Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-25T18:00:45.025Z Has data issue: false hasContentIssue false

Pilot study to evaluate a training programme for primary care physiotherapists in the assessment and management of benign paroxysmal positional vertigo

Published online by Cambridge University Press:  23 May 2024

Lisa Burrows*
Affiliation:
Community Vestibular Rehabilitation Team, Mersey Care NHS Foundation Trust, Prescot, UK
Karen Stevens
Affiliation:
Physiotherapy Faculty, Sheffield Hallam University, Sheffield, UK
Anne Moss
Affiliation:
Physiotherapy Department, Lancashire and South Cumbria NHS Foundation Trust, Preston, UK
*
Corresponding author: Lisa Burrows; Email: lisa.burrows@nhs.net
Rights & Permissions [Opens in a new window]

Abstract

Objective

This pilot study aimed to evaluate a training programme for primary care physiotherapists focused on the assessment and management of benign paroxysmal positional vertigo.

Methods

A six-month training programme and toolkit utilising the revised Standards for Quality Improvement Reporting Excellence (‘SQUIRE 2.0’) guidelines was developed to facilitate the learning of new knowledge and skills in the assessment and management of benign paroxysmal positional vertigo following Gagne's model of instructional design. A pre- and post-training knowledge and confidence questionnaire evaluated the impact of the training programme.

Results

Eleven participants started the training programme and five completed it. On average, knowledge increased by 54 per cent (range, 41–95 per cent) and confidence increased by 45 per cent (range, 31–76 per cent). A 73 per cent improvement in practical skills acquisition was demonstrated after the initial training session.

Conclusion

A structured approach to learning demonstrates improvements in knowledge, skills and confidence of physiotherapists in the evidence-based management of benign paroxysmal positional vertigo.

Type
Main Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of J.L.O. (1984) LIMITED

Introduction

Vestibular dysfunction is associated with an increase in imbalance, falls, fractures, anxiety, depression and social isolation.Reference Chen, Zhang, Cui and Liu1 Benign paroxysmal positional vertigo (BPPV) is a condition of the peripheral vestibular system affecting balance control, and can contribute to falls and fractures.Reference Bhattacharyya, Gubbels, Schwartz, Edlow, El-Kashlan and Fife2 It is characterised by the freeing of otoconia ‘crystals’ from the otolith bed in the utricle and their movement into the semi-circular canal(s).Reference Bhattacharyya, Gubbels, Schwartz, Edlow, El-Kashlan and Fife2,Reference Argaet, Bradshaw and Welgampola3 Whilst the head is still, the otoconia do not move, and there are no symptoms at that time. However, with head movement, for example looking up or down, quick turns or rolling in bed, the otoconia can move and cause symptoms of dizziness and imbalance.Reference Argaet, Bradshaw and Welgampola3 Symptoms have a latent onset after seconds; fatigue occurs between 10 and 60 seconds. In addition, there is an associated direction-specific nystagmus on positional testing (e.g. Dix–Hallpike, supine roll test).Reference Argaet, Bradshaw and Welgampola3

Benign paroxysmal positional vertigo increases in prevalence with age,Reference Figtree, Menant, Chau, Hübner, Lord and Migliaccio4,Reference Li, Wang, Zhuang, Chen, Zhou and Gao5 and has several significant risk factors, including falls, head injuries, whiplash injuries, hypertension, diabetes and low vitamin D serum levels.Reference Chen, Zhang, Cui and Liu1,Reference Bhattacharyya, Gubbels, Schwartz, Edlow, El-Kashlan and Fife2

International BPPV guidelinesReference Bhattacharyya, Gubbels, Schwartz, Edlow, El-Kashlan and Fife2 provide evidence-based ‘statements’ relating to the assessment and management of BPPV subtypes such as posterior canalithiasis and lateral cupulolithiasis. The National Institute for Health and Care Excellence guidelines on the recognition and referral of suspected neurological conditions6 suggest BPPV can be managed in primary care by ‘suitably qualified’ professionals. Clinicians – typically physiotherapists, audiologists, first contact practitioners, advanced clinical practitioners, nurses, general practitioners and so on – undertake post-qualification training in the assessment and management of BPPV.

Management of vestibular and balance system healthcare is often viewed as an expert area of practice; however, there are significant opportunities for therapists working in the community to be able to screen, assess and manage vestibular disorders. There is a lack of knowledge, skills and confidence across clinical communities,Reference Male, Ramdharry, Grant, Davies and Beith7,Reference Meldrum, Burrows, Cakrt, Kerkeni, Lopez and Tjernstrom8 and poor recognition of the importance of training and competence at a national,6 local9 and advanced practice level.10 This is despite nationwide National Health Service (NHS) long-term plans11 and local NHS commitment9 to develop evidence-based services that meet the needs of an ageing population.

