Chen QiLiang, Sahbaie Peyman, Irvine Karen-Amanda, Clark J David
From the Department of Anesthesiology, Perioperative and Pain Medicine, Stanford University, School of Medicine, Stanford, California.
Anesthesiology Service, Veterans Affairs Palo Alto Health Care System, Palo Alto, California.
Anesth Analg. 2024 Apr 1;138(4):866-877. doi: 10.1213/ANE.0000000000006505. Epub 2024 Mar 15.
Individuals recovering from mild traumatic brain injury (mTBI) have increased rates of acute and chronic pain. However, the mechanism through which mTBI triggers heightened pain responses and the link between mTBI and postsurgical pain remain elusive. Recent data suggest that dysregulated serotonergic pain-modulating circuits could be involved. We hypothesized that mTBI triggers dysfunction in descending serotonergic pain modulation, which exacerbates acute pain and delays pain-related recovery after surgery.
Using mouse models of mTBI and hindpaw incision for postsurgical pain in C57BL/6J mice, mechanical withdrawal thresholds were assessed throughout the postsurgical period. To determine whether mTBI leads to persistent alteration of endogenous opioid tone, mu-opioid receptors (MORs) were blocked with naloxone. Finally, the role of descending serotonergic signaling on postsurgical allodynia in animals with mTBI was examined using ondansetron (5-HT 3 receptor antagonist) or a serotonin-specific neurotoxin, 5,7-dihydroxytryptamine (5,7-DHT), to ablate descending serotonergic fibers. The treatment effects on withdrawal thresholds were normalized to baseline (percentage of maximum possible effect, MPE%), and analyzed using paired t -test or 2-way repeated-measures ANOVA with post hoc multiple comparisons.
Post-mTBI mice demonstrated transient allodynia in hindpaws contralateral to mTBI, while no nociceptive changes were observed in sham-mTBI animals (mean difference, MD, MPE%, post-mTBI day 3: -60.9; 95% CI, -88.7 to -35.0; P < .001). After hindpaw incision, animals without mTBI exhibited transient allodynia, while mice with prior mTBI demonstrated prolonged postsurgical allodynia (MD-MPE% postsurgical day 14: -65.0; 95% CI, -125.4 to -4.5; P = .04). Blockade of MORs using naloxone transiently reinstated allodynia in mTBI animals but not in sham-mTBI mice (MD-MPE% post-naloxone: -69.9; 95% CI, -94.8 to -45.1; P < .001). Intrathecal administration of ondansetron reversed the allodynia observed post-mTBI and postincision in mTBI mice (compared to vehicle-treated mTBI mice, MD-MPE% post-mTBI day 3: 82.7; 95% CI, 58.5-106.9; P < .001; postsurgical day 17: 62.5; 95% CI, 38.3-86.7; P < .001). Both the acute allodynia after TBI and the period of prolonged allodynia after incision in mTBI mice were blocked by pretreatment with 5,7-DHT (compared to sham-mTBI mice, MD-MPE% post-mTBI day 3: 0.5; 95% CI, -18.5 to 19.5; P = .99; postsurgical day 14: -14.6; 95% CI, -16.7 to 45.9; P = .48). Similar behavioral patterns were observed in hindpaw ipsilateral to mTBI.
Collectively, our results show that descending serotoninergic pain-facilitating signaling is responsible for nociceptive sensitization after mTBI and that central endogenous opioid tone opposes serotonin's effects. Understanding brain injury-related changes in endogenous pain modulation may lead to improved pain control for those with TBI undergoing surgery.
从轻度创伤性脑损伤(mTBI)中恢复的个体急性和慢性疼痛发生率增加。然而,mTBI引发疼痛反应增强的机制以及mTBI与术后疼痛之间的联系仍不明确。最近的数据表明,血清素能疼痛调节回路失调可能与之有关。我们假设mTBI会引发下行血清素能疼痛调节功能障碍,从而加剧急性疼痛并延迟术后疼痛相关的恢复。
使用C57BL/6J小鼠的mTBI模型和后爪切口术后疼痛模型,在整个术后期间评估机械性撤足阈值。为了确定mTBI是否导致内源性阿片样物质张力的持续改变,用纳洛酮阻断μ-阿片受体(MORs)。最后,使用昂丹司琼(5-HT 3受体拮抗剂)或血清素特异性神经毒素5,7-二羟基色胺(5,7-DHT)来消融下行血清素能纤维,以研究下行血清素能信号在mTBI动物术后痛觉过敏中的作用。将治疗对撤足阈值的影响归一化为基线(最大可能效应百分比,MPE%),并使用配对t检验或双向重复测量方差分析及事后多重比较进行分析。
mTBI后小鼠在mTBI对侧后爪出现短暂性痛觉过敏,而假手术mTBI动物未观察到伤害性变化(平均差异,MD,MPE%,mTBI后第3天:-60.9;95%可信区间,-88.7至-35.0;P <.001)。后爪切口后,未发生mTBI的动物出现短暂性痛觉过敏,而先前有mTBI的小鼠术后痛觉过敏持续时间延长(术后第14天MD-MPE%:-65.0;95%可信区间,-125.4至-4.5;P = 0.04)。用纳洛酮阻断MORs可使mTBI动物的痛觉过敏短暂恢复,但假手术mTBI小鼠未恢复(纳洛酮后MD-MPE%:-
