Biomedical Science, BAS

Interface the engineering sciences, biology, biomedical sciences, and medicine to advance human health and solve problems in medicine and the biological sciences. The Bachelor of Applied Science degree offers students breadth and flexibility and allows them to combine a technology-based degree with considerable course work in the liberal arts, communications, business or fine arts. It is designed primarily for students whose interests are not oriented toward a professional engineering career. It is a popular degree option for those preparing for careers in medicine, business, and law. Many students who are pursuing dual degree programs opt for this degree.

For more information: http://www.be.seas.upenn.edu/prospective-students/undergraduates/program-bse-bas.php

Biomedical Science (ASBS) Major Requirements

BAS Degree Requirements

Below are the requirements for the BAS degree for students entering in Fall 2020 and beyond. This reflects a total of 37 course units. To see how courses can be scheduled out for the full four years, see the BAS sample curriculum.

Course List
Code	Title	Course Units
Mathematics
MATH 1400	Calculus, Part I	1
MATH 1410	Calculus, Part II	1
ENM 2400	Differential Equations and Linear Algebra	1
or MATH 2400	Calculus, Part III
or MATH 2600	Honors Calculus, Part II
ENM 3750	Biological Data Science I - Fundamentals of Biostatistics	1
or ENM 3440	Answering Questions with Data, for Everyone
or ESE 4020	Statistics for Data Science
or STAT 4310	Statistical Inference
Science
BIOL 1121	Introduction to Biology - The Molecular Biology of Life	1
BIOL 1123	Introductory Molecular Biology Laboratory	.5
BIOL 3310	Principles of Human Physiology	1
CHEM 1012	General Chemistry I	1
or CHEM 1151	Honors Chemistry I
CHEM 1101	General Chemistry Laboratory I	.5
CHEM 1022	General Chemistry II	1
or CHEM 1161	Honors Chemistry II
CHEM 1102	General Chemistry Laboratory II	.5
PHYS 0140	Principles of Physics I (without laboratory)	1
PHYS 0141	Principles of Physics II (without laboratory)	1
Engineering
BE 1000	Introduction to Bioengineering	0.5
ENGR 1050	Introduction to Scientific Computing (or CIS 1200 or higher)	1
BE 2000	Introduction to Biomechanics	1
BE 2200	Biomaterials	1
BE 2700	Bioengineering Laboratory Principles	1
BE 3010	Bioengineering Signals and Systems	1
or BE 3060	Cellular Engineering
or BE 3500	Introduction to Biotransport Processes
BE 3090	Bioengineering Modeling, Analysis and Design Laboratory I	1
BE 4970	Senior Thesis in Biomedical Science	1
BE 4980	Senior Thesis in Biomedical Science	1
BE Elective (4000 or 5000 level)		2
Engineering Elective ¹		2
Professional Electives
Select any 3 Math, Science, Engineering, Business, or health-related courses		3
General Electives
Select 2 Social Science courses		2
Select 2 Humanities courses		2
Select 2 Social Science or Humanities or Technology in Business & Society courses		2
Select 1 Social Science or Humanities course		1
One of these courses must fulfill the Writing Requirement
One of these courses must fulfill the Ethics requirement ²
Free Elective
Select 3 free electives		3
Total Course Units		37

¹

Engineering Electives (Engineering XXXX) in the Engineering Category can be fulfilled by any course that counts as Engineering per the handbook. Please note that EAS (Engineering and Applied Science) courses DO NOT count as Engineering.

²

Ethics Requirement Options:

EAS 2030 Engineering Ethics
BIOE 4010 Introduction to Bioethics
HSOC 1330 Bioethics or HSOC 2457 History of Bioethics
LGST 1000 Ethics and Social Responsibility or LGST 2200 International Business Ethics
NURS 3300 Theoretical Foundations of Health Care Ethics or NURS 5250 Ethical Aspects of Health and Technology
PHIL 1342 Bioethics or PHIL 4330 Metaethics

Degree Concentrations

Students may select one of nine concentrations.

Concentrations are not required, but are intended to provide students with the option to obtain a more focused education in a particular field of study or sub-topic within a given field. To satisfy the requirements for a concentration, students must select at least 4 courses from any of the categories listed below. At least two courses must be from Bioengineering.