A more structured approach to the development of knowledge, skills and confidence in the management of vestibular and balance system healthcare including BPPV is required.Reference Male, Ramdharry, Grant, Davies and Beith7,Reference Meldrum, Burrows, Cakrt, Kerkeni, Lopez and Tjernstrom8,Reference Tahtis, Male and Kaski12,13 Suitably qualified physiotherapists are well placed to: fulfil the demands of changing patterns of service delivery, contribute to and lead successful vestibular and balance system pathways of care,Reference Kasbekar, Mullin, Morrow, Youssef, Kay and Lesser14Reference Lee, Jones, Corcoran, Premachandra and Morrison17 and change healthcare culture.13 To date, there has been no formal way for physiotherapists to develop knowledge and skills related to BPPV.13 The onus is on the individual to train, develop and demonstrate competence. A theoretical framework for the remote training of non-specialists assessing and treating BPPV,Reference Tahtis, Male and Kaski12 and an educational plan utilising Gagné's model of instructional design, showed significant improvement in medics’ knowledge of BPPV.Reference Bashir, Rauf, Yousuf, Anjum, Bashir and Elmoheen18,Reference Buscombe19 There are no minimum training guidelines for BPPV across all professional groups, unlike other ENT skills (e.g. British Society of Audiology otoscopy minimum training guidelines).20

This pilot evaluation study aimed to discuss and appraise the delivery of a competency-based training programme for primary care community-based physiotherapists in the assessment and management of BPPV. The training programme was developed to align with international guidelines.Reference Bhattacharyya, Gubbels, Schwartz, Edlow, El-Kashlan and Fife2

Materials and methods

Driven by a national publication6 and preliminary discussions with service managers, physiotherapists in a primary care NHS Trust were invited to undertake a learning needs analysis for the management of dizziness.6 It identified quality developments to service provision that could improve clinical pathways in primary care.6 Those individuals who identified dizziness as a learning need were invited to show interest in an internally delivered BPPV competency training programme. All specialties and professions were invited to attend. The NHS Health Research Authority online questionnaire identified that this project did not require ethical approval.21

Training programme development and contents

A six-month evidence-based training programme and toolkit utilising the revised Standards for Quality Improvement Reporting Excellence (‘SQUIRE 2.0’) guidelines were developed by a consultant physiotherapist in vestibular and balance system healthcare, an allied health professions lead and an independent university lecturer (Appendix 1 of the supplementary material, available online) to facilitate the learning of new knowledge and skills in the assessment and management of BPPV. Gagné's nine-point instructional design frameworkReference Gagne, Wager, Keller and Golas22 was used to facilitate learning of new knowledge and skills in the assessment and management of BPPV,Reference Buscombe19 incorporating Bloom's revised stages of taxonomy: remembering, understanding, applying, analysing, evaluating and creatingReference Anderson and Krathwohl23 (Table 1). The British Society of Audiology20 approach to learning to perform otoscopy also informed development. Pre- and post-training knowledge and confidence questionnaires were developed, trialled, reviewed and amended. Content was based on the international guidelines for BPPV.Reference Bhattacharyya, Gubbels, Schwartz, Edlow, El-Kashlan and Fife2 An answer template was developed for the knowledge component of the questionnaire, to ensure transparency, and intra- and inter-rater reliability.

Table 1. Learning of new knowledge and skills in BPPV assessment and management*

* Based on Gagné's model of instructional design and Bloom's revised taxonomy. BPPV = benign paroxysmal positional vertigo

The pre-training questionnaire comprised four sections: (1) demographics (questions 1–5); (2) knowledge (questions 6–14), with short-answer questions and key feature questions,Reference Sam, Westacott, Gurnell, Wilson, Meeran and Brown24,Reference Preston, Gratani, Owens, Roche, Zimanyi and Malau-Aduli25 which aimed to assess awareness, knowledge and application of BPPV guidelines, assessment, treatment, when to refer onward, and post-treatment advice; (3) confidence (question 16) in five areas of BPPV assessment and management, measured on a 0–10 visual analogue scale adapted from the Student Satisfaction and Self Confidence in Learning tool;Reference Zapko, Ferranto, Blasiman and Shelestak26 and (4) previous learning experience (question 15) (Appendix 1).

