8285 modules
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MEDI6226 2028-29
Human Biology & Systems Physiology
In Biomedical Engineering, it is essential to develop an in-depth understanding of human biology, anatomy and physiology, so that engineering expertise can be meaningfully applied to problems in human healthcare and disease as well as degeneration within the context of the life course. This ‘Human Biology and Systems Physiology’ module comprises a foundation in human cellular and molecular biology and how the body functions as a whole system. Particular attention will be given to five, key biological system strands: the Immune System, the Musculoskeletal System, the Cardiovascular System, the Respiratory System and Neurosensory Systems. In these key strands you will receive a more in-depth view of the relevant biology and physiology, existing concepts and models of the systems in health and in disease. Links are made throughout the module to allied engineering themes.
There will be an integrated, cross-referenced, series of lecturers, first exploring the molecular and cellular characteristics of human biology, followed by multi-lecture strands covering the key human physiological systems. The system lectures will be supplemented with lectures with a biomedical engineering focus from recognised experts in the fields of tissue repair and microfluidics. The lectures will be combined with a presentation workshop and a tutorial involving team-based thematic oral presentations.
This module is primarily aimed at students with an engineering and physical sciences background, wishing to apply their skills to biomedical challenges. It is not recommended for those who already have a background in medicine or biology
This postgraduate module is designed to equip you with the knowledge to appreciate and understand the organisation of human physiological systems, with perspectives spanning molecules, cells, organs and their integration into functional systems. This is coupled with a mechanistic knowledge required to understand system function and the causes of disease and degeneration that represent the focus of the pre-clinical and clinical application of biomedical engineering. The module will give you the breadth of understanding and critical thinking skills to tackle modern challenges in biomedical engineering, solutions to which will deliver real clinical impact.
Through this module you will be able to comprehend the nature of dysfunction of physiological systems in disease and degeneration that informs and underpins the use of biomedical engineering strategies taught throughout the other modules.
The module provides opportunities for you to develop and demonstrate scientific understanding, biomedical knowledge, communication skills, and critical thinking qualities -
MEDI6226 2026-27
Human Biology & Systems Physiology
In Biomedical Engineering, it is essential to develop an in-depth understanding of human biology, anatomy and physiology, so that engineering expertise can be meaningfully applied to problems in human healthcare and disease as well as degeneration within the context of the life course. This ‘Human Biology and Systems Physiology’ module comprises a foundation in human cellular and molecular biology and how the body functions as a whole system. Particular attention will be given to five, key biological system strands: the Immune System, the Musculoskeletal System, the Cardiovascular System, the Respiratory System and Neurosensory Systems. In these key strands you will receive a more in-depth view of the relevant biology and physiology, existing concepts and models of the systems in health and in disease. Links are made throughout the module to allied engineering themes.
There will be an integrated, cross-referenced, series of lecturers, first exploring the molecular and cellular characteristics of human biology, followed by multi-lecture strands covering the key human physiological systems. The system lectures will be supplemented with lectures with a biomedical engineering focus from recognised experts in the fields of tissue repair and microfluidics. The lectures will be combined with a presentation workshop and a tutorial involving team-based thematic oral presentations.
This module is primarily aimed at students with an engineering and physical sciences background, wishing to apply their skills to biomedical challenges. It is not recommended for those who already have a background in medicine or biology
This postgraduate module is designed to equip you with the knowledge to appreciate and understand the organisation of human physiological systems, with perspectives spanning molecules, cells, organs and their integration into functional systems. This is coupled with a mechanistic knowledge required to understand system function and the causes of disease and degeneration that represent the focus of the pre-clinical and clinical application of biomedical engineering. The module will give you the breadth of understanding and critical thinking skills to tackle modern challenges in biomedical engineering, solutions to which will deliver real clinical impact.
Through this module you will be able to comprehend the nature of dysfunction of physiological systems in disease and degeneration that informs and underpins the use of biomedical engineering strategies taught throughout the other modules.
The module provides opportunities for you to develop and demonstrate scientific understanding, biomedical knowledge, communication skills, and critical thinking qualities -
MEDI6226 2025-26
Human Biology & Systems Physiology
In Biomedical Engineering, it is essential to develop an in-depth understanding of human biology, anatomy and physiology, so that engineering expertise can be meaningfully applied to problems in human healthcare and disease as well as degeneration within the context of the life course. This ‘Human Biology and Systems Physiology’ module comprises a foundation in human cellular and molecular biology and how the body functions as a whole system. Particular attention will be given to five, key biological system strands: the Immune System, the Musculoskeletal System, the Cardiovascular System, the Respiratory System and Neurosensory Systems. In these key strands you will receive a more in-depth view of the relevant biology and physiology, existing concepts and models of the systems in health and in disease. Links are made throughout the module to allied engineering themes.
There will be an integrated, cross-referenced, series of lecturers, first exploring the molecular and cellular characteristics of human biology, followed by multi-lecture strands covering the key human physiological systems. The system lectures will be supplemented with lectures with a biomedical engineering focus from recognised experts in the fields of tissue repair and microfluidics. The lectures will be combined with a presentation workshop and a tutorial involving team-based thematic oral presentations.
