Duane P. Flamig scite author profile

An investigative study was undertaken to determine the potential for a new magnetic resonance (MR) imaging technique, RODEO (rotating delivery of excitation off resonance), for use as a diagnostic imaging tool for the breast. The RODEO technique provides fat suppression with T1 weighting and is ideal for gadolinium-enhanced breast imaging. It is a short repetition time, steady-state sequence for high-resolution three-dimensional acquisitions and provides a clinically efficient imaging time of approximately 5 minutes for 128 sections. Imaging findings were correlated with serially sectioned pathologic specimens in 30 breasts with 47 malignant and 27 benign lesions. MR imaging had a sensitivity of 94% and a specificity of 37%. MR imaging depicted additional cancers not seen at mammography in 11 of the 30 patients (37%). The lesions not seen at mammography varied in size from 3 mm to 12 cm. RODEO MR imaging may be used to improve diagnosis of breast cancer in patients with mammographically dense breasts or silicone implants/injections and to stage disease in patients who are candidates for lumpectomy.

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A physics-based coordinate transformation for 3-D image matching

Davis

Khotanzad

Flamig

et al. 1997

IEEE Trans. Med. Imaging

237

138

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Many image matching schemes are based on mapping coordinate locations, such as the locations of landmarks, in one image to corresponding locations in a second image. A new approach to this mapping (coordinate transformation), called the elastic body spline (EBS), is described. The spline is based on a physical model of a homogeneous, isotropic three-dimensional (3-D) elastic body. The model can approximate the way that some physical objects deform. The EBS as well as the affine transformation, the thin plate spline [1], [2] and the volume spline [3] are used to match 3-D magnetic resonance images (MRI's) of the breast that are used in the diagnosis and evaluation of breast cancer. These coordinate transformations are evaluated with different types of deformations and different numbers of corresponding (paired) coordinate locations. In all but one of the cases considered, using the EBS yields more similar images than the other methods.

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MR imaging in the management before surgery of lobular carcinoma of the breast: correlation with pathology.

Rodenko¹,

Harms²,

Pruneda³

et al. 1996

American Journal of Roentgenology

159

121

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Three-dimensional RODEO breast MR imaging of lesions containing ductal carcinoma in situ.

Soderstrom¹,

Harms²,

Copit³

et al. 1996

Radiology

149

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Human in vivo phosphate metabolite imaging with ³¹P NMR

Bottomley

Charles²,

Roemer

et al. 1988

Magnetic Resonance in Med

133

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Phosphorus (31P) spectroscopic images showing the distribution of high-energy phosphate metabolites in the human brain have been obtained at 1.5 T in scan times of 8.5 to 34 min at 27 and 64 cm3 spatial resolution using pulsed phase-encoding gradient magnetic fields and three-dimensional Fourier transform (3DFT) techniques. Data were acquired as free induction decays with a quadrature volume NMR detection coil of a truncated geometry designed to optimize the signal-to-noise ratio on the coil axis on the assumption that the sample noise represents the dominant noise source, and self-shielded magnetic field gradient coils to minimize eddy-current effects. The images permit comparison of metabolic data acquired simultaneously from different locations in the brain, as well as metabolite quantification by inclusion of a vial containing a standard of known 31P concentration in the image array. Values for the NMR visible adenosine triphosphate in three individuals were about 3 mM of tissue. The ratio of NMR detectable phosphocreatine to ATP in brain was 1.15 +/- 0.17 SD in these experiments. Potential sources of random and systematic error in these and other 31P measurements are identified.

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Duane P. Flamig

MR imaging of the breast with rotating delivery of excitation off resonance: clinical experience with pathologic correlation.

A physics-based coordinate transformation for 3-D image matching

MR imaging in the management before surgery of lobular carcinoma of the breast: correlation with pathology.

Three-dimensional RODEO breast MR imaging of lesions containing ductal carcinoma in situ.

Human in vivo phosphate metabolite imaging with ³¹P NMR

Contact Info

Product

Resources

About

Duane P. Flamig

MR imaging of the breast with rotating delivery of excitation off resonance: clinical experience with pathologic correlation.

A physics-based coordinate transformation for 3-D image matching

MR imaging in the management before surgery of lobular carcinoma of the breast: correlation with pathology.

Three-dimensional RODEO breast MR imaging of lesions containing ductal carcinoma in situ.

Human in vivo phosphate metabolite imaging with 31P NMR

Contact Info

Product

Resources

About

Human in vivo phosphate metabolite imaging with ³¹P NMR