For the knowledge questions, there was a focus on comprehension, to evaluate lower-order cognitive skills,Reference Nayer, Glover Takahashi and Hrynchak27 because this is a predictor of better skills in application and analysis activities. A pass mark of 75 per cent was agreed between assessors for the knowledge component, to ensure a recognised level of competence, and because better knowledge is linked to better performance of skills in medical students.Reference Pascual-Ramos, Bernard-Medina, Flores-Alvarado, Portela-Hernández, del Rocío Maldonado-Velázquez and Jara-Quezada28 There are significant consequences for the patients involved in the misdiagnosis of BPPVReference Bhattacharyya, Gubbels, Schwartz, Edlow, El-Kashlan and Fife2 and this was reflected in the high pass mark. A pluralistic and pragmatic approach was taken to assessing competence throughout the training programme.Reference Homer and Darling29

The training programme (Table 1) was delivered by an experienced consultant vestibular physiotherapist, assisted by the organisation's allied health professional lead and an independent university physiotherapy lecturer with a special interest in vestibular and balance system healthcare. Training included an initial 4-hour didactic session and observation of skills, videos of nystagmus, practice of assessment and treatment skills, and observation of expert practice in a clinical setting with the opportunity for supervised practice.

An assessment of learningReference Preston, Gratani, Owens, Roche, Zimanyi and Malau-Aduli25 (Table 2) was undertaken by the consultant vestibular physiotherapist and external university lecturer, and included: observed structured clinical examination on assessment and treatment techniques; a 10-minute case study presentation by participants (with a marking template; Appendix 1); four case-based discussions by each participant with expert clinicians; observed clinical practice; and a second knowledge questionnaire to assess learning, which was administered at the end of the programme (with a marking template). The confidence questionnaire was repeated post training.

Table 2. Assessment formats and their descriptions*

* As per Preston et al. (2020)

Data from the knowledge, skills and confidence questionnaires were collected and stored on an Excel® spreadsheet, on a password-protected computer; national data protection rules were followed. The data were then reviewed and analysed.

Results

Participant demographics

Eleven clinicians, all physiotherapists, responded and attended the initial training (4 male, 7 female); all were fluent in English, with 10 having English as a first language. Five (female) physiotherapists completed the six-month training programme. Reasons for not completing the course included: unable to attend because of work pressures (n = 4), left the organisation (n = 1) and maternity leave (n = 1). Ten clinicians worked in community settings and one in an intermediate care home. Five clinicians worked in falls teams, two in stroke teams, three in the care of older persons and one in intermediate care. Of the 11 clinicians, 6 were UK NHS band 5, 1 was band 6 and 4 were band 7. Of those who completed the training, three clinicians were band 7, one was band 6 and one was band 5.

Pre-training knowledge, confidence and experience

On initial assessment, 2 of the 11 clinicians were aware of BPPV guidelines and 7 came across dizziness in practice 5–10 times a month (Figure 1). An increase in the frequency of patients seen with dizziness when comparing pre- and post-training by those completing training was demonstrated. No participant had formal pre-registration training in BPPV assessment and treatment. Nine of the 11 clinicians had attended in-service training, 5 undertook self-directed learning, 3 observed a specialist, 3 had completed an external course and 3 an internal course. Two of the 11 clinicians were involved with a professional network (Association of Chartered Physiotherapists in Vestibular Rehabilitation), 1 used instructional videos, 1 used online resources, 1 had prior competency training and 1 had gained experience on student placement (Figure 1). Three of the 11 participants were performing positional test procedures and canal repositioning manoeuvres prior to the training.

Figure 1. Previous learning experiences related to benign paroxysmal positional vertigo. IST = in-service training

Post training

All participants completing the programme were aware of the current guidelines for BPPV. All participants (100 per cent) were able to perform positional tests and canal repositioning procedures effectively and safely after the initial didactic and practical training, showing a 73 per cent improvement in skill acquisition. Those who completed the six-month training programme had undertaken training activities of observed clinical practice and internal training before enrolling on this training programme (Figure 2).

Figure 2. Comparison of previous learning experiences between those completing and those not completing the benign paroxysmal positional vertigo competency training. IST = in-service training

All participants completing the training showed an increase in knowledge (Figure 3) and confidence from pre- to post-training, with the exception of one experiencing a loss of confidence. The average pre-learning knowledge score was 41 per cent, with one participant who had undertaken previous training having an initial score of 84 per cent (range, 9–84 per cent). The knowledge score increased on average to 95 per cent post-training (range, 77.5–100 per cent). The average confidence score was 31 per cent (range, 0–90 per cent) pre-training and 76 per cent (range, 66–84 per cent) post-training. On average, knowledge increased by 54 per cent and confidence by 45 per cent. One participant required further training and repeated the post-training knowledge questionnaire a third time, improving knowledge from 63 per cent and 67.5 per cent to 100 per cent on the third attempt. This participant had undertaken prior competency training, and confidence dropped from 90 per cent to 66 per cent.

Figure 3. Results of the knowledge and confidence questionnaires.

