Hostname: page-component-848d4c4894-p2v8j Total loading time: 0.001 Render date: 2024-05-16T05:45:50.725Z Has data issue: false hasContentIssue false
  • English
  • Français

World Organization of National Colleges, Academies and Academic Associations of General Practitioners and Family Physicians (WONCA) Europe position paper on the use of point-of-care ultrasound (POCUS) in primary care

Published online by Cambridge University Press:  23 April 2024

Aaron Poppleton Open the ORCID record for Aaron Poppleton [Opens in a new window] ,
Sonia Tsukagoshi ,
Shlomo Vinker Open the ORCID record for Shlomo Vinker [Opens in a new window] ,
Francois Heritier ,
Paul Frappé Open the ORCID record for Paul Frappé [Opens in a new window] ,
Fabian Dupont Open the ORCID record for Fabian Dupont [Opens in a new window] ,
Peter Sigmund ,
Mihai Iacob Open the ORCID record for Mihai Iacob [Opens in a new window] ,
Josep Vilaseca Open the ORCID record for Josep Vilaseca [Opens in a new window]  and
Mehmet Ungan Open the ORCID record for Mehmet Ungan [Opens in a new window]
...Show all authors
Aaron Poppleton*
Affiliation:
School of Medicine, Keele University, Newcastle, UK
Sonia Tsukagoshi
Affiliation:
European Young Family Doctors’ Movement, London, UK
Shlomo Vinker
Affiliation:
Tel Aviv University, Tel Aviv-Yafo, Israel
Francois Heritier
Affiliation:
Unisanté, Université de Lausanne, Lausanne, Switzerland
Paul Frappé
Affiliation:
Université Jean Monnet, Saint-Etienne, France
Fabian Dupont
Affiliation:
Saarland University, Homburg, Germany
Peter Sigmund
Affiliation:
Steirischen Akademie für Allgemeinmedizin, Graz, Austria
Mihai Iacob
Affiliation:
Victor Babes University of Medicine and Pharmacy, Timișoara, Romania
Josep Vilaseca
Affiliation:
University of Barcelona, Barcelona, Spain
Mehmet Ungan
Affiliation:
School of Medicine, Ankara University, Ankara, Turkey
Camilla Aakjær Andersen
Affiliation:
Center for General Practice, Aalborg University, Aalborg, Denmark
Thomas Frese
Affiliation:
University Halle-Wittenberg, Halle (Saale), Germany European General Practice Research Network, Halle-Wittenberg, Germany
David Halata
Affiliation:
POCUS iGP, Hošťálková, Czechia
*
Corresponding author: Dr Aaron Poppleton; Email: a.poppleton@keele.ac.uk
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content. As you have access to this content, full HTML content is provided on this page. A PDF of this content is also available in through the ‘Save PDF’ action button.

Keywords

Medicinepoint of careposition statementprimary care, familyultrasound
Type
EFPC Position Paper
Information
Primary Health Care Research & Development , Volume 25 , 2024 , e21
Check for updates
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
© The Author(s), 2024. Published by Cambridge University Press

Statement

Point-of-care ultrasound (POCUS) has been introduced across a number of medical specialities, with emerging research showing promising results. We anticipate that POCUS will have an increasingly important place for specific indications within primary care over the coming years, supporting general practitioners to meet the health needs of their patient populations. We recommend that all general practitioners receive training in POCUS that is tailored to the needs of their healthcare context. This training should be delivered during general practitioners’ residency and continuing medical education programmes. Where evidence supports the use of POCUS in diagnosis, qualified general practitioners should be appropriately financed for its use in clinics, house calls and community healthcare. We support ongoing efforts to gather evidence for best practice use of POCUS and to explore the long-term effects of POCUS use on diagnosis within primary care.

