Biomechanics detail syllabus for Medical Electronics (Med Ele), 2017 regulation is taken from Anna University official website and presented for students of Anna University. The details of the course are: course code (BM8651), Category (PC), Contact Periods/week (3), Teaching hours/week (3), Practical Hours/week (0). The total course credits are given in combined syllabus.
For all other med ele 6th sem syllabus for be 2017 regulation anna univ you can visit Med Ele 6th Sem syllabus for BE 2017 regulation Anna Univ Subjects. The detail syllabus for biomechanics is as follows.”
Course Objective:
The student should be made to:
- Explain the principles of mechanics.
- Discuss the mechanics of physiological systems.
- Explain the mechanics of joints.
- Illustrate the mathematical models used in the analysis of biomechanical systems
Unit I
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Unit II
Biofluid Mechanics
Intrinsic fluid properties – Density, Viscosity, Compressibility and Surface Tension, Viscometers -Capillary, Coaxial cylinder and cone and plate, Rheological properties of blood, Pressure-flow relationship for Non-Newtonian Fluids, Fluid mechanics in straight tube – Steady Laminar flow, Turbulent flow, Flow development, Viscous and Turbulent Sheer Stress, Effect of pulsatility, Boundary Layer Separation, Structure of blood vessels, Material properties and modeling of Blood vessels, Heart -Cardiac muscle characterisation, Native heart valves – Mechanical properties and valve dynamics, Prosthetic heart valve fluid dynamics.
Unit III
Biosolid Mechanics
Constitutive equation of viscoelasticity – Maxwell &Voight models, anisotropy, Hard Tissues -Structure, blood circulation, elasticity and strength, viscoelastic properties, functional adaptation, Soft Tissues – Structure, functions, material properties and modeling of Soft Tissues – Cartilage, Tendons and Ligaments Skeletal Muscle – Muscle action, Hills models, mathematical modeling, Bone fracture mechanics, Implants for bone fractures.
Unit IV
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Unit V
Modeling and Ergonomics
Introduction to Finite Element Analysis, finite element analysis of lumbar spine; Ergonomics -Musculoskeletal disorders, Ergonomic principles contributing to good workplace design, Design of a Computer work station, Whole body vibrations, Hand transmitted vibrations.
Course Outcome:
At the end of the course, the student should be able to:
- Understand the principles of mechanics
- Outline the principles of biofluid dynamics.
- Explain the fundamentals of bio-solid mechanics.
- Apply the knowledge of joint mechanics.
- Give Examples of computational mathematical modelling applied in biomechanics.
Text Books:
- Y.C. Fung, Bio-Mechanics- Mechanical Properties of Tissues, Springer-Verlag, 1998.
- Subrata Pal, Textbook of Biomechanics, Viva Books Private Limited, 2009.
References:
- Krishna B. Chandran, Ajit P. Yoganathan and Stanley E. Rittgers, Biofluid Mechanics: The Human Circulation, Taylor and Francis, 2007.
- Sheraz S. Malik and Shahbaz S. Malik, Orthopaedic Biomechanics Made Easy, Cambridge University Press, 2015.
- Jay D. Humphrey, Sherry De Lange, An Introduction to Biomechanics: Solids and Fluids, Analysis and Design, Springer Science Business Media, 2004.
- Shrawan Kumar, Biomechanics in Ergonomics, Second Edition, CRC Press 2007.
- Neil J. Mansfeild, Human Response to Vibration, CRC Press, 2005.
- Carl J. Payton, Biomechanical Evaluation of movement in sports and Exercise, 2008.
For detail syllabus of all other subjects of BE Med Ele, 2017 regulation do visit Med Ele 6th Sem syllabus for 2017 Regulation.
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