Discussion

This evaluation demonstrates an effective structured approach that improves the overall knowledge, skills and confidence of physiotherapists in the assessment and management of BPPV. The findings are similar to those of a studyReference Bashir, Rauf, Yousuf, Anjum, Bashir and Elmoheen18 that used Gagné's model of instructional designReference Gagne, Wager, Keller and Golas22 to demonstrate a 60 per cent improvement in medics’ knowledge of BPPV, compared to 54 per cent in this study with physiotherapists. However, the multichoice questionnaire in that studyReference Bashir, Rauf, Yousuf, Anjum, Bashir and Elmoheen18 showed only a 14 per cent improvement in knowledge, with a 60 per cent improvement in the ability to perform Hallpike–Dix and canal repositioning manoeuvres. In comparison, this small study demonstrated a 54 per cent improvement in knowledge (via the questionnaire) focused on comprehension to evaluate lower-order cognitive skills, with facilitated demonstrable improvements in the application, analysis, evaluation and creation stages of Bloom's taxonomy.Reference Anderson and Krathwohl23

Only three people in our study were performing positional testing and canal repositioning manoeuvres for BPPV prior to the training programme, demonstrating a 73 per cent improvement in skills acquisition, which can transfer to clinical practice. However, only 5 clinicians completed the training, leading to 6 of the 11 participants (with 1 already deemed competent after initial training) routinely monitoring, assessing and managing BPPV after all the training. Excluding the trainer, this represents a 100 per cent increase in ‘suitably qualified’ allied health professionals6 capable of safely and effectively assessing and managing BPPV in the organisation. A support network group helped maintain proficiency and participation in regular case-based discussions and observed practice, where activities were recorded in individuals’ portfolios.

The study serves as a provisional roadmap with instructions to develop a comprehensive BPPV training programme. It can be updated with evidence-based practice, and applied to many professions, including physiotherapists, occupational therapists, audiologists, nurses, advanced clinical practitioners, first contact practitioners, general practitioners and medical practitioners. It can be applied and researched across specialties to deliver high impact care in primary and secondary settings for older adults. Although dizziness is a commonly reported symptom across primary and secondary healthcare settings,Reference Von Brevern, Radtke, Lezius, Feldmann, Ziese and Lempert30,Reference Bösner, Schwarm, Grevenrath, Schmidt, Hörner and Beidatsch31 drivers of change – such as the ‘roadmap’ to the first contact practitioner and advanced clinical practitioner in musculoskeletal care10 – do not identify knowledge and skills related to BPPV or vestibular disorders as being required, thereby indirectly influencing training activities and patient care. The Association of Chartered Physiotherapists Interested in Vestibular Rehabilitation framework13 addresses this shortfall.

All participants in the current study demonstrated improved knowledge regardless of experience level, although one clinician did require further training and showed a drop in confidence. This emphasises the need for an individualised approach and the benefit of small-group training.Reference Chacko32 The study, although small in participant numbers, adds to emerging evidence showing that the awareness, assessment and management of BPPV can be undertaken in a clinical setting, with novice and experienced practitioners. Physiotherapists can be ‘suitably qualified’ professionals for the assessment and management of BPPV.6 Improved recognition and effective treatment of BPPV with evidence-based practice, in primary care teams for older adults, falls and frailty and neurology teams, has the potential to improve patient outcomes and reduce falls.Reference Jumani and Powell33Reference Choi and Kim36

Benign paroxysmal positional vertigo occurs frequently with traumatic brain injury,Reference Calzolari, Chepisheva, Smith, Mahmud, Hellyer and Tahtis37 and is associated with falls and stroke (although the link between BPPV and stroke remains unclearReference Li, Wang, Zhuang, Chen, Zhou and Gao5. Therefore, this training programme can be considered a quality improvement programme that delivers primary healthcare in the right place, at the right time, to the right person, with the right treatment.6 Diagnostic skills differentiating central and peripheral signs are of significant importance in falls and stroke care.Reference Alyono38,Reference Murdin, Seemungal and Bronstein39 Improving the identification of BPPV nystagmus can trigger appropriate onward referrals and management for centrally mediated dizziness.6,Reference Kim, Lee, Cho, Kang, Choi and Nam40,Reference Ciorba, Bianchini, Scanelli, Pala, Zurlo and Aimoni41 Early intervention reduces the impact of dizziness, social isolation and depression,Reference Kim, Lee, Cho, Kang, Choi and Nam40,Reference Muñoz, Moreno, Balboa, Matos, Puertolas and Ortega42,Reference Wang, Chan and Liu43 and reduces the burden on secondary care ENT and neurology services.Reference Kasbekar, Mullin, Morrow, Youssef, Kay and Lesser14,Reference Burrows, Lesser, Kasbekar, Roland and Billing15,Reference Wang, Chan and Liu43

Training related to BPPV undertaken by general practitioners in the UK led to increased patient treatment choice, a reduced need for secondary care, improved cost efficiency, increased general practitioner confidence and reduced medication intervention.Reference Hameed, Shaheen, Malik and Qabeel44 This study supports the concept that other professionals, including physiotherapists, advanced clinical practitioners, first contact practitioners and audiologists, can assess and treat BPPV in primary care, be more cost effective and reduce the burden on general practitioner surgeries (which have been under significant pressures since the start of the coronavirus disease 2019 pandemic).

