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Course Criteria
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3.00 Credits
Dr. Dancisak. Pre-requisite: either CELL 1010 or EBIO 1010. Co-requisite: BMEN 3130. This course is a single semester course in human structural anatomy,Â" " Course participants will examine both typical and pathological examples for the various subsystems including body tissues; the musculoskeletal; neurological; cardiovascular; respiratory; digestive; and reproductive systems.
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3.00 Credits
Pre-requisite: BMEN 3030/7030. Co-requisite: BMEN 316/716. Tulane University Health Sciences Center Staff. This course places emphasis upon the chemical basis of life; cells and cellular metabolism; histology and tissues; the endocrine, skeletal and nervous systems; respiratory, digestive, cardiovascular, lymphatic and reproductive systems; nutrition and metabolism; water, electrolyte and acid-base balance, and human growth and development.
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1.00 Credits
Dr. Dancisak. Co-requisite: BMEN 3030/7030 This single-semester laboratory coordinates hands on learning in human structural anatomy.Â" " Course participants will dissect and examine both typical and pathological examples for the various subsystems including body tissues; the musculoskeletal; neurological; cardiovascular; respiratory; digestive; and reproductive systems.
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1.00 Credits
Dr. Dancisak. Co-requisite: BMEN 3030/7030, 304/704. This course involves students in learning the principles and applications of anatomy and physiology. Dissection and exploration of preserved animals and cadavers are integral components of the lab. Computer software is used to explore the three-dimensional aspects of human anatomy. Physiological instruments will be used to demonstrate the interaction of physiological systems through electrocardiography, Spirometry, pO2 and pCO2, and for body composition analysis. Subject matter will include levels of organization, metabolism, histology, and the integumentary skeletal, muscular, neurological and endocrine systems.
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1.00 Credits
Pre-requisite: BMEN 3030/3130. Co-requisite: BMEN 3060/706. Tulane University Health Sciences Center Staff. Subject matter will include blood, nutrition, and metabolism; and the cardiovascular, lymphatic, digestive, respiratory, urinary, and reproductive systems.
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3.00 Credits
Dr. Moore. Pre-requisite: ENGP 3120, ENGP 2430, BMEN 2600 The objective of this course is to deepen the student’s knowledge of phenomena that influence the success of surgical implants used in vivo. Building upon the introductory material covered in ENGR 312, basic concepts of materials science and engineering relevant to this topic are discussed. In addition to engineering performance issues, fundamental factors affecting the biocompatibility of implant devices will also be covered. Laboratory experiments will be utilized, in a supplemental fashion, to illustrate selected aspects of this material and to provide an introduction to procedures used to evaluate biomaterials. This course will serve as a bridge for students who wish to take more advanced graduate level biomaterials courses in the future.
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3.00 Credits
Dr. Anderson; Dr. Murfee. Pre-requisite: ENGP 2430, BMEN 2600. This course introduces students to the various interdisciplinary fields in biomechanics - such as orthopaedic biomechanics, biofluid mechanics, soft tissue mechanics, and the biomechanics of human movement. Specific topics include: kinematics and energy/power during human activity; dynamics of human movement; the analysis of forces and stresses/strains in biological structures under loading; constitutive models for biological materials; and the relationship between structure and function in tissues and organs.
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3.00 Credits
Dr. Ahsan. This course focusses on the fundamentals of tissue engineering and regenerative medicine.Â" " The key topic areas include the structure/function relationships of tissues, fundamental approaches to engineering tissues, and critical challenges for regenerative medicine.Â" " In addition, evaluation techniques to assess biological and functional properties of engineered tissues will be identified.Â" " Current research topics in tissue engineering and regenerative medicine will be incorporated through class discussion.Â" " A laboratory module is included to provide hands-on experience with cell culture.
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3.00 Credits
Prof. Damir B. Khismatullin. Fundamental principles of fluid mechanics and mass transport will be applied to biological systems at the cellular, tissue and organ levels." " The topics of this course will be the cardiovascular and respiratory systems, transmembrane and transvascular transport, cell dhesion and intracellular transport, drug transport and pharmacokinetics, and transport-related diseases (atherosclerosis, sickle cell disease, embolism, cancer metastasis)." " (Same as BMEN 7420 and CENG 3420).
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3.00 Credits
Dr. Gaver. Pre-requisite: ENGP 1410, ENGP 2430, MATH 2240. This class focuses on fundamental concepts and properties of fluid mechanics with applications to the body. Topics to be covered include basic equations of fluid statics, dynamics and mass transport in differential and integral form using both system and control volume viewpoints. Rheological properties of biological fluids are studied as well as dimensional analysis and similitude. Advanced applications are investigated using the finite element method.
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