Trabecular bone architecture in the distal radius using magnetic resonance imaging in subjects with fractures of the proximal femur

S. Majumdar, T. M. Link, Peter Augat, J. C. Lin, D. Newitt, Nancy E Lane, H. K. Genant

Research output: Contribution to journalArticle

143 Citations (Scopus)

Abstract

To determine whether magnetic resonance (MR)-derived measures of trabecular bone architecture in the distal radius are predictive for prevalent hip fractures, 20 subjects with hip fractures and 19 age matched postmenopausal controls were studied. Bone mineral density (BMD) measures at the hip (dual-energy X-ray absorptiometry, DXA) and the distal radius (peripheral quantitative computed tomography, pQCT) were also obtained. We compared the MR-based structural measures derived in the radius with those in the calcaneus of the same patients. In the radius, images were acquired at an in-plane resolution of 156 μm and a slice thickness of 0.5 mm. Stereologic measures such as the apparent trabecular thickness (app. Tb.Th), fractional trabecular bone volume (app. BV/TV), trabecular spacing (app. Tb.Sp) and trabeclfar number (app. Tb.N) were derived from the images. Measures of app. Tb.Sp and app. Tb.N in the distal radius showed significant (p < 0.05) differences between the two groups, as did hip BMD measures. However, radial trabecular BMD measures showed only a marginal difference (p = 0.05). Receiver operating curve analysis was used to determine the diagnostic efficacy of BMD, structural measures and a combination of the two. The area under the curve (AUC) for total hip BMD was 0.73, and for radial trabecular BMD was 0.69. AUC for most of the measures of trabecular bone structure at the distal radius was lower than for hip BMD measures; however, AUC for app. Tb.N at the radius was 0.69, comparable to trabecular BMD using pQCT. The AUC for combined BMD (hip) and structure measures was higher (0.87 when radius and calcaneus structure was included. Measures of trabecular architecture derived from MR images combined with BMD measures improve the discrimination between subjects with hip fractures and normal age-matched controls.

Original languageEnglish (US)
Pages (from-to)231-239
Number of pages9
JournalOsteoporosis International
Volume10
Issue number3
DOIs
StatePublished - 1999
Externally publishedYes

Fingerprint

Bone Density
Femur
Magnetic Resonance Imaging
Pelvic Bones
Area Under Curve
Hip Fractures
Calcaneus
Magnetic Resonance Spectroscopy
Hip
Tomography
Cancellous Bone
Photon Absorptiometry

Keywords

  • Calcaneus
  • High-resolution MRI
  • Osteoporosis
  • Radius structural analysis
  • Trabecular bone

ASJC Scopus subject areas

  • Medicine(all)

Cite this

Trabecular bone architecture in the distal radius using magnetic resonance imaging in subjects with fractures of the proximal femur. / Majumdar, S.; Link, T. M.; Augat, Peter; Lin, J. C.; Newitt, D.; Lane, Nancy E; Genant, H. K.

In: Osteoporosis International, Vol. 10, No. 3, 1999, p. 231-239.

Research output: Contribution to journalArticle

Majumdar, S. ; Link, T. M. ; Augat, Peter ; Lin, J. C. ; Newitt, D. ; Lane, Nancy E ; Genant, H. K. / Trabecular bone architecture in the distal radius using magnetic resonance imaging in subjects with fractures of the proximal femur. In: Osteoporosis International. 1999 ; Vol. 10, No. 3. pp. 231-239.
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AU - Newitt, D.

AU - Lane, Nancy E

AU - Genant, H. K.

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AB - To determine whether magnetic resonance (MR)-derived measures of trabecular bone architecture in the distal radius are predictive for prevalent hip fractures, 20 subjects with hip fractures and 19 age matched postmenopausal controls were studied. Bone mineral density (BMD) measures at the hip (dual-energy X-ray absorptiometry, DXA) and the distal radius (peripheral quantitative computed tomography, pQCT) were also obtained. We compared the MR-based structural measures derived in the radius with those in the calcaneus of the same patients. In the radius, images were acquired at an in-plane resolution of 156 μm and a slice thickness of 0.5 mm. Stereologic measures such as the apparent trabecular thickness (app. Tb.Th), fractional trabecular bone volume (app. BV/TV), trabecular spacing (app. Tb.Sp) and trabeclfar number (app. Tb.N) were derived from the images. Measures of app. Tb.Sp and app. Tb.N in the distal radius showed significant (p < 0.05) differences between the two groups, as did hip BMD measures. However, radial trabecular BMD measures showed only a marginal difference (p = 0.05). Receiver operating curve analysis was used to determine the diagnostic efficacy of BMD, structural measures and a combination of the two. The area under the curve (AUC) for total hip BMD was 0.73, and for radial trabecular BMD was 0.69. AUC for most of the measures of trabecular bone structure at the distal radius was lower than for hip BMD measures; however, AUC for app. Tb.N at the radius was 0.69, comparable to trabecular BMD using pQCT. The AUC for combined BMD (hip) and structure measures was higher (0.87 when radius and calcaneus structure was included. Measures of trabecular architecture derived from MR images combined with BMD measures improve the discrimination between subjects with hip fractures and normal age-matched controls.

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