Effects of intrathecal lidocaine on hyperalgesia and allodynia following chronic constriction injury in rats

Tian, Jie; Gu, Yiwen; Su, Diansan; Wu, Yaotang; Wang, Xiangrui

doi:10.1016/j.ejpain.2008.03.013

Cited by 23 publications

(15 citation statements)

References 23 publications

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“…The mean±SD AUC values obtained after administration of amitriptyline and doxepin nanoparticles were higher than those obtained for its respective solutions, resulting in a significant increase (p<0.05) of 77 and 229%, respectively. As previously observed for similar formulations [29], these increases were higher than that found in the antinociceptive experiments, specially for doxepin, probably because noxious thermal stimuli is thought to be mediated through high-threshold, thin unmyelinated primary afferent C-fibers, while non-noxious tactile stimulation is believed to be mediated through large diameter, low-threshold A afferent fibers, and processed at supraspinal sites receiving input through the dorsal column [55]. This latter path may be more potently blocked by increasing in time the presence of these drugs in the organism.…”

Section: Anti-allodynic Effect In Front Of Nerve Injurycontrasting

confidence: 41%

Tricyclic Antidepressants-loaded Biodegradable PLGA Nanoparticles: In Vitro Characterization and In Vivo Analgesic and Anti-Allodynic Effect

García¹,

Escribano²,

Colom³

et al. 2011

CNANO

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Tricyclic antidepressants (TCAs) have potent local pain blockade properties that could be of interest in relieving chronic pain states as neuropathic pain. The aim of this work was to reach a persistent control of nociceptive and neuropathic pain by means of an injectable controlled release system using lower than usual doses of TCAs. To address this issue, amitriptyline, doxepin and imipramine were encapsulated with poly (lactic-co-glycolic) acid (PLGA) as polymer. Nanoparticles were characterized. The in vitro drug release profile and mechanism was evaluated, and the in vivo analgesic and anti-allodynic activity in front of heat-induced nociceptive pain and sciatic nerve chronic constriction injury, respectively, was tested. The mean±SD particle size and drug loadings (%) of the nanoparticles obtained were 420±13, 480±73 and 373±25nm, and 40.46±4.11, 31.09±3.02 and 32.20±3.20 % for amitriptyline, doxepin and imipramine, respectively. According to the Korsmeyer-Peppas model, the release mechanism of doxepin was diffusion controlled, while a combination of Fickian diffusion and polymer relaxation/erosion of the PLGA matrix was involved for amitriptyline and imipramine. After local infiltration of nanoparticles in rats, the antinociceptive and anti-allodynic activity of the encapsulated drugs were long-lasting and higher than that observed from the solutions. Amitriptyline elicited the lower analgesic effect. Doxepin showed the most outstanding results and its encapsulation led to a 62% and 229% increase in antinociceptive and anti-allodynic activity, respectively. So, this drug could be considered as a therapeutical alternative in pain relieving treatments.

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Section: Anti-allodynic Effect In Front Of Nerve Injurycontrasting

confidence: 41%

Tricyclic Antidepressants-loaded Biodegradable PLGA Nanoparticles: In Vitro Characterization and In Vivo Analgesic and Anti-Allodynic Effect

García¹,

Escribano²,

Colom³

et al. 2011

CNANO

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“…Although mechanisms of allodynia are not entirely understood, they may involve A-beta myelinated afferents [25], activated microglia and astrocytes [26-30], and dorsal horn neuron cells [28]. It has been shown that sodium channel blockers applied to the injured site [31], DRG [32] or the spinal cord [33] all effectively decrease neuropathic pain and attenuate hyperalgesia and allodynia. The present study demonstrates that intrathecal pretreatment with amitriptyline, a sodium channel blocker, enhances the effect of systemic amitriptyline on mechanical and thermal hypersensitivity when compared to systemic administration alone.…”

Section: Discussionmentioning

confidence: 99%

Pretreatment with intrathecal amitriptyline potentiates anti-hyperalgesic effects of post-injury intra-peritoneal amitriptyline following spinal nerve ligation

