Surface Engineering of Biomaterials
4.5. Tissue Engineering and Scaffold Design
4.6. Applications of Biomaterials in Medical Devices

Chapter 5: Medical Instrumentation and Devices
5.1. Introduction to Medical Devices
5.2. Measurement and Monitoring Instruments
5.3. Diagnostic Equipment: Imaging Systems
5.4. Therapeutic Devices and Systems
5.5. Implantable Devices and Prosthetics
5.6. Design Considerations for Medical Devices

Chapter 6: Signal Processing in Biomedical Engineering
6.1. Overview of Biomedical Signals
6.2. Electrophysiological Signals (ECG, EEG, EMG)
6.3. Biomedical Signal Acquisition and Conditioning
6.4. Signal Analysis Techniques: Fourier and Wavelet Transforms
6.5. Noise and Artifacts in Biomedical Signals
6.6. Applications of Signal Processing in Medical Diagnostics

Chapter 7: Medical Imaging
7.1. Introduction to Medical Imaging Techniques
7.2. X-Ray and Computed Tomography (CT)
7.3. Magnetic Resonance Imaging (MRI)
7.4. Ultrasound Imaging
7.5. Nuclear Medicine and Positron Emission Tomography (PET)
7.6. Image Processing and Reconstruction Methods

Chapter 8: Biopotential and Bioelectric Signals
8.1. Overview of Bioelectricity
8.2. Electrocardiogram (ECG) and Electromyography (EMG)
8.3. Electroencephalogram (EEG) and Evoked Potentials
8.4. Electrophysiology in Biomedical Research
8.5. Signal Amplification and Filtering
8.6. Application of Bioelectric Signals in Diagnostics

Chapter 9: Bioinformatics and Computational Biology
9.1. Introduction to Bioinformatics
9.2. Genetic Data and Sequencing Technologies
9.3. Biological Data Analysis Techniques
9.4. Computational Models in Biology
9.5. Machine Learning and Artificial Intelligence in Biomedical Engineering
9.6. Personalized Medicine and Computational Biology

Chapter 10: Regulatory and Standards in Biomedical Engineering
10.1. Overview of Regulatory Agencies (FDA, EMA)
10.2. Medical Device Approval Process
10.3. Standards for Medical Devices and Equipment
10.4. Quality Control and Assurance in Biomedical Engineering
10.5. Risk Management in Medical Device Development
10.6. Ethical and Legal Considerations in Medical Engineering

Chapter 11: Biotechnology and Biomedical Engineering Applications
11.1. Introduction to Biotechnology
11.2. Gene Therapy and Genetic Engineering
11.3. Biomedical Engineering in Drug Development
11.4. Tissue Engineering and Stem Cell Research
11.5. Bioprinting and Personalized Health
11.6. Emerging Technologies in Biomedical Engineering

Chapter 12: Future Directions in Biomedical Engineering
12.1. Advances in Wearable Medical Devices
12.2. Regenerative Medicine and Organ Engineering
12.3. Robotics and Automation in Healthcare
12.4. The Future of Artificial Intelligence in Medicine
12.5. Telemedicine and Remote Healthcare Technologies
12.6. Interdisciplinary Approaches in Biomedical Engineering

Appendices
A.1. Glossary of Terms
A.2. List of Biomedical Engineering Standards and Guidelines
A.3. Recommended Software and Tools for Biomedical Engineers
A.4. Additional Resources for Learning Biomedical Engineering
A.5. Index

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