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European Radiology
Erschienen in: European Radiology 9/2020

20.05.2020 | Musculoskeletal

Radiology reporting of osteoporotic vertebral fragility fractures on computed tomography studies: results of a UK national audit

verfasst von: David C. Howlett, Karl J. Drinkwater, Nadia Mahmood, Jozsef Illes, Jill Griffin, Kassim Javaid

Erschienen in: European Radiology | Ausgabe 9/2020

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Abstract

Objectives

To evaluate organisational reporting infrastructure and patient-related reporting data in the diagnosis of vertebral fragility fractures (VFFs) as demonstrated on computed tomography (CT).

Methods

Organisational and patient-specific questionnaires were developed by consensus between The Royal College of Radiologists, the Royal College of Physicians, and the Royal Osteoporosis Society. The patient-specific component of the audit involved analysis of CT reporting data acquired from 50 consecutive non-traumatic studies including the thoracolumbar spine. Ethical approval for this type of study is not required in the UK. All UK radiology departments with an audit lead (auditor) registered with The Royal College of Radiologists (RCR) were invited to participate in this retrospective audit.

Results

In total, 127 out of 202 departments (63%) supplied data to the study, with inclusion of 6357 patients. Overall, 1362/6357 patients (21.4%) had a fracture present on auditor review of the CT imaging. There was a lack of compliance with all audit standards: 79% of reports commented on the vertebrae (target 100%), fracture severity was mentioned in 26.2% (target 100%), the recommended terminology ‘vertebral fracture’ was used in 60.1% (target 100%), and appropriate onward referral was recommended in 2.6% (target 100%).

Conclusions

The findings from this study should be used to provide impetus to improve the diagnosis and care for patients with osteoporotic VFFs. Solutions are multifactorial, but radiologist and local osteoporosis/fracture liaison service engagement is fundamental, combined with necessary development of electronic report notification systems and expansion of supporting fracture services.

