Tim Buchanan scite author profile

Abnormal processing of somatosensory inputs in the central nervous system (central sensitization) is the mechanism accounting for the enhanced pain sensitivity in the skin surrounding tissue injury (secondary hyperalgesia). Secondary hyperalgesia shares clinical characteristics with neurogenic hyperalgesia in patients with neuropathic pain. Abnormal brain responses to somatosensory stimuli have been found in patients with hyperalgesia as well as in normal subjects during experimental central sensitization. The aim of this study was to assess the effects of gabapentin, a drug effective in neuropathic pain patients, on brain processing of nociceptive information in normal and central sensitization states. Using functional magnetic resonance imaging (fMRI) in normal volunteers, we studied the gabapentin-induced modulation of brain activity in response to nociceptive mechanical stimulation of normal skin and capsaicin-induced secondary hyperalgesia. The dose of gabapentin was 1,800 mg per os, in a single administration. We found that (i) gabapentin reduced the activations in the bilateral operculoinsular cortex, independently of the presence of central sensitization; (ii) gabapentin reduced the activation in the brainstem, only during central sensitization; (iii) gabapentin suppressed stimulus-induced deactivations, only during central sensitization; this effect was more robust than the effect on brain activation. The observed drug-induced effects were not due to changes in the baseline fMRI signal. These findings indicate that gabapentin has a measurable antinociceptive effect and a stronger antihyperalgesic effect most evident in the brain areas undergoing deactivation, thus supporting the concept that gabapentin is more effective in modulating nociceptive transmission when central sensitization is present.deactivation ͉ fMRI ͉ hyperalgesia ͉ nociceptive system A fter skin injury, an increased sensitivity to mechanical stimuli occurs in a large, uninjured area surrounding the injury site (1, 2). This phenomenon is termed secondary hyperalgesia and is the consequence of neuroplastic changes leading to a state of sensitization of the central nervous system (central sensitization) (3). Secondary hyperalgesia can be experimentally induced by treating the skin with high doses of the vanilloid capsaicin (by intradermal injection or topical application).Two forms of mechanical hyperalgesia occur in the area of secondary hyperalgesia: hyperalgesia to gentle skin stroking (stroking hyperalgesia or allodynia) and hyperalgesia to punctate stimuli (punctate hyperalgesia). Although both stroking and punctate hyperalgesia are due to central sensitization, they have different psychophysical characteristics (punctate hyperalgesia is easier to establish, it encompasses a larger area and it is longer-lasting than stroking hyperalgesia). They are mediated by different primary afferents (3): stroking hyperalgesia is signaled by low-threshold mechanoreceptors (4), whereas punctate hyperalgesia is signaled by capsaicin-insensitive A-fi...

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Evaluation of ¹⁸F-UCB-H as a Novel PET Tracer for Synaptic Vesicle Protein 2A in the Brain

Warnock

Aerts

Bahri

et al. 2014

J Nucl Med

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Synaptic vesicle protein 2 isoforms are critical for proper nervous system function and are involved in vesicle trafficking. The synaptic vesicle protein 2A (SV2A) isoform has been identified as the binding site of the antiepileptic levetiracetam (LEV), making it an interesting therapeutic target for epilepsy. 18 F-UCB-H is a novel PET imaging agent with a nanomolar affinity for human SV2A. Methods: Preclinical PET studies were performed with isoflurane-anesthetized rats. The arterial input function was measured with an arteriovenous shunt and a β-microprobe system. 18 F-UCB-H was injected intravenously (bolus of 140 ± 20 MBq). Results: Brain uptake of 18 F-UCB-H was high, matching the expected homogeneous distribution of SV2A. The distribution volume (V t ) for 18 F-UCB-H was calculated with Logan graphic analysis, and the effect of LEV pretreatment on V t was measured. In control animals the whole-brain V t was 9.76 ± 0.52 mL/cm 3 (mean ± SD; n 5 4; test-retest), and the reproducibility in test-retest studies was 10.4% ± 6.5% (mean ± SD). The uptake of 18 F-UCB-H was dose dependently blocked by pretreatment with LEV (0.1-100 mg/kg intravenously). Conclusion: Our results indicated that 18 F-UCB-H is a suitable radiotracer for the imaging of SV2A in vivo. To our knowledge, this is the first PET tracer for the in vivo quantification of SV2A. The necessary steps for the implementation of 18 F-UCB-H production under good manufacturing practice conditions and the first human studies are being planned.

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[11C]UCB-A, a novel PET tracer for synaptic vesicle protein 2A

Estrada

Lubberink

Thibblin

et al. 2016

Nuclear Medicine and Biology

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Effect of therapeutic plasma exchange on immunoglobulins in myasthenia gravis

et al. 2016

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An integrated understanding of therapeutic plasma exchange (TPE) effects on immunoglobulins, autoantibodies, and natural or acquired (vaccine) protective antibodies in patients with autoimmune myasthenia gravis (MG) is lacking. Prior studies measured TPE effects in healthy volunteers or heterogeneous autoimmune diseases populations. We prospectively profiled plasma IgA, IgM, IgG, IgG subclasses (IgG1-4), acetylcholine receptor autoantibodies (AChR+), and protective antibodies in patients with AChR+ MG receiving TPE for an exacerbation. TPE was performed according to institutional practice and patients were profiled for up to 12 weeks. Ten patients were enrolled (median age=72.9 years; baseline MG-Composite=21; median TPE treatments=6 during their first course) and all improved. The maximum decrease in all immunoglobulins, including AChR autoantibodies, was achieved on the final day of the first TPE course (approximately 60–70% reduction). Three weeks post-TPE mean AChR autoantibody, total IgG, IgG1 and IgG2 titers were below the reference range and had not recovered to within 20% of baseline, whereas other measured immunoglobulins approached baseline values. We did not generally observe an “overshoot” of immunoglobulins above pre-TPE levels or accelerated recovery of pathologic AChR autoantibodies. Protective antibody profiles showed similar patterns as other IgGs and were detectable at levels associated with protection from infection. A slow return to baseline for IgGs (except IgG3) was observed, and we did not observe any obvious effect of concomitant medications on this recovery. Collectively, these findings enhance our understanding of the immunological effects of TPE and further supports the concept of rapid immunoglobulin depletion for the treatment of patients with MG.

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Tim Buchanan

Pharmacological modulation of pain-related brain activity during normal and central sensitization states in humans

Evaluation of ¹⁸F-UCB-H as a Novel PET Tracer for Synaptic Vesicle Protein 2A in the Brain

[11C]UCB-A, a novel PET tracer for synaptic vesicle protein 2A

Effect of therapeutic plasma exchange on immunoglobulins in myasthenia gravis

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Tim Buchanan

Pharmacological modulation of pain-related brain activity during normal and central sensitization states in humans

Evaluation of 18F-UCB-H as a Novel PET Tracer for Synaptic Vesicle Protein 2A in the Brain

[11C]UCB-A, a novel PET tracer for synaptic vesicle protein 2A

Effect of therapeutic plasma exchange on immunoglobulins in myasthenia gravis

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Product

Resources

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Evaluation of ¹⁸F-UCB-H as a Novel PET Tracer for Synaptic Vesicle Protein 2A in the Brain