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BMES 441: Biomechanics I: Introduction to Biomechanics

4.00 Credits

Drexel University

Teaches students to use mechanical tools to get an introductory appreciation for solving biomechanical problems. Models human performance by using static, quasi-static, and dynamic approaches. Assesses overall loading of the musculoskeletal system during functional activities. Demonstrates introductory methods of estimation of forces in the joints and muscles and evaluates the endurance of the human tissues under traumatic loading conditions. Builds on existing knowledge in mechanics to illustrate the practical application of mechanical tools in the determination of human systems performance. Prerequisite: MEM 202 [Min Grade: D] and (MEM 230 [Min Grade: D] or BMES 345 [Min Grade: D]) and MEM 238 [Min Grade: D] and (BMES 222 [Min Grade: D] or BMES 326 [Min Grade: D]) and BIO 203 [Min Grade: D]

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BMES 442: Biomechanics II: Musculoskeletal Modeling and Human Performance

4.00 Credits

Drexel University

Teaches students to think biomechanically. Reviews and categorizes the various functional components (tissues) of the musculoskeletal system. Considers constraints of the joints and action of the soft and hard tissues, along with corresponding models. Computes joint and muscle forces. Discusses some aspect of postural stability of the whole musculoskeletal structure and reviews various methods of task performance. Prerequisite: BMES 441 [Min Grade: D]

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BMES 443: Biomechanics III: Mechanics of Biological Tissues, Implant Technology and Prosthetics

4.00 Credits

Drexel University

Provides more advanced knowledge of mechanics of materials and offers a general description of mechanical behavior of the variety of the soft and hard tissues of the human body. Considers some prosthetic replacements of tissues as well as entire bone, joint, soft tissue, and system prosthetics. Reviews some specific orthopedic appliances and covers limb prosthetics if time permits. Students plan design projects. Prerequisite: BMES 442 [Min Grade: D]

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BMES 444: Biofluid Mechanics

3.00 Credits

Drexel University

This course introduces flow-related anatomy and pathophysiology, and biomedical flow devices and their design challenges. Analysis methods to solve biological fluid mechanics design problems will be introduced and several interdisciplinary team projects will be assigned to apply fluid mechanics to practical biological or medical problems. Prerequisite: BMES 451 [Min Grade: D]

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BMES 451: Transport Phenomena in Living Systems

4.00 Credits

Drexel University

Introduces students to applications of chemical engineering concepts in biological systems. Shows that chemical engineering approaches to problem solving are ideally suited to investigation of biology. Approaches include material and energy balances, transport phenomena, and kinetics. Prerequisite: (TDEC 115 [Min Grade: D] or PHYS 201 [Min Grade: D]) and (BMES 222 [Min Grade: D] or BMES 326 [Min Grade: D]) and (BIO 203 [Min Grade: D] or BMES 235 [Min Grade: D]) and (TDEC 202 [Min Grade: D] or ENGR 210 [Min Grade: D]) and ENGR 232 [Min Grade: D]

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BMES 452: Transport Phenomena in Living Systems II

3.00 Credits

Drexel University

Continues BMES 451. Advances students' understanding of the engineering principles of membrane transport and its consequences at the subcellular (mitochondria), cellular (neuron), and organ (kidney) level. Introduces concepts associated with pharmacokinetics. Provides students with a kinetic approach to analysis of receptors, including the kinetics of ligand-receptor binding, rate constants, and signal transduction. Prerequisite: BMES 451 [Min Grade: D]

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BMES 460: Biomaterials I

4.00 Credits

Drexel University

First course in a three-quarter sequence designed to acquaint students with the behavior of materials used in biomedical application under load (i.e., mechanical properties), their modes of failure and as a function of their environment. This course provides students with the fundamentals needed to proceed with Biomaterials II. Prerequisite: (MEM 230 [Min Grade: D] or BMES 345 [Min Grade: D]) and CHEM 241 [Min Grade: D] and CHEM 242 [Min Grade: D]

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BMES 461: Biomaterials II

4.00 Credits

Drexel University

Second course in a three-quarter sequence in biomaterials. The goal of this course is with an understanding of, and ability to select, appropriate materials for specific applications taking into account mechanical, thermal, and rheological properties taught in Biomaterials I and combining them with the biocompatibility issues covered in the present course. Prerequisite: BMES 460 [Min Grade: D]

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BMES 466: Robotics in Medicine III

3.00 Credits

Drexel University

This course covers topics in the design of medical robotic systems, including force and movement analysis for robotic arms, dynamics, computer vision and vision-based control. Thus use of haptics, vision systems and robot dynamics are examined in a cohesive framework. Prerequisite: BMES 365 [Min Grade: D]

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BMES 471: Cellular and Molecular Foundations of Tissue Engineering

4.00 Credits

Drexel University

Course is designed to familiarize students with the advanced concepts of cellular and molecular biology and physiology relevant to tissue engineering. The initial part of a two-quarter sequence combining material from cellular/molecular biology, evolutionary/developmental biology with engineering design and biomaterials to educate students in the principles, methods, and technology of tissue engineering. Prerequisite: BIO 218 [Min Grade: D] and BIO 122 [Min Grade: D] and BIO 219 [Min Grade: D] and CHEM 242 [Min Grade: D] and (MEM 230 [Min Grade: D] or BMES 345 [Min Grade: D])

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