Biomedical Data Science and Computational Medicine

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5040	Biological Data Science II: Data Mining Principles for Epigenomics
BE 5210	Brain-Computer Interfaces
BE 5300	Theoretical and Computational Neuroscience
BE 5590	Multiscale Modeling of Chemical and Biological Systems
BE 5660	Networked Neuroscience
Select 2 additional courses in:		2
BE 4900	Independent Project in Bioengineering
BE 5040	Biological Data Science II: Data Mining Principles for Epigenomics
BE 5210	Brain-Computer Interfaces
BE 5300	Theoretical and Computational Neuroscience
BE 5590	Multiscale Modeling of Chemical and Biological Systems
BE 5660	Networked Neuroscience
CIS 4210	Artificial Intelligence
or CIS 5210	Artificial Intelligence
CIS 4500	Database and Information Systems
CIS 5200	Machine Learning
CIS 5450	Big Data Analytics
CBE 5250	Molecular Modeling and Simulations
ESE 3050	Foundations of Data Science
ESE 5420	Statistics for Data Science
BIOM 5350	Introduction to Bioinformatics
or CIS 5350	Introduction to Bioinformatics
or MTR 5350	Introduction to Bioinformatics
BIOL 5536	Fundamentals of Computational Biology
or CIS 5360	Fundamentals of Computational Biology
or GCB 5360	Fundamentals of Computational Biology
GCB 5370	Advanced Computational Biology
STAT 9915	Seminar in Advanced Application of Statistics
Total Course Units		4

Biomedical Devices

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4700	Medical Devices
BE 4720	Medical Device Development ^*
BE 4900	Independent Project in Bioengineering ^***
BE 5020	From Biomedical Science to the Marketplace
BE 5140	Rehab Engineering and Design
BE 5180	Optical Microscopy
BE 5210	Brain-Computer Interfaces
BE 5280	Applied Medical Innovation I ^*
BE 5290	Applied Medical Innovation II ^*
BE 5510	Biomicrofluidics
BE 5560	Molecular Diagnostics for Precision Medicine
BE 5700	Biomechatronics
Select 2 additional courses in:		2
BE 4700	Medical Devices
BE 4720	Medical Device Development ^*
BE 4900	Independent Project in Bioengineering ^***
BE 5020	From Biomedical Science to the Marketplace
BE 5140	Rehab Engineering and Design
BE 5180	Optical Microscopy
BE 5210	Brain-Computer Interfaces
BE 5280	Applied Medical Innovation I ^*
BE 5290	Applied Medical Innovation II ^*
BE 5510	Biomicrofluidics
BE 5560	Molecular Diagnostics for Precision Medicine
BE 5700	Biomechatronics
ESE 2150	Electrical Circuits and Systems
ESE 5050	Feedback Control Design and Analysis
or MEAM 5130	Feedback Control Design and Analysis
ESE 5290	Introduction to Micro- and Nano-electromechanical Technologies
MEAM 1010	Introduction to Mechanical Design ^*
MEAM 2010	Machine Design and Manufacturing
MEAM 5100	Design of Mechatronic Systems
MEAM 4150	Product Design
or OIDD 4150	Product Design
MEAM 5140	Design for Manufacturability
MEAM 5200	Introduction to Robotics
Total Course Units		4

Cellular/Tissue Engineering and Biomaterials

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 3300	Self-Assembly of Soft Materials
BE 4900	Independent Project in Bioengineering ^***
BE 5120	Bioengineering III: Biomaterials
BE 5400	Principles of Molecular and Cellular Bioengineering
BE 5530	Principles, Methods, and Applications of Tissue Engineering
BE 5580	Principles of Biological Fabrication
BE 5650	Developmental Engineering of Tissues
BE 5690	Systems Biology of Cell Signaling Behavior
BE 5780	Principles of Controlled Release Systems
Select 2 additional courses in:		2
BE 3300	Self-Assembly of Soft Materials
BE 4900	Independent Project in Bioengineering ^***
BE 5120	Bioengineering III: Biomaterials
BE 5400	Principles of Molecular and Cellular Bioengineering
BE 5530	Principles, Methods, and Applications of Tissue Engineering
BE 5580	Principles of Biological Fabrication
BE 5650	Developmental Engineering of Tissues
BE 5690	Systems Biology of Cell Signaling Behavior
BE 5780	Principles of Controlled Release Systems
CBE 4300	Introduction to Polymers
or MSE 4300	Introduction to Polymers
CBE 5570	Stem Cells, Proteomics and Drug Delivery - Soft Matter Fundamentals
MEAM 5140	Design for Manufacturability
MSE 5850	Materials for Bioelectronics
or BE 5850	Materials for Bioelectronics
MSE 5180	Structure and Function of Biological Materials
Total Course Units		4

