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BIOE 8150: Design Manuf Medical Devices

3.00 Credits

Clemson University

Overview of design theories, methods and best practices governing the medical device reprocessing industry. Materials, fabrication processes and manufacturing techniques with an emphasis on remanufacturing, reprocessing and sustainability. Knowledge and skills needed to comply with process verification and validation requirements for Quality System Regulations with emphasis on a reprocessing approach.

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BIOE 8160: BioE Professional Development

3.00 Credits

Clemson University

Addresses problems bioengineering graduate students may encounter in their professional careers. Guest speakers and faculty present lectures and demonstrations on information pertinent to research career development, grantsmanship, university-industry relationships, intellectual property, research lab management and budget development, biomedical engineering ethics, regulatory affairs and clinical trials.

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BIOE 8200: Structl Biomechanics

3.00 Credits

Clemson University

Mechanical functions of the human body treated as an engineering structure and the devices used to assist and supplement these functions; movement of the musculoskeletal system; locomotion; gait; prehension; lifting; function of artificial limbs; orthopedic prostheses and braces; effect of vibration and impact on the body; mathematical and other models of the body. Preq: Consent of instructor.

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BIOE 8230: Technq/Exp Dsgn Cell-Based Res

3.00 Credits

Clemson University

Experiments using live cells and tissues require detailed knowledge of the techniques involved. This course covers techniques needed to conduct experiments with live cells and tissues and characterize cells based on molecular and functional assays. Modern methods for identifying disease-causing genes are also discussed.

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BIOE 8240: Cell & Mol Tissue Engineering

4.00 Credits

Clemson University

Describes the molecular basis for cell regulation by extracellular stimuli including growth factors, matrix and force. Also describes theoretical and laboratory instruction in research methods used to analyze cellular signaling and functional response in the design and evaluation of tissue engineering constructs. Preq: BIOE 8490 or consent of instructor. Coreq: BIOE 8241.

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BIOE 8241: Cell & Mol Tissue Engr Lab

0.00 Credits

Clemson University

Non-credit laboratory to accompany BIOE 8240. Coreq: BIOE 8240.

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BIOE 8250: Cardiac Pathophys

3.00 Credits

Clemson University

Advanced structural and functional aspects of the cardiovascular system, including cardiac physiology and cellular electromechanical physiology, pathological processes and congenital defects of the cardiovascular system as depicted in an invasive cardiovascular laboratory. Standard cardiovascular pharmacologic agents are discussed as they relate to the electrophysiology patient. Preq: BIOE 3700 and BIOL 3150 and consent of instructor.

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BIOE 8260: Cardiacc Electro Lab

3.00 Credits

Clemson University

Introduction to procedure room preparation, aseptic technique, regulatory compliance, patient identification and procedural consent; medical record and laboratory results review; and appropriate conduct with patients and staff. Instruction on identification and use of standard surgical instruments, cardiac catheter placement and potential complications. Calibration and assessment of intracardiac and intra-arterial pressure waveforms. Preq or concurrent enrollment: BIOE 8250; or consent of instructor.

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BIOE 8270: Cardiac Arrhythmias

3.00 Credits

Clemson University

Recording and interpreting electrocardiograms (ECG). Identification and measurement of ECG waveforms, parameters, recording errors and artifacts. Use of standard ECGs, Holter and Event monitors, implantable loop recorders, stress tests, signal averaged, ECGs, T-wave alternans testing. Mechanisms of arrhythmia formation and methods of pharmacologic and interventional treatments. Preq or concurrent enrollment: BIOE 8260; or consent of instructor.

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BIOE 8280: Cardiac Devices

3.00 Credits

Clemson University

Design of clinically used pacemakers, defibrillators, and cardiac resynchronization devices. Covers modes and basic timing cycles of pacemakers; testing of leads for sensing, impedances, and capture thresholds; pacemaker malfunction assessment; programming of antitachycardia pacing and defibrillation threshold testing for defibrillators; and device surgical implantation and explanation and methods of lead extraction. Preq: BIOE 8260 or consent of instructor. Coreq: BIOE 8281.

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