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MCAT Preparation
These suggested course tracks are based on undergraduate requirements from the class
entering in the 2015-16 academic year. These are only suggestions, refer to the University Bulletin for the official requirements for each major.
For archived requirements refer to the University Bulletin. Select desired year in the bottom left-hand corner under, "Bulletin Archive" and
then the area of study.
For more information on graduate-level requirements go here.
Please make note of Pre- or Co-requisites
Year 1
Engineering Design Division - The freshman year is common to all engineering majors
Fall
-
MATH 224 - Differential Calculus
This is a 2-credit course in differential calculus covering limits, continuity,
and
differentiation. Prerequisites: MATH 223 with a grade of C- or better, or Placement
Exam. Offered each half semester. 2 credits.
Levels: Undergraduate
-
MATH 225 - Integral Calculus
This is a 2-credit course in integral calculus covering optimization and integration.
Prerequisites: MATH 224 with a grade of C- or better. Offered 2nd half of fall semester
and both half semesters of spring semester. 2 credits.
Levels: Undergraduate
-
CHEM 111 - Chemical Principles
A one-semester introductory course in modern chemistry for potential science and
engineering majors. Covers molecular structure and bonding, solids, organic chemistry
and polymers, acid/base and redox chemistry, thermodynamics, electrochemistry and
kinetics in both lecture and laboratory. Fulfills all requirements met by CHEM 107-108.Credits: 4. Format: 3 hour lecture; 2 hour
discussion; 3 hour laboratory per week. Prerequisite: high school chemistry. Not open
to students who have credit for CHEM 107 or CHEM 108 or CHEM 104 or CHEM 105
or CHEM 106. If taken as a part of a pre-health track an additional semester of inorganic
chemistry must be taken to fulfill the requirement. Offered in the fall semesters
only. Course fee applies. Refer to the Schedule of Classes.
Levels: Graduate, Undergraduate
-
WTSN 111 - Intro to Engineering Design
First course in a two-semester integrated introduction to the engineering profession.
Emphasizes engineering problem-solving techniques; introduction to the engineering
design process. Includes an introduction to machine shop use, engineering graphics,
circuits, and computer-aided design. Corequisite: WTSN 103 (linked). Course is offered
in the Fall semester. 2 credits.
Levels: Undergraduate
-
WTSN 103 - Engineering Communications I
Develops student's critical thinking skills through the completion of two
team-based projects. Emphasis is on teaming skills, critical reading, technical writing,
oral presentation skills, project management and professionalism. A technical report and two professional presentations are required. Corequisite: WTSN 111
(linked). Offered in the Fall semester. 2 credits.
Levels: Undergraduate
General Education Elective (A, G, N, P)
Body/Wellness
Spring
-
MATH 226 - Integration Tech & Application
This is a 2-credit course covering the calculus of transcendental & inverse
functions, L’Hospital’s Rule, integral techniques, improper integrals,
calculus of parametric curves, and polar coordinates.
Prerequisites: Math 225 with a grade of at least a C- or consent of instructor. 2
credits.
Levels: Undergraduate
-
MATH 227 - Infinite Series
This is a 2-credit course covering sequences, series, power series, and Taylor
series.
Prerequisites: Math 226 with a grade of at least a C- or consent of instructor. 2
credits.
Levels: Undergraduate
-
PHYS 131 - Gen. Physics I(Calculus Based)
A calculus based introduction to the basic concepts underlying physical phenomena,
including kinematics, dynamics, energy, momentum, forces found in nature, rotational
motion, angular momentum, simple harmonic motion, fluids, thermodynamics and kinetic theory. Lectures, discussion, demonstration, and laboratory.
Pre or Co-requisites: high school trigonometry and algebra; AP calculus or MATH 224/225.
Offered spring semester. 4 credits.
Levels: Graduate, Undergraduate
-
WTSN 104 - Engineering Communications II
This class builds on the skills introduced in WTSN 103. Critical reading, engineering
research, and writing through a Conceptual team-based project is emphasized. Two formal
presentations, two research papers using APA documentation style and a technical report
are required. Prerequisite: WTSN 103, WTSN 111. Corequisite: WTSN 112 (Linked).
Offered in the Spring semester. 2 credits.
Levels: Undergraduate
General Education Elective (A, G, N, P)
Body/Wellness
Year 2
Fall
-
BME 201 - Intro to Biomedical Eng
"This is an introductory course for biomedical engineering undergraduate students.
It covers topics such as recombinant DNA technologies, cell and tissue engineering,
stem cell and organ regeneration, 3D tissue and organ printing, the design of tissue
engineered products, biomaterial and tissue scaffolding, drug delivery, biomechanics,
bioinstrumentation, engineering of immunity, and bio and medical imaging, etc. The
application of nano-biotechnology in developing clinical products such as tissue engineered
products, drug delivery systems, etc. will be emphasized in the course. Prerequisite:
PHYS 131, Math 225. Co-requisite BIOL 113. Fall semester. 3 credit hours.
Levels: Undergraduate
-
MATH 324 - ODE's for Scientists/Engineers
Introduction to ordinary differential equations. Topics include first order equations
(separable, linear, homogeneous, exact, substitutions); linear second order equations
(method of undetermined coefficients, variation of parameters); applications (oscillations
and resonance, circuits); Laplace transform; power series solutions. Only one of MATH
324 and MATH 371 can be counted towards Math minor. Prerequisites: C- or better in
MATH 227 or MATH 230. Every semester. 4 credits.
Levels: Undergraduate
-
CHEM 231 - Organic Chemistry I
Introduction to organic chemistry through a systematic treatment of the structure,
reactivity and stereochemistry of the basic types of hydrocarbons (alkane, alkene,
alkyne, arene), alkyl hadies, and alcohols, as well as interconversion among these
most important classes of organic compounds. Prerequisite: CHEM 105 or CHEM 108 or
111 or equivalent. Credits 4. Format: 3 hours of lecture, 2 hour discussion. Offered:
Fall; Spring; Summer I.
Levels: Undergraduate
-
BIOL 118 - Intro Bio See BIOL 113
Intro Bio See BIOL 113
Levels: Undergraduate
Spring
-
BME 203 - Biomed Modeling Numerical Meth
This is an introductory course for biomedical engineering undergraduates. It covers
topics such as error propagation, linear and non-linear models of biological behavior,
iterative solutions to systems of equations, finite difference methods, numerical
interpolation and integration, dynamical biomedical systems modeling, ordinary and
partial differential equations. Prerequisite: Math 226 , BME 201 . Spring semester.
3 credit hours.
Levels: Undergraduate
-
BME 213 - Biomolecular Engineering
This course introduces engineering principles applied to processes involving recombinant
protein production. It illustrates the development of tools and technologies of molecular
biology and their application in protein engineering. The engineering aspects of quantitative
bioprocess analysis is particularly emphasized in this course. Topics include bioprocessing,
recombinant DNA technologies, material balances, mass transfer, bioreaction, and bioreactor
engineering.
Prerequisites: BME 201, CHEM 111, BIOL 113, MATH 324 or 371. 3 credit hours.
Spring semester.
