Abstract

Osteoporosis is a debilitating disease causing skeletal impairment resulting from loss of cancellous and cortical bone, eventually leading to fractures of the femur, vertebrae, wrist and humerus. Current methods for assessment of skeletal competence rely almost entirely on bone mineral density (BMD), which is widely considered the primary risk factor for the occurrence of fractures. However, the recognition that mass density is an unsatisfactory predictor of bone strength has, more recently, spurred the search for alternative modalities focusing on 'bone quality,' notably architecture. The P.I. and his co-workers have, during the prior phases of this project, shown theoretically and experimentally that the susceptibility-induced MR signal decay rate (R2') is related to the density and orientation of the trabeculae and that this parameter is able to predict the bone's elastic modulus in vitro. Further, clinical evidence was provided that decreased trabecular bone marrow R2' augments the probability for the occurrence of vertebral fractures and that BMD and R2' jointly improve fracture prediction. The central hypothesis to be tested is that, along with improved methodology and a new MR-based measurement of trabecular bone volume fraction (BVF), a single-modality examination that evaluates both R2' and BVF, better predicts fractures than bone densitometry. We shall examine the above hypothesis by pursuing the aims below; specifically, we shall 1. Further develop and validate improved methodology for acquiring and processing quantitative MR data for measuring R2', conceived during the current cycle of the project. 2. Evaluate a new MR method for measuring cancellous bone volume fraction and assess its relationship to R2' in cancellous bone models and specimens. 3. Measure both R2' and BVF in a cohort of peri- and postmenopausal normal, osteopenic and osteoporotic women and determine the association between the two independently measured parameters and DEXA BMD. 4. Determine the diagnostic accuracy of the techniques of Aims 1 and 2 relative to DEXA BMD z-scores as a means to assess fracture status in the spine in the subjects examined under Aim 3.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR040671-08
Application #
6055587
Study Section
Diagnostic Radiology Study Section (RNM)
Program Officer
Mcgowan, Joan A
Project Start
1991-07-01
Project End
2001-07-31
Budget Start
1999-09-01
Budget End
2000-08-31
Support Year
8
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
University of Pennsylvania
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104

  Publications

Wehrli, Felix W; Song, Hee Kwon; Saha, Punam K et al. (2006) Quantitative MRI for the assessment of bone structure and function. NMR Biomed 19:731-64
Gomberg, Bryon R; Saha, Punam K; Wehrli, Felix W (2005) Method for cortical bone structural analysis from magnetic resonance images. Acad Radiol 12:1320-32
Wehrli, F W; Hwang, S N; Ma, J et al. (1998) Cancellous bone volume and structure in the forearm: noninvasive assessment with MR microimaging and image processing. Radiology 206:347-57
Song, H K; Wehrli, F W; Ma, J (1997) Field strength and angle dependence of trabecular bone marrow transverse relaxation in the calcaneus. J Magn Reson Imaging 7:382-8
Ma, J; Wehrli, F W; Song, H K et al. (1997) A single-scan imaging technique for measurement of the relative concentrations of fat and water protons and their transverse relaxation times. J Magn Reson 125:92-101
Ma, J; Wehrli, F W; Song, H K (1996) Fast 3D large-angle spin-echo imaging (3D FLASE). Magn Reson Med 35:903-10
Ma, J; Wehrli, F W (1996) Method for image-based measurement of the reversible and irreversible contribution to the transverse-relaxation rate. J Magn Reson B 111:61-9
Wehrli, F W; Ford, J C; Haddad, J G (1995) Osteoporosis: clinical assessment with quantitative MR imaging in diagnosis. Radiology 196:631-41
Wehrli, F W; Ford, J C; Chung, H W et al. (1993) Potential role of nuclear magnetic resonance for the evaluation of trabecular bone quality. Calcif Tissue Int 53 Suppl 1:S162-9
Chung, H; Wehrli, F W; Williams, J L et al. (1993) Relationship between NMR transverse relaxation, trabecular bone architecture, and strength. Proc Natl Acad Sci U S A 90:10250-4

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