Snyder Samuel K, Lairmore Terry C, Hendricks John C, Roberts John W
Department of Surgery, Scott and White Memorial Hospital, Temple, TX 76508, USA.
J Am Coll Surg. 2008 Jan;206(1):123-30. doi: 10.1016/j.jamcollsurg.2007.07.017. Epub 2007 Oct 18.
Intraoperative nerve monitoring during thyroidectomy, parathyroidectomy, or related central neck procedures can elucidate actual or potential mechanisms of recurrent laryngeal nerve (RLN) injury, especially visually intact nerves, which were previously unknown to the endocrine surgeon.
In this prospective evaluation study, 373 patients underwent 380 consecutive thyroidectomy- or parathyroidectomy-related operations using intraoperative nerve monitoring, with 666 RLNs at risk. The success of visual and functional identification of the RLN, persistent loss of RLN function to nerve stimulation, the mechanism and location of RLN injury, and anatomy of the RLN or technical difficulties that appeared potentially risky for RLN injury were recorded.
RLN was identified visually or functionally in 98.2% of nerves at risk. Initial intraoperative injury to the RLN occurred in 25 nerves at risk (3.75%). It was significantly more likely to be a visually intact RLN (n = 22; 3.3%) than a transected RLN (n = 3; 0.45%), p < 0.001. Paralysis persisted in 2 RLNs (0.3%). Visual misidentification accounted for only 1 RLN injury; the most common cause of injury resulted from traction to the anterior motor branch of a bifurcated RLN near the ligament of Berry (n = 7; 28%), then paratracheal lymph node dissection (n = 6; 24%), incorporating ligature (n = 4; 16%), and adherent cancer (n = 4; 16%). Fifty nerves at risk (7.5%) were identified as particularly at risk for injury, most notably those with anatomic variants (n = 26; 52%) and large or vascular thyroid lobes (n = 19; 38%).
RLN injury during thyroidectomy or parathyroidectomy occurs intraoperatively significantly more often to a visually intact RLN than to a transected nerve. The anterior motor branch of an RLN bifurcating near the ligament of Berry is particularly at risk of traction injury.
甲状腺切除术、甲状旁腺切除术或相关中央颈部手术期间的术中神经监测可阐明喉返神经(RLN)损伤的实际或潜在机制,尤其是对于内分泌外科医生此前未知的外观完整的神经。
在这项前瞻性评估研究中,373例患者连续接受了380例使用术中神经监测的甲状腺切除术或甲状旁腺切除术相关手术,有666条RLN面临风险。记录了RLN视觉和功能识别的成功率、对神经刺激后RLN功能的持续丧失、RLN损伤的机制和位置,以及RLN的解剖结构或对RLN损伤有潜在风险的技术难题。
98.2%面临风险的神经通过视觉或功能识别出RLN。25条面临风险的神经(3.75%)在术中最初发生RLN损伤。外观完整的RLN(n = 22;3.3%)发生损伤的可能性显著高于横断的RLN(n = 3;0.45%),p < 0.001。2条RLN(0.3%)持续存在麻痹。视觉误认仅导致1例RLN损伤;最常见的损伤原因是在Berry韧带附近牵拉分叉RLN的前运动支(n = 7;28%),其次是气管旁淋巴结清扫(n = 6;24%)、结扎(n = 4;16%)和癌粘连(n = 4;16%)。50条面临风险的神经(7.5%)被确定为特别有损伤风险,最显著的是那些有解剖变异的神经(n = 26;52%)和大的或血管丰富的甲状腺叶(n = 19;38%)。
甲状腺切除术或甲状旁腺切除术期间,外观完整的RLN术中发生损伤的频率显著高于横断神经。在Berry韧带附近分叉的RLN的前运动支特别有牵拉损伤的风险。
