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Showing 25 course outlines from 2250 matches
776
MEDSCI 732
: Molecular Aspects of Endocrinology and Metabolism2023 Semester Two (1235)
Explores how hormones are able to control such a wide range of physiological processes. Covers molecular aspects of hormone action with particular reference to the neuroendocrine and peripheral endocrine systems that control appetite and metabolism. Other topics covered include how defects in hormone action lead to diseases such as cancer, obesity, Type-2 diabetes and cardiovascular disease.
No pre-requisites or restrictions
777
MEDSCI 732
: Molecular Aspects of Endocrinology and Metabolism2022 Semester Two (1225)
Explores how hormones are able to control such a wide range of physiological processes. Covers molecular aspects of hormone action with particular reference to the neuroendocrine and peripheral endocrine systems that control appetite and metabolism. Other topics covered include how defects in hormone action lead to diseases such as cancer, obesity, Type-2 diabetes and cardiovascular disease.
No pre-requisites or restrictions
778
MEDSCI 732
: Molecular Aspects of Endocrinology and Metabolism2021 Semester Two (1215)
Explores how hormones are able to control such a wide range of physiological processes. Covers molecular aspects of hormone action with particular reference to the neuroendocrine and peripheral endocrine systems that control appetite and metabolism. Other topics covered include how defects in hormone action lead to diseases such as cancer, obesity, Type-2 diabetes and cardiovascular disease.
No pre-requisites or restrictions
779
MEDSCI 732
: Molecular Aspects of Endocrinology and Metabolism2020 Semester Two (1205)
Explores how hormones are able to control such a wide range of physiological processes. Covers molecular aspects of hormone action with particular reference to the neuroendocrine and peripheral endocrine systems that control appetite and metabolism. Other topics covered include how defects in hormone action lead to diseases such as cancer, obesity, Type-2 diabetes and cardiovascular disease.
No pre-requisites or restrictions
780
MEDSCI 733
: Advanced Methods in Cell Physiology2023 Semester One (1233)
The theoretical basis underpinning electrophysiological and live cell imaging techniques used to probe cellular function will be addressed. Emphasis will be placed on the instrumentation, data acquisition, and data analysis associated with each technology. The approach is practical and computer-based software programmes are used to analyse pre-recorded data, and data produced by the students themselves.
Prerequisite: 15 points from MEDSCI 309, 311, 312, 316, 317
Restriction: MEDSCI 726
Restriction: MEDSCI 726
781
MEDSCI 733
: Advanced Methods in Cell Physiology2022 Semester One (1223)
The theoretical basis underpinning electrophysiological and live cell imaging techniques used to probe cellular function will be addressed. Emphasis will be placed on the instrumentation, data acquisition, and data analysis associated with each technology. The approach is practical and computer-based software programmes are used to analyse pre-recorded data, and data produced by the students themselves.
Prerequisite: 15 points from MEDSCI 309, 311, 312, 316, 317
Restriction: MEDSCI 726
Restriction: MEDSCI 726
782
MEDSCI 733
: Advanced Methods in Cell Physiology2021 Semester One (1213)
The theoretical basis underpinning electrophysiological and live cell imaging techniques used to probe cellular function will be addressed. Emphasis will be placed on the instrumentation, data acquisition, and data analysis associated with each technology. The approach is practical and computer-based software programmes are used to analyse pre-recorded data, and data produced by the students themselves.
Restriction: MEDSCI 726
783
MEDSCI 733
: Advanced Methods in Cell Physiology2020 Semester One (1203)
The theoretical basis underpinning electrophysiological and live cell imaging techniques used to probe cellular function will be addressed. Emphasis will be placed on the instrumentation, data acquisition, and data analysis associated with each technology. The approach is practical and computer-based software programmes are used to analyse pre-recorded data, and data produced by the students themselves.
Restriction: MEDSCI 726
784
MEDSCI 734
: Advanced Cardiovascular Science2024 Semester Two (1245)
Examines the current state of the field of research relating to cardiovascular physiology, including critical analysis of the literature. This course portrays how an integrative physiological approach can reveal new levels of understanding in the field of cardiovascular research. Examples of this approach will be drawn from research programmes within the broad area of cardiovascular biology.
Prerequisite: 15 points from MEDSCI 309, 311, 312, 316, 317
785
MEDSCI 734
: Advanced Cardiovascular Science2023 Semester Two (1235)
Examines the current state of the field of research relating to cardiovascular physiology, including critical analysis of the literature. This course portrays how an integrative physiological approach can reveal new levels of understanding in the field of cardiovascular research. Examples of this approach will be drawn from research programmes within the broad area of cardiovascular biology.
Prerequisite: 15 points from MEDSCI 309, 311, 312, 316, 317
786
MEDSCI 734
: Advanced Cardiovascular Science2022 Semester Two (1225)
Examines the current state of the field of research relating to cardiovascular physiology, including critical analysis of the literature. This course portrays how an integrative physiological approach can reveal new levels of understanding in the field of cardiovascular research. Examples of this approach will be drawn from research programmes within the broad area of cardiovascular biology.
Prerequisite: 15 points from MEDSCI 309, 311, 312, 316, 317
787
MEDSCI 734
: Advanced Integrative Physiology2021 Semester Two (1215)
In the post-genomic world the limitations of reductionism as a basis for understanding complex function have become apparent and it is necessary to integrate genomics with the biology of organ systems. This course will portray how an integrative physiological approach can reveal new levels of understanding in the field of biomedical research. Examples of this approach will be drawn from research programmes within the areas of cardiovascular biology, fetal physiology, neurophysiology and vision.
