Intradiscal quantitative chemical exchange saturation transfer MRI signal correlates with discogenic pain in human patients

Gadi Pelled; Margaux M. Salas; Pei Han; Howard E. Gill; Karl A. Lautenschlager; Tristan T. Lai; Cameron M. Shawver; Matthew B. Hoch; Brandon J. Goff; Aaron M. Betts; Zhengwei Zhou; Cody Lynch; Grant Schroeder; Maxim Bez; Marcel M. Maya; Catherine Bresee; Zulma Gazit; John P. McCallin; Dan Gazit; Debiao Li

doi:10.1038/s41598-021-97672-y

Intradiscal quantitative chemical exchange saturation transfer MRI signal correlates with discogenic pain in human patients

Gadi Pelled^*, Margaux M. Salas, Pei Han, Howard E. Gill, Karl A. Lautenschlager, Tristan T. Lai, Cameron M. Shawver, Matthew B. Hoch, Brandon J. Goff, Aaron M. Betts, Zhengwei Zhou, Cody Lynch, Grant Schroeder, Maxim Bez, Marcel M. Maya, Catherine Bresee, Zulma Gazit, John P. McCallin, Dan Gazit, Debiao Li

^*Corresponding author for this work

Institute of Biomedical Research at the Faculty of Dental Medicine

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Low back pain (LBP) is often a result of a degenerative process in the intervertebral disc. The precise origin of discogenic pain is diagnosed by the invasive procedure of provocative discography (PD). Previously, we developed quantitative chemical exchange saturation transfer (qCEST) magnetic resonance imaging (MRI) to detect pH as a biomarker for discogenic pain. Based on these findings we initiated a clinical study with the goal to evaluate the correlation between qCEST values and PD results in LBP patients. Twenty five volunteers with chronic low back pain were subjected to T2-weighted (T2w) and qCEST MRI scans followed by PD. A total of 72 discs were analyzed. The average qCEST signal value of painful discs was significantly higher than non-painful discs (p = 0.012). The ratio between qCEST and normalized T2w was found to be significantly higher in painful discs compared to non-painful discs (p = 0.0022). A receiver operating characteristics (ROC) analysis indicated that qCEST/T2w ratio could be used to differentiate between painful and non-painful discs with 78% sensitivity and 81% specificity. The results of the study suggest that qCEST could be used for the diagnosis of discogenic pain, in conjunction with the commonly used T2w scan.

Original language	English
Article number	19195
Journal	Scientific Reports
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41598-021-97672-y
State	Published - Dec 2021

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© 2021, The Author(s).

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Pelled, G., Salas, M. M., Han, P., Gill, H. E., Lautenschlager, K. A., Lai, T. T., Shawver, C. M., Hoch, M. B., Goff, B. J., Betts, A. M., Zhou, Z., Lynch, C., Schroeder, G., Bez, M., Maya, M. M., Bresee, C., Gazit, Z., McCallin, J. P., Gazit, D., & Li, D. (2021). Intradiscal quantitative chemical exchange saturation transfer MRI signal correlates with discogenic pain in human patients. Scientific Reports, 11(1), Article 19195. https://doi.org/10.1038/s41598-021-97672-y

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title = "Intradiscal quantitative chemical exchange saturation transfer MRI signal correlates with discogenic pain in human patients",

abstract = "Low back pain (LBP) is often a result of a degenerative process in the intervertebral disc. The precise origin of discogenic pain is diagnosed by the invasive procedure of provocative discography (PD). Previously, we developed quantitative chemical exchange saturation transfer (qCEST) magnetic resonance imaging (MRI) to detect pH as a biomarker for discogenic pain. Based on these findings we initiated a clinical study with the goal to evaluate the correlation between qCEST values and PD results in LBP patients. Twenty five volunteers with chronic low back pain were subjected to T2-weighted (T2w) and qCEST MRI scans followed by PD. A total of 72 discs were analyzed. The average qCEST signal value of painful discs was significantly higher than non-painful discs (p = 0.012). The ratio between qCEST and normalized T2w was found to be significantly higher in painful discs compared to non-painful discs (p = 0.0022). A receiver operating characteristics (ROC) analysis indicated that qCEST/T2w ratio could be used to differentiate between painful and non-painful discs with 78% sensitivity and 81% specificity. The results of the study suggest that qCEST could be used for the diagnosis of discogenic pain, in conjunction with the commonly used T2w scan.",

