This unit of study covers the principles of cell biology and study of the structure of cells, tissues and organ systems at the light and electron microscopic levels. The focus is on human systems. Extension exercises introduce students to the connection between histology and anatomy. Modern practical applications of histological techniques and analysis for research are also presented.

This unit of student covers the musculo-skeletal anatomy of the human body with particular emphasis on human evolution and comparisons with apes and fossil hominids. The topics covered include the versatility of the human hand, in manipulation and locomotion, bipedalism, climbing and brachiation in apes, and the change in pelvic anatomy associated with bipedalism and obstetric consequences.

Students are introduced to the structure and organisation of the central and peripheral nervous system. The course begins with an exploration into the make-up of the individual cells, followed by an examination of the different regions of the nervous system. A final theme of the course touches on the organisation of various systems (sensory and motor), together with aspects of higher-order function (memory). In essence, the course covers general concepts of organisation, structure and function of the brain and its different areas. The practicals offer students the unique opportunity to examine specimens in the Anatomy labs and museum. This course will be of considerable interest to students studying science and related disciplines, as well as those wishing to pursue further study in Neuroscience at senior levels.

Students are introduced to the structure and organisation of the central and peripheral nervous system. The course begins with an exploration into the make-up of the individual cells, followed by an examination of the different regions of the nervous system. A final theme of the course touches on the organisation of various systems (sensory and motor), together with aspects of higher-order function such as memory and language. In essence, the subject covers general concepts of organisation, structure and function of the brain. The laboratory practical sessions offer students the special privilege to examine human specimens in the Anatomy labs and museum. Tutorial meetings will provide the opportunity to encounter topics in functional anatomy and histology of the brain using photographs, diagrams, models, animations and problem-solving. Topics in identification of central nervous system structure in typical magnetic resonance images will assist in reinforcing the theory of functional anatomy in a format students are likely to encounter in further study and in real-world situations and readings. This course will be of considerable interest to students studying anatomy and related disciplines, as well as those wishing to pursue further study in Neuroscience at senior levels.

This unit of study aims to introduce students to the area of forensic osteology, which is the study of human skeletal remains within the legal context. Thus the unit of study aims to help students learn about human morphology and variation through the investigation and identification of human bones. It will also help students gain skills in observation and rigorous record taking and in analysis and interpretation. Production of case reports and practice in acting as 'expert witness' will improve students written and oral skills. An additional objective will be to assist students in learning to deal with legal and ethical issues.

This unit of study aims to provide an understanding of the anatomy of the viscera of the thorax, abdomen and pelvis. Structures covered include the heart and associated great vessels, lungs, mediastinum and the abdominal viscera, the alimentary organs and the genitourinary system. The structure of anterior thoracic and abdominal walls and pelvis along with the nerve supply to the viscera and relevant endocrine structures is also covered. Emphasis is placed on the relationship of structure to function especially with respect to the important functions of breathing, digestion, excretion and reproduction. Students will be encouraged to relate their understanding of these structures to current research in anatomy and histology and in related fields such as molecular biology and physiology. The course also aims to provide both theoretical and practical skills which can provide a basis for further studies in fields such as physiotherapy, chiropractic or forensic science or in post graduate medicine or dentistry or in areas of research requiring a knowledge of anatomy.

This unit of study aims to provide an understanding of the anatomy of the viscera of the thorax, abdomen and pelvis. Structures covered include the heart and associated great vessels, lungs, mediastinum and the abdominal viscera, the alimentary organs and the genitourinary system. The structure of anterior thoracic and abdominal walls and pelvis along with the nerve supply to the viscera and relevant endocrine structures is also covered. Emphasis is placed on the relationship of structure to function especially with respect to the important functions of breathing, digestion, excretion and reproduction. Students will be encouraged to relate their understanding of these structures to current research in anatomy and histology and in related fields such as molecular biology and physiology. The course also aims to provide both theoretical and practical skills which can provide a basis for further studies in fields such as physiotherapy, chiropractic or forensic science or in post graduate medicine or dentistry or in areas of research requiring a knowledge of anatomy.

The aims of this unit of study are to provide a theoretical understanding of why biological tissues need to be specifically prepared for microscopic examination, how differing methods yield different types of morphological information; to allow students to study the theory of different types and modalities of microscopes, how they function and the differing information they provide; to develop an understanding of the theory of why biological material needs to be stained for microscopic examination; to allow students to understand how biological material becomes stained; to develop an understanding of the chemical information provided by biological staining - dyes, enzymes and antibodies.