Levels: Undergraduate
-
MATH 323 - Calculus III
Calculus of functions of several variables. Prerequisites: C- or better in MATH
227 or MATH 230, or consent of instructor. Every semester. 4 credits.
Levels: Undergraduate
-
PHYS 132 - Gen.Physics II(Calculus Based)
Fundamentals of electricity, magnetism, light, wave motion and relativity. Lectures,
discussion, demonstration and laboratory. Prerequisite: PHYS 131. Pre or Corequisite:
MATH 226/227. Offered fall semester. 4 credits.
Levels: Undergraduate
General Education Elective (A, G, N, P)
Year 3
Fall
BME Depth or Science Elective - Depth Electives are chosen from your concentration. Science electives include: PSYC
111, BCHM 403, any CHEM 300 level and above, any BIOL 300 level and above
-
BME 313 - Biomaterials
This is an introductory biomaterials course for biomedical engineering undergraduate
students. The course covers the primary biomaterial types including metals, ceramics,
polymers, carbons, and composites as well as their uses in biomedical devices and
implants. The application of these materials in tissue engineering, drug delivery,
orthopedic implants, ophthalmologic devices, and cardiovascular devices will be particularly
discussed. The biological response to implanted materials is emphasized in the course
in terms of inflammation, immunity, infection, and toxicity. The regulatory biomedical
device approval process is introduced as a natural extension of biocompatibility testing.
Prerequisites: BIOL 113, CHEM 231 , BME 213
Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 318 - Biomechanics
This course introduces students to concepts of engineering mechanics required to
understand the structure and movement of biological systems. This course will deal
primarily with explaining biomechanics from a continuum mechanics perspective. The
course covers topics such as concepts of tensorial stress and strain, constitutive
equations, mechanical properties of biosolid materials, viscoelasticity, torsion,
and bending. The course also introduces topics specifically relevant to biological materials such as anisotropy,
heterogeneity and failure mechanics. In addition to exploring fundamental engineering
mechanics, this course will also enable students to apply these engineering principles
to relevant real world biomedical problems. Prerequisites: PHYS 131 , MATH 227.
Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 324 - Biomedical Instruments
This is an introductory course for biomedical engineering undergraduates. It covers
topics such as bioelectric signals, biomedical electronics, biomedical electrodes
and sensors, instrumentation in diagnostic cardiology, extracorporeal devices, Instrumentation
in blood circulation, and new technologies and advances in medical instrumentation.
The course includes weekly labs to demonstrate the principles learned in class. The
labs cover biosignal recording (finger pulse, ECG, EEG, and EMG), nerve conduction
study, Wheatstone bridge circuit, and Op-Amp and filter circuits. Prerequisites: BME
201, BME 203, BME 213, PHYS 132. Fall semester. 4 credit hours.
Levels: Undergraduate
-
ME 331 - Thermodynamics
Properties of pure substances. Concepts of work and heat, fundamental laws of thermodynamics;
closed and open systems. Entropy and entropy production. Basic gas and vapor cycles,
basic refrigeration cycles. Prerequisites: PHYS 131. Offered in the Fall semester
and in the Summer session. 3 credits
Levels: Undergraduate
Spring
-
BME 303 - Bio-fluid Mechanics
This course is a core course for biomedical engineering undergraduates. This course
introduces students to basic understanding and analysis of macro and microscopic phenomena
of fluid mechanics with special emphasis on applications of fluid mechanics to biomedical
systems. Fluid flows in biomedical systems mediate the transport of energy, mass and
momentum, which is essential to the function of living systems. Perturbations in these
processes often underlie disease development. Course topics expand from from the basic
properties of fluids, the physics of fluid flow, to cardiovascular fluid mechanics,
pulmonary gas exchange, and renal blood flow and sodium transport. Prerequisites:
PHYS 131 , MATH 227, BME 318. 3 credit hours. Spring semester.
Levels: Undergraduate
-
BME 340 - Bioinformatics & Biostatistics
This course introduces students to Biostatistics and Bioinformatics. The course
covers the basic methods utilized to statistically analyze and present biological
data using R programming language. Current tools, databases, and technologies in bioinformatics
are discussed in this course. Topics include random variables and probability distributions,
hypothesis testing and statistical inference, ANOVA, sequence alignment and database searching, DNA sequencing, and BLAST.
Prerequisites: BIOL 113 , BME 203 . Spring Semester. 3 credit hours.
Levels: Undergraduate
-
BME 351 - Biomedical Engineering Lab
This is a lab-based, complimentary course for biomedical engineering junior undergraduate
students pertaining to principles of biomaterials, biomechanics, biomolecular engineering,
and biofluidics. This lab course is designed to cover biomaterials, biomechanics,
biomolecular engineering, and biofluidic mechanics in order to formulate and solve
problems in biomedical systems including experimental design, performance, and analysis.
Course fee applies. Refer to the Schedule of Classes. Prerequisites: BME 213 , BME
324, BME 318 .
Co-requisite: BME 303. Spring Semester. 1 credit hour.
Levels: Undergraduate
AND
-
BIOL 311 - Principles Of Cell Biology
Structure and function of cells. Emphasis on research techniques so that contemporary
problems in cell and molecular biology can be explored. Special themes addressed throughout
the course include regenerative medicine and stem cell therapy, new approaches to
treat cancer and other diseases, personalized medicine, and new advances in biomedical
devices. Prerequisites: BIOL 113 and CHEM 104 or CHEM 107 or CHEM 111 Frequency: Fall/Spring.
4 credits.
Levels: Undergraduate
OR
-
BIOL 401 - Molecular Genetics
The structure and function of nucleic acids, mechanisms of DNA replication, transcription,
protein synthesis, recombinant DNA techniques and their applications. Gene and genome
structure and its relation to gene regulation in development and response to environmental
and internal challenges. Lecture and discussion. Prerequisites: BIOL 113, 115 or equivalent,
CHEM 104 and 105 or CHEM 107 and 108 (or 111). Offered Fall only. 4 credits.
Levels: Undergraduate
General Education Elective (A, G, N, P)
Year 4
Fall;
BME Depth elective - Depth Electives are chosen from your concentration.
-
BME 413 - Biomedical Transport Phenomena
This course combines both fundamental engineering with physics and life sciences
principles to provide focused coverage of key momentum and mass transport phenomena
relevant to biomedical engineering. This course covers topics including thermodynamics,
the physical principles of body fluids and cell membranes, molecular motors, cellular
mechanics, solute and oxygen transport, pharmokinetic transport and extracorporeal
devices such as blood oxygenators, hemodialysis and enzyme reactors. The course will
also explore the design of modern day bioartifical organs. The goal of the lecture
course is to emphasize the chemical and physical transport phenomena essential for
biological life and the design and development of contemporary biomedical devices
relevant to transport. Prerequisites: BME 303, BME 318, BME 330.
Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 432 - Ethics in Engineering
Our goal on offering this course is to bring contextual understanding of the fundamental
relationships between professional responsibility and damage wrought by natural disasters.