Restriction: MEDSCI 728
788
MEDSCI 734
: Advanced Integrative Physiology2020 Semester Two (1205)
In the post-genomic world the limitations of reductionism as a basis for understanding complex function have become apparent and it is necessary to integrate genomics with the biology of organ systems. This course will portray how an integrative physiological approach can reveal new levels of understanding in the field of biomedical research. Examples of this approach will be drawn from research programmes within the areas of cardiovascular biology, fetal physiology, neurophysiology and vision.
Restriction: MEDSCI 728
789
MEDSCI 735
: Concepts in Pharmacology2024 Semester One (1243)
Explores cellular and molecular mechanisms of drug action and drug discovery and development from the perspective of in silico modelling, biochemical assessment, intracellular signalling and human disease. Considers the pharmacokinetic processes involved in achieving clinically-relevant drug concentrations, the link between concentration and effect, the time course of effect and factors that may influence both clinical effectiveness and drug toxicity.
Restriction: MEDSCI 321
790
MEDSCI 735
: Concepts in Pharmacology2023 Semester One (1233)
Explores cellular and molecular mechanisms of drug action and drug discovery and development from the perspective of in silico modelling, biochemical assessment, intracellular signalling and human disease. Considers the pharmacokinetic processes involved in achieving clinically-relevant drug concentrations, the link between concentration and effect, the time course of effect and factors that may influence both clinical effectiveness and drug toxicity.
Restriction: MEDSCI 321
791
MEDSCI 735
: Concepts in Pharmacology2022 Semester One (1223)
Explores cellular and molecular mechanisms of drug action and drug discovery and development from the perspective of in silico modelling, biochemical assessment, intracellular signalling and human disease. Considers the pharmacokinetic processes involved in achieving clinically-relevant drug concentrations, the link between concentration and effect, the time course of effect and factors that may influence both clinical effectiveness and drug toxicity.
Restriction: MEDSCI 321
792
MEDSCI 735
: Concepts in Pharmacology2021 Semester One (1213)
Explores cellular and molecular mechanisms of drug action and drug discovery and development from the perspective of in silico modelling, biochemical assessment, intracellular signalling and human disease. Considers the pharmacokinetic processes involved in achieving clinically-relevant drug concentrations, the link between concentration and effect, the time course of effect and factors that may influence both clinical effectiveness and drug toxicity.
Restriction: MEDSCI 321
793
MEDSCI 738
: Biological Clocks2024 Semester Two (1245)
Chronobiology – the study of biological rhythms and the clocks that control them. Theory, anatomical location and molecular machinery of biological clocks will be covered, as will the control of rhythms of different time scales from days (circadian rhythms) to years (circannual rhythms). The influence the human circadian clock has on physiology and drug efficacy, and the effect hospitalisation has on the control of sleep cycles will be given special attention.
No pre-requisites or restrictions
794
MEDSCI 738
: Biological Clocks2023 Semester Two (1235)
Chronobiology – the study of biological rhythms and the clocks that control them. Theory, anatomical location and molecular machinery of biological clocks will be covered, as will the control of rhythms of different time scales from days (circadian rhythms) to years (circannual rhythms). The influence the human circadian clock has on physiology and drug efficacy, and the effect hospitalisation has on the control of sleep cycles will be given special attention.
No pre-requisites or restrictions
795
MEDSCI 738
: Biological Clocks2022 Semester Two (1225)
Chronobiology – the study of biological rhythms and the clocks that control them. Theory, anatomical location and molecular machinery of biological clocks will be covered, as will the control of rhythms of different time scales from days (circadian rhythms) to years (circannual rhythms). The influence the human circadian clock has on physiology and drug efficacy, and the effect hospitalisation has on the control of sleep cycles will be given special attention.
No pre-requisites or restrictions
796
MEDSCI 739
: Advanced Sensory Neuroscience2024 Semester Two (1245)
Advanced study of the physiology of neurosensory systems in health and disease. Provides an in-depth coverage of the molecular, cellular and systemic mechanisms underlying vision and hearing.
Prerequisite: MEDSCI 316
797
MEDSCI 739
: Advanced Sensory Neuroscience2023 Semester Two (1235)
Advanced study of the physiology of neurosensory systems in health and disease. Provides an in-depth coverage of the molecular, cellular and systemic mechanisms underlying vision and hearing.
Prerequisite: MEDSCI 316
798
MEDSCI 739
: Advanced Sensory Neuroscience2022 Semester Two (1225)
Advanced study of the physiology of neurosensory systems in health and disease. Provides an in-depth coverage of the molecular, cellular and systemic mechanisms underlying vision and hearing.
Prerequisite: MEDSCI 316
799
MEDSCI 739
: Advanced Sensory Neuroscience2021 Semester Two (1215)
Advanced study of the physiology of neurosensory systems in health and disease. Provides an in-depth coverage of the molecular, cellular and systemic mechanisms underlying vision and hearing.
Prerequisite: MEDSCI 316
800
MEDSCI 739
: Advanced Sensory Neuroscience2020 Semester Two (1205)
Advanced study of the physiology of neurosensory systems in health and disease. Provides an in-depth coverage of the molecular, cellular and systemic mechanisms underlying vision and hearing.
Prerequisite: MEDSCI 316