In vivo prostate cancer detection and grading using restriction spectrum imaging-MRI

K. C. McCammack; C. J. Kane; J. K. Parsons; N. S. White; N. M. Schenker-Ahmed; J. M. Kuperman; H. Bartsch; R. S. Desikan; R. A. Rakow-Penner; D. Adams; M. A. Liss; R. F. Mattrey; W. G. Bradley; D. J.A. Margolis; S. S. Raman; A. Shabaik; A. M. Dale; D. S. Karow

doi:10.1038/pcan.2015.61

In vivo prostate cancer detection and grading using restriction spectrum imaging-MRI

K. C. McCammack, C. J. Kane, J. K. Parsons, N. S. White, N. M. Schenker-Ahmed, J. M. Kuperman, H. Bartsch, R. S. Desikan, R. A. Rakow-Penner, D. Adams, M. A. Liss, R. F. Mattrey, W. G. Bradley, D. J.A. Margolis, S. S. Raman, A. Shabaik, A. M. Dale, D. S. Karow

Department of Urology

Producción científica: Article › revisión exhaustiva

22 Citas (Scopus)

Resumen

Background:Magnetic resonance imaging (MRI) is emerging as a robust, noninvasive method for detecting and characterizing prostate cancer (PCa), but limitations remain in its ability to distinguish cancerous from non-cancerous tissue. We evaluated the performance of a novel MRI technique, restriction spectrum imaging (RSI-MRI), to quantitatively detect and grade PCa compared with current standard-of-care MRI.Methods:In a retrospective evaluation of 33 patients with biopsy-proven PCa who underwent RSI-MRI and standard MRI before radical prostatectomy, receiver-operating characteristic (ROC) curves were performed for RSI-MRI and each quantitative MRI term, with area under the ROC curve (AUC) used to compare each term's ability to differentiate between PCa and normal prostate. Spearman rank-order correlations were performed to assess each term's ability to predict PCa grade in the radical prostatectomy specimens.Results:RSI-MRI demonstrated superior differentiation of PCa from normal tissue, with AUC of 0.94 and 0.85 for RSI-MRI and conventional diffusion MRI, respectively (P=0.04). RSI-MRI also demonstrated superior performance in predicting PCa aggressiveness, with Spearman rank-order correlation coefficients of 0.53 (P=0.002) and -0.42 (P=0.01) for RSI-MRI and conventional diffusion MRI, respectively, with tumor grade.Conclusions:RSI-MRI significantly improves upon current noninvasive PCa imaging and may potentially enhance its diagnosis and characterization.

Idioma original	English (US)
Páginas (desde-hasta)	168-173
Número de páginas	6
Publicación	Prostate Cancer and Prostatic Diseases
Volumen	19
N.º	2
DOI	https://doi.org/10.1038/pcan.2015.61
Estado	Published - jun 1 2016

ASJC Scopus subject areas

Urology
Oncology
Cancer Research

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McCammack, K. C., Kane, C. J., Parsons, J. K., White, N. S., Schenker-Ahmed, N. M., Kuperman, J. M., Bartsch, H., Desikan, R. S., Rakow-Penner, R. A., Adams, D., Liss, M. A., Mattrey, R. F., Bradley, W. G., Margolis, D. J. A., Raman, S. S., Shabaik, A., Dale, A. M., & Karow, D. S. (2016). In vivo prostate cancer detection and grading using restriction spectrum imaging-MRI. Prostate Cancer and Prostatic Diseases, 19(2), 168-173. https://doi.org/10.1038/pcan.2015.61

McCammack, KC, Kane, CJ, Parsons, JK, White, NS, Schenker-Ahmed, NM, Kuperman, JM, Bartsch, H, Desikan, RS, Rakow-Penner, RA, Adams, D, Liss, MA, Mattrey, RF, Bradley, WG, Margolis, DJA, Raman, SS, Shabaik, A, Dale, AM & Karow, DS 2016, 'In vivo prostate cancer detection and grading using restriction spectrum imaging-MRI', Prostate Cancer and Prostatic Diseases, vol. 19, n.º 2, pp. 168-173. https://doi.org/10.1038/pcan.2015.61

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title = "In vivo prostate cancer detection and grading using restriction spectrum imaging-MRI",

abstract = "Background:Magnetic resonance imaging (MRI) is emerging as a robust, noninvasive method for detecting and characterizing prostate cancer (PCa), but limitations remain in its ability to distinguish cancerous from non-cancerous tissue. We evaluated the performance of a novel MRI technique, restriction spectrum imaging (RSI-MRI), to quantitatively detect and grade PCa compared with current standard-of-care MRI.Methods:In a retrospective evaluation of 33 patients with biopsy-proven PCa who underwent RSI-MRI and standard MRI before radical prostatectomy, receiver-operating characteristic (ROC) curves were performed for RSI-MRI and each quantitative MRI term, with area under the ROC curve (AUC) used to compare each term's ability to differentiate between PCa and normal prostate. Spearman rank-order correlations were performed to assess each term's ability to predict PCa grade in the radical prostatectomy specimens.Results:RSI-MRI demonstrated superior differentiation of PCa from normal tissue, with AUC of 0.94 and 0.85 for RSI-MRI and conventional diffusion MRI, respectively (P=0.04). RSI-MRI also demonstrated superior performance in predicting PCa aggressiveness, with Spearman rank-order correlation coefficients of 0.53 (P=0.002) and -0.42 (P=0.01) for RSI-MRI and conventional diffusion MRI, respectively, with tumor grade.Conclusions:RSI-MRI significantly improves upon current noninvasive PCa imaging and may potentially enhance its diagnosis and characterization.",

