Module Details |
The information contained in this module specification was correct at the time of publication but may be subject to change, either during the session because of unforeseen circumstances, or following review of the module at the end of the session. Queries about the module should be directed to the member of staff with responsibility for the module. |
Title | Anatomy, Physiology and Biochemistry | ||
Code | PHYS876 | ||
Coordinator |
Prof AC Fisher Physics A.C.Fisher@liverpool.ac.uk |
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Year | CATS Level | Semester | CATS Value |
Session 2019-20 | Level 7 FHEQ | First Semester | 7.5 |
Aims |
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To provide the necessary physics and biological principles which underpin medical physics and clinical engineering. |
Learning Outcomes |
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(LO1) Knowledge of the necessary physics and biological principles which underpin medical physics and clinical engineering. |
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(S1) Problem solving skills |
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(S2) Communication skills |
Syllabus |
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Outline the chemical, cellular and tissue level of organisation of the body. Describe the function of blood as a tissue, blood cells (types and life times). Know the structure and function of the skin. Know the structure and function of the skeletal system. Describe the organisation, basic structure and function of the central, peripheral and autonomic nervous system. Know the normal structure and function of the respiratory system including ventilation, gaseous exchange and blood gas transport. Know the normal structure and function of the heart, blood vessels and lymphatic system. Know the anatomy and physiology of vision, hearing and equilibrium. Know the normal structure and function of the GI tract including digestion and absorption of food, the liver and liver function tests. Know the normal structure and function of the kidney including anatomy and function of the endocrine system, electrolyte and acid-base balance and hormonal mechanisms and control. Know the anatomy and phy siology of the male and female reproductive tract. Know the principles of inheritance, DNA and genetics including carrier status, genetic crosses/pedigree/punnet squares/cross diagrams. Know the cellular, tissue and systems responses to disease including cell death, inflammation, neoplasia, hypertrophy, hyperplasia, tissue responses to injury and repair Malignant disease and role of radiotherapy Basic radiobiology Introduction to radiotherapy equipment (treatment machines and dosimetry equipment) Characteristics of clinical beams Target volume localisation; equipment and methods Principles of treatment planning Treatment verification Introduction to quality assurance, calibration, treatment accuracy and safety; standards Radiation protection specific to radiotherapy - local rules, protection measurements |
Teaching and Learning Strategies |
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Teaching Method 1 - Lecture Teaching Method 2 - Tutorial |
Teaching Schedule |
Lectures | Seminars | Tutorials | Lab Practicals | Fieldwork Placement | Other | TOTAL | |
Study Hours |
15 |
5 |
20 | ||||
Timetable (if known) | |||||||
Private Study | 55 | ||||||
TOTAL HOURS | 75 |
Assessment |
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EXAM | Duration | Timing (Semester) |
% of final mark |
Resit/resubmission opportunity |
Penalty for late submission |
Notes |
Assessment 1 There is a resit opportunity. This is an anonymous assessment. Assessment Schedule (When) :Semester 1 | 2 hours | 100 | ||||
CONTINUOUS | Duration | Timing (Semester) |
% of final mark |
Resit/resubmission opportunity |
Penalty for late submission |
Notes |
Recommended Texts |
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Reading lists are managed at readinglists.liverpool.ac.uk. Click here to access the reading lists for this module. |