Journal of Pain Research (Apr 2024)

Distinct Functional Connectivity Patterns for Intermittent Vs Constant Neuropathic Pain Phenotypes in Persistent Spinal Pain Syndrome Type 2 Patients

  • Pahapill PA,
  • Arocho-Quinones EV,
  • Chen G,
  • Swearingen B,
  • Tomas CW,
  • Koch KM,
  • Nencka AS

Journal volume & issue
Vol. Volume 17
pp. 1453 – 1460

Abstract

Read online

Peter A Pahapill,1 Elsa V Arocho-Quinones,1 Guangyu Chen,2 Brad Swearingen,3 Carissa W Tomas,3 Kevin M Koch,3 Andrew Scott Nencka3 1Department of Neurosurgery, Medical College of Wisconsin, Milwaukee, WI, USA; 2Department of Biomedical Engineering, Medical College of Wisconsin, Milwaukee, WI, USA; 3Center for Neuroimaging, Medical College of Wisconsin, Milwaukee, WI, USACorrespondence: Peter A Pahapill, Tel +1-414-805-5400, Fax +1-414-955-0115, Email [email protected]: Chronic low back pain (cLBP) has been associated with alterations in brain functional connectivity (FC) but based upon heterogeneous populations and single network analyses. Our goal is to study a more homogeneous cLBP population and focus on multiple cross-network (CN) connectivity analysis. We hypothesize that within this population: 1) altered CN FC, involving emotion and reward/aversion functions are related to their pain levels and 2) altered relationships are dependent upon pain phenotype (constant neuropathic vs intermittent pain).Methods: In this case series, resting state fcMRI scans were obtained over a study duration of 60 months from 23 patients (13 constant neuropathic and 10 intermittent pain) with Persistent Spinal Pain Syndrome (PSPS Type 2) being considered for spinal cord stimulation (SCS) therapy at a single academic center. Images were acquired using a Discovery MR750 GE scanner. During the resting state acquisitions, they were asked to close their eyes and relax. The CN analysis was performed on 7 brain networks and compared to age-matched controls. Linear regression was used to test the correlation between CN connectivity and pain scores.Results: CN FC involving emotion networks (STM: striatum network index) was significantly lower than controls in all patients, regardless of pain phenotype (P < 0.003). Pain levels were positively correlated with emotional FC for intermittent pain but negatively correlated for constant pain.Conclusion: This is the first report of 1) altered CN FC involving emotion/reward brain circuitry in 2) a homogeneous population of cLBP patients with 3) two different pain phenotypes (constant vs intermittent) in PSPS Type 2 patients being considered for SCS. FC patterns were altered in cLBP patients as compared to controls and were characteristic for each pain phenotype. These data support fcMRI as a potential and objective tool in assessing pain levels in cLBP patients with different pain phenotypes.Keywords: spinal cord stimulation, persistent spinal pain syndrome, functional MRI, chronic pain

Keywords