迷走神经电刺激是减少食管切除术后肺部并发症的有效方法:一种实验性啮齿动物模型。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Henricus J B Janssen, Tessa C M Geraedts, Laura F C Fransen, Ingrid van Ark, Thea Leusink-Muis, Gert Folkerts, Johan Garssen, Jelle P Ruurda, Grard A P Nieuwenhuijzen, Richard van Hillegersberg, Misha D P Luyer
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引用次数: 0

摘要

食管切除术后,不平衡的炎症反应会增加术后发病的风险。迷走神经可调节局部和全身炎症反应,但在食管切除术中,迷走神经肺分支作为肿瘤切除的一部分被横断,这可能是术后(肺部)并发症高发的原因。本研究探讨了迷走神经电刺激(VNS)对脂多糖(LPS)诱导的大鼠肺损伤的影响。大鼠(n = 60)被随机分配到非迷走神经切断术组或颈部迷走神经切断术组,接受或不接受迷走神经电刺激(NOSTIM)。非迷走神经切断术组有四个:NOSTIM 组和 100、50 或 10 µA 双侧 VNS 组。四组迷走神经切断术组分别为:NOSTIM 和双侧固定振幅(50 µA)的 VNS(VNS-50-前)或双侧迷走神经切断术后(VNS-50-后),或单侧(左侧)同侧迷走神经切断术前(VNS-50-单侧)。手术后气管内注射 LPS。术后 180 分钟评估肺功能、血清中的促炎细胞因子、支气管肺泡灌洗液(BALF)和组织病理学肺损伤(LIS)。在非迷走神经切断的大鼠中,与 NOSTIM 相比,VNS-100 治疗后气管内 LPS(平均 30 [± 23];P = 0.075)和 LIS(平均 0.342 [± 0.067];P = 0.142)在 BALF 中的中性粒细胞流入量相似。VNS-50 可减少中性粒细胞流入(23 [± 19];P = 0.024)和 LIS(0.316 [± 0.093];P = 0.043)。VNS-10 可减少中性粒细胞流入(15 [± 6];P = 0.009),而 LIS(0.331 [± 0.053];P = 0.088)与之相似。在迷走神经切断的大鼠中,VNS-50 之前的中性粒细胞流入量(52 [± 37];P = 0.818)和 LIS(0.407 [SD ± 0.037];P = 0.895)与 NOSTIM 相似,VNS-50 之后的中性粒细胞流入量(中性粒细胞 30 [± 26];P = 0.090 和 LIS 0.344 [± 0.053];P = 0.073)也与 NOSTIM 相似。相反,VNS-50-单侧减少了中性粒细胞流入(26 [± 10];P = 0.050)和 LIS(0.296 [± 0.065];P = 0.005)。各组的全身细胞因子 TNF-α 和 IL-6 水平均检测不到。肺功能在统计学上未受到明显影响。总之,VNS 限制了非迷走神经切断大鼠肺部中性粒细胞的流入,并可能减轻 LIS。即使在同侧迷走神经切断术后,单侧 VNS 也能减轻肺损伤。双侧迷走神经切断术前后的双侧 VNS 均无此效果。这表明 VNS 的效果取决于(部分)完整的迷走神经,食管切除术中迷走神经切断的程度可能会影响术后肺部结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Electrical vagus nerve stimulation is a promising approach to reducing pulmonary complications after an esophagectomy: an experimental rodent model.

Electrical vagus nerve stimulation is a promising approach to reducing pulmonary complications after an esophagectomy: an experimental rodent model.

After esophagectomy, an imbalanced inflammatory response increases the risk of postoperative morbidity. The vagus nerve modulates local and systemic inflammatory responses, but its pulmonary branches are transected during esophagectomy as part of the oncological resection, which may account for the high incidence of postoperative (pulmonary) complications. This study investigated the effect of electrical vagus nerve stimulation (VNS) on lipopolysaccharide (LPS)-induced lung injury in rats. Rats (n = 60) were randomly assigned to a non-vagotomy or cervical vagotomy group, with VNS or without (NOSTIM). There were four non-vagotomy groups: NOSTIM and bilateral VNS with 100, 50, or 10 µA. The four vagotomy groups were NOSTIM and VNS with fixed amplitude (50 µA) bilaterally before (VNS-50-before) or after bilateral vagotomy (VNS-50-after), or unilaterally (left) before ipsilateral vagotomy (VNS-50-unilaterally). LPS was administered intratracheally after surgery. Pulmonary function, pro-inflammatory cytokines in serum, broncho-alveolar lavage fluid (BALF), and histopathological lung injury (LIS) were assessed 180 min post-procedure. In non-vagotomized rats, neutrophil influx in BALF following intra-tracheal LPS (mean 30 [± 23]; P = 0.075) and LIS (mean 0.342 [± 0.067]; P = 0.142) were similar after VNS-100, compared with NOSTIM. VNS-50 reduced neutrophil influx (23 [± 19]; P = 0.024) and LIS (0.316 [± 0.093]; P = 0.043). VNS-10 reduced neutrophil influx (15 [± 6]; P = 0.009), while LIS (0.331 [± 0.053]; P = 0.088) was similar. In vagotomized rats, neutrophil influx (52 [± 37]; P = 0.818) and LIS (0.407 [SD ± 0.037]; P = 0.895) in VNS-50-before were similar compared with NOSTIM, as well as in VNS-50-after (neutrophils 30 [± 26]; P = 0.090 and LIS 0.344 [± 0.053]; P = 0.073). In contrast, VNS-50-unilaterally reduced neutrophil influx (26 [± 10]; P = 0.050) and LIS (0.296 [± 0.065]; P = 0.005). Systemic levels of cytokines TNF-α and IL-6 were undetectable in all groups. Pulmonary function was not statistically significantly affected. In conclusion, VNS limited influx of neutrophils in lungs in non-vagotomized rats and may attenuate LIS. Unilateral VNS attenuated lung injury even after ipsilateral vagotomy. This effect was absent for bilateral VNS before and after bilateral vagotomy. It is suggested that the effect of VNS is dependent on (partially) intact vagus nerves and that the level of the vagotomy during esophagectomy may influence postoperative pulmonary outcomes.

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