Biomedical Imaging and Radiation Physics

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5180	Optical Microscopy
BE 5370	Biomedical Image Analysis
BE 5470	Fundamental Techniques of Imaging
BE 5810	Techniques of Magnetic Resonance Imaging
BE 5830	Physics of Medical / Molecular Imaging
BE 6500	Advanced Biomedical Imaging Applications
Select 2 additional courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5180	Optical Microscopy
BE 5370	Biomedical Image Analysis
BE 5470	Fundamental Techniques of Imaging
BE 5810	Techniques of Magnetic Resonance Imaging
BE 5830	Physics of Medical / Molecular Imaging
BE 6500	Advanced Biomedical Imaging Applications
MPHY 6030	Image-Based Anatomy
MPHY 6070	Radiation Biology
PHYS 4421	Modern Optics
Total Course Units		4

Systems and Synthetic Biology

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5270	Immune Engineering
BE 5400	Principles of Molecular and Cellular Bioengineering
BE 5580	Principles of Biological Fabrication
BE 5590	Multiscale Modeling of Chemical and Biological Systems
BE 5650	Developmental Engineering of Tissues
BE 5690	Systems Biology of Cell Signaling Behavior
Select 2 additional courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5270	Immune Engineering
BE 5400	Principles of Molecular and Cellular Bioengineering
BE 5580	Principles of Biological Fabrication
BE 5590	Multiscale Modeling of Chemical and Biological Systems
BE 5650	Developmental Engineering of Tissues
BE 5690	Systems Biology of Cell Signaling Behavior
CBE 4790	Biotechnology and Biochemical Engineering
CBE 4800	Laboratory in Biotechnology and Biochemical Engineering
CBE 5170	Principles of Genome Engineering
CBE 5270	Advancements and Applications in Genome Editing and Engineering
CBE 5540	Engineering Biotechnology
CBE 5570	Stem Cells, Proteomics and Drug Delivery - Soft Matter Fundamentals
MEAM 6630	Mechanics of Macromolecules
BIOL 5262	Biological Foundations for Bioengineering and Biotechnology: Genomics and Omics Technologies
Total Course Units		4

Neuroengineering

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5210	Brain-Computer Interfaces
BE 5300	Theoretical and Computational Neuroscience
BE 5660	Networked Neuroscience
Select 2 additional courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5210	Brain-Computer Interfaces
BE 5300	Theoretical and Computational Neuroscience
BE 5660	Networked Neuroscience
NRSC 2249	Cognitive Neuroscience
or PSYC 1230	Cognitive Neuroscience
NRSC 2110	Molecular and Cellular Neurobiology
or BIOL 2110	Molecular and Cellular Neurobiology
BIOL 4110	Neural Systems and Behavior
or BIOL 5110	Neural Systems and Behavior
BIOL 4142	Neurobiology of Learning and Memory ^*
NRSC 2205	Cellular Basis of Learning and Memory ^*
NRSC 3334	Computational Neuroscience Lab
NRSC 4425	Neurotechnology: From Concept to Clinic
NGG 5720	Electrical Language of Cells
NGG 5730	Systems Neuroscience
Total Course Units		4

Multiscale Biomechanics

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5100	Biomechanics and Biotransport
BE 5140	Rehab Engineering and Design
BE 5500	Continuum Tissue Mechanics
BE 5700	Biomechatronics
BE 5610	Musculoskeletal Biology and Bioengineering
Select 2 additional courses in:		2
BE 4900	Independent Project in Bioengineering
BE 5100	Biomechanics and Biotransport
BE 5140	Rehab Engineering and Design
BE 5500	Continuum Tissue Mechanics
BE 5700	Biomechatronics
BE 5610	Musculoskeletal Biology and Bioengineering
Total Course Units		4

Therapeutics, Drug Delivery & Nanomedicine

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5550	Nanoscale Systems Biology
or CBE 5550	Nanoscale Systems Biology
or MEAM 5550	Nanoscale Systems Biology
BE 5570	Quantitative Principles of Drug Design
BE 5620	Drug Discovery and Development
BE 5780	Principles of Controlled Release Systems
Select 2 additional courses in:		2
BE 4900	Independent Project in Bioengineering
BE 5550	Nanoscale Systems Biology
or CBE 5550	Nanoscale Systems Biology
or MEAM 5550	Nanoscale Systems Biology
BE 5570	Quantitative Principles of Drug Design
BE 5620	Drug Discovery and Development
BE 5780	Principles of Controlled Release Systems
CBE 5570	Stem Cells, Proteomics and Drug Delivery - Soft Matter Fundamentals
CBE 5640	Drug Delivery Systems: Targeted Therapeutics and Translational Nanomedicine
Total Course Units		4

