This course will offer greater understanding of the history of medicine and how the hospital has become a central institution to life. Beginning with a historic and scientific discussion of child-birth, the course will then focus on cancer as an example of one of the diseases to which the human body is susceptible and conclude with a discussion of death as part of life. Central to each of these themes will be the ethical questions and complexities that cannot be separated from the practical aspects of caring for life. Through case studies, lab work, and invited guests the class will offer students an understanding of the increasingly complex nature of the science of care.
Natural Science Core course.
This course aims to understand what makes us who we are by exploring both the influences of our genes (nature) and experiences (nurture). These two mechanisms cannot be easily teased apart, so students in the course will discover how nature and nurture interact. Students will encounter concepts in behavior and basic molecular genetics through the exploration of the topics of eugenics, medical disorders, and genetic testing. The question of how society should use empirical evidence to frame policy will be addressed, along with discussions about the role of free will and personal accountability in these issues.
Natural Science Core course.
This course will be cross listed as a psychology course with the PSYC prefix.
This course has previously been taught as a capstone course. The instructors modified the course to address the SOPHIA outcomes.
An understanding of genetics and the ability to interpret new genetic discoveries through empirical evidence has become essential for a person’s ability to make decisions that support their well-being, allow them to be an informed voter on policy, and justly evaluate novel developments in genetics. Using case-studies, guest speakers, videos, readings, and podcasts to complement small and large group discussion, students will explore the principles of genetics, along with ethical dilemmas, such as genetic determinism, a paternalistic view of genetic information, and controversies surrounding genetic modification. The course is intended for students who are not majoring in the biological sciences.
Natural Science Core course.
This course will be cross listed as a psychology course with the PSYC prefix.
This course has previously been taught as a capstone course. The instructors modified the course to address the SOPHIA outcomes.
A recent explosion of neuroscience discoveries has attracted attention from individuals who want to treat mental illness, advance technology, and improve themselves and our way of life. Still, we know relatively little about how the brain works. Using case studies, popular media, lay and scientific literature, and a visit to a neuroscience laboratory to stimulate discussion and writing, students will acquire an understanding of modern neurobiology and skills in scientific literacy that will allow them to interpret new science, evaluate common beliefs about the mind and the brain, and grapple with the implications of brain science in their lives.
Natural Science Core course
How do our food choices impact other people and the environment? Though we are usually unaware of it, what we eat, how we organize food production, and how we control food distribution entail choices and these choices have ecological impacts. This course will help us understand the scientific underpinnings of our food system and recognize the impacts of our food choices. Topics investigated include limits of food production, relationships with human population, differences between organic and industrial agricultural systems, genetically modified foods, global agricultural production and trade (including agricultural subsidies), global malnutrition and the interrelatedness of many of these issues.
Natural Science Core course
Students will be introduced to the fields of genetics and genomics with an emphasis on understanding how genetic technology affects their everyday lives and how the general public learns about and uses new genetic technology. Students will learn the material through lecture, discussion, case studies, and reading the scientific literature. The course will also feature guest lectures from members of the community involved in big data in medicine. Finally, students will apply their knowledge by analyzing data from the Sanford data collaborative data set and presenting their findings to a general audience.
Natural Science Core course
A study of the function, integration, and coordination of the organ systems of the human body with an emphasis on homeostatic control mechanisms. This course includes an experimental laboratory in which basic human physiological responses are studied. This course is not intended for biology majors.
This course covers classical Mendelian analysis, mitosis and meiosis, genetic mapping, non-Mendelian inheritance, chromosomal structure and mutations, the structure of DNA and RNA, transcription, translation, molecular gene cloning and analysis, human genetics and the Human Genome Project, and population and quantitative genetics. The course includes 3 hours of laboratory per week, focused on experience in genetic mapping, cytogenetics, and molecular genetics.
The course begins with an introduction to the techniques used in studying cells and the elements of bioenergetics. Then the ultra-structure and function of all major eucaryotic organelles are described in detail. This survey includes the principles of cell metabolism and its regulation, membrane transport, and the cell cycle. The course concludes with specialized topics such as the biology of cancer and the cellular mechanisms of hormone action. The laboratory acquaints students with techniques employed in cell biology.
This course is intended to acquaint the student with the biology and importance of bacteria and viruses. Particular emphasis will be placed on disease mechanisms, the nature of the most important diseases afflicting humans, immunology, and selected aspects of applied microbiology with public health implications (e.g., drinking water and sewage treatment). The laboratory will introduce a wide variety of standard microbial techniques. This course is not intended for biology majors.
This course is designed to provide STEM majors an introduction to biostatistical concepts and to the design and analysis of experiments, with the goal of equipping practicing scientists with the tools to analyze research data. The course emphasizes the application of statistical ideas and methods to the design and interpretation of biological experiments and comparative data sets, and includes a writing intensive approach. Students will be able to develop and implement appropriate experimental design, carry out appropriate statistical analyses and interpretation for different data types using several statistical platforms, critically read and interpret the statistical content of scientific journal articles in the biological and biomedical sciences, and exhibit advanced scientific writing skills.
Special Topics in Biology.
Intended to provide experience in research or special techniques in biology on an individual basis. This course designation may not be used to replace a 300-level elective.
Permission of the Instructor