2023/24 Undergraduate Module Catalogue

ARCS1125 Imaging Science and Technology 1

20 creditsClass Size: 80

Module manager: Stephen Kengyelics
Email: s.m.kengyelics@leeds.ac.uk

Taught: Semesters 1 & 2 (Sep to Jun) View Timetable

Year running 2023/24

Pre-requisite qualifications

Standard entry criteria for BSc(Hons) Diagnostic Radiography programme

Module replaces

ARCS1073 - Medical Imaging Science 1

This module is not approved as a discovery module

Module summary

This module covers the fundamental physical processes involved in X-ray production and interaction with matter. It will provide a wide knowledge base of the scientific principles underpinning the production, recording and display of medical images, and the safe operation of diagnostic imaging technology. An overview of legislation relating to ionising radiation will be given. The knowledge gained will underpin safe clinical practice in a range of imaging modalities, but focused on radiographic imaging.

Objectives

The aim of this module is to provide a wide knowledge base of the scientific principles underpinning the production, recording and display of medical images, and the safe operation of radiographic technology. An overview of legislation relevant to ionising radiation and health and safety will be given. The knowledge gained in this module will underpin the safe use of ionising radiation and the safe use of technology in clinical practice.

Learning outcomes
At the end of this module the student should be able to:
1. Describe the origin, nature and the interactive processes of electromagnetic radiation.
2. Understand the underlying scientific principles which underpin the safe operation of radiographic technology.
3. Describe the clinical applications of image production and recording methods.
4. Explain the factors affecting image quality
5. Understand mathematical principles related to medical imaging

Skills outcomes
Application of scientific principles to diagnostic imaging modalities
Understand how to practice safely within an imaging department

Syllabus

Topics covered include:
- Mathematical principles and formulas
- The nature and origin of electromagnetic radiation
- Interactive processes of ionising radiation
- The nature of the atom
- Radiation protection
- Ionising Radiation (Medical Exposure) Regulations 2017 and Ionising Radiation (Medical Exposure) (Amendment) Regulations 2018, Ionising Radiation Regulations 2017.
- Fundamental principles of the design, function, operation and safe use of diagnostic imaging technology.
- Fundamental physical principles underlying the production, recording and display of medical images
- Factors affecting image quality
- The clinical applications of image production and recording methods
- The fundamental principles and procedures of quality assurance
- Relevant quality assurance tests
- Brief introduction to cross-sectional imaging modalities

Teaching methods

Delivery type	Number	Length hours	Student hours
Class tests, exams and assessment	1	2.00	2.00
Lecture	16	2.00	32.00
Tutorial	3	2.00	6.00
Independent online learning hours			18.00
Private study hours			142.00
Total Contact hours			40.00
Total hours (100hr per 10 credits)			200.00

Private study

Private study should be utilised to write up lecture notes and do pre- and post-session reading on the topics covered as well as in preparation for each of the class tests.

For each core lecture, by the module lead, a series of multiple choice questions and longer written questions will be provided for the student to complete. These are intended to consolidate understanding and provide a reference to help students judge the academic standard required to successfully complete the module.

The nature of this module is such that there is direct application to clinical practice. Whilst in the clinical department students are encouraged to apply the theoretical concepts to practice. In this way student can identify areas they need to seek additional support on.

Opportunities for Formative Feedback

For each core lecture, by the module lead, a series of multiple choice questions and longer written questions will be provided for the student to complete. These are intended to consolidate understanding and provide a reference to help students judge the academic standard required to successfully complete the module. Students are encouraged to answer these questions after each lecture. Answers for these questions are provided later for students to check their responses. Where clarification is required students are encouraged to contact the module leader who will either provide personal feedback or where necessary in-class feedback.

Methods of assessment

Exams

Exam type	Exam duration	% of formal assessment
Online MCQ	2 hr 00 mins	100.00
Total percentage (Assessment Exams)		100.00

The MCQ exam will be conducted remotely online.

Reading list

The reading list is available from the Library website

Last updated: 21/02/2023

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