Background

POCUS is defined as ‘ultrasonography brought to the patient and performed by the provider in real time’ (Díaz-Gómez et al., Reference Díaz-Gómez, Mayo and Koenig2021). It is designed to answer a specific clinical question or to perform a specific procedural aim and is not a replacement for a formal ultrasound examination or screening (Andersen et al., Reference Andersen, Holden, Vela, Rathleff and Jensen2019a; Díaz-Gómez et al., Reference Díaz-Gómez, Mayo and Koenig2021). POCUS has been shown to be useful to rule in or rule out medical emergencies, to diagnose conditions of low to moderate complexity and to monitor acute and chronic illnesses independent of hospital infrastructures (AAFP, 2016; Andersen et al., Reference Andersen, Holden, Vela, Rathleff and Jensen2019a; Colli et al., Reference Colli, Prati, Fraquelli, Segato, Vescovi, Colombo, Balduini, Della Valle and Casazza2015; Genc et al., Reference Genc, Ryk, Suwała, Żurakowska and Kosiak2016; Myklestul et al., Reference Myklestul, Skonnord and Brekke2020; Sorensen and Hunskaar, Reference Sorensen and Hunskaar2019). Effective use of POCUS has been demonstrated in numerous clinical specialities for a wide range of indications, including those relating to: internal organs, such as the heart, lungs, and kidneys; musculoskeletal, soft tissue and vascular conditions; and pregnancy (AAFP, 2016; Andersen et al., Reference Andersen, Brodersen, Davidsen, Graumann and Jensen2020; Díaz-Gómez et al., Reference Díaz-Gómez, Mayo and Koenig2021; Dietrich et al., Reference Dietrich, Goudie, Chiorean, Cui, Gilja, Dong, Abramowicz, Vinayak, Westerway, Nolsøe and Chou2017; Løkkegaard et al., Reference Løkkegaard, Todsen, Nayahangan, Andersen, Jensen and Konge2020; Rodríguez-Contreras et al., Reference Rodríguez-Contreras, Calvo-Cebrián, Díaz-Lázaro, Cruz-Arnés, León-Vázquez, del Carmen Lobón-Agúndez, Palau-Cuevas, Henares-García, Gavilán-Martínez, Fernández-Plaza and Prieto-Zancudo2022; Sorensen and Hunskaar, Reference Sorensen and Hunskaar2019). Exposure to and popularity of POCUS during undergraduate medical training has increased over the past decade (Dinh et al., Reference Dinh, Fu, Lu, Chiem, Fox and Blaivas2016; Touhami et al., Reference Touhami, Merlo, Hohmann and Essig2020).

Use of POCUS has been increasing in primary care (Myklestul et al., Reference Myklestul, Skonnord and Brekke2020; Touhami et al., Reference Touhami, Merlo, Hohmann and Essig2020), with a strong interest among residents in family medicine to incorporate POCUS training into the family medicine curriculum (Peng et al., Reference Peng, Micks, Braganza, Sue, Woo, Rogers, Freedman, Lewis, Hu, Varner and Patel2019; Andersen, et al., Reference Andersen, Hedegård, Løkkegaard, Frølund and Jensen2021b). Indications for POCUS vary between countries, shaped by the requirements of local health systems, the scope of primary care and training of general practitioners. Benefits of POCUS within primary care include its portability, ease of operation, high acceptability amongst patients and high user satisfaction amongst both patients and doctors (Andersen et al., Reference Andersen, Davidsen, Brodersen, Graumann and Jensen2019b; Andersen et al., Reference Andersen, Brodersen, Rudbæk and Jensen2021a; Iacob et al., Reference Iacob, Saftoiu, Bumbulut, Georgescu and Badea2016). POCUS can increase doctor confidence and studies suggest it can increase accuracy in diagnosis (Leidi et al., Reference Leidi, Saudan, Soret, Rouyer, Marti, Stirnemann, Reny and Grosgurin2022). POCUS therefore has the potential to improve patient outcomes through a rapid initiation of effective treatment and a reduction in referrals to secondary care for investigations, specialist clinics and hospitalisation.(Colli et al., Reference Colli, Prati, Fraquelli, Segato, Vescovi, Colombo, Balduini, Della Valle and Casazza2015; Andersen et al., Reference Andersen, Brodersen, Davidsen, Graumann and Jensen2020). POCUS has the potential to reduce health inequalities and empower general practitioners who work in rural, remote, under-resourced or underserved settings (Lo et al., Reference Lo, Frauendorf, Wischke, Schimmath-Deutrich, Kersten, Nuernberg, Nuernberg and Jenssen2022; Kornelsen et al., Reference Kornelsen, Ho, Robinson and Frenkel2023; Tanael, Reference Tanael2021). We are supportive of further structured exploration and research in this area.