We have chosen Hurricane Katrina, as it is still very relevant today yet sufficient
time has passed such that careful analysis of the storm and its aftermath is underway. While the course focuses upon the profession of engineering,
it is equally as relevant for students entering a vast array of professions. We seek
to move students understanding of the tragic occurrence of disasters such as Hurricane
Katrina from a purely analytical one to an understanding that can begin to lead to
empathy and ultimately compassion. For it is our belief that such compassion can
and will lead to more enlightened, courageous future leaders willing to act in the
face of imminent threat whatever professions our students decide to pursue. Co-requisite:
BME 450. Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 433 - Human Physiology
An introduction to the major organ systems of the body with an emphasis on regulatory
processes and interactions with other systems. The course provides students with a
basic understanding of the prevalent theories of physiology and pathophysiology and
the application of these theories to health concerns relevant to biomedical engineering.
Prerequisites: BIOL 113 , CHEM 231 . Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 450 - Biomedical Eng Design I
This is the first part of the culminating design experience for biomedical engineering undergraduate students. Students are challenged to design, and deliver design solutions
to open ended problems of interest to the biomedical engineering community. This first
course takes the students from problem definition to a finished preliminary design.
Course fee applies. Prerequisite: Senior standing in Biomedical Engineering BME 318,
BME 351. Co-requisite: BME 413. Fall Semester. 3 credit hours.
Levels: Undergraduate
Spring
BME Depth or Science Elective - Depth Electives are chosen from your concentration. Science electives include: PSYC
111, BCHM 403, any CHEM 300 level and above, any BIOL 300 level and above
BME Depth Elective - Depth Electives are chosen from your concentration.
-
BME 451 - Biomedical Eng Design II
This is the second part of the culminating design experience for biomedical engineering
undergraduate students. Students are challenged to design, and deliver design solutions
to open ended problems of interest to the biomedical engineering community. This second
course takes the students from a finished preliminary design to implementation, evaluation,
redesign and a finished project including a formal technical report and oral presentation.
Course fee applies. Prerequisite: BME 450 . Spring Semester. 3 credit hours.
Levels: Undergraduate
AND
-
CHEM 332 - Organic Chemistry II
Continuation of CHEM 231. Spectroscopy, organometallic reagents, alcohols, ethers
/ epoxides, aldehydes / ketones, esters, carboxylic acids and amines. Also with selected
introduction to biologically relevant compounds including carbohydrates, lipids, amino
acids / peptides / proteins, and nucleic acids. Credits: 4. Format: 3 hours of lecture,
2 hour discussion. Prerequisite: CHEM 231. Offered Fall, Spring, Summer II.
Levels: Graduate, Undergraduate
OR
-
CHEM 341 - Intermediate Inorganic Chem.
Relations among structure, energy and reactivity of inorganic systems; transition
and non-transition elements. Descriptive chemistry of common elements; chemistry of
solid state. Prerequisite: CHEM 105 or CHEM 108 or 111. 4 credits. Format: 3 hours
of lecture. Offered: Fall.
Levels: Undergraduate
OR
-
BCHM 403 - Biochemistry
Cellular constituents and their roles in life processes. Structure and function
of proteins/enzymes, membranes. Metabolism of carbohydrates, lipids, amino acids.
Energetics and regulation of metabolism. Prerequisites: BIOL 113 or BIOL 118, CHEM
231 and 332. Fall and Spring. 4 credits.
NOTE: Students who have taken BIOL 304 will NOT receive credit for BIOL 403 or BCHM
403.
Levels: Undergraduate
BME with MCAT Preparation
Year 1
Engineering Design Division - The freshman year is common to all engineering majors
Fall
-
MATH 224 - Differential Calculus
This is a 2-credit course in differential calculus covering limits, continuity,
and
differentiation. Prerequisites: MATH 223 with a grade of C- or better, or Placement
Exam. Offered each half semester. 2 credits.
Levels: Undergraduate
-
MATH 225 - Integral Calculus
This is a 2-credit course in integral calculus covering optimization and integration.
Prerequisites: MATH 224 with a grade of C- or better. Offered 2nd half of fall semester
and both half semesters of spring semester. 2 credits.
Levels: Undergraduate
-
CHEM 111 - Chemical Principles
A one-semester introductory course in modern chemistry for potential science and
engineering majors. Covers molecular structure and bonding, solids, organic chemistry
and polymers, acid/base and redox chemistry, thermodynamics, electrochemistry and
kinetics in both lecture and laboratory. Fulfills all requirements met by CHEM 107-108.Credits: 4. Format: 3 hour lecture; 2 hour
discussion; 3 hour laboratory per week. Prerequisite: high school chemistry. Not open
to students who have credit for CHEM 107 or CHEM 108 or CHEM 104 or CHEM 105
or CHEM 106. If taken as a part of a pre-health track an additional semester of inorganic
chemistry must be taken to fulfill the requirement. Offered in the fall semesters
only. Course fee applies. Refer to the Schedule of Classes.
Levels: Graduate, Undergraduate
-
WTSN 111 - Intro to Engineering Design
First course in a two-semester integrated introduction to the engineering profession.
Emphasizes engineering problem-solving techniques; introduction to the engineering
design process. Includes an introduction to machine shop use, engineering graphics,
circuits, and computer-aided design. Corequisite: WTSN 103 (linked). Course is offered
in the Fall semester. 2 credits.
Levels: Undergraduate
-
WTSN 103 - Engineering Communications I
Develops student's critical thinking skills through the completion of two
team-based projects. Emphasis is on teaming skills, critical reading, technical writing,
oral presentation skills, project management and professionalism. A technical report and two professional presentations are required. Corequisite: WTSN 111
(linked). Offered in the Fall semester. 2 credits.
Levels: Undergraduate
General Education Elective (A, G, N, P)
Body/Wellness
Spring
-
MATH 226 - Integration Tech & Application
This is a 2-credit course covering the calculus of transcendental & inverse
functions, L’Hospital’s Rule, integral techniques, improper integrals,
calculus of parametric curves, and polar coordinates.
Prerequisites: Math 225 with a grade of at least a C- or consent of instructor. 2
credits.
Levels: Undergraduate
-
MATH 227 - Infinite Series
This is a 2-credit course covering sequences, series, power series, and Taylor
series.
Prerequisites: Math 226 with a grade of at least a C- or consent of instructor. 2
credits.
Levels: Undergraduate
-
PHYS 131 - Gen. Physics I(Calculus Based)
A calculus based introduction to the basic concepts underlying physical phenomena,
including kinematics, dynamics, energy, momentum, forces found in nature, rotational
motion, angular momentum, simple harmonic motion, fluids, thermodynamics and kinetic theory. Lectures, discussion, demonstration, and laboratory.
Pre or Co-requisites: high school trigonometry and algebra; AP calculus or MATH 224/225.
Offered spring semester. 4 credits.
Levels: Graduate, Undergraduate
-
WTSN 104 - Engineering Communications II
This class builds on the skills introduced in WTSN 103. Critical reading, engineering
research, and writing through a Conceptual team-based project is emphasized. Two formal
presentations, two research papers using APA documentation style and a technical report
are required. Prerequisite: WTSN 103, WTSN 111. Corequisite: WTSN 112 (Linked).
Offered in the Spring semester. 2 credits.
