Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls

Lionel Butry; Maia Angelova; Daniel L. Belavy; Rebekka Döding; Katja Ehrenbrusthoff; Frederick Junker; Chandan Karmakar; Clint T. Miller; Patrick J. Owen; Tobias L. Schulte; Scott D. Tagliaferri; Martin Tegenthoff; Guy Trudel; Jessica Van Oosterwijck; Sam Vickery; Hans-Joachim Wilke; Lara Schlaffke; Elena Enax-Krumova

doi:10.1097/j.pain.0000000000003841

Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls

Lionel Butry, Maia Angelova, Daniel L. Belavy, Rebekka Döding, Katja Ehrenbrusthoff, Frederick Junker, Chandan Karmakar, Clint T. Miller, Patrick J. Owen, Tobias L. Schulte, Scott D. Tagliaferri, Martin Tegenthoff, Guy Trudel, Jessica Van Oosterwijck, Sam Vickery, Hans-Joachim Wilke, Lara Schlaffke, Elena Enax-Krumova

Monash Addiction Research Centre, Eastern Health Clinical School Monash University Melbourne Victoria Australia
Institute for Mental Health, University of Birmingham , Birmingham , United Kingdom; Orygen, The National Centre of Excellence for Youth Mental Health , Melbourne, VIC , Australia; Centre for Youth Mental Health, University of Melbourne , Parkville, VIC , Australia

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

Abstract

Impairments in lumbar sensory perception, including reduced tactile acuity, occur in patients with nonspecific low back pain (LBP). Tactile acuity is linked to primary somatosensory cortex (S1) activity and structure, but neural markers of lumbar-specific tactile acuity tests remain unvalidated. This cross-sectional study investigated associations between lumbar two-point discrimination (TPD) and estimation (TPE) with functional and structural properties of S1, as well as S1-thalamic connectivity. Resting-state functional MRI and diffusion-weighted MRI assessed S1-thalamic functional connectivity (FC) and structural connectivity, as well as regional homogeneity (ReHo) and mean diffusivity (MD) of S1 grey matter in 78 LBP patients and 39 pain-free controls. Participants with LBP were subdivided into 2 groups: 1 with pain (LBP+, n = 39) and 1 without pain (LBP−, n = 39) on the day of assessment. Higher TPD (ie, worse tactile acuity) was associated with higher contralateral S1-thalamic FC (β = 19.97 mm, 95% CI = 8.47-31.46 mm) and lower contralateral S1-MD (β = −76.98 mm, 95% CI = −142.83 to −11.13 mm). Higher TPE was associated with higher S1-ReHo (β = 19.67 mm, 95% CI = 0.35-39 mm). Two-point discrimination and two-point estimation were positively correlated (r = 0.25, P < 0.001). No between-group differences were found for the MRI variables or TPE, but the LBP+ group showed higher TPD thresholds than pain-free controls (MDiff. = 6.05 mm, P adj. = 0.023). Our findings question the validity of TPE as a measure of tactile acuity. Both neural markers of TPD may not explain tactile acuity impairments in LBP but instead reflect a baseline indicator of tactile performance capability, suggesting poor validity as an LBP-specific marker of neuroplasticity.

Original language	English
Journal	Pain
Early online date	13 Nov 2025
DOIs	https://doi.org/10.1097/j.pain.0000000000003841
Publication status	E-pub ahead of print - 13 Nov 2025

Bibliographical note

Copyright © 2025, holder. This is a pre-copyedited, author-produced version of an article accepted for publication in Pain. The published version of record Butry, Lionela,*; Angelova, Maiab; Belavy, Daniel L.c; Döding, Rebekkac,d; Ehrenbrusthoff, Katjac; Junker, Frederickc; Karmakar, Chandane; Miller, Clint T.f; Owen, Patrick J.g,h; Schulte, Tobias L.i; Tagliaferri, Scott D.j,k; Tegenthoff, Martina; Trudel, Guyl,m; Van Oosterwijck, Jessican; Vickery, Samc; Wilke, Hans-Joachimo; Schlaffke, Laraa,p; Enax-Krumova, Elenaa. Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls. PAIN, November 13, 2025 is available online at https://doi.org/10.1097/j.pain.0000000000003841

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Butry, L., Angelova, M., Belavy, D. L., Döding, R., Ehrenbrusthoff, K., Junker, F., Karmakar, C., Miller, C. T., Owen, P. J., Schulte, T. L., Tagliaferri, S. D., Tegenthoff, M., Trudel, G., Van Oosterwijck, J., Vickery, S., Wilke, H.-J., Schlaffke, L., & Enax-Krumova, E. (2025). Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls. Pain. Advance online publication. https://doi.org/10.1097/j.pain.0000000000003841