However, the use of POCUS in primary care is not without limitations. As with other physical examinations (eg, pulmonary auscultation and thyroid palpation), accuracy of POCUS is user-dependent (Díaz-Gómez et al., Reference Díaz-Gómez, Mayo and Koenig2021; Dietrich et al., Reference Dietrich, Goudie, Chiorean, Cui, Gilja, Dong, Abramowicz, Vinayak, Westerway, Nolsøe and Chou2017; Diprose et al., Reference Diprose, Verster and Schauer2017). Compared with auscultation/clinical examination alone, focused use of POCUS has the potential to ensure higher levels of diagnostic accuracy and reduce risk of harm (Diprose et al., Reference Diprose, Verster and Schauer2017). Without adequate training and continuous utilisation, POCUS can lead to false reassurance, underdiagnosis, misdiagnosis, overdiagnosis and overtreatment (Andersen et al., Reference Andersen, Holden, Vela, Rathleff and Jensen2019a. Leidi et al., Reference Leidi, Rouyer, Marti, Reny and Grosgurin2020). Training should be stepwise and ongoing, including adequate coverage of anatomy and physiology, procedural techniques and communication skills including standardised reporting of clinical findings, and the impact of findings on medical decision-making in primary care (AAFP, 2016; Andersen et al, Reference Andersen, Hedegård, Løkkegaard, Frølund and Jensen2021b; Andersen, et al., Reference Andersen, Guetterman, Fetters, Brodersen, Davidsen, Graumann and Jensen2022; Homar et al., Reference Homar, Gale, Lainscak and Svab2020). Maintaining competency will be an important aspect of ongoing use of POCUS within a generalist speciality (EFUMB, 2006). More research is required to identify best practice in training, methods of assessment and quality improvement, including avoidance of overdiagnosis, within the context of primary care.

Medicolegal considerations vary across countries and frequently change. This will require providers and institutions to understand local regulatory requirements and legal frameworks to mitigate the potential risks of POCUS. Even, the stethoscope, a tool routinely used by physicians for over 200 years, has its limitations and failings (Arts et al., Reference Arts, Lim, van de Ven, Heunks and Tuinman2020). Reviews of POCUS-associated litigation within secondary care have not identified cases relating to the use of POCUS, but rather to the lack of POCUS use when the technology was available (Blaivas and Pawl, Reference Blaivas and Pawl2012; Conlon et al., Reference Conlon, Yousef, Mayordomo-Colunga, Tissot, Fraga, Bhombal, Suryawanshi, Villanueva, Siassi and Singh2022; Reaume et al., Reference Reaume, Farishta, Costello, Gibb and Melgar2021). Assessing medicolegal risk is a preventative process to avoid harm, whether to the patient, provider or institution. Efforts must be made to gather evidence for guidelines on appropriate (and inappropriate) use of POCUS within primary care, in addition to the long-term impact on patient prognosis. We anticipate that specific regulatory frameworks for POCUS in General Practice are likely to evolve with an increased emphasis on quality and safety. We support the development of licensure and availability of General Practitioners to undertake POCUS in countries where this is not currently available.

Conclusion

POCUS is an accessible and promising medical tool capable of increasing diagnostic value and accuracy within primary care. It has the potential to reduce healthcare costs, patient travel, waiting times, and need for referral to secondary care services. It does however have potential risks of underdiagnosis, misdiagnosis, overdiagnosis and overtreatment. We recommend that all general practitioners receive tailored curriculum-based training in POCUS during residency and continuing medical education programmes, with adequate financial provision to undertake POCUS within primary care. We suggest that open dialogue and partnership with providers, administrators and regulatory agencies experienced in POCUS will enable development of strategies to improve availability, provider performance, patient outcomes and minimisation of risk.

Addendum: Application of the WONCA Europe position statement

The World Organization of National Colleges, Academies and Academic Associations of General Practitioners and Family Physicians (WONCA) Europe represents 47 member organisations consisting of more than 120,000 general practitioners in Europe. The position statement is a general endorsement of POCUS within family medicine within the European region, irrespective of clinic size, staff composition, licensure, governance procedures and financing of services. Authors of this position statement represent this variation, including large multidisciplinary practices, academic/training settings, urban/suburban/rural localities and single-handed practices. Ultrasound is a complex and user-dependent investigation. Appropriate training and continuing medical education is required to maintain competency, meet local population health needs and fulfil national regulatory requirements. We encourage dissemination and mutual learning from effective training approaches and funding models within European localities to support effective use of POCUS in family medicine.