et al. 2012

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BackgroundAmitriptyline, a tricyclic antidepressant and potent use-dependent blocker of sodium channels, has been shown to attenuate acute and chronic pain in several preclinical modes. The purpose of this study was to investigate whether intrathecal pretreatment with amitriptyline combined with post-injury intra-peritoneal amitriptyline is more effective than post-injury treatment alone on L5 spinal nerve ligation (SNL)-induced neuropathic pain.Methods96 adult male Sprague–Dawley rats were allocated into 4 groups: group S, Sham; group L, L5 spinal nerve Ligation with vehicle treatment; group A, SNL and post-injury intra-peritoneal (Abdominal) amitriptyline twice daily × 3 days; group P, intrathecal Pretreatment with amitriptyline, SNL and intra-peritoneal amitriptyline twice daily × 3 days. Responses to thermal and mechanical stimuli, as well as sodium channel expression in injured dorsal root ganglion (DRG) and activated glial cells in spinal dorsal horn (SDH) were measured pre-operatively and on post-operative day (POD) 4, 7, 14, 21 and 28.ResultsSNL-evoked hyper-sensitivity responses to thermal and mechanical stimuli, up-regulated Nav1.3 and down-regulated Nav1.8 expression in DRG, and activated microglia and astrocytes in SDH. In group A, intra-peritoneal amitriptyline alone alleviated thermal hypersensitivity on POD7, reversed Nav1.8 and reduced activated microglia on POD14. In group P, intrathecal pretreatment with amitriptyline not only potentiated the effect of intra-peritoneal amitriptyline on thermal hypersensitivity and Nav1.8, but attenuated mechanical hypersensitivity on POD7 and reduced up-regulated Nav1.3 on POD14. Furthermore, this treatment regimen reduced astrocyte activation on POD14.ConclusionsConcomitant intrathecal pretreatment and post-injury intra-peritoneal amitriptyline was more effective than post-injury treatment alone on attenuation of behavioral hypersensitivity, decrease of activated microglia and astrocytes and dysregulated Nav1.3 and 1.8.

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“…Although the exact roles of activated spinal microglia and neurons in pain processing are still undetermined, an increase in p-p38 levels in activated microglia after peripheral nerve injury is reported to be a major cause of hypersensitivity to pain [28-30]. Intrathecal administration of lidocaine after peripheral nerve injury is known to reverse well-developed tactile allodynia [14]. A rat model of chronic constriction injury also indicated that lidocaine reverses tactile allodynia by attenuating phosphorylation of p38 in spinal cord microglia [12].…”

Section: Discussionmentioning

confidence: 99%

“…Intravenous administration of lidocaine also alleviates the tactile allodynia associated with neuropathic pain [11]. Intrathecal lidocaine after peripheral nerve injury reverses well-developed tactile allodynia either through interaction with eicosanoid systems in the spinal dorsal horn or by attenuating phosphorylation of p38 mitogen-activated protein (MAP) kinase in activated microglia of the spinal cord [12-14]. However, the use of intrathecal lidocaine pretreatment to attenuate neuropathic pain is not a recognized therapeutic option.…”

Section: Introductionmentioning

confidence: 99%

Intrathecal lidocaine pretreatment attenuates immediate neuropathic pain by modulating Nav1.3expression and decreasing spinal microglial activation

et al. 2011

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BackgroundIntrathecal lidocaine reverses tactile allodynia after nerve injury, but whether neuropathic pain is attenuated by intrathecal lidocaine pretreatment is uncertain.MethodsSixty six adult male Sprague-Dawley rats were divided into three treatment groups: (1) sham (Group S), which underwent removal of the L6 transverse process; (2) ligated (Group L), which underwent left L5 spinal nerve ligation (SNL); and (3) pretreated (Group P), which underwent L5 SNL and was pretreated with intrathecal 2% lidocaine (50 μl). Neuropathic pain was assessed based on behavioral responses to thermal and mechanical stimuli. Expression of sodium channels (Nav1.3 and Nav1.8) in injured dorsal root ganglia and microglial proliferation/activation in the spinal cord were measured on post-operative days 3 (POD3) and 7 (POD7).ResultsGroup L presented abnormal behavioral responses indicative of mechanical allodynia and thermal hyperalgesia, exhibited up-regulation of Nav1.3 and down-regulation of Nav1.8, and showed increased microglial activation. Compared with ligation only, pretreatment with intrathecal lidocaine before nerve injury (Group P), as measured on POD3, palliated both mechanical allodynia (p < 0.01) and thermal hyperalgesia (p < 0.001), attenuated Nav1.3 up-regulation (p = 0.003), and mitigated spinal microglial activation (p = 0.026) by inhibiting phosphorylation (activation) of p38 MAP kinase (p = 0.034). p38 activation was also suppressed on POD7 (p = 0.002).ConclusionsIntrathecal lidocaine prior to SNL blunts the response to noxious stimuli by attenuating Nav1.3 up-regulation and suppressing activation of spinal microglia. Although its effects are limited to 3 days, intrathecal lidocaine pretreatment can alleviate acute SNL-induced neuropathic pain.

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Effects of intrathecal lidocaine on hyperalgesia and allodynia following chronic constriction injury in rats

Cited by 23 publications

References 23 publications

Tricyclic Antidepressants-loaded Biodegradable PLGA Nanoparticles: In Vitro Characterization and In Vivo Analgesic and Anti-Allodynic Effect

Tricyclic Antidepressants-loaded Biodegradable PLGA Nanoparticles: In Vitro Characterization and In Vivo Analgesic and Anti-Allodynic Effect

Pretreatment with intrathecal amitriptyline potentiates anti-hyperalgesic effects of post-injury intra-peritoneal amitriptyline following spinal nerve ligation

Intrathecal lidocaine pretreatment attenuates immediate neuropathic pain by modulating Nav1.3expression and decreasing spinal microglial activation

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