Translations on this website are prepared by a third-party provider. Some portions may be incorrect. Some items—including downloadable files or images—cannot be translated at all. No liability is assumed by Beth Israel Deaconess Medical Center for any errors or omissions. Any user who relies on translated content does so at his/her own risk.
Lesperance LM, Gray ML, Burstein D. Determination of fixed charge
density in cartilage using nuclear magnetic resonance. J Orthop Res 1992; 10:1-13.
Burstein D, Gray ML, Hartman AL, Gipe R, Foy BD. Diffusion of small
solutes in cartilage as measured by nuclear magnetic resonance (NMR)
spectroscopy and imaging. J Orthop Res 1993; 11:465-478.
Donahue KM, Burstein D, Manning WJ, Gray ML. Studies of Gd-DTPA
relaxivity and proton exchange rates in tissue. Magn Reson Med
Gray ML, Burstein D, Lesperance LM, Gehrke L. Magnetization transfer in
cartilage and its constituent macromolecules. Magn Reson Med
Bashir A, Gray ML, Burstein D. Gd-DTPA2- as a measure of cartilage
degradation. Magn Reson Med 1996; 36:665-673.
Bashir A, Gray ML, Boutin R, Burstein D. In vivo imaging of GAG in
articular cartilage using delayed Gd(DTPA)2- enhanced MRI. Radiology 1997; 205: 551-558.
Allen RG, Burstein D, Gray ML. Monitoring Glycosaminoglycan
Replenishment in Cartilage Explants with Gadolinium Enhanced MRI. J Orthop Res, 1999; 17: 430-436.
Bashir A, Gray ML, Hartke J, Burstein D. Nondestructive Imaging of
Human Cartilage Glycosaminoglycan Concentration by MRI. Magn Reson Med 1999; 41:857-865.
Burstein D, Bashir A, Gray ML. MRI techniques in early stages of
cartilage disease. Investigative Radiol. 2000; 35: 622-638.
Burstein D, Velyvis JH, Scott KT, Stock KW, Kim YJ, Jaramillo D, Boutin
RD, Gray ML. Protocol issues for delayed Gd(DTPA)2- enhanced MR imaging
(dGEMRIC) for clinical evaluation of cartilage. Magn Reson Med
Recht M, Bobic V, Burstein D, Disler D, Gold G, Gray M, Kramer J, Lang
P, McCauley T, Winalski C. Magnetic resonance imaging of articular
cartilage. Clin Ortho Related Research 2001; 391S: S379-S396.
Gray M, Burstein D, Xia Y. Biochemical (and functional) imaging of
articular cartilage. Semin Musculoskelet Radiol. 2001; 5 (4):
Gillis A, Bashir A, McKeon B, Scheller A, Gray ML, Burstein D. Magnetic
resonance imaging of relative glycosaminoglycan distribution in
patients with autologous chondrocyte transplants. Investigative Radiol, 2001; 36: 743-748.
Henkelman RM, Stanisz GJ, Menezes N, Burstein D. Can MTR be used to
assess cartilage in the presence of Gd-DTPA2-? Magn Reson Med.
Gillis A, Gray M, Burstein D. Relaxivity and diffusion of gadolinium
agents in cartilage. Magn Reson Med. 2002;48:1068-71.
Williams A, Oppenheimer RA, Gray ML, Burstein D. Differential recovery
of GAG after IL-induced degradation of bovine articular cartilage
depends on degree of degradation. Arthritis Research, 2003; 5:R97-105.
Kim Y-J, Jaramillo D, Millis MB, Gray ML, Burstein D. Assessment of
early osteoarthritis in hip dysplasia using delayed Gadolinium Enhanced
MRI of Cartilage. J Bone Joint Surgery, 2003; 85-A: 1987-1992.
Burstein D, Gray ML. New MRI techniques for imaging cartilage. J Bone
Joint Surgery, 2003; 85-A:70-77.
Burstein D, Gray ML. Potential of molecular imaging of cartilage.
Sports Med Arthroscopy Review 2003; 11:182-191.
Williams A, Gillis A, McKenzie C, Po B, Sharma L, Micheli L, McKeon B,
Burstein D. Glycosaminoglycan distribution in cartilage as determined
by delayed gadolinium enhanced MRI of cartilage (dGEMRIC): Potential
clinical applications. Amer J. Roentgenology, 2004; 182:167-172.
Menezes N, Gray M, Harke J, Burstein D. T2 and T1rho MRI in Articular
Cartilage Systems. Magn Reson Med, 2004; 51:503-509.
Nieminen M, Menezes N, Williams A, Burstein D. T2 of Articular
Cartilage in the Presence of Gd-DTPA2-. Magn Reson Med, 2004;
Samosky J, Burstein D, Grimson WE, Howe R, Martin S, Gray ML.
Correlation of GAG distribution measured by dGEMRIC and
spatially-localized mechanical stiffness in the human tibial plateau. J
Orthop Res., in press.
Burstein D, McKenzie C, Williams A. The potential for misinterpretation
of combined T1/T2 weighted contrast enhanced MRI of cartilage.
Radiology, in press.
Hartman, A. Diffusion Coefficient of Protons in Compressed Cartilage,
February 1991 (MIT, Mechanical Engineering).
Bashir, A. Sodium NMR Relaxation Parameters in Cartilage: Implications
for MR Imaging, February 1995 (MIT, Electrical Engineering and Computer
Allen, G.R. Mechanical Properties of Selectively Degraded Cartilage
Explants: Correlation to the Spatiotemporal Distribution of
Glycosaminoglycans, September 1996 (MIT, Mechanical Engineering).
Williams, A. Regeneration of Cartilage Glycosaminoglycan After
Degradation by Interleukin-1, January 2001 (MIT, Electrical Engineering
and Computer Science).
Liu, A. The Dependence of NMR Measured Diffusion, Magnetization
Transfer, and T2 Relaxation on Fractional Water Content in Bovine
Articular Cartilage, June 1995 (MIT, Electrical Engineering and
Thomas, A. Two Compartment Model for Ion Distribution in Cartilage,
December 1997 (MIT, Electrical Engineering and Computer Science).
Po, B. Graphical Interface for Quantitative T1 and T2 Mapping of MRI
Data. M.Eng. Thesis, Massachusetts Institute of Technology, 2001.
Raman, C. Proton Diffusivity in Cartilage and Cartilage Macromolecules
Using Nuclear Magnetic Resonance, June 1995 (Harvard-MIT Division of
Lesperance, L.M. Ionic Properties of Cartilage: Determination by NMR
Spectroscopy, July 1993 (MIT HST MEMP).
Donahue, K.M. Studies of Gd-DTPA Relaxivity and Proton Exchange Rates
in Tissue with Implications for MR Imaging of Regional Myocardial
Perfusion, August 1993 (MIT HST MEMP)
Bashir, A. Magnetic Resonance Imaging of Tissue Fixed Charge Density,
June 1997 (MIT, Electrical Engineering and Computer Science).
Samosky, J. Measuring, Modeling and Validating Articular Cartilage,
June 2002 (MIT HST MEMP).
Menezes N. Comparison of Relaxation Contrast Methods for Magnetic
Resonance Imaging of Articular Cartilage Degradation, Sept 2002 (MIT