OBJECTIVE: In previous research, high spectral and spatial resolution (HiSS) echo-planar spectroscopic imaging (EPSI) was successfully applied to the human breast, obtaining improved contrast, anatomic detail, and sensitivity to contrast agents. To test HiSS in the clinical setting, we used HiSS MRI to image 30 women with suspicious breast lesions. SUBJECTS AND METHODS: Women with suspicious breast lesions were scanned before and after contrast administration using EPSI at 1.5 T (0.63-mm in-plane resolution, 2.6-Hz spectral resolution). Images with intensity proportional to the water signal peak height in each voxel were synthesized and compared with standard clinical fat-saturated and early dynamic subtraction images. Pre- and postcontrast HiSS images were compared to assess the effect of the contrast agent on water resonance structure. RESULTS: HiSS images scored significantly better than standard clinical images in lesion conspicuity, margin definition, and internal definition, even though they were acquired before contrast agent injection. Fat suppression was more complete and uniform and detail was shown on HiSS images more clearly than on conventional fat-saturation images. Thus, HiSS images often allowed easier evaluation of the lesion. Contrast agent-affected changes were often spatially and spectrally inhomogeneous. CONCLUSION: HiSS scans were successfully integrated into standard clinical examinations and provided diagnostically useful images before contrast agent injection. Thus, it might be possible to characterize suspicious lesions on the basis of precontrast high-resolution spectral information. This information and information about the effect of contrast agents could potentially improve the specificity of breast MRI.
OBJECTIVE: In previous research, high spectral and spatial resolution (HiSS) echo-planar spectroscopic imaging (EPSI) was successfully applied to the human breast, obtaining improved contrast, anatomic detail, and sensitivity to contrast agents. To test HiSS in the clinical setting, we used HiSS MRI to image 30 women with suspicious breast lesions. SUBJECTS AND METHODS: Women with suspicious breast lesions were scanned before and after contrast administration using EPSI at 1.5 T (0.63-mm in-plane resolution, 2.6-Hz spectral resolution). Images with intensity proportional to the water signal peak height in each voxel were synthesized and compared with standard clinical fat-saturated and early dynamic subtraction images. Pre- and postcontrast HiSS images were compared to assess the effect of the contrast agent on water resonance structure. RESULTS: HiSS images scored significantly better than standard clinical images in lesion conspicuity, margin definition, and internal definition, even though they were acquired before contrast agent injection. Fat suppression was more complete and uniform and detail was shown on HiSS images more clearly than on conventional fat-saturation images. Thus, HiSS images often allowed easier evaluation of the lesion. Contrast agent-affected changes were often spatially and spectrally inhomogeneous. CONCLUSION: HiSS scans were successfully integrated into standard clinical examinations and provided diagnostically useful images before contrast agent injection. Thus, it might be possible to characterize suspicious lesions on the basis of precontrast high-resolution spectral information. This information and information about the effect of contrast agents could potentially improve the specificity of breast MRI.
Authors: Milica Medved; Xiaobing Fan; Hiroyuki Abe; Gillian M Newstead; Abbie M Wood; Akiko Shimauchi; Kirti Kulkarni; Marko K Ivancevic; Lorenzo L Pesce; Olufunmilayo I Olopade; Gregory S Karczmar Journal: Acad Radiol Date: 2011-10-01 Impact factor: 3.173
Authors: Hui Li; William A Weiss; Milica Medved; Hiroyuki Abe; Gillian M Newstead; Gregory S Karczmar; Maryellen L Giger Journal: J Med Imaging (Bellingham) Date: 2016-12-28
Authors: Elizabeth Hipp; Xiaobing Fan; Sanaz A Jansen; Erica J Markiewicz; James Vosicky; Gillian M Newstead; Suzanne D Conzen; Thomas Krausz; Gregory S Karczmar Journal: Med Phys Date: 2012-03 Impact factor: 4.071
Authors: Chad R Haney; Charles A Pelizzari; Sean Foxley; Marta A Zamora; Devkumar Mustafi; Maria Tretiakova; Shihong Li; Xiaobing Fan; Gregory S Karczmar Journal: Mol Imaging Date: 2011-03-01 Impact factor: 4.488
Authors: S A Jansen; S D Conzen; X Fan; T Krausz; M Zamora; S Foxley; J River; G M Newstead; G S Karczmar Journal: Phys Med Biol Date: 2008-09-09 Impact factor: 3.609