author = "McCammack, {K. C.} and Kane, {C. J.} and Parsons, {J. K.} and White, {N. S.} and Schenker-Ahmed, {N. M.} and Kuperman, {J. M.} and H. Bartsch and Desikan, {R. S.} and Rakow-Penner, {R. A.} and D. Adams and Liss, {M. A.} and Mattrey, {R. F.} and Bradley, {W. G.} and Margolis, {D. J.A.} and Raman, {S. S.} and A. Shabaik and Dale, {A. M.} and Karow, {D. S.}",

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year = "2016",

month = jun,

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doi = "10.1038/pcan.2015.61",

language = "English (US)",

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T1 - In vivo prostate cancer detection and grading using restriction spectrum imaging-MRI

AU - McCammack, K. C.

AU - Kane, C. J.

AU - Parsons, J. K.

AU - White, N. S.

AU - Schenker-Ahmed, N. M.

AU - Kuperman, J. M.

AU - Bartsch, H.

AU - Desikan, R. S.

AU - Rakow-Penner, R. A.

AU - Adams, D.

AU - Liss, M. A.

AU - Mattrey, R. F.

AU - Bradley, W. G.

AU - Margolis, D. J.A.

AU - Raman, S. S.

AU - Shabaik, A.

AU - Dale, A. M.

AU - Karow, D. S.

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Background:Magnetic resonance imaging (MRI) is emerging as a robust, noninvasive method for detecting and characterizing prostate cancer (PCa), but limitations remain in its ability to distinguish cancerous from non-cancerous tissue. We evaluated the performance of a novel MRI technique, restriction spectrum imaging (RSI-MRI), to quantitatively detect and grade PCa compared with current standard-of-care MRI.Methods:In a retrospective evaluation of 33 patients with biopsy-proven PCa who underwent RSI-MRI and standard MRI before radical prostatectomy, receiver-operating characteristic (ROC) curves were performed for RSI-MRI and each quantitative MRI term, with area under the ROC curve (AUC) used to compare each term's ability to differentiate between PCa and normal prostate. Spearman rank-order correlations were performed to assess each term's ability to predict PCa grade in the radical prostatectomy specimens.Results:RSI-MRI demonstrated superior differentiation of PCa from normal tissue, with AUC of 0.94 and 0.85 for RSI-MRI and conventional diffusion MRI, respectively (P=0.04). RSI-MRI also demonstrated superior performance in predicting PCa aggressiveness, with Spearman rank-order correlation coefficients of 0.53 (P=0.002) and -0.42 (P=0.01) for RSI-MRI and conventional diffusion MRI, respectively, with tumor grade.Conclusions:RSI-MRI significantly improves upon current noninvasive PCa imaging and may potentially enhance its diagnosis and characterization.

AB - Background:Magnetic resonance imaging (MRI) is emerging as a robust, noninvasive method for detecting and characterizing prostate cancer (PCa), but limitations remain in its ability to distinguish cancerous from non-cancerous tissue. We evaluated the performance of a novel MRI technique, restriction spectrum imaging (RSI-MRI), to quantitatively detect and grade PCa compared with current standard-of-care MRI.Methods:In a retrospective evaluation of 33 patients with biopsy-proven PCa who underwent RSI-MRI and standard MRI before radical prostatectomy, receiver-operating characteristic (ROC) curves were performed for RSI-MRI and each quantitative MRI term, with area under the ROC curve (AUC) used to compare each term's ability to differentiate between PCa and normal prostate. Spearman rank-order correlations were performed to assess each term's ability to predict PCa grade in the radical prostatectomy specimens.Results:RSI-MRI demonstrated superior differentiation of PCa from normal tissue, with AUC of 0.94 and 0.85 for RSI-MRI and conventional diffusion MRI, respectively (P=0.04). RSI-MRI also demonstrated superior performance in predicting PCa aggressiveness, with Spearman rank-order correlation coefficients of 0.53 (P=0.002) and -0.42 (P=0.01) for RSI-MRI and conventional diffusion MRI, respectively, with tumor grade.Conclusions:RSI-MRI significantly improves upon current noninvasive PCa imaging and may potentially enhance its diagnosis and characterization.

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In vivo prostate cancer detection and grading using restriction spectrum imaging-MRI

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