References

[AAFP] American Academy of Family Physicians (2016) Recommended curriculum guidelines for family medicine residents: point of care ultrasound. AAFP reprint No. 290D.Google Scholar
Andersen, CA, Brodersen, J, Davidsen, AS, Graumann, O and Jensen, MBB (2020) Use and impact of point-of-care ultrasonography in general practice: a prospective observational study. BMJ Open 10, e037664.CrossRefGoogle Scholar
Andersen, CA, Brodersen, J, Rudbæk, TR and Jensen, MB (2021a) Patients’ experiences of the use of point-of-care ultrasound in general practice–a cross-sectional study. BMC Family Practice 22, 116.CrossRefGoogle ScholarPubMed
Andersen, CA, Davidsen, AS, Brodersen, J, Graumann, O and Jensen, MB (2019b) Danish general practitioners have found their own way of using point-of-care ultrasonography in primary care: a qualitative study. BMC Family Practice 20, 111.CrossRefGoogle ScholarPubMed
Andersen, CA, Guetterman, TC, Fetters, MD, Brodersen, J, Davidsen, AS, Graumann, O and Jensen, MB (2022) General practitioners’ perspectives on appropriate use of ultrasonography in primary care in Denmark: a multistage mixed methods study. The Annals of Family Medicine 20, 211219.CrossRefGoogle Scholar
Andersen, CA, Hedegård, HS, Løkkegaard, T, Frølund, J and Jensen, MB (2021b) Education of general practitioners in the use of point-of-care ultrasonography: a systematic review. Family Practice 38, 484494.CrossRefGoogle ScholarPubMed
Andersen, CA, Holden, S, Vela, J, Rathleff, MS and Jensen, MB (2019a) Point-of-care ultrasound in general practice: a systematic review. The Annals of Family Medicine 17, 6169.CrossRefGoogle ScholarPubMed
Arts, L, Lim, EHT, van de Ven, PM, Heunks, L and Tuinman, PR (2020) The diagnostic accuracy of lung auscultation in adult patients with acute pulmonary pathologies: a meta-analysis. Scientific Reports 10, 7347.CrossRefGoogle ScholarPubMed
Blaivas, M and Pawl, R (2012) Analysis of lawsuits filed against emergency physicians for point-of-care emergency ultrasound examination performance and interpretation over a 20-year period. The American Journal of Emergency Medicine 30, 338341.CrossRefGoogle ScholarPubMed
Colli, A, Prati, D, Fraquelli, M, Segato, S, Vescovi, PP, Colombo, F, Balduini, C, Della Valle, S and Casazza, G, 2015. The use of a pocket-sized ultrasound device improves physical examination: results of an in-and outpatient cohort study. PLoS One 10, e0122181.CrossRefGoogle ScholarPubMed
Conlon, TW, Yousef, N, Mayordomo-Colunga, J, Tissot, C, Fraga, MV, Bhombal, S, Suryawanshi, P, Villanueva, AM, Siassi, B and Singh, Y (2022) Establishing a risk assessment framework for point-of-care ultrasound. European Journal of Pediatrics 181, 14491457.CrossRefGoogle ScholarPubMed
Díaz-Gómez, JL, Mayo, PH and Koenig, SJ (2021) Point-of-care ultrasonography. New England Journal of Medicine 385, 15931602.CrossRefGoogle ScholarPubMed
Dietrich, CF, Goudie, A, Chiorean, L, Cui, XW, Gilja, OH, Dong, Y, Abramowicz, JS, Vinayak, S, Westerway, SC, Nolsøe, CP and Chou, YH (2017) Point of care ultrasound: a WFUMB position paper. Ultrasound in Medicine & Biology 43, 4958.CrossRefGoogle ScholarPubMed
Dinh, VA, Fu, JY, Lu, S, Chiem, A, Fox, JC and Blaivas, M (2016) Integration of ultrasound in medical education at United States medical schools: a national survey of directors’ experiences. Journal of Ultrasound in Medicine 35, 413419.CrossRefGoogle ScholarPubMed
Diprose, W, Verster, F and Schauer, C (2017) Re-examining physical findings with point-of-care ultrasound: a narrative review. The New Zealand Medical Journal (Online) 130, 46.Google ScholarPubMed
[EFUMB] The European Federation for Ultrasound in Medicine and Biology (2006) Minimum training recommendations for the practice of medical ultrasound. Ultraschall in der Medizin-European Journal of Ultrasound 27, 79105.Google Scholar