Levels: Undergraduate
General Education Elective (A, G, N, P)
Body/Wellness
Year 2
Fall
-
BME 201 - Intro to Biomedical Eng
"This is an introductory course for biomedical engineering undergraduate students.
It covers topics such as recombinant DNA technologies, cell and tissue engineering,
stem cell and organ regeneration, 3D tissue and organ printing, the design of tissue
engineered products, biomaterial and tissue scaffolding, drug delivery, biomechanics,
bioinstrumentation, engineering of immunity, and bio and medical imaging, etc. The
application of nano-biotechnology in developing clinical products such as tissue engineered
products, drug delivery systems, etc. will be emphasized in the course. Prerequisite:
PHYS 131, Math 225. Co-requisite BIOL 113. Fall semester. 3 credit hours.
Levels: Undergraduate
-
MATH 324 - ODE's for Scientists/Engineers
Introduction to ordinary differential equations. Topics include first order equations
(separable, linear, homogeneous, exact, substitutions); linear second order equations
(method of undetermined coefficients, variation of parameters); applications (oscillations
and resonance, circuits); Laplace transform; power series solutions. Only one of MATH
324 and MATH 371 can be counted towards Math minor. Prerequisites: C- or better in
MATH 227 or MATH 230. Every semester. 4 credits.
Levels: Undergraduate
-
CHEM 231 - Organic Chemistry I
Introduction to organic chemistry through a systematic treatment of the structure,
reactivity and stereochemistry of the basic types of hydrocarbons (alkane, alkene,
alkyne, arene), alkyl hadies, and alcohols, as well as interconversion among these
most important classes of organic compounds. Prerequisite: CHEM 105 or CHEM 108 or
111 or equivalent. Credits 4. Format: 3 hours of lecture, 2 hour discussion. Offered:
Fall; Spring; Summer I.
Levels: Undergraduate
-
BIOL 118 - Intro Bio See BIOL 113
Intro Bio See BIOL 113
Levels: Undergraduate
Spring
-
BME 203 - Biomed Modeling Numerical Meth
This is an introductory course for biomedical engineering undergraduates. It covers
topics such as error propagation, linear and non-linear models of biological behavior,
iterative solutions to systems of equations, finite difference methods, numerical
interpolation and integration, dynamical biomedical systems modeling, ordinary and
partial differential equations. Prerequisite: Math 226 , BME 201 . Spring semester.
3 credit hours.
Levels: Undergraduate
-
BME 213 - Biomolecular Engineering
This course introduces engineering principles applied to processes involving recombinant
protein production. It illustrates the development of tools and technologies of molecular
biology and their application in protein engineering. The engineering aspects of quantitative
bioprocess analysis is particularly emphasized in this course. Topics include bioprocessing,
recombinant DNA technologies, material balances, mass transfer, bioreaction, and bioreactor
engineering.
Prerequisites: BME 201, CHEM 111, BIOL 113, MATH 324 or 371. 3 credit hours.
Spring semester.
Levels: Undergraduate
-
MATH 323 - Calculus III
Calculus of functions of several variables. Prerequisites: C- or better in MATH
227 or MATH 230, or consent of instructor. Every semester. 4 credits.
Levels: Undergraduate
-
PHYS 132 - Gen.Physics II(Calculus Based)
Fundamentals of electricity, magnetism, light, wave motion and relativity. Lectures,
discussion, demonstration and laboratory. Prerequisite: PHYS 131. Pre or Corequisite:
MATH 226/227. Offered fall semester. 4 credits.
Levels: Undergraduate
Pre-Med Elective - From this list
-
BIOL 117 - Intro Bio: See BIOL 114
Intro Bio: See BIOL 114
Levels: Graduate, Undergraduate
-
CHEM 332 - Organic Chemistry II
Continuation of CHEM 231. Spectroscopy, organometallic reagents, alcohols, ethers
/ epoxides, aldehydes / ketones, esters, carboxylic acids and amines. Also with selected
introduction to biologically relevant compounds including carbohydrates, lipids, amino
acids / peptides / proteins, and nucleic acids. Credits: 4. Format: 3 hours of lecture,
2 hour discussion. Prerequisite: CHEM 231. Offered Fall, Spring, Summer II.
Levels: Graduate, Undergraduate
-
CHEM 335 - Organic Chemistry Laboratory
Separation, purification and analysis of organic compounds; simple and multi-step
synthesis; spectroscopic methods. Prerequisite: CHEM 231 and CHEM 106 or CHEM 108
or 111 or AP score = 5. Credits 2. Format: 1 hour of lecture, 4 hours of laboratory.
Offered Fall, Spring and Summer II. Course fee applies. Refer to the Schedule of Classes.
Levels: Graduate, Undergraduate
-
PSYC 111 - General Psychology
The study of behavior-an overview of fundamental concepts, methods and results
from major areas of psychological inquiry. Includes quantitative methods in the study
of psychological phenomena; physiological bases of behavior, sensation, perception,
motivation and emotion; learning; cognitive/symbolic processes; personality and social
behavior. Exposure to methods used in psychological research is accomplished by participating
in studies conducted by department faculty (or equivalent assignment). Students must
earn a grade of C or higher for this course to apply to the major. PSYC 112 must be
taken in addition to PSYC 111, both on a letter-grade basis, to satisfy the General
Education Laboratory Science requirement. PSYC 111 and PSYC 112 do NOT need to be
taken during the same semester. Offered both fall and spring semesters as well as
often during the summer, 4 credits.
Levels: Graduate, Undergraduate
-
BCHM 403 - Biochemistry
Cellular constituents and their roles in life processes. Structure and function
of proteins/enzymes, membranes. Metabolism of carbohydrates, lipids, amino acids. Energetics and regulation of metabolism. Prerequisites: BIOL 113 or
BIOL 118, CHEM 231 and 332. Fall and Spring. 4 credits.
NOTE: Students who have taken BIOL 304 will NOT receive credit for BIOL 403 or BCHM
403.
Levels: Undergraduate
-
ANTH 240 - Medical Anthro for Pre-Health
Introduction to medical anthropology, designed for students in the Pre-Health program.
Biological anthro course. 2 credits. No prerequisites. Offered in Winter and Summer
sessions.
Levels: Undergraduate
Year 3
Fall
-
BME 318 - Biomechanics
This course introduces students to concepts of engineering mechanics required to
understand the structure and movement of biological systems. This course will deal
primarily with explaining biomechanics from a continuum mechanics perspective. The
course covers topics such as concepts of tensorial stress and strain, constitutive
equations, mechanical properties of biosolid materials, viscoelasticity, torsion,
and bending. The course also introduces topics specifically relevant to biological
materials such as anisotropy, heterogeneity and failure mechanics. In addition to
exploring fundamental engineering mechanics, this course will also enable students
to apply these engineering principles to relevant real world biomedical problems.
Prerequisites: PHYS 131 , MATH 227.
Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 324 - Biomedical Instruments
This is an introductory course for biomedical engineering undergraduates. It covers
topics such as bioelectric signals, biomedical electronics, biomedical electrodes
and sensors, instrumentation in diagnostic cardiology, extracorporeal devices, Instrumentation
in blood circulation, and new technologies and advances in medical instrumentation.