Those clinicians in the current study who completed the training had undertaken other training activities – namely observed clinical practice and internal training – before enrolling on this training programme. This suggests they recognised a need to improve knowledge and skills in the management of BPPV, but a lack of support previously had limited their confidence and application of knowledge. This highlights the importance of the ‘higher’ stages of educational support in Bloom's taxonomyReference Anderson and Krathwohl23 and of access to expert practice for guidance. Participants demonstrated an increased recognition of dizziness, although one participant less frequently. This is possibly because of service demands or improved recognition of dizziness presentations.

Reasons for not completing the training were mainly related to service pressures. One participant had a good level of knowledge initially and was deemed to have demonstrated competence after the first training session. Clinical supervision is an important part of skill development, and improves resilience and grit,Reference Rothwell, Kehoe, Farook and Illing45 which can predict success in physical therapist students.Reference Bliss and Jacobson46 In this case, the initial training acted as a refresher training and was used to collaborate clinical skills for a portfolio, which is important to maintain competence and professional registration.47

Confidence improved in all but one of the participants completing training and, in this case, identified outdated knowledge. Knowledge improved with further observations and tailored 1:1 tuition.Reference Rothwell, Kehoe, Farook and Illing45 Participants at different stages of their development have different needs, requiring a flexible and responsive approach to training.Reference Rothwell, Kehoe, Farook and Illing45 The training programme offered the opportunity for a variety of enhanced learning experiences with multi-modal assessments,Reference Preston, Gratani, Owens, Roche, Zimanyi and Malau-Aduli25 supporting the development of competency in line with the changing evidence base. It is dependent on an expert practitioner having the dedicated time to provide education and supervision.

Multiple-choice questions may be used to assess knowledge.Reference Bashir, Rauf, Yousuf, Anjum, Bashir and Elmoheen18 Alternatively, although multiple-choice questions may reflect study effort, short-answer questions more accurately reflect learning. Key feature questions, short-answer questions and Multi-Station Assessment Tasks are students’ most favoured and effective learning assessments.Reference Preston, Gratani, Owens, Roche, Zimanyi and Malau-Aduli25

Gagné's model of instructional designReference Buscombe19,Reference Gagne, Wager, Keller and Golas22 allows the implementation of active learning, linking to Bloom's taxonomyReference Anderson and Krathwohl23,Reference Tofade, Elsner and Haines48 (Table 1). This design is effective in other healthcare learning activities,Reference Belfield49Reference Woo52 including pharmacists learning to take blood pressureReference Chen and Johannesmeyer53 and medics’ knowledge of BPPV.Reference Bashir, Rauf, Yousuf, Anjum, Bashir and Elmoheen18 This study supports an active learning style to effectively deliver BPPV training for physiotherapists.

Limitations

This study is based on data from a small group, and larger studies are needed to confirm the results. It required skilled facilitators and a central primary care location to deliver training. Clinicians worked across a large community organisation with a geographical footprint across three counties in the UK, delivering multiple specialties across community services. Solutions to this may involve initial online didactic sessions, supervision and video supervision sessions.Reference Tahtis, Male and Kaski12

  • A structured approach to learning demonstrates improvements in physiotherapists' knowledge and confidence in the assessment and management of benign paroxysmal positional vertigo

  • The findings of this small study add to a growing body of evidence

  • Ongoing competency training and supervision is required to maintain evidence-based knowledge, skills and improved confidence levels

Adapting the confidence scale may change the validity of the confidence measure; in future, the Student Satisfaction and Self Confidence in Learning toolReference Zapko, Ferranto, Blasiman and Shelestak26 may be applied in full. The pass mark standard can be formalised using a recognised method.Reference Pascual-Ramos, Bernard-Medina, Flores-Alvarado, Portela-Hernández, del Rocío Maldonado-Velázquez and Jara-Quezada28,Reference Homer and Darling29,Reference Wyse54

Conclusion

A structured approach to learning demonstrates improvements in physiotherapists' knowledge and self-assessed confidence in the evidence-based assessment and management of BPPV in adults. Studies are emerging to advise the best way to deliver competency training for BPPV. Physiotherapists are well positioned in healthcare, and can develop the knowledge, skills and confidence to effectively manage BPPV, which is a common cause of dizziness and falls in older adults.

