连续监测迷走神经可通过揭示即将发生的神经失用性损伤的初始肌电图变化来预防喉返神经麻痹:一项前瞻性、多中心研究。
Continuous vagal IONM prevents recurrent laryngeal nerve paralysis by revealing initial EMG changes of impending neuropraxic injury: a prospective, multicenter study.
机构信息
Division of Thyroid and Parathyroid Surgery, Department of Laryngology and Otology, Massachusetts Eye and Ear Infirmary, Harvard Medical School, Boston, Massachusetts.
出版信息
Laryngoscope. 2014 Jun;124(6):1498-505. doi: 10.1002/lary.24550. Epub 2014 Feb 6.
OBJECTIVES/HYPOTHESIS: Existing intraoperative neuromonitoring (IONM) formats stimulate the recurrent laryngeal nerve (RLN) intermittently, exposing it to risk for injury in between stimulations. We report electrophysiologic parameters of continuous vagal monitoring, utilizing a novel real-time IONM format, and relate these parameters to intraoperative surgical maneuvers that delineate nascent adverse but reversible electrophysiologic parameters to prevent nerve injury. These results are correlated with postoperative vocal cord functional outcome.
STUDY DESIGN
Prospective multicenter tertiary study.
METHOD
Evoked vagal nerve waveform amplitude and latency changes during 102 thyroidectomies were recorded. Adverse electrophysiologic response was categorized into 1-concordant amplitude reduction and latency increase events (combined events) and 2-loss of signal (LOS). Surgical maneuvers were modified when adverse electrophysiologic findings were noted. All patients underwent preoperative and postoperative laryngoscopy; intraoperative electrophysiologic findings were correlated with postoperative laryngeal function.
RESULTS
Continuous vagal monitoring did not result in stimulation-evoked nerve injury or intraoperative adverse cardiac, pulmonary, or gastrointestinal effects. Both intraoperative combined events and LOS were associated with development of vocal cord paralysis (VCP) (P = 0.001 and P >0.001 respectively). Combined events had a positive predictive value (PPV) of 33%, negative predictive value (NPV) of 97%, and were reversible in 73%. LOS had a PPV of 83%, NPV of 98%, and was reversible in only 17%. Milder combined events and isolated amplitude or latency changes were not associated with VCP.
CONCLUSIONS
Continuous vagal monitoring is safe and provides real-time RLN evaluation during surgical maneuvers. Combined events and LOS, both easily identifiable intraoperatively, are related to the development of VCP. A combined event represents a largely reversible electrophysiologic change when the associated surgical maneuver is aborted. If allowed to continue, it can advance to LOS (which typically is significantly less reversible) and to postoperative VCP. Continuous vagal monitoring has utility in identifying real-time adverse concordant amplitude and latency changes (combined events), which can prompt modification of the associated surgical maneuver and may prevent RLN paralysis during thyroidectomy.
LEVEL OF EVIDENCE
目的/假设:现有的术中神经监测(IONM)格式间歇性地刺激喉返神经(RLN),使其在刺激之间存在受伤的风险。我们报告了利用新型实时 IONM 格式进行连续迷走神经监测的电生理参数,并将这些参数与术中手术操作相关联,这些操作可描绘出新生的不良但可逆的电生理参数,以防止神经损伤。这些结果与术后声带功能结果相关。
研究设计
前瞻性多中心三级研究。
方法
记录 102 例甲状腺切除术期间迷走神经诱发电位波幅和潜伏期的变化。将不良电生理反应分为 1-振幅降低和潜伏期增加的一致事件(联合事件)和 2-信号丢失(LOS)。当发现不良电生理发现时,会修改手术操作。所有患者均接受术前和术后喉镜检查;术中电生理发现与术后声带功能相关。
结果
连续迷走神经监测不会导致刺激诱发的神经损伤或术中不良的心脏、肺部或胃肠道影响。术中联合事件和 LOS 均与声带麻痹(VCP)的发生相关(P=0.001 和 P>0.001)。联合事件的阳性预测值(PPV)为 33%,阴性预测值(NPV)为 97%,73%是可逆的。LOS 的 PPV 为 83%,NPV 为 98%,只有 17%是可逆的。轻度联合事件和孤立的振幅或潜伏期变化与 VCP 无关。
结论
连续迷走神经监测是安全的,并在手术操作期间提供 RLN 实时评估。术中容易识别的联合事件和 LOS 与 VCP 的发生有关。当相关手术操作被中止时,联合事件代表一种主要可逆的电生理变化。如果继续下去,它可以进展到 LOS(通常是明显不可逆转的),并导致术后 VCP。连续迷走神经监测可用于识别实时不良的一致振幅和潜伏期变化(联合事件),这可以提示修改相关手术操作,并可能防止甲状腺切除术中 RLN 麻痹。
证据水平
4 级。
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