RAD2003DA | 2024/5 | University of 番茄视频

Practice Foundations 2

Module title	Practice Foundations 2
Module code	RAD2003DA
Academic year	2024/5
Credits	30
Module staff	Mrs Liliana Rodrigues (Convenor) Mr Daniel Williamson (Convenor)

Duration: Term	1	2	3
Duration: Weeks	Please see note below*	Please see note below*	Please see note below*

Number students taking module (anticipated)	50

Module description

*Please note that Degree Apprenticeship programmes have variable start dates and modules are taught across the full year.?

This module provides a practical learning environment in which you will apply theory in practice.?In this module you will experience clinical and technical aspects involved in a range of modalities including both ionising and non-ionising radiation. You will learn about safe practice and the use of contrast media in these areas. You will also learn about common pathologies encountered in the clinical environment and the relative roles of the various modalities for demonstrating these conditions.?

The module commences with an attendance block at the University of 番茄视频 with an emphasis on face-to-face learning. The module then runs over a?12 month?period with two further block attendances?across the?year for further face-to-face learning. In the non-block?weeks?there will be protected ‘off the job’ learning (one day (7.5 hours) per week) supported by e-learning materials provided by the academic team. The full calendar of activities and assessment will be made available via the handbook. Annual leave may be booked in accordance with the requirements laid out in the handbook.

Module aims - intentions of the module

The aim of this work-based module is to enable you to develop knowledge of the essential applied science and technology that underpins medical imaging modalities in the practice setting.?

This work based module provides practical experiences that will directly support the further development of your underpinning knowledge base. You will apply the theoretical knowledge you are gaining in RAD2001DA and RAD2002DA within the practice setting. You will apply the physics knowledge so as to understand the wide range of modalities used in medical imaging, including equipment and room design and safe practice. You will learn how quality assurance processes are used to ensure safe practice. You will apply your knowledge of pathology to identify common abnormalities on medical images and will gain understanding of comparative imaging.?

Intended Learning Outcomes (ILOs)

ILO: Module-specific skills

On successfully completing the module you will be able to...

1. Explain systems and processes in place to ensure acceptably functioning equipment and quality management in imaging departments.
2. Explain equipment design and room layout for DXA, dental, mammography, MRI, RNI, US, CT
3. Explain the scope of applications, constraints, and legislative framework for the use of both ionising and non-ionising radiation in medicine.
4. Demonstrate understanding of how image appearances influence the patient pathway for common pathologies and foreign objects (implanted devices and foreign bodies) and how to escalate in case of unexpected findings
5. Explain how to adapt level of patient care to patient need, including assessment of patient, and providing information at an appropriate level in a suitable format

ILO: Discipline-specific skills

On successfully completing the module you will be able to...

6. Demonstrate ability to further develop skills and knowledge by reflecting on clinical experience and identify strengths and areas for further learning.
7. Use patient records from a range of sources to ensure appropriate choice of imaging.

ILO: Personal and key skills

On successfully completing the module you will be able to...

8. Contribute positively to the placement department, working in partnership with service users, work effectively with other professions and professionals, support staff and others, ensure effective management of caseload and resources.
9. Practice within limits of own competence seeking advice as appropriate, accepting responsibility for decisions made.
10. With some guidance, solve problems using knowledge, experience and personal initiative.

Syllabus plan

Whilst the module’s precise content may vary from year to year, an example of an overall structure is as follows:??

It is expected that apprentices will undertake basic life support, manual handling, fire safety?and other annual Trust requirements as part of their employment contract, and as such these requirements are not, therefore, stipulated here.?As a condition of employment, apprentices must abide by their employers’ policies and procedures and as such this is not stipulated within the syllabus.??

QUALITY MANAGEMENT?

QA tests typically undertaken in for RNI, MRI, US and CT?

Recognise when x-imaging?equipment is not functioning accurately / within specification and take appropriate action?

Role of audit and review in quality management?including appropriate outcome measures?

Participate?in departmental audit and review (quality management)?

Participate in reject analysis?

EQUIPMENT AND TECHNOLOGY?

2D techniques?– range of techniques, advantages, limitations, relative role and basic image evaluation?

