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Gonzaga's Jesuit principle of Cura Personalis (whole person) is the perfect setting to prepare for a career in healthcare and providing compassionate care for your community. The Human Physiology degree prepares our graduates for a health-related career or a graduate professional health program. Our program allows 51³Ô¹Ïs to complete their degree and all prerequisites for their chosen graduate program in a four-year timeframe with proper planning. With a focus on human biology and coursework in anatomy and physiology, it's an excellent alternative to a traditional biology degree for anyone seeking a career in medicine or therapy.

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What is Physiology?

Physiology is the study of life, specifically, how cells, tissues, and organisms function. Physiologists are constantly trying to answer key questions in areas ranging from the functions of single cells to the interactions between human populations and our environment here on earth, the moon, and beyond. To answer these questions, physiologists work in laboratories, in libraries, in the field, and in space. For example, a physiologist may study how a particular enzyme contributes to the functions of a specific cell or subcellular organelle. A physiologist may use the simple nerve networks found in marine snails to answer questions about the fundamental mechanisms of learning and memory. A physiologist may investigate the cardiovascular system of an animal to answer questions about heart attacks and other human diseases. Physiologists may study how the body adapts to temperature and environmental extremes encountered on earth, or the zero gravity encountered in space flights, to learn how life processes cope with these environmental stresses.

Physiology is important because it is the foundation upon which we build our knowledge of what "life" is, how to treat disease, and how to cope with stresses imposed upon our bodies by different environments. Physiological studies of normal biological function provide the basis for understanding the abnormal function seen in animal and human disease (pathophysiology) and for developing new methods for treating those diseases (translational research). Many physiologists use animal models as an important tool in their research.

The study of physiological processes can encompass a wide array of other disciplines, such as neurophysiology, pharmacology, cell biology, and biochemistry, to name just a few. Physiologists can often be found as members of these other departments, in addition to departments of physiology.

Physiologists are constantly trying to answer key questions in areas ranging from the functions of single cells to the interactions between human populations and our environment here on earth, the moon, and beyond.

Physiologists ask questions like . . .

• Why does blood clot in a wound but not while flowing through blood vessels?
• Can we prevent loss of bone mineral during space flights or confinement to bed?
• How does the nervous system convert stimuli into memories? How do we access those memories?
• What factors limit human athletic performance?
• What causes new genes to be activated and expressed in failing hearts, and how does this contribute to poor performance of these hearts as circulatory pumps?
• How does a person’s genetic inheritance predispose him or her to certain diseases later in life?
• How does a person’s sex affect his or her body’s response to physiological or environmental stress?
• How do organs repair themselves after damage due to stroke, heart attack, or other insult?