Competing interests

None declared

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0022215123002086.

Footnotes

Lisa Burrows takes responsibility for the integrity of the content of the paper

References

Chen, J, Zhang, S, Cui, K, Liu, C. Risk factors for benign paroxysmal positional vertigo recurrence: a systematic review and meta-analysis. J Neurol 2021;268:4117–27CrossRefGoogle ScholarPubMed
Bhattacharyya, N, Gubbels, SP, Schwartz, SR, Edlow, JA, El-Kashlan, H, Fife, T et al. Clinical practice guideline: benign paroxysmal positional vertigo (update). Otolaryngol Head Neck Surg 2017;156:S147Google ScholarPubMed
Argaet, EC, Bradshaw, AP, Welgampola, MS. Benign positional vertigo, its diagnosis, treatment and mimics. Clin Neurophysiol Pract 2019;4:97111CrossRefGoogle ScholarPubMed
Figtree, WV, Menant, JC, Chau, AT, Hübner, PP, Lord, SR, Migliaccio, AA. Prevalence of vestibular disorders in independent people over 50 that experience dizziness. Front Neurol 2021;12:709CrossRefGoogle ScholarPubMed
Li, F, Wang, XG, Zhuang, JH, Chen, Y, Zhou, XW, Gao, B et al. Etiological analysis on patients in department of vertigo and dizziness oriented outpatient [in Chinese]. Zhonghua Yi Xue Za Zhi 2017;97:1054–6Google ScholarPubMed
National Institute for Health and Care Excellence. Suspected Neurological Conditions: Recognition and Referral. NICE Guideline [NG127]. In: https://www.nice.org.uk/guidance/ng127 [1 July 2019]Google Scholar
Male, AJ, Ramdharry, GM, Grant, R, Davies, RA, Beith, ID. A survey of current management of benign paroxysmal positional vertigo (BPPV) by physiotherapists’ interested in vestibular rehabilitation in the UK. Physiotherapy 2019;105:307–14CrossRefGoogle ScholarPubMed
Meldrum, D, Burrows, L, Cakrt, O, Kerkeni, H, Lopez, C, Tjernstrom, F et al. Vestibular rehabilitation in Europe: a survey of clinical and research practice. J Neurol 2020;267:2435CrossRefGoogle ScholarPubMed
NHS Southport and Formby CCG. Sefton2gether: Shaping Sefton II. In: www.southportandformbyccg.nhs.uk/media/4044/sefton2gether-final-print-version-2020.pdf [15 March 2022]Google Scholar
NHS Health Education England. First contact practitioners and advanced clinical practitioners in primary care: (musculoskeletal).A Roadmap to Practice. In: www.hee.nhs.uk/sites/default/files/documents/MSK%20July21-FILLABLE%20Final%20Aug%202021_2.pdf [1 July 2021]Google Scholar
National Health Service. The NHS Long Term Plan. In: www.longtermplan.nhs.uk/publication/nhs-long-term-plan/ [1 August 2019]Google Scholar
Tahtis, V, Male, A, Kaski, D. Positional manoeuvres for BPPV: theoretical approach to remote training for non-specialists. Front Neurol 2021;12:738785CrossRefGoogle ScholarPubMed
Association of Chartered Physiotherapists Interested in Vestibular Rehabilitation. The ACPIVR framework for physiotherapists working within Vestibular and Balance System Health care. In: https://www.acpivr.com/wp-content/uploads/2021/06/Publication-ACPIVR_Framework_for_Physiotherapists_working_with_Dizziness_and_Balance.pdf [1 June 2021]Google Scholar
Kasbekar, AV, Mullin, N, Morrow, C, Youssef, AM, Kay, T, Lesser, TH. Development of a physiotherapy-led balance clinic: the Aintree model. J Laryngol Otol 2014;128:966–71CrossRefGoogle ScholarPubMed
Burrows, L, Lesser, TH, Kasbekar, AV, Roland, N, Billing, M. Independent prescriber physiotherapist led balance clinic: the Southport and Ormskirk pathway. J Laryngol Otol 2017;131:417–24CrossRefGoogle ScholarPubMed
Leong, AC, Barker, F, Bleach, NR. Primary assessment of the vertiginous patient at a pre-ENT balance clinic. J Laryngol Otol 2008;122:132–8CrossRefGoogle Scholar
Lee, A, Jones, G, Corcoran, J, Premachandra, P, Morrison, G. A UK hospital based multidisciplinary balance clinic run by allied health professionals: first year results. J Laryngol Otol 2011;125:661–7CrossRefGoogle ScholarPubMed
