BROOKLYN 3 STUDENTS Amy CAMPBELL

1. ABSTRACT Presentation of student research: Background: Paediatric fractures are common childhood occurrences with many children being assessed for suspected fractures nationwide every year. Increasing awareness and focus on optimising and reducing paediatric dose from ionizing radiation, such as the Image Gently campaign, has fuelled research into the adaption of ultrasound for the diagnosis of paediatric fractures as an alternative to the use of x-rays. Methodology: Literature review included 13 peer-reviewed articles dating from 2000-2011. Key words: medical imaging, paediatric, child*, fracture, diagnosis, ultrasound, sonograph*, & trauma Results: Ultrasound provided high accuracy for diagnosing paediatric fractures (Sensitivity 92%, Specificity 94%) although decreased accuracy was found for complex, un-displaced, joint involved, and growth plate injuries. None of the research found utilised sonographers as the ultrasound scan performer. The research focussed on limited use of ultrasound through role-extension for nurses and emergency physicians to answer simple clinical questions when sonographers are not available. Conclusion: The extended use of ultrasound for diagnosing paediatric mid-shaft long bone fractures has been found to be sufficient to justify its use as an alternative to x-rays, particularly for forearm fractures which account for 25-40% of all paediatric fractures. New Zealand based clinical trials, and the development of formalised training is recommended as possible areas for further research in this area. Fri 30thAug 2013 Session 3 / Talk 3 13:30 – 13:40 BROOKLYN 3 STUDENTS Amy CAMPBELL

2. The role of ultrasound in the diagnosis of paediatric fractures Amy Campbell

3. BACKGROUND

4. Background • Fractures are common childhood occurances • X-rays are currently used to diagnose and follow up paediatric fractures • Paediatrics have higher risks from radiation due to their developing bodies • Increased focus on optimising and reducing paediatric doses such as the “Image gently” campaign and ‘ALARA’ NRLC5

5. Paediatric fractures • Often regarded as difficult to diagnose • Variable growth appearances • Flexible immature bones results in typical paediatric fractures • Greenstick, torus, bowing • Growth plate injuries

6. Benefits of ultrasound • Non ionising • No known bio effects on patients • Developments in ultrasound have resulted in extension of its use beyond soft tissue imaging

7. ULTRASOUND Technique

8. Ultrasound technique • Bone is highly visible on ultrasound due to the large differences in acoustic impedance between bone and soft tissue • Outer cortex and periosteum of bone is highly visible as a hyperechoic, white region on ultrasound images X-ray (left) and ultrasound (right) images of a distal radius fracture (Hübner, Schlicht, Outzen, Barthel, & Halsband, 2000, p.1171)

9. Direct cortical signs: • Steps • Breaks • Kinks • Irregularities Soft tissue changes: • Raised fat pads • Haematomas • Periosteal lesions Ultrasound image of paediatric fracture (Weinburg, Tunik, & Tsung, 2010, p.864).

10. Ultrasound images of paediatric fractures (Weinburg, Tunik, & Tsung, 2010, p.864).

11. Scanning equipment

12. Scanning process Scanning technique for distal radius fractures (Cross, 2010, p.33)

13. Long axis Short axis Ultrasound appearances of a transverse phantom fracture in long axis (left) and short axis (right) planes (Heiner et al., 2010, p121)

14. Limitations of Ultrasound • Wrist & ankle bones unable to be demonstrated • Image quality reduced with increased skin to bone distance • Requires direct contact with the surface of the affected limb • It is not suitable for open or unstable fractures

15. Accuracy

16. Accuracy of ultrasound Ultrasound has high sensitivity & specificity for diagnosing paediatric fractures

17. Ultrasound is a suitable alternative to x-rays for diagnosing simple mid-shaft long bone fractures • Sources of errors • Majority involve growth plates • Complex fractures • Undisplaced fractures • Non-long bone fractures

18. Ultrasound scan performer • Accuracy of ultrasound was found to increase with user experience • Limited use of ultrasound by emergency physicians vs. Sonographers • However, for simple fractures, nurses with one hour of training were found to have equal accuracy to those with more ultrasound experience Ultrasound diagnosis of simple paediatric fractures can be easily learnt with training as little as one hour

19. Conclusion

20. Application • So what does this research mean? • Ultrasound is not currently being utilised for diagnosing fractures in New Zealand • Ultrasound has been shown to be easily learnt, and accurate with simple fractures • However, ultrasound is unlikely to fully replace x-rays in the diagnosis and management of fractures

21. Recommended use of ultrasound Recommended paediatric patient management pathway for suspected paediatric fractures (adapted from Hübner et al., 2000)

22. Final words.... • Ultrasound has been shown to have high accuracy & to be effective in identifying cases of non-complex, mid-shaft long-bone fractures. • The use of ultrasound for fracture diagnosis supports the growing emphasis on reducing paediatric radiation exposures • Ultrasound will not entirely replace the role of planar x-rays due to it’s lower accuracy & the importance of correct diagnosis.

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