The course includes weekly labs to demonstrate the principles learned in class. The labs cover biosignal recording (finger pulse,
ECG, EEG, and EMG), nerve conduction study, Wheatstone bridge circuit, and Op-Amp
and filter circuits. Prerequisites: BME 201, BME 203, BME 213, PHYS 132. Fall semester.
4 credit hours.
Levels: Undergraduate
-
ME 331 - Thermodynamics
Properties of pure substances. Concepts of work and heat, fundamental laws of thermodynamics;
closed and open systems. Entropy and entropy production. Basic gas and vapor cycles,
basic refrigeration cycles. Prerequisites: PHYS 131. Offered in the Fall semester
and in the Summer session. 3 credits
Levels: Undergraduate
-
CHEM 341 - Intermediate Inorganic Chem.
Relations among structure, energy and reactivity of inorganic systems; transition
and non-transition elements. Descriptive chemistry of common elements; chemistry of
solid state. Prerequisite: CHEM 105 or CHEM 108 or 111. 4 credits. Format: 3 hours
of lecture. Offered: Fall.
Levels: Undergraduate
Pre-Med Elective - From this list
-
BIOL 117 - Intro Bio: See BIOL 114
Intro Bio: See BIOL 114
Levels: Graduate, Undergraduate
-
CHEM 332 - Organic Chemistry II
Continuation of CHEM 231. Spectroscopy, organometallic reagents, alcohols, ethers
/ epoxides, aldehydes / ketones, esters, carboxylic acids and amines. Also with selected
introduction to biologically relevant compounds including carbohydrates, lipids, amino
acids / peptides / proteins, and nucleic acids. Credits: 4. Format: 3 hours of lecture,
2 hour discussion. Prerequisite: CHEM 231. Offered Fall, Spring, Summer II.
Levels: Graduate, Undergraduate
-
CHEM 335 - Organic Chemistry Laboratory
Separation, purification and analysis of organic compounds; simple and multi-step
synthesis; spectroscopic methods. Prerequisite: CHEM 231 and CHEM 106 or CHEM 108
or 111 or AP score = 5. Credits 2. Format: 1 hour of lecture, 4 hours of laboratory.
Offered Fall, Spring and Summer II. Course fee applies. Refer to the Schedule of Classes.
Levels: Graduate, Undergraduate
-
PSYC 111 - General Psychology
The study of behavior-an overview of fundamental concepts, methods and results
from major areas of psychological inquiry. Includes quantitative methods in the study
of psychological phenomena; physiological bases of behavior, sensation, perception,
motivation and emotion; learning; cognitive/symbolic processes; personality and social
behavior. Exposure to methods used in psychological research is accomplished by participating
in studies conducted by department faculty (or equivalent assignment). Students must
earn a grade of C or higher for this course to apply to the major. PSYC 112 must be
taken in addition to PSYC 111, both on a letter-grade basis, to satisfy the General
Education Laboratory Science requirement. PSYC 111 and PSYC 112 do NOT need to be
taken during the same semester. Offered both fall and spring semesters as well as
often during the summer, 4 credits.
Levels: Graduate, Undergraduate
-
BCHM 403 - Biochemistry
Cellular constituents and their roles in life processes. Structure and function
of proteins/enzymes, membranes. Metabolism of carbohydrates, lipids, amino acids. Energetics and regulation of metabolism. Prerequisites: BIOL 113 or
BIOL 118, CHEM 231 and 332. Fall and Spring. 4 credits.
NOTE: Students who have taken BIOL 304 will NOT receive credit for BIOL 403 or BCHM
403.
Levels: Undergraduate
-
ANTH 240 - Medical Anthro for Pre-Health
Introduction to medical anthropology, designed for students in the Pre-Health program.
Biological anthro course. 2 credits. No prerequisites. Offered in Winter and Summer
sessions.
Levels: Undergraduate
Spring
-
BME 303 - Bio-fluid Mechanics
This course is a core course for biomedical engineering undergraduates. This course
introduces students to basic understanding and analysis of macro and microscopic phenomena
of fluid mechanics with special emphasis on applications of fluid mechanics to biomedical
systems. Fluid flows in biomedical systems mediate the transport of energy, mass and
momentum, which is essential to the function of living systems. Perturbations in these
processes often underlie disease development. Course topics expand from from the basic
properties of fluids, the physics of fluid flow, to cardiovascular fluid mechanics,
pulmonary gas exchange, and renal blood flow and sodium transport. Prerequisites:
PHYS 131 , MATH 227, BME 318. 3 credit hours. Spring semester.
Levels: Undergraduate
-
BME 340 - Bioinformatics & Biostatistics
This course introduces students to Biostatistics and Bioinformatics. The course
covers the basic methods utilized to statistically analyze and present biological
data using R programming language. Current tools, databases, and technologies in bioinformatics
are discussed in this course. Topics include random variables and probability distributions,
hypothesis testing and statistical inference, ANOVA, sequence alignment and database searching, DNA sequencing, and BLAST.
Prerequisites: BIOL 113 , BME 203 . Spring Semester. 3 credit hours.
Levels: Undergraduate
-
BME 351 - Biomedical Engineering Lab
This is a lab-based, complimentary course for biomedical engineering junior undergraduate
students pertaining to principles of biomaterials, biomechanics, biomolecular engineering,
and biofluidics. This lab course is designed to cover biomaterials, biomechanics,
biomolecular engineering, and biofluidic mechanics in order to formulate and solve
problems in biomedical systems including experimental design, performance, and analysis.
Course fee applies. Refer to the Schedule of Classes. Prerequisites: BME 213 , BME
324, BME 318 .
Co-requisite: BME 303. Spring Semester. 1 credit hour.
Levels: Undergraduate
Two Pre-Med Elective - From this list
-
BIOL 117 - Intro Bio: See BIOL 114
Intro Bio: See BIOL 114
Levels: Graduate, Undergraduate
-
CHEM 332 - Organic Chemistry II
Continuation of CHEM 231. Spectroscopy, organometallic reagents, alcohols, ethers
/ epoxides, aldehydes / ketones, esters, carboxylic acids and amines. Also with selected
introduction to biologically relevant compounds including carbohydrates, lipids, amino
acids / peptides / proteins, and nucleic acids. Credits: 4. Format: 3 hours of lecture,
2 hour discussion. Prerequisite: CHEM 231. Offered Fall, Spring, Summer II.
Levels: Graduate, Undergraduate
-
CHEM 335 - Organic Chemistry Laboratory
Separation, purification and analysis of organic compounds; simple and multi-step
synthesis; spectroscopic methods. Prerequisite: CHEM 231 and CHEM 106 or CHEM 108
or 111 or AP score = 5. Credits 2. Format: 1 hour of lecture, 4 hours of laboratory.
Offered Fall, Spring and Summer II. Course fee applies. Refer to the Schedule of Classes.
