This unit of study offers an introduction to the basic concepts underpinning physiology, excitable cell (nerve and muscle) physiology, as well as the functions of the nervous system (central processing, and sensory and motor systems). It also incorporates cardiovascular and exercise physiology. The practical component involves experiments on humans and isolated tissues, with an emphasis on hypothesis generation and data analysis. Tutorial sessions develop critical thinking, the integrative nature of physiology, and generic skills in scientific writing and presentation. The practicals and tutorials also emphasise group learning and team work.

This unit of study is an extension of PHSI2005 for talented students with an interest in Physiology and Physiological research. The lecture component of the course is run in conjunction with PHSI2005. This unit of study offers a basic introduction to the functions of the nervous system, excitable cell (nerve and muscle) physiology, sensory and motor systems, and central processing. It also incorporates haematology and cardiovascular physiology. The practical component involves experiments on humans and isolated tissues, with an emphasis on hypothesis generation and data analysis. Inquiry-based learning sessions develop critical thinking and generic skills while demonstrating the integrative nature of physiology. Oral and written communication skills are emphasized, as well as group learning and team work. The course will provide an opportunity for students to apply and extend their understanding of physiological concepts by designing and conducting actual experiments. Small class sizes will provide a chance for students to interact directly with faculty members mentoring the practical sessions. Assessment for this stream will be based on oral group presentations and two practical reports. These items will replace some other assessable activities from the regular course.

This unit of study offers a basic introduction to the functions of the remaining body systems: gastrointestinal, respiratory, haematology, endocrine, reproductive and renal. The practical component involves experiments on humans and computer simulations, with an emphasis on hypothesis generation and data analysis. The tutorial sessions develop critical thinking and graduate attributes while demonstrating the integrative nature of physiology. Oral and written communication skills are emphasized, as well as group learning and team work.

This unit of study is an extension of PHSI2006 for talented students with an interest in Physiology and Physiological research. The lecture component of the course is run in conjunction with PHSI2006. This unit of study gives a basic introduction to the remaining of the body systems: gastrointestinal, respiratory, endocrine, reproductive and renal. The practical component involves simple experiments on humans, isolated tissues, and computer simulations, with an emphasis on hypothesis generation and data analysis. Both oral and written communication skills are emphasised, as well as group learning. The course will provide an opportunity for students to apply and extend their understanding of physiological concepts by designing and conducting actual experiments. Small class sizes will provide a chance for students to interact directly with faculty members mentoring the practical sessions. Assessment for this stream will be based on oral group presentations and two practical reports. These items will replace some other assessable activities from the regular course.

This second semester unit is designed to introduce students to "cutting edge" issues in the neurosciences. This course is a combination of small lectures on current issues in cellular and developmental neuroscience and a research-based library project. Issues covered in the lecture series will include the role of glial on cerebral blood flow and neural transmission, neurochemistry and psychiatric disorders and the development of central and peripheral nervous systems.

This unit encompasses the material taught in NEUR3003. Advanced students perform a research project and present a mini-lecture on a current topic in neuroscience.

This second semester unit is designed to introduce students to "cutting edge" issues in the neurosciences and to be taken in conjunction with NEUR3003. This course is a combination of small group lectures on current issues in neuroscience, seminar groups and a research-based library project. Seminars will be held on topics including imaging pain, emotions, cortical development and plasticity, colour vision, stroke and hypertension, and long-term regulation of blood pressure.

This unit encompasses the material taught in NEUR3004. Advanced students perform a research project and present a mini-lecture on a current topic in neuroscience research.

This unit provides an introduction the mechanisms that drive neurons and neural circuits throughout the brain and body. The lectures explore how signal intensity is translated into nerve impulse codes and how this information is again translated through synapses to convey and interpret information about the external world, to control the body and to record information for future use (learning and memory). We also consider how sensory and motor information is integrated through neural circuits in the brain and spinal cord. Practical classes introduce some of the different ways in which the workings of the brain are studied. Each student chooses a journal club that focuses on a specific topic in neuroscience. In the weekly sessions, group members read, present and interpret original research papers, developing a deep understanding of the emerging scientific evidence in the topic area. This senior year unit of study will develop skills in critical analysis, interpretation and communication of new evidence.

This unit provides an introduction the mechanisms that drive neurons and neural circuits throughout the brain and body. The lectures explore how signal intensity is translated into nerve impulse codes and how this information is again translated through synapses to convey and interpret information about the external world, to control the body and to record information for future use. We also consider how sensory and motor information is integrated through neural circuits in the brain and spinal cord. Practical classes introduce some of the different ways in which the workings of the brain are studied. Each student chooses a journal club that focuses on a specific topic in neuroscience. In the weekly sessions, group members read, present and interpret original research papers, developing a deep understanding of the emerging scientific evidence in the topic area. This senior year unit of study will develop skills in critical analysis, interpretation and communication of new evidence.