author = "Gadi Pelled and Salas, {Margaux M.} and Pei Han and Gill, {Howard E.} and Lautenschlager, {Karl A.} and Lai, {Tristan T.} and Shawver, {Cameron M.} and Hoch, {Matthew B.} and Goff, {Brandon J.} and Betts, {Aaron M.} and Zhengwei Zhou and Cody Lynch and Grant Schroeder and Maxim Bez and Maya, {Marcel M.} and Catherine Bresee and Zulma Gazit and McCallin, {John P.} and Dan Gazit and Debiao Li",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

doi = "10.1038/s41598-021-97672-y",

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Pelled, G, Salas, MM, Han, P, Gill, HE, Lautenschlager, KA, Lai, TT, Shawver, CM, Hoch, MB, Goff, BJ, Betts, AM, Zhou, Z, Lynch, C, Schroeder, G, Bez, M, Maya, MM, Bresee, C, Gazit, Z, McCallin, JP, Gazit, D & Li, D 2021, 'Intradiscal quantitative chemical exchange saturation transfer MRI signal correlates with discogenic pain in human patients', Scientific Reports, vol. 11, no. 1, 19195. https://doi.org/10.1038/s41598-021-97672-y

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T1 - Intradiscal quantitative chemical exchange saturation transfer MRI signal correlates with discogenic pain in human patients

AU - Pelled, Gadi

AU - Salas, Margaux M.

AU - Han, Pei

AU - Gill, Howard E.

AU - Lautenschlager, Karl A.

AU - Lai, Tristan T.

AU - Shawver, Cameron M.

AU - Hoch, Matthew B.

AU - Goff, Brandon J.

AU - Betts, Aaron M.

AU - Zhou, Zhengwei

AU - Lynch, Cody

AU - Schroeder, Grant

AU - Bez, Maxim

AU - Maya, Marcel M.

AU - Bresee, Catherine

AU - Gazit, Zulma

AU - McCallin, John P.

AU - Gazit, Dan

AU - Li, Debiao

PY - 2021/12

Y1 - 2021/12

N2 - Low back pain (LBP) is often a result of a degenerative process in the intervertebral disc. The precise origin of discogenic pain is diagnosed by the invasive procedure of provocative discography (PD). Previously, we developed quantitative chemical exchange saturation transfer (qCEST) magnetic resonance imaging (MRI) to detect pH as a biomarker for discogenic pain. Based on these findings we initiated a clinical study with the goal to evaluate the correlation between qCEST values and PD results in LBP patients. Twenty five volunteers with chronic low back pain were subjected to T2-weighted (T2w) and qCEST MRI scans followed by PD. A total of 72 discs were analyzed. The average qCEST signal value of painful discs was significantly higher than non-painful discs (p = 0.012). The ratio between qCEST and normalized T2w was found to be significantly higher in painful discs compared to non-painful discs (p = 0.0022). A receiver operating characteristics (ROC) analysis indicated that qCEST/T2w ratio could be used to differentiate between painful and non-painful discs with 78% sensitivity and 81% specificity. The results of the study suggest that qCEST could be used for the diagnosis of discogenic pain, in conjunction with the commonly used T2w scan.

AB - Low back pain (LBP) is often a result of a degenerative process in the intervertebral disc. The precise origin of discogenic pain is diagnosed by the invasive procedure of provocative discography (PD). Previously, we developed quantitative chemical exchange saturation transfer (qCEST) magnetic resonance imaging (MRI) to detect pH as a biomarker for discogenic pain. Based on these findings we initiated a clinical study with the goal to evaluate the correlation between qCEST values and PD results in LBP patients. Twenty five volunteers with chronic low back pain were subjected to T2-weighted (T2w) and qCEST MRI scans followed by PD. A total of 72 discs were analyzed. The average qCEST signal value of painful discs was significantly higher than non-painful discs (p = 0.012). The ratio between qCEST and normalized T2w was found to be significantly higher in painful discs compared to non-painful discs (p = 0.0022). A receiver operating characteristics (ROC) analysis indicated that qCEST/T2w ratio could be used to differentiate between painful and non-painful discs with 78% sensitivity and 81% specificity. The results of the study suggest that qCEST could be used for the diagnosis of discogenic pain, in conjunction with the commonly used T2w scan.

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Intradiscal quantitative chemical exchange saturation transfer MRI signal correlates with discogenic pain in human patients

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