Key Points

• Early detection and diagnosis of vertebral fragility fractures (VFFs) significantly reduce patient morbidity and mortality. This study describes the results of a retrospective UK-wide audit evaluating current radiology reporting practice in the opportunistic diagnosis of VFFs as demonstrated on computed tomography (CT) studies including the spine.
• Key audit standards included comment made on bone integrity in primary report (target 100%), comment made on severity of fractures (90%), report used recommended terminology ‘fracture’ (100%), and report made appropriate recommendations for referral/further assessment (100%). The audit results demonstrated a lack of compliance with all audit standards; lack of compliance was most marked in the use of recommended terminology (achieved 60.3%), in relation to comment on fracture severity (achieved 26.2%) and for recommendation for referral/further assessment (achieved 2.6%).
• Solutions are challenging and multifactorial but the opportunity exists for all radiologists to examine their practice and directly improve patient care.
Literatur
1.
Kanis JA, Johnell O, Oden A et al (2000) Long-term risk of osteoporotic fracture in Malmö. Osteoporos Int 11:669–674PubMed
2.
Samelson EJ, Hannan MT, Zhang Y, Genant HK, Felson DT, Kiel DP (2006) Incidence and risk factors for vertebral fracture in women and men: 25-year follow-up results from the population-based Framingham study. J Bone Miner Res 21:1207–1214PubMed
3.
O'Neill TW, Felsenberg D, Varlow J, Cooper C, Kanis JA, Silman AJ (1996) The prevalence of vertebral deformity in European men and women: the European Vertebral Osteoporosis Study. J Bone Miner Res 11:1010–1018PubMed
4.
Cooper C, Atkinson EJ, O'Fallon WM, Melton JM (1992) Incidence of clinically diagnosed vertebral fractures: a population-based study in Rochester, Minnesota, 1985-1989. J Bone Miner Res 7:221–227PubMed
5.
Curtis EM, van der Velde R, Moon RJ et al (2016) Epidemiology of fractures in the United Kingdom 1988-2012: variation with age, sex, geography, ethnicity and socioeconomic status. Bone 87:19–26PubMedPubMedCentral
6.
Adams J, Clark E, Clunie G et al (2017) Clinical guidance for the effective identification of vertebral fractures. National Osteoporosis Society, London
7.
Ross PD, Davis JW, Epstein RS, Wasnich RD (1991) Pre-existing fractures and bone mass predict vertebral fracture incidence in women. Ann Intern Med 114:919–923PubMed
8.
Melton LJ 3rd, Atkinson EJ, Cooper C, O’Fallon WM, Riggs BL (1999) Vertebral fractures predict subsequent fractures. Osteoporos Int 10:214–221PubMed
9.
McCloskey EV, Vasireddy S, Threlkeld J et al (2008) Vertebral fracture assessment (VFA) with a densitometer predicts future fractures in elderly women unselected for osteoporosis. J Bone Miner Res 23:1561–1568PubMed
10.
Gonnelli S, Caffarelli C, Maggi S et al (2013) The assessment of vertebral fractures in elderly women with recent hip fractures: the BREAK Study. Osteoporos Int 24:1151–1159PubMed
11.
Cauley JA, Thompson DE, Ensrud KC, Scott JC, Black D (2000) Risk of mortality following clinical fractures. Osteoporos Int 11:556–561PubMed
12.
Jalava T, Sarna S, Pylkkänen L et al (2003) Association between vertebral fracture and increased mortality in osteoporotic patients. J Bone Miner Res 18:1254–1260PubMed
13.
Lenchik L, Rogers LF, Delmas PD, Genant HK (2004) Diagnosis of osteoporotic vertebral fractures: importance of recognition and description by radiologists. AJR Am J Roentgenol 183:949–958PubMed
14.
Delmas PD, van de Langerijt L, Watts NB et al (2005) Underdiagnosis of vertebral fractures is a worldwide problem: the IMPACT study. J Bone Miner Res 20:557–563PubMed
15.
Carberry GA, Pooler BD, Binkley N, Lauder TB, Bruce RJ, Pickhardt PJ (2016) Unreported vertebral body compression fractures at abdominal multidetector CT. Radiology 268:120–126
16.
17.
Lentle B, Koromani F, Brown JP et al (2019) The radiology of osteoporotic vertebral fractures revisited. J Bone Miner Res 34:409–418PubMed
18.
Oei L, Rivadeneira F, Ly F et al (2013) Review of radiological scoring methods of osteoporotic vertebral fractures for clinical and research settings. Eur Radiol 23:476–486PubMed
19.
Genant HK, Wu CY, van Kuijk NMC (1993) Vertebral fracture assessment using a semiquantitative technique. J Bone Miner Res 8:1137–1148PubMed
20.
Wasnik R (1996) Epidemiology of osteoporosis. In: Flavus M (ed) Primer on the metabolic bone diseases and disorders of mineral metabolism. Lipincott-Raven, Philadelphia, pp 249–251
21.
Bazzocchi A, Spinnato P, Garzillo G et al (2012) Detection of incidental vertebral fractures in breast imaging: the potential role of MR localisers. Eur Radiol 22:2617–2623PubMed
22.
Williams AL, Al-Busaidi A, Sparrow PJ, Adams JE, Whitehouse RW (2009) Under-reporting of osteoporotic vertebral fractures on computed tomography. Eur J Radiol 69:179–183PubMed
23.
Adams JE (2016) Opportunistic identification of vertebral fractures. J Clin Densitom 19:54–62PubMed