@article{77b7411d1b4a4f09bab245c93c401d11,

title = "Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls",

abstract = "Impairments in lumbar sensory perception, including reduced tactile acuity, occur in patients with nonspecific low back pain (LBP). Tactile acuity is linked to primary somatosensory cortex (S1) activity and structure, but neural markers of lumbar-specific tactile acuity tests remain unvalidated. This cross-sectional study investigated associations between lumbar two-point discrimination (TPD) and estimation (TPE) with functional and structural properties of S1, as well as S1-thalamic connectivity. Resting-state functional MRI and diffusion-weighted MRI assessed S1-thalamic functional connectivity (FC) and structural connectivity, as well as regional homogeneity (ReHo) and mean diffusivity (MD) of S1 grey matter in 78 LBP patients and 39 pain-free controls. Participants with LBP were subdivided into 2 groups: 1 with pain (LBP+, n = 39) and 1 without pain (LBP−, n = 39) on the day of assessment. Higher TPD (ie, worse tactile acuity) was associated with higher contralateral S1-thalamic FC (β = 19.97 mm, 95% CI = 8.47-31.46 mm) and lower contralateral S1-MD (β = −76.98 mm, 95% CI = −142.83 to −11.13 mm). Higher TPE was associated with higher S1-ReHo (β = 19.67 mm, 95% CI = 0.35-39 mm). Two-point discrimination and two-point estimation were positively correlated (r = 0.25, P < 0.001). No between-group differences were found for the MRI variables or TPE, but the LBP+ group showed higher TPD thresholds than pain-free controls (MDiff. = 6.05 mm, P adj. = 0.023). Our findings question the validity of TPE as a measure of tactile acuity. Both neural markers of TPD may not explain tactile acuity impairments in LBP but instead reflect a baseline indicator of tactile performance capability, suggesting poor validity as an LBP-specific marker of neuroplasticity.",

author = "Lionel Butry and Maia Angelova and Belavy, {Daniel L.} and Rebekka D{\"o}ding and Katja Ehrenbrusthoff and Frederick Junker and Chandan Karmakar and Miller, {Clint T.} and Owen, {Patrick J.} and Schulte, {Tobias L.} and Tagliaferri, {Scott D.} and Martin Tegenthoff and Guy Trudel and {Van Oosterwijck}, Jessica and Sam Vickery and Hans-Joachim Wilke and Lara Schlaffke and Elena Enax-Krumova",

note = "Copyright {\textcopyright} 2025, holder. This is a pre-copyedited, author-produced version of an article accepted for publication in Pain. The published version of record Butry, Lionela,*; Angelova, Maiab; Belavy, Daniel L.c; D{\"o}ding, Rebekkac,d; Ehrenbrusthoff, Katjac; Junker, Frederickc; Karmakar, Chandane; Miller, Clint T.f; Owen, Patrick J.g,h; Schulte, Tobias L.i; Tagliaferri, Scott D.j,k; Tegenthoff, Martina; Trudel, Guyl,m; Van Oosterwijck, Jessican; Vickery, Samc; Wilke, Hans-Joachimo; Schlaffke, Laraa,p; Enax-Krumova, Elenaa. Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls. PAIN, November 13, 2025 is available online at https://doi.org/10.1097/j.pain.0000000000003841 ",

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language = "English",

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Butry, L, Angelova, M, Belavy, DL, Döding, R, Ehrenbrusthoff, K, Junker, F, Karmakar, C, Miller, CT, Owen, PJ, Schulte, TL, Tagliaferri, SD, Tegenthoff, M, Trudel, G, Van Oosterwijck, J, Vickery, S, Wilke, H-J, Schlaffke, L & Enax-Krumova, E 2025, 'Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls', Pain. https://doi.org/10.1097/j.pain.0000000000003841

TY - JOUR

T1 - Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls

AU - Butry, Lionel

AU - Angelova, Maia

AU - Belavy, Daniel L.

AU - Döding, Rebekka

AU - Ehrenbrusthoff, Katja

AU - Junker, Frederick

AU - Karmakar, Chandan

AU - Miller, Clint T.

AU - Owen, Patrick J.

AU - Schulte, Tobias L.

AU - Tagliaferri, Scott D.

