Bioengineer-ing 4 + 1

生物工程学士/硕士4+1项目

Imagine yourself on the cutting edge of technology, a bioengineer designing the next generation of artificial limbs, building state-of-the art medical equipment, creating the next advanced therapies to combat debilitating diseases or using designs by nature 加强环境保护工作.

The bio工程 4 + 1 program at 澳门赌场在线娱乐 is a unique, accelerated program that combines four years of undergraduate study in biology, biochemistry, electrical 工程 or mechanical 工程 and one year of graduate study in bio工程. With careful planning and consultation with your faculty advisor, you will take master’s-level bio工程 courses as an undergraduate, allowing these courses to count toward 包括学士学位和硕士学位.

The cross-disciplinary program includes concepts in 工程, biology, medicine, 健康与计算机科学. 作为一名生物工程专业的学生,你将从中选择一个 有两个方向:生物医学工程或合成生物学.

澳门赌场在线娱乐’s bio工程 program prepares students for careers in a variety of fields, including research and development, academia, pharmaceutical manufacturing, 医疗保健,环境修复和遗传学.

澳门赌场在线娱乐

Dr. 威廉·B. Terzaghi
生物学教授,
威廉.terzaghi@shandongouyue.com
(570) 408-4762
Dr. 打倒Sabouni
副教授,
电气工程
打倒.sabouni@shandongouyue.com
(570) 408-4832

项目跟踪

Biomedical engineers design artificial limbs, joints, tissues and organs. 他们还 design and build diagnostic equipment, monitoring devices and 给药系统, gather information on devices and work on software and automation for biomedical and 生物技术的目的.

Mechanical and electrical 工程 students who meet all of the 4 + 1 program requirements will automatically be accepted into the biomedical 工程 track of the bio工程 硕士课程.

课程包括:
  • Biomedical Devices and Designs: Students learn about the latest instrumentation used 在医学和生物技术方面.
  • Bio-Mechatronics: This course teaches how mechanics, electronics, computer science, molecular 工程 and other life and 工程 sciences work together to produce new, efficient and versatile medical monitoring and diagnostic devices.
  • Anatomy and Physiology: This course covers the essentials in biology as well as in 3-D models of organs and physiological systems in a manner based off of 工程 立场与原则.
  • Biomedical Imaging: Students learn how imaging devices are used for diagnosis, therapy 和手术.
  • Biomechanics: Focus on the mechanical structure of humans and vertebrates, including the concerted motion of bone, muscles and joints as well as the stress and strain 人类的动作和运动. 本课程实际成果的一个例子是 假肢的设计.
  • Biofluidics and Microfluidics: Students learn to mathematically and quantitatively 描述流经器官系统和生物医学设备的流体流动. 还包括 心流如何与疾病相关.
  • Bio-MEMS: Students learn principles of refabricating diagnostic devices from nanosized particles to produce enhanced monitoring properties for analyzing blood and other 样品. Also covered are applications in implanted insulin pumps and anti-cancer 给药系统.
  • Thesis 研究: Students will perform an original research project in bio工程, present the results in the form of a thesis and defend their work in a public presentation.

Synthetic biologists create biological molecules, systems or even entire organisms, which are useful for medical applications or performing unique functions, such as 检测或解毒有害生物化学品.

生物学 and biochemistry students who meet all of the 4 + 1 program requirements will automatically be accepted into the cell/metabolic 工程 track of the bio工程 硕士课程.

课程包括:
  • Introduction to Bioinformatics Applications: Introduces the ways computers are used to make sense of biological information, especially the data generated by genome projects, 并模拟生物过程.
  • 生物化学: Provides an introduction to metabolism and how it is studied together with an introduction to the physical and chemical properties of macromolecules and 他们的前身.
  • Molecular 生物学: An introduction to molecular biology and how it is studied. 主题 covered include genome structure, transcription, translation, chromatin structure and its role in gene expression, and techniques for studying gene expression and genetic 工程.
  • Cellular Biophysics: Students will learn how to integrate physics, chemistry and molecular biology in understanding and predicting molecular and cellular processes such as protein-protein interactions, biofluidics, protein folding, diffusion and signaling and techniques 用来测量它们.
  • Practicum in 合成生物学 I and II: This course sequence will introduce students to modern concepts and techniques in synthetic biology through a genuine research 生物工程经验. 我们不会遵循一系列的讲座,而是 选择一个生物工程项目,看看它会给我们带来什么.
  • Thesis 研究: Students will perform an original research project in bio工程, present the results in the form of a thesis and defend their work in a public presentation.

实践学习

You will work with expert faculty in the fields of medical device design, imaging 系统,生物工程和代谢技术. 由教师导师指导,生物工程 students benefit from hands-on, research-intensive experiences unparalleled at other 该地区的机构.

Lab and classroom instruction includes training in cell and molecular techniques, bioinformatics, 3-D imaging and design software, instrumentation and other simulation 技术.

澳门赌场在线娱乐的研究