Dual energy x-ray absorption (DXA).?

Fluoroscopy.?

Mammography.?

Dental?

Interventional including treatment?

3D techniques?(ionising) –?range of techniques, advantages, limitations, relative role and basic image evaluation?

Computed Tomography (CT)?

Other modalities - range of techniques, advantages, limitations, relative role and basic image evaluation?

Radionuclide Imaging (RNI), 2D, 3D?

Positron Emission Tomography (+/- CT)?

Ultrasound?

Magnetic Resonance Imaging (MRI)??

RADIATION PROTECTION AND SAFETY IN IMAGING MODALTIES?

Potential hazards and the design, systems and governance in practice for safe working in all imaging modalities?

RADIOGRAPHIC?PATHOLOGY?

?Identify common pathologies and foreign objects (implanted devices and foreign bodies) on medical images found in practice?

Patient pathway in relation to common pathologies and foreign objects (implanted devices and foreign bodies) found on medical images in practice?e.g.?clinical indications, associated complications, cause of image appearances, typical treatments?

Relative role of the range of modalities in relation to common pathologies and foreign objects (implanted devices and foreign bodies) found on medical images in?practice.Process?for escalation in case of unexpected findings?

PATIENT CARE?

Undertake and record patient assessment?

Prepare and provide information about medical imaging procedures, in a range of formats, appropriate to the needs of a diverse patient population?

CONTINUING PROFESSIONAL DEVELOPMENT?

Reflection on clinical experience and identifying personal strengths and areas for further learning.?

Reflection on own impact on others.?

Begin a personal and professional portfolio as a basis for future CPD?

INFORMATON AND COMMUNICATION TECHNOLOGIES?

Information and communication technologies available to view images, retrieve and record patient information?

Patient history retrieval from a range of software applications and paper records (clinical records, prior imaging, test results and dose records) to ensure appropriate choice of imaging.?

PROFESSIONALISM?

Work in partnership with service users.?

Work effectively with other professions and professionals, support staff and others.?

SCOPE OF PRACTICE?

Practice within limits of own practice?

Seek advice as appropriate.?

PROBLEM SOLVING SKILLS.?

Justification of decisions taken in relation whether to initiate, continue, modify or cease medical imaging examinations.??

Resolution of problems by using knowledge, experience and personal initiative - under guidance?

Learning activities and teaching methods (given in hours of study time)

Scheduled Learning and Teaching Activities	Guided independent study	Placement / study abroad
48	39	696

Details of learning activities and teaching methods

Category	Hours of study time	Description
Scheduled learning and teaching activities	9	9 x 1 hour lectures
Scheduled learning and teaching activities	9	3 x 3 hour practicals
Scheduled learning and teaching activities	10	10 x 1 hour tutorials
Scheduled learning and teaching activities	20	20 x 1 hour e-learning resources
Guided independent study	39	Directed reading, private study and revision
Placement	696	2 x 7.5 hour days per week (minus leave, study blocks, assessment windows) as per placement guidance and contract with employer
This module is delivered as part of an integrated degree apprenticeship programme. The total required study hours for the programme have been designed in accordance with the ESFA regulations.

Formative assessment

Form of assessment	Size of the assessment (eg length / duration)	ILOs assessed	Feedback method
Tutorial discussions	30 minutes	1-10	Oral
Practice computer based assessments (as part of e-learning activities)	60 minutes	1,4	Written

Summative assessment (% of credit)

Coursework	Written exams	Practical exams
0	50	50

Details of summative assessment

Form of assessment	% of credit	Size of the assessment (eg length / duration)	ILOs assessed	Feedback method
Computer based assessment 1 (medical images)	25	90 minutes	1,4	Written
Computer based assessment 2 (medical images)	25	90 minutes	1,4	Written
Professional discussion of portfolio (Viva)	50	30 minutes	1-10	Written
	0

Details of re-assessment (where required by referral or deferral)

Original form of assessment	Form of re-assessment	ILOs re-assessed	Timescale for re-assessment
Computer based assessment 1 (medical images) (25%), 90 min	Computer based assessment 1 (radiographic images)	1,4	During the published assessment period (see ELE)
Computer based assessment 2 (medical images) (25%), 90 min	Computer based assessment 2 (radiographic images)	1,4	During the published assessment period (see ELE)
Professional discussion of portfolio (Viva) (50%), 30 min	Professional discussion of portfolio (Viva)	1-10	During the published assessment period (see ELE)

Re-assessment notes

This programme runs to a non-standard timetable, assessment weeks and Assessment, Progression & Awarding Committees (APACs) for both initial and deferred assessments are held as per the programme’s published timetable.

