S
Sharmila Majumdar
Researcher at University of California, San Francisco
Publications - 505
Citations - 29773
Sharmila Majumdar is an academic researcher from University of California, San Francisco. The author has contributed to research in topics: Osteoarthritis & Cartilage. The author has an hindex of 88, co-authored 477 publications receiving 27074 citations. Previous affiliations of Sharmila Majumdar include University of California & Georgia Regents University.
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A review of the recent advances in magnetic resonance imaging in the assessment of osteoporosis
TL;DR: New techniques for assessing osteoporosis and predicting fracture risk are reviewed in this paper, including studies aimed at quantifying marrow relaxation times and establishing their relationship to trabecular bone density and structure.
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Lactic acid and proteoglycans as metabolic markers for discogenic back pain.
Kayvan R. Keshari,Jeffrey C. Lotz,Thomas M. Link,Serena S. Hu,Sharmila Majumdar,John Kurhanewicz +5 more
TL;DR: The results suggest that spectroscopic markers of proteoglycan, collagen, and lactate may serve as metabolic markers of discogenic back pain.
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Magnetic resonance imaging of patellofemoral kinematics with weight-bearing.
Vikas V. Patel,Katherine W. Hall,Michael D. Ries,Colleen T. Lindsey,Eugene Ozhinsky,Ying Lu,Sharmila Majumdar +6 more
TL;DR: Lateral patellar tilt and subluxation observed during arthroscopy of the extended knee may not represent a pathological condition and the patella was reduced into the trochlear groove at 30 degrees of flexion, suggesting that soft tissue and bone can be accurately quantified with magnetic resonance imaging.
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High-resolution MRI and micro-FE for the evaluation of changes in bone mechanical properties during longitudinal clinical trials: application to calcaneal bone in postmenopausal women after one year of idoxifene treatment.
TL;DR: The present study is the first demonstration that longitudinal changes in bone mechanical properties due to trabecular micro-architectural changes may be quantified in long-term clinical studies, and concludes that the application of these techniques may increase the clinical significance of these trials.
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Contribution of inter-site variations in architecture to trabecular bone apparent yield strains.
Elise F. Morgan,Harun H. Bayraktar,Oscar C. Yeh,Sharmila Majumdar,Sharmila Majumdar,Andrew J. Burghardt,Tony M. Keaveny +6 more
TL;DR: Results of ancillary analyses designed to test the validity of the small deformation assumption strongly suggested that the propensity to undergo large deformations constitutes an important contribution of architecture to inter-site variations in apparent compressive yield strains.