AU - Tegenthoff, Martin

AU - Trudel, Guy

AU - Van Oosterwijck, Jessica

AU - Vickery, Sam

AU - Wilke, Hans-Joachim

AU - Schlaffke, Lara

AU - Enax-Krumova, Elena

N1 - Copyright © 2025, holder. This is a pre-copyedited, author-produced version of an article accepted for publication in Pain. The published version of record Butry, Lionela,*; Angelova, Maiab; Belavy, Daniel L.c; Döding, Rebekkac,d; Ehrenbrusthoff, Katjac; Junker, Frederickc; Karmakar, Chandane; Miller, Clint T.f; Owen, Patrick J.g,h; Schulte, Tobias L.i; Tagliaferri, Scott D.j,k; Tegenthoff, Martina; Trudel, Guyl,m; Van Oosterwijck, Jessican; Vickery, Samc; Wilke, Hans-Joachimo; Schlaffke, Laraa,p; Enax-Krumova, Elenaa. Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls. PAIN, November 13, 2025 is available online at https://doi.org/10.1097/j.pain.0000000000003841

PY - 2025/11/13

Y1 - 2025/11/13

N2 - Impairments in lumbar sensory perception, including reduced tactile acuity, occur in patients with nonspecific low back pain (LBP). Tactile acuity is linked to primary somatosensory cortex (S1) activity and structure, but neural markers of lumbar-specific tactile acuity tests remain unvalidated. This cross-sectional study investigated associations between lumbar two-point discrimination (TPD) and estimation (TPE) with functional and structural properties of S1, as well as S1-thalamic connectivity. Resting-state functional MRI and diffusion-weighted MRI assessed S1-thalamic functional connectivity (FC) and structural connectivity, as well as regional homogeneity (ReHo) and mean diffusivity (MD) of S1 grey matter in 78 LBP patients and 39 pain-free controls. Participants with LBP were subdivided into 2 groups: 1 with pain (LBP+, n = 39) and 1 without pain (LBP−, n = 39) on the day of assessment. Higher TPD (ie, worse tactile acuity) was associated with higher contralateral S1-thalamic FC (β = 19.97 mm, 95% CI = 8.47-31.46 mm) and lower contralateral S1-MD (β = −76.98 mm, 95% CI = −142.83 to −11.13 mm). Higher TPE was associated with higher S1-ReHo (β = 19.67 mm, 95% CI = 0.35-39 mm). Two-point discrimination and two-point estimation were positively correlated (r = 0.25, P < 0.001). No between-group differences were found for the MRI variables or TPE, but the LBP+ group showed higher TPD thresholds than pain-free controls (MDiff. = 6.05 mm, P adj. = 0.023). Our findings question the validity of TPE as a measure of tactile acuity. Both neural markers of TPD may not explain tactile acuity impairments in LBP but instead reflect a baseline indicator of tactile performance capability, suggesting poor validity as an LBP-specific marker of neuroplasticity.

AB - Impairments in lumbar sensory perception, including reduced tactile acuity, occur in patients with nonspecific low back pain (LBP). Tactile acuity is linked to primary somatosensory cortex (S1) activity and structure, but neural markers of lumbar-specific tactile acuity tests remain unvalidated. This cross-sectional study investigated associations between lumbar two-point discrimination (TPD) and estimation (TPE) with functional and structural properties of S1, as well as S1-thalamic connectivity. Resting-state functional MRI and diffusion-weighted MRI assessed S1-thalamic functional connectivity (FC) and structural connectivity, as well as regional homogeneity (ReHo) and mean diffusivity (MD) of S1 grey matter in 78 LBP patients and 39 pain-free controls. Participants with LBP were subdivided into 2 groups: 1 with pain (LBP+, n = 39) and 1 without pain (LBP−, n = 39) on the day of assessment. Higher TPD (ie, worse tactile acuity) was associated with higher contralateral S1-thalamic FC (β = 19.97 mm, 95% CI = 8.47-31.46 mm) and lower contralateral S1-MD (β = −76.98 mm, 95% CI = −142.83 to −11.13 mm). Higher TPE was associated with higher S1-ReHo (β = 19.67 mm, 95% CI = 0.35-39 mm). Two-point discrimination and two-point estimation were positively correlated (r = 0.25, P < 0.001). No between-group differences were found for the MRI variables or TPE, but the LBP+ group showed higher TPD thresholds than pain-free controls (MDiff. = 6.05 mm, P adj. = 0.023). Our findings question the validity of TPE as a measure of tactile acuity. Both neural markers of TPD may not explain tactile acuity impairments in LBP but instead reflect a baseline indicator of tactile performance capability, suggesting poor validity as an LBP-specific marker of neuroplasticity.

UR - https://journals.lww.com/pain/abstract/9900/lumbar_tactile_acuity_associated_with_s1_thalamic.1053.aspx

U2 - 10.1097/j.pain.0000000000003841

DO - 10.1097/j.pain.0000000000003841

M3 - Article

SN - 0304-3959

JO - Pain

JF - Pain

ER -

Lumbar tactile acuity associated with S1-thalamic functional connectivity and S1 microstructure in patients with low back pain and pain-free controls

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