The aim of this unit is to provide students with advanced knowledge of cellular physiology. There will be a detailed exploration of the signals and pathways cells use to detect and respond to environmental changes and cues. Important signalling systems and homeostatic regulators will be discussed in the context of biological processes and human diseases. Problem-based learning sessions will explore these diseases with student-led teaching. Practical classes will explore physiological techniques for investigating cell signalling and the biophysical properties of cells. Large class tutorials will focus on graduate attribute skills development in the context of reinforcing material discussed in the lectures and practical classes. This unit will develop key attributes that are essential for a science graduate as they move forward in their careers.

The aim of this unit is to provide students with advanced knowledge of cellular physiology. There will be a detailed exploration of the signals and pathways cells use to detect and respond to environmental changes and cues. Important signalling systems and homeostatic regulators will be discussed in the context of biological processes and human diseases. Problem-based learning sessions will explore these diseases with student-led teaching. Practical classes will explore physiological techiques for investigating cell signalling and biophysical properties of cells. Large class tutorials will focus on graduate attribute skills development in the context of reinforcing material discussed in the lectures and practical classes. This unit will develop key attributes that are essential for science a graduate as they move forward in their careers.

The aim of this unit is to provide students with advanced knowledge of the physiological processes that regulate normal and how these may go awry leading to significant human conditions or even disease. Lectures will focus on; male and female reproductive physiology, endocrinology of reproduction, physiology of fertilisation, cell cycle control and apoptosis, mechanisms of differentiation, gastrulation, cardiovascular development, tissue formation and organogenesis, stem cell biology and the link between developmental processes and cancer. Reprogramming and tissue regeneration will also feature in the lecture content. Problem-based learning will focus on reproductive physiology and regeneration. Practical classes will examine the processes regulating sperm function, embryogenesis and stem cell biology.

The aim of this unit is to provide students with advanced knowledge of the physiological processes that regulate normal and how these may go awry leading to significant human conditions or even disease. Lectures will focus on; male and female reproductive physiology, endocrinology of reproduction, physiology of fertilisation, cell cycle control and apoptosis, mechanisms of differentiation, gastrulation, cardiovascular development, tissue formation and organogenesis, stem cell biology and the link between developmental processes and cancer. Reprogramming and tissue regeneration will also feature in the lecture content. Problem-based learning will focus on reproductive physiology and regeneration. Practical classes will examine the processes regulating sperm function, embryogenesis and stem cell biology.

The aim of this unit is to provide students with advanced knowledge of whole body physiology. Lectures will provide insight into the mechanisms that regulate homeostasis throughout the whole body with a particular focus not only on the interplay between major organ systems, but also variability amongst individuals. The emphasis in this unit is on recent advances at the frontiers of human physiology. Our current understandings of how we functions will be explored at the molecular, cellular and whole body level. This is detailed fundamental knowledge that is key to understanding the transitions that occur from health to disease. Hands on practical classes will explore the physiology presented in the lectures and tutorial sessions will investigate what 'normal' is in terms of whole body physiology.

The aim of this unit is to provide students with advanced knowledge of whole body physiology. Lectures will provide insight into the mechanisms that regulate homeostasis throughout the whole body with a particular focus not only on the interplay between major organ systems, but also variability amongst individuals. The emphasis in this unit is on recent advances at the frontiers of human physiology. Our current understandings of how we functions will be explored at the molecular, cellular and whole body level. This is detailed fundamental knowledge that is key to understanding the transitions that occur from health to disease. Hands on practical classes will explore the physiology presented in the lectures and tutorial sessions will investigate what ¿normal¿ is in terms of whole body physiology.

The aim of this unit is to provide students with advanced knowledge of whole body physiology. Lectures will provide insight into the mechanisms that regulate normal homeostasis throughout the whole body and how defects in these processes can lead to significant human disease. The emphasis in this unit is on recent advances at the frontiers of human physiology. The processes leading to cancer, cardiovascular and metabolic disease will be explored at the molecular, cellular and whole body level. Problem-based learning will focus on cancer and cardiovascular disease and practical classes will utilise both wet lab and online resources to dissect the processes by which normal physiological processes become aberrant leading to human disease.

The aim of this unit is to provide students with advanced knowledge of whole body physiology. Lectures will provide insight into the mechanisms that regulate normal homeostasis throughout the whole body and how defects in these processes can lead to significant human disease. The emphasis in this unit is on recent advances at the frontiers of human physiology. The processes leading to cancer, cardiovascular and metabolic disease will be the specific will be explored at the molecular, cellular and whole body level. Students will undertake an Advanced Project Problem-based learning will focus on cancer and cardiovascular disease and Practical classes will utilise both wet lab and online resources to dissect the processes by which normal physiological processes become aberrant leading to human disease.