Levels: Graduate, Undergraduate
-
PSYC 111 - General Psychology
The study of behavior-an overview of fundamental concepts, methods and results
from major areas of psychological inquiry. Includes quantitative methods in the study
of psychological phenomena; physiological bases of behavior, sensation, perception,
motivation and emotion; learning; cognitive/symbolic processes; personality and social
behavior. Exposure to methods used in psychological research is accomplished by participating
in studies conducted by department faculty (or equivalent assignment). Students must
earn a grade of C or higher for this course to apply to the major. PSYC 112 must be
taken in addition to PSYC 111, both on a letter-grade basis, to satisfy the General
Education Laboratory Science requirement. PSYC 111 and PSYC 112 do NOT need to be
taken during the same semester. Offered both fall and spring semesters as well as
often during the summer, 4 credits.
Levels: Graduate, Undergraduate
-
BCHM 403 - Biochemistry
Cellular constituents and their roles in life processes. Structure and function
of proteins/enzymes, membranes. Metabolism of carbohydrates, lipids, amino acids. Energetics and regulation of metabolism. Prerequisites: BIOL 113 or
BIOL 118, CHEM 231 and 332. Fall and Spring. 4 credits.
NOTE: Students who have taken BIOL 304 will NOT receive credit for BIOL 403 or BCHM
403.
Levels: Undergraduate
-
ANTH 240 - Medical Anthro for Pre-Health
Introduction to medical anthropology, designed for students in the Pre-Health program.
Biological anthro course. 2 credits. No prerequisites. Offered in Winter and Summer
sessions.
Levels: Undergraduate
MCAT
Typically taken after Junior Year
Before MCAT, you should take:
-
BIOL 117 - Intro Bio: See BIOL 114
Intro Bio: See BIOL 114
Levels: Graduate, Undergraduate
-
BIOL 118 - Intro Bio See BIOL 113
Intro Bio See BIOL 113
Levels: Undergraduate
-
CHEM 111 - Chemical Principles
A one-semester introductory course in modern chemistry for potential science and
engineering majors. Covers molecular structure and bonding, solids, organic chemistry
and polymers, acid/base and redox chemistry, thermodynamics, electrochemistry and
kinetics in both lecture and laboratory. Fulfills all requirements met by CHEM 107-108.Credits:
4. Format: 3 hour lecture; 2 hour discussion; 3 hour laboratory per week. Prerequisite:
high school chemistry. Not open to students who have credit for CHEM 107 or CHEM 108 or
CHEM 104 or CHEM 105 or CHEM 106. If taken as a part of a pre-health track an additional
semester of inorganic chemistry must be taken to fulfill the requirement. Offered in the fall semesters only. Course fee applies. Refer to
the Schedule of Classes.
Levels: Graduate, Undergraduate
-
CHEM 341 - Intermediate Inorganic Chem.
Relations among structure, energy and reactivity of inorganic systems; transition
and non-transition elements. Descriptive chemistry of common elements; chemistry of
solid state. Prerequisite: CHEM 105 or CHEM 108 or 111. 4 credits. Format: 3 hours
of lecture. Offered: Fall.
Levels: Undergraduate
-
CHEM 231 - Organic Chemistry I
Introduction to organic chemistry through a systematic treatment of the structure,
reactivity and stereochemistry of the basic types of hydrocarbons (alkane, alkene,
alkyne, arene), alkyl hadies, and alcohols, as well as interconversion among these
most important classes of organic compounds. Prerequisite: CHEM 105 or CHEM 108 or
111 or equivalent. Credits 4. Format: 3 hours of lecture, 2 hour discussion. Offered:
Fall; Spring; Summer I.
Levels: Undergraduate
-
CHEM 332 - Organic Chemistry II
Continuation of CHEM 231. Spectroscopy, organometallic reagents, alcohols, ethers
/ epoxides, aldehydes / ketones, esters, carboxylic acids and amines. Also with selected
introduction to biologically relevant compounds including carbohydrates, lipids, amino
acids / peptides / proteins, and nucleic acids. Credits: 4. Format: 3 hours of lecture,
2 hour discussion. Prerequisite: CHEM 231. Offered Fall, Spring, Summer II.
Levels: Graduate, Undergraduate
-
CHEM 335 - Organic Chemistry Laboratory
Separation, purification and analysis of organic compounds; simple and multi-step
synthesis; spectroscopic methods. Prerequisite: CHEM 231 and CHEM 106 or CHEM 108
or 111 or AP score = 5. Credits 2. Format: 1 hour of lecture, 4 hours of laboratory.
Offered Fall, Spring and Summer II. Course fee applies. Refer to the Schedule of
Classes.
Levels: Graduate, Undergraduate
-
PHYS 131 - Gen. Physics I(Calculus Based)
A calculus based introduction to the basic concepts underlying physical phenomena,
including kinematics, dynamics, energy, momentum, forces found in nature, rotational motion, angular momentum, simple harmonic motion, fluids, thermodynamics
and kinetic theory. Lectures, discussion, demonstration, and laboratory. Pre or Co-requisites:
high school trigonometry and algebra; AP calculus or MATH 224/225. Offered spring
semester. 4 credits.
Levels: Graduate, Undergraduate
-
PHYS 132 - Gen.Physics II(Calculus Based)
Fundamentals of electricity, magnetism, light, wave motion and relativity. Lectures,
discussion, demonstration and laboratory. Prerequisite: PHYS 131. Pre or Corequisite:
MATH 226/227. Offered fall semester. 4 credits.
Levels: Undergraduate
-
PSYC 111 - General Psychology
The study of behavior-an overview of fundamental concepts, methods and results
from major areas of psychological inquiry. Includes quantitative methods in the study
of psychological phenomena; physiological bases of behavior, sensation, perception,
motivation and emotion; learning; cognitive/symbolic processes; personality and social
behavior. Exposure to methods used in psychological research is accomplished by participating
in studies conducted by department faculty (or equivalent assignment). Students must
earn a grade of C or higher for this course to apply to the major. PSYC 112 must be taken in addition to PSYC 111, both on a letter-grade basis, to satisfy the General
Education Laboratory Science requirement. PSYC 111 and PSYC 112 do NOT need to be
taken during the same semester. Offered both fall and spring semesters as well as
often during the summer, 4 credits.
Levels: Graduate, Undergraduate
-
BCHM 403 - Biochemistry
Cellular constituents and their roles in life processes. Structure and function
of proteins/enzymes, membranes. Metabolism of carbohydrates, lipids, amino acids.
Energetics and regulation of metabolism. Prerequisites: BIOL 113 or BIOL 118, CHEM
231 and 332. Fall and Spring. 4 credits.
NOTE: Students who have taken BIOL 304 will NOT receive credit for BIOL 403 or BCHM
403.
Levels: Undergraduate
-
BME 340 - Bioinformatics & Biostatistics
This course introduces students to Biostatistics and Bioinformatics. The course
covers the basic methods utilized to statistically analyze and present biological
data using R programming language. Current tools, databases, and technologies in bioinformatics
are discussed in this course. Topics include random variables and probability distributions,
hypothesis testing and statistical inference, ANOVA, sequence alignment and database
searching, DNA sequencing, and BLAST.
Prerequisites: BIOL 113 , BME 203 . Spring Semester. 3 credit hours.
Levels: Undergraduate
-
ANTH 240 - Medical Anthro for Pre-Health
Introduction to medical anthropology, designed for students in the Pre-Health program.
Biological anthro course. 2 credits. No prerequisites. Offered in Winter and Summer
sessions.
