High-resolution imaging using Hadamard encoding.

High-resolution imaging techniques using noninvasive modalities such as magnetic resonance (MR) imaging are being pursued as in vivo cancer screening techniques in an attempt to eliminate the invasive nature of surgical biopsy. When acquiring high-resolution MR images for tissue screening, image fields of view have in the past been limited by the matrix sizes available in conventional MR scanners. We present here a technique that uses aliasing to produce high resolution images with larger matrix sizes than are currently available. The image is allowed to alias in both the frequency encoding and phase encoding dimensions, and the individual, aliased fields of view are recovered by Hadamard encoding methods. These fields may then be tiled to obtain a composite image with high spatial resolution and a large field of view. The technique is demonstrated using two-dimensional and three-dimensional in vivo imaging of the human brain and breast.

[1]  G. Goelman Fast Hadamard spectroscopic imaging techniques. , 1994, Journal of magnetic resonance. Series B.

[2]  John S. Leigh,et al.  Hadamard spectroscopic imaging (HSI) for multivolume localization , 1988 .

[3]  G. Goelman,et al.  Hadamard spectroscopic imaging technique as applied to study human calf muscles , 1992, Magnetic resonance in medicine.

[4]  D. Shungu,et al.  Sensitivity and localization enhancement in multinuclear in vivo NMR spectroscopy by outer volume presaturation , 1993, Magnetic resonance in medicine.

[5]  John S. Leigh,et al.  Transverse Hadamard spectroscopic imaging technique , 1990 .

[6]  M. Prammer,et al.  A multiple-frequency coil with a highly uniform B1 field , 1989 .

[7]  Double‐echo multislice proton spectroscopic imaging using Hadamard slice encoding , 1994, Magnetic resonance in medicine.

[8]  L. Bolinger,et al.  Mapping of the Radiofrequency Field , 1993 .

[9]  Meir Shinnar,et al.  The synthesis of soft pulses with a specified frequency response , 1989, Magnetic resonance in medicine.

[10]  T R Brown,et al.  Hybrid Three Dimensional (1D‐Hadamard, 2D‐Chemical Shift Imaging) Phosphorus Localized Spectroscopy of Phantom and Human Brain , 1995, Magnetic resonance in medicine.

[11]  Andrew A. Maudsley,et al.  Multiple-line-scanning spin density imaging , 1980 .

[12]  J. Leigh,et al.  The synthesis of pulse sequences yielding arbitrary magnetization vectors , 1989, Magnetic resonance in medicine.

[13]  L Bolinger,et al.  The use of finite impulse response filters in pulse design , 1989, Magnetic resonance in medicine.

[14]  Hoult,et al.  Selective spin inversion in nuclear magnetic resonance and coherent optics through an exact solution of the Bloch-Riccati equation. , 1985, Physical review. A, General physics.

[15]  D Matthaei,et al.  Multipurpose NMR imaging using stimulated echoes , 1986, Magnetic resonance in medicine.

[16]  J Szumowski,et al.  SIMA: Simultaneous Multislice Acquisition of MR Images by Hadamard‐Encoded Excitation , 1988, Journal of computer assisted tomography.

[17]  J. S. Leigh,et al.  Biplanar Radiofrequency Coil Design , 1993 .

[18]  M. S. Silver,et al.  Highly selective {π}/{2} and π pulse generation , 1984 .