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Biomedical Engineering I
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1.1
Overview of Biomedical Engineering Fields
1.2
Historical Developments and Future Trends
1.3
Interdisciplinary Nature and Collaborations
1.4
Career Paths and Professional Development
2.1
Cellular and Molecular Biology Basics
2.2
Organ Systems and Their Functions
2.3
Homeostasis and Feedback Mechanisms
2.4
Physiological Measurements and Instrumentation
3.1
Principles of Statics in Biological Systems
3.2
Kinematics and Kinetics of Human Movement
3.3
Biomechanics of Soft Tissues and Bone
3.4
Gait Analysis and Locomotion
4.1
Classifications and Properties of Biomaterials
4.2
Biocompatibility and Host Response
4.3
Tissue Engineering Principles and Scaffolds
4.4
Regenerative Medicine Applications
5.1
Principles of Biomedical Instrumentation
5.2
Biosensors and Transducers
5.3
Signal Conditioning and Amplification
5.4
Data Acquisition and Processing
6.1
Digital Signal Processing Fundamentals
6.2
Time and Frequency Domain Analysis
6.3
Filtering Techniques for Biomedical Signals
6.4
Feature Extraction and Pattern Recognition
7.1
X-ray and Computed Tomography (CT)
7.2
Magnetic Resonance Imaging (MRI)
7.3
Ultrasound and Optical Imaging
7.4
Nuclear Medicine and Molecular Imaging
8.1
Mathematical Modeling of Biological Systems
8.2
Compartmental Models and Pharmacokinetics
8.3
Cardiovascular and Respiratory System Models
8.4
Neural Networks and Brain Modeling
9.1
Design Process and Requirements Analysis
9.2
Prototyping and Testing Methodologies
9.3
Quality Control and Risk Management
9.4
Regulatory Approval and Commercialization
10.1
Stem Cell Biology and Types
10.2
Tissue Engineering Approaches
10.3
Gene Therapy and CRISPR Technology
10.4
Ethical Considerations in Regenerative Medicine
11.1
Biomechanics of Limb Loss and Replacement
11.2
Materials and Design of Prosthetic Devices
11.3
Neural Interfaces and Control Systems
11.4
Rehabilitation Engineering and Assistive Technologies
12.1
Ethical Principles in Biomedical Engineering
12.2
FDA Regulations and ISO Standards
12.3
Clinical Trials and Human Subject Research
12.4
Intellectual Property and Patenting in Biomedical Engineering
13.1
Artificial Intelligence and Machine Learning in Healthcare
13.2
Nanotechnology and Drug Delivery Systems
13.3
3D Bioprinting and Organ-on-a-Chip Technologies
13.4
Wearable and Implantable Medical Devices
14.1
Cardiovascular Devices and Interventions
14.2
Neurotechnology and Brain-Computer Interfaces
14.3
Cancer Diagnostics and Therapeutics
14.4
Telemedicine and Remote Patient Monitoring