Discussion of advanced and current topics in biomedical engineering. Individual work on research problems of current interest. May be repeated to a maximum of nine credits. Lecture/laboratory hours variable.

Discussion of advanced and current topics in biomedical engineering. Individual work on research problems of current interest. May be repeated to a maximum of nine credits. Lecture/laboratory hours variable.

Graduate research in any area of biomedical engineering, subject to approval of the Director of Graduate Studies. May be repeated to a maximum of 9 hours.

Graduate research in any area of biomedical engineering, subject to approval of the Director of Graduate Studies. May be repeated to a maximum of 9 hours.

This interdisciplinary course focuses on how psycho-(individual thought and behavior) social (interactions with others) factors influence health and well-being. Psychosocial factors are broadly defined to include cognition, attributions, beliefs, personality, self-concept, social support, habits, behavior change, mindfulness, stress, and decision making. Likewise, health and well-being are broadly defined to include dementia, depression, coronary heart disease, rehabilitation after traumatic injuries, addiction, obesity, and mortality.

Clinical scientists need a sound understanding of the ethical principles guiding the conduct of research projects. This course will address issues relevant to ethically sound study design, responsible conduct of research and scientific misconduct. Students will also complete human subjects protection training and learn to conduct research in an ethical manner. During this course, students will engage in both in-class lecture and discussion sessions as well as out of class learning activities (outlined below).

This course is designed to support clinical and translational science students in acquiring an applied understanding of the biostatistical tools and techniques commonly used in the conduct of clinical and translational science research. Through a combination of lectures, readings, demonstrations, discussions, and self-study modules, students will understand and appreciate measurement and statistical challenges that are common to clinical and translational science.

This overview course is designed to introduce the student to the major methods and technologies of clinical and translational science (CTS) with an emphasis on human subjects research. Students learn these core methodologies through classroom discussions, readings, and written portfolio activities that challenge them to apply methodological concepts to their own areas of research interest.

This course will introduce students to the processes involved in the development and implementation of interdisciplinary research. Students will be introduced to key aspects of the leadership, communication and teamwork involved in interdisciplinary research. Students will also be introduced to the structure and functioning of the NIH and the NIH grant application and review process.

This seminar course is designed to orient students to clinical and translational research community and activities at the University of Kentucky and to incorporate a multidisciplinary cooperative approach to clinical and translational research. Students are expected to apply their knowledge of effective scientific communication, responsible conduct of research, and methods and technologies of clinical and translational science to ongoing discussions. The course will consist of 7 evening seminars focusing on different topics of clinical and translational research.