This module is primarily aimed at students with an engineering and physical sciences background, wishing to apply their skills to biomedical challenges. It is not recommended for those who already have a background in medicine or biology
This postgraduate module is designed to equip you with the knowledge to appreciate and understand the organisation of human physiological systems, with perspectives spanning molecules, cells, organs and their integration into functional systems. This is coupled with a mechanistic knowledge required to understand system function and the causes of disease and degeneration that represent the focus of the pre-clinical and clinical application of biomedical engineering. The module will give you the breadth of understanding and critical thinking skills to tackle modern challenges in biomedical engineering, solutions to which will deliver real clinical impact.
Through this module you will be able to comprehend the nature of dysfunction of physiological systems in disease and degeneration that informs and underpins the use of biomedical engineering strategies taught throughout the other modules.
The module provides opportunities for you to develop and demonstrate scientific understanding, biomedical knowledge, communication skills, and critical thinking qualities -
FEEG2008 2028-29
Human Biology in Health and Disease
Medical engineering requires an understanding of the human body, its structure and function in health, disease, dysfunction and with disability. This module will provide you with a conceptual background to aspects of human biology that are key in the use of healthcare technologies. We will therefore focus on some fundamental principles, such as metabolism and signalling between cells within organs and between systems and then focus specifically on systems of primary relevance in biomedical engineering, including the musculo-skeletal, cardio-vascular, respiratory and neuro-sensory systems, as well as the skin – the interface for many healthcare technology interventions. We will consider function in health and in some common impairments due to disease or injury and highlight the patients’, carers and clinician’s perspective of the condition. We will also consider the use of, or potential for, healthcare technology interventions in these conditions. -
FEEG2008 2026-27
Human Biology in Health and Disease
Medical engineering requires an understanding of the human body, its structure and function in health, disease, dysfunction and with disability. This module will provide you with a conceptual background to aspects of human biology that are key in the use of healthcare technologies. We will therefore focus on some fundamental principles, such as metabolism and signalling between cells within organs and between systems and then focus specifically on systems of primary relevance in biomedical engineering, including the musculo-skeletal, cardio-vascular, respiratory and neuro-sensory systems, as well as the skin – the interface for many healthcare technology interventions. We will consider function in health and in some common impairments due to disease or injury and highlight the patients’, carers and clinician’s perspective of the condition. We will also consider the use of, or potential for, healthcare technology interventions in these conditions. -
FEEG2008 2027-28
Human Biology in Health and Disease
Medical engineering requires an understanding of the human body, its structure and function in health, disease, dysfunction and with disability. This module will provide you with a conceptual background to aspects of human biology that are key in the use of healthcare technologies. We will therefore focus on some fundamental principles, such as metabolism and signalling between cells within organs and between systems and then focus specifically on systems of primary relevance in biomedical engineering, including the musculo-skeletal, cardio-vascular, respiratory and neuro-sensory systems, as well as the skin – the interface for many healthcare technology interventions. We will consider function in health and in some common impairments due to disease or injury and highlight the patients’, carers and clinician’s perspective of the condition. We will also consider the use of, or potential for, healthcare technology interventions in these conditions. -
ARCH2001 2027-28
Human Dispersal and Evolution
This module explores human evolution in the context of expanding and contracting populations. We shall review the evolutionary landscape and the big questions that face archaeologists. We shall cover the hominin fossil record, learning about the major species and genera, and how successive expansions, contractions and extinctions of hominid species can be related to their behaviours and ecologies. To set this rich record into a broader context, we shall set out useful frameworks taken from “small world societies” (both other primates and modern hunter-gatherers). We shall also explore how environmental and climatic conditions have been reconstructed for the period of our global deep history (focussing on 6 million to 10,000 years ago). These frameworks give us the opportunity to explore the importance of mobility and other adaptive mechanisms in coping with very different ecological conditions. Hominins (our ancestors and their relatives) start to be found outside Africa nearly two million years ago, and are found over much of the Old World by one million years ago. We became a truly global species (colonising Australia, the Americas and Pacific) long after our own species had developed its trademark big brain. Were the colonisations of early prehistory a purposive process or the result of luck, technological breakthroughs and people pushed by climate to find new territories? The answer is critical for deciding the capabilities of our ancestors and for deciding how different or similar they were to us. -
FEEG3004 2026-27
Human Factors in Engineering
This module provides an introduction to the role human factors in Engineering. It demonstrates how the characteristics and capabilities of people can be taken into account to optimise the design of
things used by people, the environments in which they live and work, and the organisation of systems. -
FEEG3004 2027-28
Human Factors in Engineering
This module provides an introduction to the role human factors in Engineering. It demonstrates how the characteristics and capabilities of people can be taken into account to optimise the design of
things used by people, the environments in which they live and work, and the organisation of systems. -
FEEG3004 2028-29
Human Factors in Engineering
This module provides an introduction to the role human factors in Engineering. It demonstrates how the characteristics and capabilities of people can be taken into account to optimise the design of
things used by people, the environments in which they live and work, and the organisation of systems.