Bashir, K, Rauf, L, Yousuf, A, Anjum, S, Bashir, MT, Elmoheen, A. Teaching benign paroxysmal positional vertigo to emergency medicine residents by using Gagne's nine steps of instructional design. Adv Med Educ Pract 2021;12:1223–7CrossRefGoogle ScholarPubMed
Buscombe, C. Using Gagne's theory to teach procedural skills. Clin Teach 2013;10:302–7CrossRefGoogle ScholarPubMed
British Society of Audiology. Ear Examination: Minimum Training Guidelines. In: https://www.thebsa.org.uk/wp-content/uploads/2023/10/OD104-50-BSA-Minimum-Training-Guidelines-Ear-Examination-Feb-2022.pdf [1 October 2016]Google Scholar
NHS Health Research Authority and Medical Research Council. Research decision tool. In: www.hra-decisiontools.org.uk/research/ [1 October 2021]Google Scholar
Gagne, RM, Wager, WW, Keller, J, Golas, KG. Principles of Instructional Design, 5th edn. Belmont, CA: Thomson/Wadsworth, 2005Google Scholar
Anderson, LW, Krathwohl, DR. A Taxonomy for Learning, Teaching, and Assessing: A Revision of Bloom's Taxonomy of Educational Objectives, 2nd edn. New York: Longman, 2001Google Scholar
Sam, AH, Westacott, R, Gurnell, M, Wilson, R, Meeran, K, Brown, C. Comparing single-best-answer and very-short-answer questions for the assessment of applied medical knowledge in 20 UK medical schools: cross-sectional study. BMJ Open 2019;9:e032550CrossRefGoogle ScholarPubMed
Preston, R, Gratani, M, Owens, K, Roche, P, Zimanyi, M, Malau-Aduli, B. Exploring the impact of assessment on medical students’ learning. Assess Eval High Educ 2020;45:109–24CrossRefGoogle Scholar
Zapko, KA, Ferranto, MLG, Blasiman, R, Shelestak, D. Evaluating best educational practices, student satisfaction, and self-confidence in simulation: a descriptive study. Nurse Educ Today 2018;60:2834CrossRefGoogle ScholarPubMed
Nayer, M, Glover Takahashi, S, Hrynchak, P. Twelve tips for developing key-feature questions (KFQ) for effective assessment of clinical reasoning. Med Teach 2018;40:1116–22CrossRefGoogle ScholarPubMed
Pascual-Ramos, V, Bernard-Medina, AG, Flores-Alvarado, DE, Portela-Hernández, M, del Rocío Maldonado-Velázquez, M, Jara-Quezada, LJ et al. The method used to set the pass mark in an objective structured clinical examination defines the performance of candidates for certification as rheumatologists. Reumatol Clín (Engl Ed) 2018;14:137–41Google Scholar
Homer, M, Darling, JC. Setting standards in knowledge assessments: comparing Ebel and Cohen via Rasch. Med Teach 2016;38:1267–77CrossRefGoogle ScholarPubMed
Von Brevern, M, Radtke, A, Lezius, F, Feldmann, M, Ziese, T, Lempert, T et al. Epidemiology of benign paroxysmal positional vertigo: a population based study. J Neurol Neurosurg Psychiatry 2007;78:710–15CrossRefGoogle ScholarPubMed
Bösner, S, Schwarm, S, Grevenrath, P, Schmidt, L, Hörner, K, Beidatsch, D et al. Prevalence, aetiologies and prognosis of the symptom dizziness in primary care–a systematic review. BMC Fam Pract 2018;19:33CrossRefGoogle ScholarPubMed
Chacko, TV. Blended learning in the 21st century: the need to tailor it to the changing learner self-direction levels during different phases of health professions education and beyond. Arch Med Health Sci 2021;9:1618CrossRefGoogle Scholar
Jumani, K, Powell, J. Benign paroxysmal positional vertigo: management and its impact on falls. Ann Otol Rhinol Laryngol 2017;12:602–5CrossRefGoogle Scholar
Hawke, LJ, Barr, CJ, McLoughlin, JV. The frequency and impact of undiagnosed benign paroxysmal positional vertigo in outpatients with high falls risk. Age Ageing 2021;50:2025–30CrossRefGoogle ScholarPubMed
Hanna, J, Malhotra, A, Brauer, PR, Luryi, A, Michaelides, E. A comparison of benign positional vertigo and stroke patients presenting to the emergency department with vertigo or dizziness. Am J Otolaryngol 2019;40:102263CrossRefGoogle ScholarPubMed
Choi, HG, Kim, SY. Benign paroxysmal positional vertigo and the increased risk of ischemic stroke: a nested case-control study using a national cohort sample. Biomed Res Int 2021;2021:6629028CrossRefGoogle ScholarPubMed