Levels: Undergraduate
Year 4
Fall
BME Depth Elective - Students who are planning on taking the MCAT, must choose two additional depth electives
from any of the other BME concentrations, except pre-health to meet the 48 engineering
credit hour requirement.
-
BME 313 - Biomaterials
This is an introductory biomaterials course for biomedical engineering undergraduate
students. The course covers the primary biomaterial types including metals, ceramics,
polymers, carbons, and composites as well as their uses in biomedical devices and
implants. The application of these materials in tissue engineering, drug delivery,
orthopedic implants, ophthalmologic devices, and cardiovascular devices will be particularly
discussed. The biological response to implanted materials is emphasized in the course
in terms of inflammation, immunity, infection, and toxicity. The regulatory biomedical
device approval process is introduced as a natural extension of biocompatibility testing.
Prerequisites: BIOL 113, CHEM 231 , BME 213
Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 413 - Biomedical Transport Phenomena
This course combines both fundamental engineering with physics and life sciences
principles to provide focused coverage of key momentum and mass transport phenomena
relevant to biomedical engineering. This course covers topics including thermodynamics,
the physical principles of body fluids and cell membranes, molecular motors, cellular
mechanics, solute and oxygen transport, pharmokinetic transport and extracorporeal devices such as blood oxygenators, hemodialysis and enzyme reactors. The course
will also explore the design of modern day bioartifical organs. The goal of the lecture
course is to emphasize the chemical and physical transport phenomena essential for
biological life and the design and development of contemporary biomedical devices
relevant to transport. Prerequisites: BME 303, BME 318, BME 330.
Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 432 - Ethics in Engineering
Our goal on offering this course is to bring contextual understanding of the fundamental
relationships between professional responsibility and damage wrought by natural disasters.
We have chosen Hurricane Katrina, as it is still very relevant today yet sufficient
time has passed such that careful analysis of the storm and its aftermath is underway.
While the course focuses upon the profession of engineering, it is equally as relevant
for students entering a vast array of professions. We seek to move students understanding
of the tragic occurrence of disasters such as Hurricane Katrina from a purely analytical
one to an understanding that can begin to lead to empathy and ultimately compassion.
For it is our belief that such compassion can and will lead to more enlightened, courageous
future leaders willing to act in the face of imminent threat whatever professions
our students decide to pursue. Co-requisite: BME 450. Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 433 - Human Physiology
An introduction to the major organ systems of the body with an emphasis on regulatory
processes and interactions with other systems. The course provides students with a
basic understanding of the prevalent theories of physiology and pathophysiology and
the application of these theories to health concerns relevant to biomedical engineering.
Prerequisites: BIOL 113 , CHEM 231 . Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 450 - Biomedical Eng Design I
This is the first part of the culminating design experience for biomedical engineering
undergraduate students. Students are challenged to design, and deliver design solutions
to open ended problems of interest to the biomedical engineering community. This first
course takes the students from problem definition to a finished preliminary design.
Course fee applies. Prerequisite: Senior standing in Biomedical Engineering BME 318,
BME 351. Co-requisite: BME 413. Fall Semester. 3 credit hours.
Levels: Undergraduate
Spring
BME Depth Elective - Students who are planning on taking the MCAT, must choose two additional depth electives
from any of the other BME concentrations, except pre-health to meet the 48 engineering
credit hour requirement.
General Education Elective (A, G, N, P)
General Education Elective (A, G, N, P)
-
BME 451 - Biomedical Eng Design II
This is the second part of the culminating design experience for biomedical engineering
undergraduate students. Students are challenged to design, and deliver design solutions
to open ended problems of interest to the biomedical engineering community. This second
course takes the students from a finished preliminary design to implementation, evaluation,
redesign and a finished project including a formal technical report and oral presentation.
Course fee applies. Prerequisite: BME 450 . Spring Semester. 3 credit hours.
Levels: Undergraduate
AND
-
BIOL 311 - Principles Of Cell Biology
Structure and function of cells. Emphasis on research techniques so that contemporary
problems in cell and molecular biology can be explored. Special themes addressed throughout
the course include regenerative medicine and stem cell therapy, new approaches to
treat cancer and other diseases, personalized medicine, and new advances in biomedical
devices. Prerequisites: BIOL 113 and CHEM 104 or CHEM 107 or CHEM 111 Frequency: Fall/Spring.
4 credits.
Levels: Undergraduate
OR
-
BIOL 401 - Molecular Genetics
The structure and function of nucleic acids, mechanisms of DNA replication, transcription,
protein synthesis, recombinant DNA techniques and their applications. Gene and genome
structure and its relation to gene regulation in development and response to environmental
and internal challenges. Lecture and discussion. Prerequisites: BIOL 113, 115 or equivalent,
CHEM 104 and 105 or CHEM 107 and 108 (or 111). Offered Fall only. 4 credits.
Levels: Undergraduate
BME Major Concentrations
Students are required to select an area of emphasis to gain more in-depth knowledge
and specialty training in biomedical engineering.
Students must take any two courses from the list of courses prescribed in each concentration
to declare their concentration.
Courses from a concentration fulfill the BME Depth Electives.
Biomaterials and Bio-pharmaceutical Technology Concentration
(Choose two courses to declare this concentration)
-
BME 483 - Tissue Engineering
This course introduces Tissue Engineering approaches at genetic and molecular,
cellular, tissue, and organ levels. Topics include cell and tissue in vitro expansion,
tissue organization, signaling molecules, stem cell and stem cell differentiation,
organ regeneration, biomaterial and matrix for tissue engineering, bioreactor design
for cell and tissue culture, clinical implementation of tissue engineered products,
and tissue-engineered devices. Prerequisites: BME 313, BME 201, BIOL113.
Co-requisite: BME 433. Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 473 - Adv Biomat & Biocompatibility
This is an advanced course for biomedical engineering senior undergraduate students.
The course covers topics such as material mechanical and surface properties, material
degradation mechanisms, and microparticles and nanoparticles. These topics are discussed
with a focus on cardiovascular, orthopedic, ophthalmological and dental. Additionally,
the biological response to materials is covered in-depth including inflammation, thrombosis,
and immunity. Prerequisite: BME 313. Spring semester. 3 credit hours.
Levels: Undergraduate
-
BME 463 - Bioprocess Engineering
This course introduces engineering concepts for biological conversion of raw materials
to pharmaceuticals, fuels, and chemicals. Includes enzyme kinetics and technology;
bioreactor kinetics; design, analysis, control, and sterilization of bioreactors and
fermenters; genetic engineering of organisms to generate commercially-relevant products;
and downstream product processing. Prerequisites: CHEM 231 , BME 213. Spring Semester.
3 credit hours.
Levels: Undergraduate
-
BME 442 - Nanotechnology & Drug Delivery
The course introduces basics concepts of nanobiotechnologies, including mathematical
description of controlled release, and targeted and passive drug delivery. Different
types of drug delivery nanotechnologies, including lipid-, polymer-, hydrogel-, and
virus-based delivery systems and their application in disease treatments are also
covered in this course. Undergraduate Prerequisite: BME213, MATH 324 .
Fall semester. 3 credit hours.