The aims of this unit of study are to provide a practical understanding of why biological tissues need to be specifically prepared for microscopic examination, how differing methods yield different types of morphological information; to allow students to study the theory of different types and modalities of microscopes, how they function and the differing information they provide; to develop an practical understanding of why biological material needs to be stained for microscopic examination; to allow students to understand how biological material becomes stained; to develop an understanding of the chemical information provided by biological staining - dyes, enzymes and antibodies.

The aim of this unit is to provide students with advanced knowledge of functional neuroanatomy and systems neuroscience. There will be a detailed exploration of the anatomical structures and pathways that underlie sensation and perception in each of the sensory modalities. The neural circuits and mechanisms that control somatic and autonomic motor systems, motivated behaviours, emotions, and other higher order functions will be explored in great detail. Practical classes will allow students to identify and trace key anatomical structures in human brain and spinal cord specimens. Reading and interpreting images from functional and structural brain imaging techniques will be incorporated into the neuroanatomy practical classes. The ongoing Neuroscience in the Media task will encourage the development of critical analysis of the media portrayal of neuroscience research, as well as allowing students to re-frame and communicate these ideas with their peers. This unit will develop key attributes that are essential for science graduate as they move forward in their careers.

The aim of this unit is to provide students with advanced knowledge of functional neuroanatomy and systems neuroscience. There will be a detailed exploration of the anatomical structures and pathways that underlie sensation and perception in each of the sensory modalities. The neural circuits and mechanisms that control somatic and autonomic motor systems, motivated behaviours, emotions, and other higher order functions will be explored in great detail. Practical classes will allow students to identify and trace key anatomical structures in human brain and spinal cord specimens. Reading and interpreting images from functional and structural brain imaging techniques will be incorporated into the neuroanatomy practical classes. The ongoing Neuroscience in the Media task will encourage the development of critical analysis of the media portrayal of neuroscience research, as well as allowing students to re-frame and communicate these ideas with their peers. This unit will develop key attributes that are essential for science graduate as they move forward in their careers.

This unit of study aims to provide students with a detailed understanding of the anatomy of the head and neck regions, with a particular emphasis on the functional anatomy of the cranial nerves. This unit of study covers skull, muscles of facial expression, muscles of jaw and neck, ear, eye, nose, oral cavity and larynx and pharynx as well as peripheral distribution of cranial nerves in the head and neck. The functional components of the cranial nerves and their relationship to the special senses and special motor functions such as facial gesture and speech are also studied. The practical sessions aim to provide students with the ability to recognise the structures studied in human prosections and in medical images especially X Rays and CT scans and to know their main anatomical relationships. Students will also be encouraged to relate their understanding of these structures to current research in anatomy and histology and in related fields such as molecular biology and physiology. The course also aims to provide both theoretical and practical skills which can provide a basis for further studies in fields such as physiotherapy, chiropractic or forensic science or in post graduate medicine or dentistry or in areas of research requiring a knowledge of anatomy.

This unit of study aims to provide students with a detailed understanding of the anatomy of the head and neck regions, with a particular emphasis on the functional anatomy of the cranial nerves. This unit of study covers skull, muscles of facial expression, muscles of jaw and neck, ear, eye, nose, oral cavity and larynx and pharynx as well as peripheral distribution of cranial nerves in the head and neck. The functional components of the cranial nerves and their relationship to the special senses and special motor functions such as facial gesture and speech are also studied. The practical sessions aim to provide students with the ability to recognise the structures studied in human prosections and in medical images especially X Rays and to know their main anatomical relationships. Students will also be encouraged to relate their understanding of these structures to current research in anatomy and histology and in related fields such as molecular biology and physiology. The course also aims to provide both theoretical and practical skills which can provide a basis for further studies in fields such as physiotherapy, chiropractic or forensic science or in post graduate medicine or dentistry or in areas of research requiring a knowledge of anatomy.