Each component of this module must be passed. Reassessment should be of the original assessment with additional preparation made to bring performance up to passing standard. The referred assessment will be capped at the pass mark. The module mark will not be capped. If any component is not passed at the final referral attempt, the module is capped at 39%.

Indicative learning resources - Basic reading

Carlton R.R. and Adler A.M. (2013), Radiographic Imaging Concepts and Principles (5^th edition), Delmar, ISBN 1473720524
McQuillen Marten (2019) Radiographic Image Analysis 5^th edition ISBN 978-0-323-52281-6
McQuillen Marten (2019) Radiographic Image Analysis workbook ISBN 978-0-323-54463-4

Indicative learning resources - Web based and electronic resources

UK Statutory Instruments (2017), Ionising Radiation Regulations 2017, The Stationary Office, Available from ,
UK Statutory Instruments (2017), The Ionising Radiation (Medical Exposure) Regulations 2017, The Stationery Office, Available from ,
UK Statutory Instruments (2018), The Ionising Radiation (Medical Exposure) (Amendment) Regulations 2018, The Stationary Office, Available from ,
The Health & Safety Executive (2018), Work with Ionising Radiation. Ionising Radiations Regulations 2017: Approved Code of Practice and Guidance, HSE Books, ISBN 9780717666621,

Indicative learning resources - Other resources

Carter C. and Veale B. (2013), Digital Radiography and PACS (2nd edition), Mosby Elsevier, ISBN 978-0323086448
Blake G., Wahner H.W. and Fogelman I. (1998), The Evaluation of Osteoporosis: Dual Energy X-ray Absorptiometry in Clinical Practice (2nd edition), CRC Press, ISBN 978-1853174728
R Kowalczyk N. and Mace J.D. (2017), Radiographic Pathology for Technologists (7th edition), Mosby, ISBN 9780323675765, electronic version also available
Kim, E. (2012), Handbook of nuclear medicine and molecular imaging: principles and clinical applications, World Scientific, ISBN 9789814366236
Kremkau F.W. (2016), Sonography: Principles and Instruments (9th edition), Saunders, ISBN 978-0323322713
McRobbie D.W. et al. (2017), MRI from Picture to Proton (3rd edition), Cambridge University Press, ISBN 9781107706958
Powsner R.A. Palmer M.R. and Powsner E.R (2013), Essentials of Nuclear Medicine Physics (3rd edition)., Wiley Blackwell,? ISBN 978-0470905500
Society and College of Radiographers (2019), Safety in Magnetic Resonance Imaging, Society and College of Radiographers, ISBN 978-1-909802-31-5
Westbrook C. (2018), MRI in Practice (5th edition), Wiley Blackwell, ISBN 978-1-119-39196-8
Johns C. (2013), Becoming a Reflective Practitioner (4th edition), Wiley-Blackwell, ISBN 9780470674260
Code of Professional Conduct, College of Radiographers (2013), Society and College of Radiographers, ??
Principles for continuing professional development and lifelong learning in health and social care, Society and College of Radiographers, ?
Obtaining consent: a clinical guideline for the diagnostic imaging and radiotherapy workforce,? Society and College of Radiographers, ??
Guidance on mental capacity decisions in diagnostic imaging and radiotherapy, Society and College of Radiographers ?

Key words search

Medical Imaging; Image; Procedures; Interventional; Radiology; Control; Qualities; Detail; Interpretations; Technology. MRI US RNI

Credit value	30
Module pre-requisites	RAD1001DA, RAD1002DA, RAD1003DA, RAD1004DA
Module co-requisites	RAD2001DA, RAD2002DA
NQF level (module)	5
Available as distance learning?	No
Origin date	06/06/2019
Last revision date	06/03/2024