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Multidisciplinary Biomaterials Certificate Program
for Georgia Tech
Undergraduate Students

An undergraduate Multidisciplinary Certificate in "Biomaterials" may be earned by completing the following requirements according to the student’s major. Courses must be taken on a letter-grade basis and a grade of "C" or better earned in a course for it to count toward the certificate.

MSE Majors

• BME/MSE 4751:  Introduction to Biomaterials (3-0-3)
• BIOL 1510: Biological Principles (3-3-4)
• six credit hours taken from the list of approved courses below (see Exceptions).
  
  Exceptions: A student may not apply any course towards the certificate that is required for his/her major. For example, MSE majors cannot use MSE 2001 or MSE 4010. Also, Biology majors take nine credits from the list of approved courses since BIOL 1510 is required for their major.

BME Majors

• ME 3201: Mechanics of Materials (3-0-3) or MSE 3003: Mechanical Behavior of Materials
  (3-0-4)
• MSE 4010: Environmental Degradation (3-0-3)
• BME/MSE 4751:  Introduction to Biomaterials (3-0-3)
• MSE 4775: Polymer Science and Engineering I (3-0-3) or MSE 4777: Introduction to Polymer Science and Engineering (3-0-3)

Other Majors

• MSE 2001: Principles and Applications of Engineering Materials*
• BME/MSE 4751:  Introduction to Biomaterials (3-0-3)
• MSE 4775: Polymer Science and Engineering I (3-0-3) or MSE 4777: Introduction to Polymer Science and Engineering (3-0-3)
• BIOL 1510: Biological Principles (3-3-4)*
• Plus three (or six**) credit hours from the list of approved courses.

*If the student's major requires either MSE 2001 or BIOL 1510, then that requirement is satisfied.

 **If the student's major requires both MSE 2001 and BIOL 1510, then (in addition to BME/MSE 4751, and MSE 4775 or MSE 4777) six credit hours must be taken from the list of approved courses.

Approved Courses

BMED 3160 Systems Physiology I
Credits: 2-5-4
Prerequisites: BMED 2300 and BIOL 2234 and (CHEM 3511* or CHEM 4511*)
A study of physiologic properties of human cells and tissues, with specific attention focused on organization, membrane level transport and kinetics, cell signaling, and energy requirements.

*May be taken concurrently

MSE 3003 Mechanical Behavior of Materials
Credits 3-0-4
Prerequisites: MSE 2001 and COE 2001
The correlation of monotonic and time-dependent mechanical properties with fundamental concepts of atomic bonding, crystalline state, microstructure, and micromechanics of materials.


MSE 4010 Environmental Degradation
(required of BME majors)
Credits: 3-0-3
Prerequisite: MSE 2001
Theory of environmental degradation of metals, ceramics, biomaterials and polymers. Emphasis on the scientific principles of degradation. 


MSE 4325 Thin Film Materials Science
Credits: 3-0-3
Prerequisite: MSE 2001
Introduction to principal vapor deposition processes and vacuum technology. The fundamentals of the formation, characterization, and properties of a variety of thin films.


BME/MSE 4751 Introduction to Biomaterials (required)
Credits: 3-0-3
Prerequisite: MSE 2001
The course will emphasize an understanding of the selection, properties and use of materials for medical implant applications.


MSE 4803 Special Topics in Materials*
Credits: 3-0-3
*For example, Soft Materials


MSE/ME/TFE 4777 Introduction to Polymer Science and Engineering
(required of BME majors)
Credits: 3-0-3
Prerequisite: MATH 2403 or MATH 2413 or MATH 24X3
An introduction to the structure and formation of polymers, physical states and transitions, physical and mechanical properties of polymer fluids and solids, and processing of polymers. 


MSE 6610 Advanced Biomaterials + MSE 8801 Biomaterials Case Studies
Credits: 3-0-3
The course will emphasize the interaction between the human body environment and synthetic materials. Materials for both medical implants and dental restoration and appliances will be covered.


AE/BMED/CHE/ME 4757 Biofluid Mechanics
Credits: 3-0-3
Prerequisite: AE 2020 or ME 3340
Introduction to the study of blood flow in the cardiovascular system. Emphasis on modeling and the potential of flow studies for clinical research application.


AE/BMED/CHE/ME 4758 Biosolid Mechanics
Credits: 3-0-3
Prerequisite: ME 3201 (MSE students may substitute MSE 3003 for ME 3201)
The mechanics of living tissue, e.g., arteries, skin, heart muscle, ligament, tendon, cartilage, and bone. Constitutive equations and some simple mechanical models. Mechanics of cells. Applications


BIOL 1510 Biological Principles (required of non-BME majors)
Credits: 3-3-4
An introduction to the basic principles of modern biology, including biomacromolecules, bioenergetics, cell structure, genetics, homeostasis, evolution and ecological relationships.


BIOL/HPS 3751 Human Anatomy and Physiology
Credits: 3-0-3
Study of human anatomy and fundamental physiological mechanisms. Topics include nervous, musculoskeletal, and cardiorespiratory systems. Free elective for biology majors.


CHEM 3511 Survey of Biochemistry
Credits: 3-0-3
Prerequisite: CHEM 2312
Introductory course in biochemistry dealing with the chemistry and biochemistry of proteins, lipids, carbohydrates, nucleic acids, and other biomolecules.


ME 3201 Mechanics of Materials
Credits: 3-0-3
Prerequisites: ME 2016 and ME 2211 and (MATH 2403* or MATH 2413* or MATH 24X3) and MSE 2001*.
*Denotes courses that may be taken concurrently.

Students interested in pursuing this certificate should contact

Dr. Brent Carter, Associate Chair for Undergraduate Programs
brent.carter@mse.gatech.edu
404.894.6762

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