6533b86dfe1ef96bd12ca1c2
RESEARCH PRODUCT
Impact of an intensive education programme of diagnostic lung and lower limb ultrasound on physiotherapist knowledge: A pilot study.
George NtoumenopoulosAymeric Le NeindreSelina M Parrysubject
medicine.medical_specialtyLungRadiological and Ultrasound TechnologyDescriptive statisticsbusiness.industryUltrasound030208 emergency & critical care medicineKnowledge acquisitionLower limbDiaphragm (structural system)03 medical and health sciences0302 clinical medicineLower limb musclemedicine.anatomical_structure030228 respiratory systemPhysical therapyImage acquisitionMedicineRadiology Nuclear Medicine and imagingbusinessOriginal Researchdescription
INTRODUCTION/PURPOSE: Diagnostic ultrasound of the respiratory system and peripheral muscular systems is increasingly being used by clinicians. The aim of this study was to evaluate the knowledge outcomes of a bespoke one‐day curriculum for physiotherapists that incorporated lung, diaphragm and lower limb muscle diagnostic ultrasound theory and practical training in image acquisition and analysis. METHODS: A one‐day course comprised of three instructors and 32 participants on key diagnostic ultrasound findings of the lungs, diaphragm and lower limb musculature included didactic lectures combined with expert‐led hands‐on training in practical sessions. Participants undertook pre‐ and post‐course knowledge questionnaire covering key ultrasound findings for normal lungs, pleural/pulmonary pathologies and normal and abnormal findings for the diaphragm and key lower limb muscle groups. The pre‐test and post‐test questionnaire and survey results were reported using parametric descriptive statistics (means SD) as the data were normally distributed. RESULTS: Of the 32 physiotherapists who undertook the one‐day training, 25 (78%) completed the pre‐ and post‐course questionnaires. The pre‐course knowledge scores (mean percentage, SD) were 63% (21), and the post‐course scores were 62% (20) after training. DISCUSSION: This novel diagnostic ultrasound course led to limited improvements of ultrasound knowledge in the specific areas of the key ultrasound findings pulmonary system and lower limb muscle anatomy. The pre‐reading material and course structure may have been too burdensome for the participants. CONCLUSION: Combined lung and muscle diagnostic ultrasound course may require more than the standard one‐day training for appropriate knowledge acquisition, and use of online pre‐course video lectures may facilitate learning.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-11-11 | Australasian journal of ultrasound in medicine |