Levels: Undergraduate
Computational Biosystems Concentration
(Choose two courses to declare this concentration)
-
BME 472 - Expermntal Design & Stat Anyls
This is an advanced course for biomedical engineering senior undergraduates. It
covers topics such as experimental design and hypothesis testing, ANOVA, MANOVA, linear
and multiple regression, generalized linear modeling, principal component analysis,
clustering, sampling methods, and bioinformatics. Prerequisites: BME203 , MATH
323 . 3 credits.
Fall semester. 3 credit hours.
Levels: Undergraduate
-
BME 453 - Biomed Data Man & Reg Science
This is a lecture-based course for biomedical engineering senior undergraduate
students and graduate students interested in big data management as it relates to
healthcare systems. Some of the topics in this course include biomedical data acquisition,
data mining methodologies, information processing, healthcare systems, and FDA regulations.
Students will use various computational tools to manipulate large data sets as part
of homework assignments and projects. Prerequisite: BME 340. Spring semester. 3 credit
hours.
Levels: Undergraduate
Biomedical Devices and Instrumentations Concentration (Choose two courses to declare this concentration)
-
BME 424 - Bioimaging
This is an introduction to biomedical imaging systems for biomedical engineering
senior undergraduate students and graduate students. The course covers biomedical
imaging with an emphasis on fundamental principles and applications of each modern
imaging modality including X-ray radiography, computed tomography (CT), nuclear medicine
(SPECT and PET), magnetic resonance imaging (MRI), and ultrasound. Lecture 3 hours
per week. Prerequisite: BME 324. 3 Credit hours. Spring semester.
Levels: Undergraduate
-
EECE 260 - Electric Circuits
Units and definitions. Ohm's Law and Kirchhoff's Laws. Analysis of resistive
circuits. Circuit analysis using: Nodal and mesh methods, Norton and Thevenin theorems,
and voltage divider. Transient and sinusoidal steady-state response of circuits containing
resistors, capacitors, and inductors. Laboratory exercises. Prerequisite: PHYS 132.
Offered every spring semester. 4 credits. Course fee applies. Refer to the Schedule
of Classes.
Levels: Undergraduate
-
BME 420 - Biomed Devices & Diagnostics
This is an advanced course for biomedical engineering undergraduates and beginning
graduate students. The course covers studies of significant medical devices with a
discussion of appropriate physiology, system design, biocompatibility issues, and
clinical need. Details on technological function and administration of diagnosis and/or
therapy are covered along with standard requirements from organizations. Prerequisites:
BME 324 and BME 351, Fall semester, Lecture 3 credit hours per week.
Levels: Undergraduate
-
BME 443 - Quantitative Instr Bioanalysis
This is an advanced, elective course for biomedical engineering undergraduates
and beginning graduate students. Quantitative instrumental bioanalysis is an overview
course including various instrumental bioanalysis principles and methods commonly
used in the pharmaceutical industries and biomedical research. The current biotechnologies
based on these instrumental analyses are discussed along with the strategy of the
quality control in the healthcare industry. The course focuses on the principles and
practical application of the analytical instruments used for quantitative analysis
in medicine, healthcare, and biomedical research.
Prerequisite: BME 324 and 351. Spring Semester. 3 credit hours.
Levels: Undergraduate
-
EECE 301 - Signals And Systems
Provides an introduction to continuous-time and discrete-time signals and linear
systems. Topics covered include time-domain descriptions (differential and difference
equations, convolution) and frequency-domain descriptions (Fourier series and transforms,
transfer function, frequency response, Z transforms and Laplace transforms). Prerequisites:
EECE 212 and 260 and MATH 324. Offered every fall semester. 4 credits.
Levels: Undergraduate
Pre-Health Concentration
(Students who wish to complete the pre-health concentration, but are not planning
on taking the MCAT, must complete two courses from the pre-health concentration below,
in addition to any two engineering depth electives from the other three BME concentrations.
The two additional engineering depth electives are required to meet the 48 engineering
credit hour requirement.)
-
BIOL 117 - Intro Bio: See BIOL 114
Intro Bio: See BIOL 114
Levels: Graduate, Undergraduate
-
CHEM 332 - Organic Chemistry II
Continuation of CHEM 231. Spectroscopy, organometallic reagents, alcohols, ethers
/ epoxides, aldehydes / ketones, esters, carboxylic acids and amines. Also with selected
introduction to biologically relevant compounds including carbohydrates, lipids, amino
acids / peptides / proteins, and nucleic acids. Credits: 4. Format: 3 hours of lecture,
2 hour discussion. Prerequisite: CHEM 231. Offered Fall, Spring, Summer II.
Levels: Graduate, Undergraduate
-
CHEM 335 - Organic Chemistry Laboratory
Separation, purification and analysis of organic compounds; simple and multi-step
synthesis; spectroscopic methods. Prerequisite: CHEM 231 and CHEM 106 or CHEM 108
or 111 or AP score = 5. Credits 2. Format: 1 hour of lecture, 4 hours of laboratory.
Offered Fall, Spring and Summer II. Course fee applies. Refer to the Schedule of Classes.
Levels: Graduate, Undergraduate
-
CHEM 341 - Intermediate Inorganic Chem.
Relations among structure, energy and reactivity of inorganic systems; transition
and non-transition elements. Descriptive chemistry of common elements; chemistry of
solid state. Prerequisite: CHEM 105 or CHEM 108 or 111. 4 credits. Format: 3 hours
of lecture. Offered: Fall.
Levels: Undergraduate
-
PSYC 111 - General Psychology
The study of behavior-an overview of fundamental concepts, methods and results
from major areas of psychological inquiry. Includes quantitative methods in the study
of psychological phenomena; physiological bases of behavior, sensation, perception,
motivation and emotion; learning; cognitive/symbolic processes; personality and social
behavior. Exposure to methods used in psychological research is accomplished by participating
in studies conducted by department faculty (or equivalent assignment). Students must
earn a grade of C or higher for this course to apply to the major. PSYC 112 must be
taken in addition to PSYC 111, both on a letter-grade basis, to satisfy the General
Education Laboratory Science requirement. PSYC 111 and PSYC 112 do NOT need to be taken during the same semester. Offered both fall and spring semesters
as well as often during the summer, 4 credits.
Levels: Graduate, Undergraduate
-
BCHM 403 - Biochemistry
Cellular constituents and their roles in life processes. Structure and function
of proteins/enzymes, membranes. Metabolism of carbohydrates, lipids, amino acids.
Energetics and regulation of metabolism. Prerequisites: BIOL 113 or BIOL 118, CHEM
231 and 332. Fall and Spring. 4 credits.
NOTE: Students who have taken BIOL 304 will NOT receive credit for BIOL 403 or BCHM
403.
Levels: Undergraduate
-
ANTH 240 - Medical Anthro for Pre-Health
Introduction to medical anthropology, designed for students in the Pre-Health program.
Biological anthro course. 2 credits. No prerequisites. Offered in Winter and Summer
sessions.
Levels: Undergraduate
Students who plan on taking the MCAT should follow the BME MCAT Preparation Guidesheet
to complete the suggested courses prior to taking the MCAT Exam.