24.
Müller D, Bauer JS, Zeile M, Ernst JR, Link TM (2008) Significance of sagittal reformations in routine thoracic and abdominal multislice CT studies for detecting osteoporotic fractures and other spine abnormalities. Eur Radiol 18:1696–1702PubMed
25.
Lee SJ, Binkley N, Lubner MG, Bruce RJ, Ziemlewicz TJ, Pickhardt PJ (2016) Opportunistic screening for osteoporosis using the sagittal reconstruction from routine abdominal CT for combined assessment of vertebral fractures and density. Osteoporos Int 27:1131–1136PubMed
26.
Lentle BC, Berger C, Probyn L et al (2018) Comparative analysis of the radiology of osteoporotic vertebral fractures in women and men: cross-sectional and longitudinal observations from the Canadian Multicentre Osteoporosis Study (CaMos). J Bone Miner Res 33:569–579PubMed
27.
Royal College of Radiologists (2016) Standards for the communication of radiological reports and fail-safe alert notification. London
28.
Duncan KA, Drinkwater KJ, Dugar N, Howlett DC (2016) Audit of radiology communication systems for critical, urgent, and unexpected significant findings. Clin Radiol 71:265–270PubMed
29.
Eccles E, Thompson JD, Roddam H (2018) An evaluation of fracture liaison services in the detection and management of osteoporotic fragility fractures: a narrative review. Radiography (Lond) 24:392–395
30.
Walters S, Khan T, Ong T, Sahota O (2017) Fracture liaison services: improving outcomes for patients with osteoporosis. Clin Interv Aging 10:117–127
31.
Wasfie T, Jackson A, Brock C, Galovska S, McCullough JR, Burgess JA (2019) Does a fracture liaison service program minimize recurrent fragility fractures in the elderly with osteoporotic vertebral compression fractures? Am J Surg 217:557–560PubMed
32.
De Bruin IJA, Wyers CE, van den Bergh JPW, Geusens PMM (2017) Fracture liaison services: do they reduce fracture rates? Ther Adv Musculoskelet Dis 9:157–164PubMedPubMedCentral
33.
Akesson K, Marsh D, Mitchell PJ et al (2013) Capture the fracture: a best practice framework and global campaign to break the fragility fracture cycle. Osteoporos Int 24:2135–2152PubMedPubMedCentral
34.
Ferizi U, Honig S, Chang G (2019) Artificial intelligence, osteoporosis and fragility fractures. Curr Opin Rheumatol 31:368–375PubMedPubMedCentral
35.
Burns JE, Yao J, Summers RM (2017) Vertebral body compression fractures and bone density: automated detection and classification on CT images. Radiology 284:788–797PubMedPubMedCentral
36.
Muehlematter UJ, Mannil M, Becker AS et al (2019) Vertebral body insufficiency fractures: detection of vertebrae at risk on standard CT images using texture analysis and machine learning. Eur Radiol 29:2207–2217PubMed
37.
Tomita N, Cheung YY, Hassanpour S (2018) Deep neural networks for automatic detection of osteoporotic vertebral fractures on CT scans. Comput Biol Med 19:8–15
38.
Howlett DC, Drinkwater KJ, Lawrence D, Barter S, Nicholson T (2013) Findings of the UK national audit evaluating image-guided or image-assisted liver biopsy. Part II. Minor and major complications and procedure-related mortality. Radiology 266:26–35
39.
Chalmers N, Jones K, Drinkwater K, Uberoi R, Tawn J (2008) The UK nephrostomy audit. Can a voluntary registry produce robust performance data? Clin Radiol 63:888–894PubMed
40.
Polit DF, Hungler BP (1999) Nursing research: principles and methods. Lippincott-Raven, Philadelphia
41.
Papadakis AE, Karantanas AH, Papadokostakis G, Petinellis E, Damilakis J (2009) Can abdominal multi-detector CT diagnose spinal osteoporosis? Eur Radiol 19:172–176PubMed
42.
Pickhardt PJ, Pooler BD, Lauder T, del Rio AM, Bruce RJ, Binkley N (2013) Opportunistic screening for osteoporosis using abdominal computed tomography scans obtained for other indications. Ann Intern Med 158:588–595PubMedPubMedCentral
43.
Buckens CF, Dijkhuis G, de Keizer B, Verhaar HJ, de Jong PA (2015) Opportunistic screening for osteoporosis on routine computed tomography? An external validation study. Eur Radiol 25:2074–2079PubMed
44.
Alacreu E, Moratal D, Arana E (2017) Opportunistic screening for osteoporosis by routine CT in Southern Europe. Osteporos Int 28:983–990
45.
46.
Löffler MT, Sollmann N, Mei K et al (2020) X-ray-based quantitative osteoporosis imaging at the spine. Osteoporos Int 31(2):233–250PubMed
47.
Lentle BC, Brown JP, Khan A et al (2007) Recognizing and reporting vertebral fractures: reducing the risk of future osteoporotic fractures. Can Assoc Radiol J 58:27–36PubMed
Metadaten
Titel
Radiology reporting of osteoporotic vertebral fragility fractures on computed tomography studies: results of a UK national audit
verfasst von
David C. Howlett
Karl J. Drinkwater
Nadia Mahmood
Jozsef Illes
Jill Griffin
Kassim Javaid
Publikationsdatum
20.05.2020
Verlag
Springer Berlin Heidelberg
Erschienen in
European Radiology / Ausgabe 9/2020
Print ISSN: 0938-7994
Elektronische ISSN: 1432-1084
DOI
https://doi.org/10.1007/s00330-020-06845-2

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