Calzolari, E, Chepisheva, M, Smith, RM, Mahmud, M, Hellyer, PJ, Tahtis, V et al. Vestibular agnosia in traumatic brain injury and its link to imbalance. Brain 2021;144:128–43CrossRefGoogle ScholarPubMed
Alyono, JC. Vertigo and dizziness: understanding and managing fall risk. Otolaryngol Clin North Am 2018;51:725–40CrossRefGoogle ScholarPubMed
Murdin, L, Seemungal, BM, Bronstein, AM. Assessment of dizziness in neurology. Medicine 2020;48:517–21CrossRefGoogle Scholar
Kim, J, Lee, S, Cho, SH, Kang, KW, Choi, K, Nam, T et al. Cerebellar infarction presenting with isolated positional vertigo: differentiating factors for benign paroxysmal positional vertigo. Neurol Sci 2021;42:1045–52CrossRefGoogle ScholarPubMed
Ciorba, A, Bianchini, C, Scanelli, G, Pala, M, Zurlo, A, Aimoni, C. The impact of dizziness on quality-of-life in the elderly. Eur Arch Otorhinolaryngol 2017;274:1245–50CrossRefGoogle ScholarPubMed
Muñoz, RC, Moreno, JLB, Balboa, IV, Matos, YR, Puertolas, OC, Ortega, JA et al. Disability perceived by primary care patients with posterior canal benign paroxysmal positional vertigo. BMC Fam Pract 2019;20:156CrossRefGoogle Scholar
Wang, Y, Chan, CY, Liu, Q. Benign paroxysmal positional vertigo – recommendations for treatment in primary care. Ther Clin Risk Manag 2019;15:719–25CrossRefGoogle ScholarPubMed
Hameed, M, Shaheen, S, Malik, MI, Qabeel, YEH. Epley's maneuver in primary care: a quality improvement project. World Fam Med J 2021;19:117–23Google Scholar
Rothwell, C, Kehoe, A, Farook, SF, Illing, J. Enablers and barriers to effective clinical supervision in the workplace: a rapid evidence review. BMJ Open 2021;11:e052929CrossRefGoogle ScholarPubMed
Bliss, R, Jacobson, E. Doctor of physical therapy student grit as a predictor of academic success: a pilot study. Health Prof Educ 2020;6:522–8Google Scholar
Health and Care Professions Council. Standards of education and training guidance. In: www.hcpc-uk.org/resources/guidance/standards-of-education-and-training-guidance/ [1 June 2017]Google Scholar
Tofade, T, Elsner, J, Haines, ST. Best practice strategies for effective use of questions as a teaching tool. Am J Pharm Educ 2013;77:155CrossRefGoogle ScholarPubMed
Belfield, J. Using Gagne's theory to teach chest X-ray interpretation. Clin Teach 2010;7:58CrossRefGoogle ScholarPubMed
Khadjooi, K, Rostami, K, Ishaq, S. How to use Gagne's model of instructional design in teaching psychomotor skills. Gastroenterol Hepatol Bed Bench 2011;4:116–19Google ScholarPubMed
Ng, JY. Combining Peyton's four-step approach and Gagne's instructional model in teaching slit-lamp examination. Perspec Med Educ 2014;3:480–5CrossRefGoogle ScholarPubMed
Woo, WH. Using Gagne's instructional model in phlebotomy education. Adv Med Educ Pract 2016;7:511–16CrossRefGoogle ScholarPubMed
Chen, JJ, Johannesmeyer, HJ. Gagné's 9 events of instruction with active learning: teaching student pharmacists how to measure blood pressure. J Pharm Pract 2021;34:407–16CrossRefGoogle ScholarPubMed
Wyse, AE. Comparing cut scores from the Angoff method and two variations of the Hofstee and Beuk methods. Appl Meas Educ 2020;33:159–73CrossRefGoogle Scholar
Figure 0

Table 1. Learning of new knowledge and skills in BPPV assessment and management*

Figure 1

Table 2. Assessment formats and their descriptions*

Figure 2

Figure 1. Previous learning experiences related to benign paroxysmal positional vertigo. IST = in-service training

Figure 3

Figure 2. Comparison of previous learning experiences between those completing and those not completing the benign paroxysmal positional vertigo competency training. IST = in-service training

Figure 4

Figure 3. Results of the knowledge and confidence questionnaires.

Supplementary material: File

Burrows et al. supplementary material

Burrows et al. supplementary material
Download Burrows et al. supplementary material(File)
File 37.5 KB