Genc, A, Ryk, M, Suwała, M, Żurakowska, T and Kosiak, W (2016) Ultrasound imaging in the general practitioner’s office–a literature review. Journal of Ultrasonography 16, 78.CrossRefGoogle ScholarPubMed
Homar, V, Gale, ZK, Lainscak, M and Svab, I (2020) Knowledge and skills required to perform point-of-care ultrasonography in family practice–a modified Delphi study among family physicians in Slovenia. BMC Family Practice 21, 16.CrossRefGoogle ScholarPubMed
Iacob, M, Saftoiu, A, Bumbulut, C, Georgescu, R and Badea, R (2016) Evidence at the Point of Care Ultrasonography in Family Medicine. In WONCA Copenhagen conference, Book of abstracts, EGPRN workshop, Volume 79, 173. Retrieved from https://www.researchgate.net/publication/323847614_79Evidence_at_the_Point_of_Care_Ultrasonography_in_Family_Medicine Google Scholar
Kornelsen, J, Ho, H, Robinson, V and Frenkel, O (2023). Rural family physician use of point-of-care ultrasonography: experiences of primary care providers in British Columbia, Canada. BMC Primary Care 24, 183.CrossRefGoogle ScholarPubMed
Leidi, A, Rouyer, F, Marti, C, Reny, JL and Grosgurin, O (2020) Point of care ultrasonography from the emergency department to the internal medicine ward: current trends and perspectives. Internal and Emergency Medicine 15, 395408.CrossRefGoogle Scholar
Leidi, A, Saudan, A, Soret, G, Rouyer, F, Marti, C, Stirnemann, J, Reny, JL and Grosgurin, O (2022) Confidence and use of physical examination and point-of-care ultrasonography for detection of abdominal or pleural free fluid. A cross-sectional survey. Internal and Emergency Medicine, 110.Google ScholarPubMed
Lo, H, Frauendorf, V, Wischke, S, Schimmath-Deutrich, C, Kersten, M, Nuernberg, M, Nuernberg, D and Jenssen, C (2022) Ambulatory use of Handheld Point-of-Care Ultrasound (HH-POCUS) in rural Brandenburg–a pilot study. Ultraschall in der Medizin-European Journal of Ultrasound 43, 584591.Google ScholarPubMed
Løkkegaard, T, Todsen, T, Nayahangan, LJ, Andersen, CA, Jensen, MB and Konge, L (2020) Point-of-care ultrasound for general practitioners: a systematic needs assessment. Scandinavian Journal of Primary Health Care 38, 311.CrossRefGoogle ScholarPubMed
Myklestul, HC, Skonnord, T and Brekke, M (2020) Point-of-care ultrasound (POCUS) in Norwegian general practice. Scandinavian Journal of Primary Health Care 38, 219225.CrossRefGoogle ScholarPubMed
Peng, S, Micks, T, Braganza, D, Sue, K, Woo, M, Rogers, P, Freedman, S, Lewis, J, Hu, S, Varner, C and Patel, N (2019) Canadian national survey of family medicine residents on point-of-care ultrasound training. Canadian Family Physician 65, e523e530.Google ScholarPubMed
Reaume, M, Farishta, M, Costello, JA, Gibb, T and Melgar, TA (2021) Analysis of lawsuits related to diagnostic errors from point-of-care ultrasound in internal medicine, paediatrics, family medicine and critical care in the USA. Postgraduate Medical Journal 97, 5558.CrossRefGoogle ScholarPubMed
Rodríguez-Contreras, FJ, Calvo-Cebrián, A, Díaz-Lázaro, J, Cruz-Arnés, M, León-Vázquez, F, del Carmen Lobón-Agúndez, M, Palau-Cuevas, FJ, Henares-García, P, Gavilán-Martínez, F, Fernández-Plaza, S and Prieto-Zancudo, C (2022) Lung ultrasound performed by primary care physicians for clinically suspected community-acquired pneumonia: A multicenter prospective study. The Annals of Family Medicine 20, 227236.CrossRefGoogle ScholarPubMed
Sorensen, B and Hunskaar, S (2019) Point-of-care ultrasound in primary care: a systematic review of generalist performed point-of-care ultrasound in unselected populations. The Ultrasound Journal 11, 129.CrossRefGoogle ScholarPubMed
Tanael, M (2021) Use of point-of-care ultrasonography in primary care to redress health inequities. The Journal of the American Board of Family Medicine 34, 853855.CrossRefGoogle ScholarPubMed
Touhami, D, Merlo, C, Hohmann, J and Essig, S (2020) The use of ultrasound in primary care: longitudinal billing and cross-sectional survey study in Switzerland. BMC Family Practice 21, 111.CrossRefGoogle ScholarPubMed