Alene F. Carteret scite author profile

Background Spinal cord stimulation (SCS) is a useful neuromodulatory technique for treatment of certain neuropathic pain conditions. However, the optimal stimulation parameters remain unclear. Methods In rats after L5 spinal nerve ligation, we compared the inhibitory effects on mechanical hypersensitivity from bipolar SCS of different intensities (20%, 40%, 80% motor threshold) and frequencies (50-Hz, 1-kHz, and 10-kHz). We then compared the effects of 1-kHz and 50-Hz dorsal column stimulation at high and low stimulus intensities on conduction properties of afferent Aα/β-fibers and spinal wide-dynamic-range neuronal excitability. Results Three consecutive daily SCS at different frequencies progressively inhibited mechanical hypersensitivity in an intensity-dependent manner. At 80% motor threshold, the ipsilateral paw withdrawal threshold (%preinjury) increased significantly from pre-SCS measures, beginning with the first day of SCS at the frequencies of 1-kHz (50.2 ± 5.7% from 23.9 ± 2.6%, n = 19, mean ± SEM) and 10-kHz (50.8 ± 4.4 % from 27.9 ± 2.3%, n = 17), while it was significantly increased beginning on the second day in the 50-Hz group (38.9 ± 4.6% from 23.8 ± 2.1%, n = 17). At high intensity, both 1-kHz and 50-Hz dorsal column stimulation reduced Aα/β-compound action potential size recorded at the sciatic nerve, but only 1-kHz stimulation was partially effective at the lower intensity. The number of actions potentials in C-fiber component of wide-dynamic-range neuronal response to windup-inducing stimulation was significantly decreased after 50-Hz (147.4 ± 23.6 from 228.1 ± 39.0, n = 13), but not 1-kHz (n = 15), dorsal column stimulation. Conclusions Kilohertz SCS attenuated mechanical hypersensitivity in a time course and amplitude that differed from conventional 50-Hz SCS, and may involve different peripheral and spinal segmental mechanisms.

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Spinal Cord Stimulation-induced Analgesia

Guan

et al. 2010

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Bipolar spinal cord stimulation attenuates mechanical hypersensitivity at an intensity that activates a small portion of A-fiber afferents in spinal nerve-injured rats

et al. 2011

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Polymorphisms in the GTP cyclohydrolase gene ( GCH1 ) are associated with ratings of capsaicin pain

Campbell

Edwards

Carmona

et al. 2009

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Though it is clear that genomic variability plays an integral role in accounting for pain sensitivity, controversy exists over which genes are involved. While recent data suggest a “protective” (i.e., less pain) haplotype in the GTP cyclohydrolase (GCH1) gene, other research has failed to confirm this association. Possibly, the effects of single nucleotide polymorphisms (SNPs) vary depending on the pain task. The current investigation analyzed the association of five previously identified GCH1 SNPs with ratings of pain induced by topical high concentration (10%) capsaicin applied to the skin of 39 healthy human volunteers. Each of the GCH1 polymorphisms was associated with lower pain ratings. When combined, three of the five accounted for a surprisingly high 35% of the inter-individual variance in pain ratings. We conclude that SNPs of the GCH1 gene may profoundly affect the ratings of pain induced by capsaicin.

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Alene F. Carteret

Conventional and Kilohertz-frequency Spinal Cord Stimulation Produces Intensity- and Frequency-dependent Inhibition of Mechanical Hypersensitivity in a Rat Model of Neuropathic Pain

Spinal Cord Stimulation-induced Analgesia

Bipolar spinal cord stimulation attenuates mechanical hypersensitivity at an intensity that activates a small portion of A-fiber afferents in spinal nerve-injured rats

Polymorphisms in the GTP cyclohydrolase gene ( GCH1 ) are associated with ratings of capsaicin pain

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