Immune Engineering

Course List
Code	Title	Course Units
Select 2 courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5120	Bioengineering III: Biomaterials
BE 4260	Immunology for Bioengineers (students cannot count both BIOL 4004 and BE 4260/BE 5260 towards concentration)
or BE 5260	Immunology for Bioengineers
or BIOL 4004	Immunobiology
BE 5270	Immune Engineering
BE 5570	Quantitative Principles of Drug Design
Select two additional courses in:		2
BE 4900	Independent Project in Bioengineering ^***
BE 5120	Bioengineering III: Biomaterials
BE 4260	Immunology for Bioengineers (students cannot count both BIOL 4004 and BE 4260/BE 5260 towards concentration)
or BE 5260	Immunology for Bioengineers
or BIOL 4004	Immunobiology
BE 5270	Immune Engineering
BE 5570	Quantitative Principles of Drug Design
ENGR 4500	Modern Biotechnology for Engineers
IMUN 5060	Immune Mechanisms
IMUN 5070	Immunopathology
IMUN 6090	Vaccines and Immune Therapeutics
or CAMB 6090	Vaccines and Immune Therapeutics
REG 6180	Introduction to Vaccine Development
Total Course Units		4

Footnotes

*: Students may count only one of the asterisked courses per concentration.
**: Students may only “double count” TWO courses for multiple concentrations.
***: Students may only count one Independent Study (BE 4900 or BE 4920).

The degree and major requirements displayed are intended as a guide for students entering in the Fall of 2025 and later. Students should consult with their academic program regarding final certifications and requirements for graduation.

BAS Sample Curriculum

Below is a sample curriculum outlining classes taken for the four years of the BAS degree. This sample reflects the degree requirements for students entering in Fall 2020 and beyond. When making your schedule, keep in mind that electives need to be selected to fulfill distributional requirements in BE, Engineering, Professional Elective, and free categories, according to the e-CPG. Premeds should visit the Premed Office website to be sure they are choosing the right electives.

Plan of Study Grid
First Year
Fall		Course Units
MATH 1400	Calculus, Part I	1
CHEM 1012 or CHEM 1151	General Chemistry I or Honors Chemistry I	1
CHEM 1101	General Chemistry Laboratory I	.5
PHYS 0140	Principles of Physics I (without laboratory)	1
BE 1000	Introduction to Bioengineering	0.5
	Course Units	4.00
Spring
MATH 1410	Calculus, Part II	1
CHEM 1022 or CHEM 1161	General Chemistry II or Honors Chemistry II	1
CHEM 1102	General Chemistry Laboratory II	.5
PHYS 0141	Principles of Physics II (without laboratory)	1
ENGR 1050	Introduction to Scientific Computing (or CIS 1200 or higher)	1
	Course Units	4.50
Second Year
Fall
ENM 2400 or MATH 2400 or MATH 2600	Differential Equations and Linear Algebra or Calculus, Part III or Honors Calculus, Part II	1
BE 2000	Introduction to Biomechanics	1
BIOL 1121	Introduction to Biology - The Molecular Biology of Life	1
BIOL 1123	Introductory Molecular Biology Laboratory	.5
Social Science ¹		1
	Course Units	4.50
Spring
ENM 3750 or ENM 3440 or ESE 4020 or STAT 4310	Biological Data Science I - Fundamentals of Biostatistics or Answering Questions with Data, for Everyone or Statistics for Data Science or Statistical Inference	1
BE 2200	Biomaterials	1
BE 2700	Bioengineering Laboratory Principles	1
Social Science ¹		1
Humanities ¹		1
	Course Units	5.00
Third Year
Fall
BIOL 3310	Principles of Human Physiology	1
BE 3090	Bioengineering Modeling, Analysis and Design Laboratory I	1
BE 3010 or BE 3060 or BE 3500	Bioengineering Signals and Systems or Cellular Engineering or Introduction to Biotransport Processes	1
Humanities ¹		1
Free Elective		1
	Course Units	5.00
Spring
BE Elective (4000 or 5000 Level)		1
Engineering ²		1
Professional Elective ³		1
Free Elective		1
Social Science or Humanities ¹		1
	Course Units	5.00
Fourth Year
Fall
Engineering ²		1
BE 4970	Senior Thesis in Biomedical Science	1
Professional Elective ³		1
SS, H, or TBS ¹		1
Free Elective		1
	Course Units	5.00
Spring
BE 4980	Senior Thesis in Biomedical Science	1
BE Elective (4000 or 5000 Level)		1
Professional Elective ³		1
SS, H, or TBS ¹		1
	Course Units	4.00
	Total Course Units	37.00