Increased white matter diffusivity associated with phantom limb pain

Seo, Cheong Hoon; Park, Chang-Hyun; Jung, Myung Hun; Baek, Seungki; Song, Jimin; Cha, Eunsil; Ohn, Suk Hoon

doi:10.3344/kjp.2019.32.4.271

Cited by 4 publications

(2 citation statements)

References 44 publications

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“…A 2019 study employed DTI to determine a connection between PLP and white matter changes. Interestingly, these researchers found symmetrically increased white matter AD bilaterally, but a stronger white matter RD association with visual analog scale (VAS) score in the corpus callosum and hemisphere associated with the amputated limb (Seo et al., 2019). Guo et al.…”

Section: Resultsmentioning

confidence: 99%

Unveiling the phantom: What neuroimaging has taught us about phantom limb pain

Browne¹,

Fraiser

Cai

et al. 2022

Brain and Behavior

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It consists of pain perception of a previously amputated limb. The exact pain mechanism is disputed and includes mechanisms involving cerebral, peripheral, and spinal origins. Such controversy limits researchers' and clinicians' ability to develop consistent therapeutics or management. Neuroimaging is an essential tool that can address this problem. This review explores diffusion tensor imaging, functional magnetic resonance imaging, electroencephalography, and magnetoencephalography in the context of PLP. These imaging modalities have distinct mechanisms, implications, applications, and limitations. Diffusion tensor imaging can outline structural changes and has surgical applications. Functional magnetic resonance imaging captures functional changes with spatial resolution and has therapeutic applications. Electroencephalography and magnetoencephalography can identify functional changes with a strong temporal resolution. Each imaging technique provides a unique perspective and they can be used in concert to reveal the true nature of PLP. Furthermore, researchers can utilize the respective strengths of each neuroimaging technique to support the development of innovative therapies. PLP exemplifies how neuroimaging and clinical management are intricately connected. This review can assist clinicians and researchers seeking a foundation for applications and understanding the limitations of neuroimaging techniques in the context of PLP.

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Section: Resultsmentioning

confidence: 99%

Unveiling the phantom: What neuroimaging has taught us about phantom limb pain

Browne¹,

Fraiser

Cai

et al. 2022

Brain and Behavior

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“…A single-shot diffusion-weighted echo planar imaging sequence was taken in the same manner as Joo et al to assess the CBV changes caused by the burn-related chronic pain [ 18 ]. Processing of the CBV mapping data was performed using SPM12 software ( , accessed on 8 May 2022), as previously described [ 21 , 30 ]. The pre- and post-contrast images were spatially transformed to the same standard space, and then a map of the contrast-induced signal difference ratios was acquired using the equation: (post-contrast signal − pre-contrast signal)/(maximum signal difference in the superior sagittal sinus) × 100.…”

Section: Methodsmentioning

confidence: 99%

Scrambler Therapy for Chronic Pain after Burns and Its Effect on the Cerebral Pain Network: A Prospective, Double-Blinded, Randomized Controlled Trial

Lee

Park

Cho

et al. 2022

JCM

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Chronic pain is common after burn injuries, and post-burn neuropathic pain is the most important complication that is difficult to treat. Scrambler therapy (ST) is a non-invasive modality that uses patient-specific electrocutaneous nerve stimulation and is an effective treatment for many chronic pain disorders. This study used magnetic resonance imaging (MRI) to evaluate the pain network-related mechanisms that underlie the clinical effect of ST in patients with chronic burn-related pain. This prospective, double-blinded, randomized controlled trial (ClinicalTrials.gov: NCT03865693) enrolled 43 patients who were experiencing chronic neuropathic pain after unilateral burn injuries. The patients had moderate or greater chronic pain (a visual analogue scale (VAS) score of ≥5), despite treatment using gabapentin and other physical modalities, and were randomized 1:1 to receive real or sham ST sessions. The ST was performed using the MC5-A Calmare device for ten 45 min sessions (Monday to Friday for 2 weeks). Baseline and post-treatment parameters were evaluated subjectively using the VAS score for pain and the Hamilton Depression Rating Scale; MRI was performed to identify objective central nervous system changes by measuring the cerebral blood volume (CBV). After 10 ST sessions (two weeks), the treatment group exhibited a significant reduction in pain relative to the sham group. Furthermore, relative to the pre-ST findings, the post-ST MRI evaluations revealed significantly decreased CBV in the orbito-frontal gyrus, middle frontal gyrus, superior frontal gyrus, and gyrus rectus. In addition, the CBV was increased in the precentral gyrus and postcentral gyrus of the hemisphere associated with the burned limb in the ST group, as compared with the CBV of the sham group. Thus, a clinical effect from ST on burn pain was observed after 2 weeks, and a potential mechanism for the treatment effect was identified. These findings suggest that ST may be an alternative strategy for managing chronic pain in burn patients.

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