This unit of study aims to provide students with a deep and detailed understanding of the anatomy of the head and neck regions, with a particular emphasis on the functional anatomy of the cranial nerves. This unit of study covers skull, muscles of facial expression, muscles of jaw and neck, ear, eye, nose, oral cavity and larynx and pharynx as well as peripheral distribution of cranial nerves in the head and neck. The functional components of the cranial nerves and their relationship to the special senses and special motor functions such as facial gesture and speech are also studied. The practical sessions aim to provide students with the ability to recognise the structures studied in human prosections and in medical images especially X Rays and to know their main anatomical relationships. Students will also be encouraged to relate their understanding of these structures to current research in anatomy and histology and in related fields such as molecular biology and physiology. Dissection activities develop a deep understanding of the anatomy of the head and neck and develop highly advanced skills in dissection and prosection of cadaveric materials.

The unit provides an opportunity for students to study the topographical and systems anatomy of the upper limb, lower limb and the back regions. Emphasis is placed upon the identification and description of structures and the correlation of structure with function. This includes for the upper limb, its role in manipulation, for the lower limb standing and walking and for the back flexible support and protection. Emphasis is also given to the innervation of the limbs. The unit also aims to develop the general skills of observation, description, drawing, writing and discussion as applying to biological structure.

This unit of study aims to provide an opportunity for students to study the topographical and systems anatomy of the upper limb, lower limb and the back regions. Emphasis is placed upon the identification and description of structures and the correlation of structure with function, which for the upper limb includes its role in manipulation, for the lower limb standing and walking and for the back flexible support and protection. Emphasis is also given to the innervation of the limbs and the consequences of nerve lesions for limb function. The unit also aims to develop the general skills of observation, description, drawing, writing and discussion as applying to biological structure. The unit builds upon or compliments other macroscopic anatomy units offered by the Department and provides for the development of skills, which could be relevant to a later honours project or higher degree in the field of structural biology.

The course is run conjointly by the Department of Anatomy and Histology and the Australian Centre for Microscopy and Microanalysis (ACMM). The course will focus on the theoretical aspects of transmission and scanning electron microscopy, the preparation of biological samples for electron microscopy, digital imaging, MicroCT and CryoEM. Students will receive theoretical training in laser scanning confocal microscopy including the use of fluorescent probes to visualize cellular organelles and cellular processes. Immunological and other techniques required in modern research and hospital electron microscope laboratories will also be covered. Students will undertake a theoretical research project of their choice which is of relevance to the course.

The course is run conjointly by the Department of Anatomy and Histology and the Australian Centre for Microscopy and Microanalysis (ACMM). The course will provide hands-on training in the operation of transmission and scanning electron microscopes, processing biological samples for electron microscopy, ultrathin sectioning, cryo-ultramicrotomy, electron diffraction, digital imaging, immunological and other techniques required in modern research and hospital electron microscope laboratories. Students will also learn the operation of laser scanning confocal microscopes, including the use of fluorescent probes to visualise cellular organelles and cellular processes. Students will apply their knowledge to complete a project of their choice on electron microscopy of a biological sample, from fixation of the sample to interpretation of the resulting electron micrographs.

The main emphasis of this unit of study concerns the mechanisms that control animal development. Early developmental processes including fertilisation, cleavage, and gastrulation leading to the formation of the primary germ layers and subsequent body organs are described in a range of animals, mainly vertebrates. Stem cells of both embryonic and adult origin will be covered. Emphasis will be placed on the parts played by inductive cell and tissue interactions in cell and tissue differentiation, morphogenesis and pattern formation. This will be studied at both cellular and molecular levels.

This advanced unit of study complements HSTO3003 (Cells and Development: Theory) and is catered to provide students with laboratory research experience leading to Honours and higher degrees. It will primarily cover the design and application of experimental procedures involved in cell and developmental biology, using appropriate molecular and cellular techniques to answer developmental questions raised in HSTO3003. This unit of study will promote hands on experience, allowing students to observe and examine developing and differentiating tissues at the macroscopic and microscopic level. The main emphasis of this unit of study will concentrate on practical approaches to understanding the mechanisms that control animal development. Some projects may examine early developmental processes such as fertilization, cleavage, gastrulation and the formation of the primary germ layers and tissues. The parts played by stem cells and inductive cell and tissue interactions in differentiation, morphogenesis and pattern formation can also be examined at cellular and molecular levels.

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. Suitably qualified students may have the option of replacing the library project with a laboratory 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 system.

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. Suitably qualified students may have the option of replacing the library project with a laboratory project. Seminars will be held on topics including imaging pain, emotions, cortical development and plasticity, colour vision, stroke and hypertension, long-term regulation of blood pressure, auditory hallucinations and the "cocktail party effect".

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.