Janssen Insa, Ryang Yu-Mi, Gempt Jens, Bette Stefanie, Gerhardt Julia, Kirschke Jan S, Meyer Bernhard
Department of Neurosurgery, Klinikum rechts der Isar, Technical University Munich, Ismaninger Straße 22, 81675 Munich, Germany.
Department of Neurosurgery, Klinikum rechts der Isar, Technical University Munich, Ismaninger Straße 22, 81675 Munich, Germany.
Spine J. 2017 Jun;17(6):837-844. doi: 10.1016/j.spinee.2017.01.009. Epub 2017 Jan 17.
Cement-augmented pedicle screw instrumentation (CAPSI) of the thoracolumbar spine is indicated in osteoporosis or osteopenia to improve pullout strength and biomechanical stability of pedicle screws (PS). Only a few studies report on the incidence of pulmonary cement embolism or other complications associated with CAPSI.
The aim of this retrospective study was to assess the rate of CAPSI-associated complications.
Retrospective cohort study.
Patients who underwent CAPSI due to spinal tumors or degenerative spine disease.
Cement leakage, pulmonary cement embolism (PCE), mortality rate.
Our clinical database was reviewed for patients who underwent CAPSI between January 2012 and June 2015. A total of 165 patients (mean age 71±11.2; range: 46 to 93 years; m=62, f=103) were included. Indications were osteoporotic fractures (n=40), spinal metastases (n=57), degenerative (n=49) or infectious spine disease (n=5), and traumatic vertebral fractures (n=14) with an associated osteoporosis. Every patient received between 2 and 21 (mean 8±3.3) cement-augmented pedicle screws in the thoracolumbar and lumbosacral spine. Both intraoperative cement leakage in prevertebral veins, the inferior vena cava, and/or pulmonary arteries, and leakage detected on postoperative imaging were evaluated. We assessed the incidence of clinically symptomatic and asymptomatic events.
In 29 of 31 patients with intraoperative suspicion of cement leakage into prevertebral veins or the inferior vena cava on lateral fluoroscopy, which were without hemodynamic relevance, cement extrusion was confirmed on postoperative X-ray or computed tomography (CT) scan. In three of eight patients with suspicion of PCE, PCE was verified on thoracic CT. Four patients experienced life-threatening intraoperative hemodynamic reactions, either due to cement embolism (n=2; 1.2%) or anaphylactic shock (n=2; 1.2%) with need for intraoperative cardiopulmonary resuscitation in three cases. Two patients died due to fulminant PCE. Three patients with dyspnea 1 day after surgery were also confirmed with PCE on chest CT. In five patients, an asymptomatic PCE was found incidentally on postoperative imaging. In addition, 68 patients with cement leakage into prevertebral veins or the ascending cava vein were found incidentally on postoperative spine X-ray or CT. Two of 10 patients with intraspinal epidural cement leakage required revision surgery. One hundred ten of 165 patients (66.7%) had clinically asymptomatic cement leakage. Thirteen patients had PCE (7.9%), of whom five (3.0%) were symptomatic. Two patients experienced intraoperative cement-induced anaphylaxis (1.2%). The overall symptomatic complication rate was 5.5% (n=9). The 30-day mortality rate was 1.8% (n=3).
CAPSI bears a high risk of asymptomatic cement leakage. The risk for associated severe complications was also relatively high and probably underestimated considering the retrospective nature of the present study. A strict indication for cement augmentation, especially in patients with cardiac predisposition, should be the consequence. We doubt that technical aspects of cement application and/or different types of cement are capable of reducing the risk of these complications substantially.
胸腰椎椎体强化椎弓根螺钉内固定术(CAPSI)适用于骨质疏松或骨质减少患者,以提高椎弓根螺钉(PS)的拔出强度和生物力学稳定性。仅有少数研究报道了与CAPSI相关的肺水泥栓塞或其他并发症的发生率。
本回顾性研究旨在评估CAPSI相关并发症的发生率。
回顾性队列研究。
因脊柱肿瘤或退行性脊柱疾病接受CAPSI的患者。
骨水泥渗漏、肺水泥栓塞(PCE)、死亡率。
我们回顾了2012年1月至2015年6月期间接受CAPSI的患者的临床数据库。共纳入165例患者(平均年龄71±11.2岁;范围:46至93岁;男性62例,女性103例)。适应证包括骨质疏松性骨折(n = 40)、脊柱转移瘤(n = 57)、退行性疾病(n = 49)或感染性脊柱疾病(n = 5)以及伴有骨质疏松的创伤性椎体骨折(n = 14)。每位患者在胸腰椎和腰骶椎置入2至21枚(平均8±3.3枚)骨水泥强化椎弓根螺钉。评估术中骨水泥渗漏至椎前静脉、下腔静脉和/或肺动脉的情况,以及术后影像学检查发现的渗漏情况。我们评估了有临床症状和无症状事件的发生率。
在31例术中怀疑骨水泥渗漏至椎前静脉或下腔静脉的患者中,29例经术中侧位透视检查且无血流动力学影响,术后X线或计算机断层扫描(CT)证实有骨水泥挤出。在8例怀疑有PCE的患者中,3例经胸部CT证实有PCE。4例患者术中出现危及生命的血流动力学反应,其中2例(1.2%)因骨水泥栓塞,2例(1.2%)因过敏性休克,3例需要术中进行心肺复苏。2例患者因暴发性PCE死亡。3例术后1天出现呼吸困难的患者经胸部CT也证实有PCE。5例患者术后影像学检查偶然发现无症状PCE。此外,68例患者术后脊柱X线或CT偶然发现骨水泥渗漏至椎前静脉或上腔静脉。10例椎管内硬膜外骨水泥渗漏患者中有2例需要翻修手术。165例患者中有110例(66.7%)有临床无症状的骨水泥渗漏。13例患者发生PCE(7.9%),其中5例(3.0%)有症状。2例患者术中发生骨水泥诱导的过敏反应(1.2%)。总体症状性并发症发生率为5.5%(n = 9)。30天死亡率为1.8%(n = 3)。
CAPSI存在无症状骨水泥渗漏的高风险。相关严重并发症的风险也相对较高,考虑到本研究的回顾性性质,可能被低估了。因此,应严格掌握骨水泥强化的适应证,尤其是对于有心脏疾病倾向的患者。我们怀疑骨水泥应用的技术方面和/或不同类型的骨水泥能否大幅降低这些并发症的风险。
