Open AccessOptimizing Reliability of Digital Inclinometer and Flexicurve Ruler Measures of Spine Curvatures in Postmenopausal Women with Osteoporosis of the Spine: An Illustration of the Use of Generalizability Theory
Author(s) -
Norma J. MacIntyre,
Lisa Bennett,
Alison M. Bonnyman,
Paul W. Stratford
Publication year - 2011
Publication title -
isrn rheumatology
Language(s) - English
Resource type - Journals
eISSN - 2090-5475
pISSN - 2090-5467
DOI - 10.5402/2011/571698
Subject(s) - generalizability theory , inclinometer , reliability (semiconductor) , spinal curvatures , protocol (science) , osteoporosis , medicine , inter rater reliability , orthodontics , computer science , mathematics , radiology , statistics , rating scale , pathology , alternative medicine , physics , cartography , quantum mechanics , lumbar , power (physics) , geography
The study illustrates the application of generalizability theory (G-theory) to identify measurement protocols that optimize reliability of two clinical methods for assessing spine curvatures in women with osteoporosis. Triplicate measures of spine curvatures were acquired for 9 postmenopausal women with spine osteoporosis by two raters during a single visit using a digital inclinometer and a flexicurve ruler. G-coefficients were estimated using a G-study, and a measurement protocol that optimized inter-rater and inter-trial reliability was identified using follow-up decision studies. The G-theory provides reliability estimates for measurement devices which can be generalized to different clinical contexts and/or measurement designs.
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