Department of Otorhinolaryngology-Head and Neck Surgery, Montefiore Medical Center, Albert Einstein College of Medicine, Bronx, New York.
Albert Einstein College of Medicine, Bronx, New York.
JAMA Facial Plast Surg. 2019 Jul 1;21(4):271-276. doi: 10.1001/jamafacial.2019.0057.
Despite advancements, treatment of mandibular body fractures is plagued by complications. Evaluation of a new plating system is needed with the goal of reducing complication rates.
To evaluate the biomechanical behavior of a vertically oriented box plate vs traditional rigid internal fixation plating techniques for mandibular body fractures and to test if placement of the 3-dimensional plate oriented parallel to the fracture line provides improved rigidity and greater resistance to torsion, resulting in improved outcomes.
DESIGN, SETTING, AND PARTICIPANTS: A mandible fracture model with synthetic replicas was used to compare resistance to torsional forces of different plating configurations. Additionally, a retrospective comparative review of the medical records of 84 patients with mandibular body fractures treated from 2005 to 2018 at Jacobi Medical Center, a level-1 trauma hospital in Bronx, New York, was completed.
Patients sustained a mandibular body fracture and were treated with open reduction and internal fixation using metal plating.
In the comparative study of biomechanical behavior of various plating configurations, maximum torque sustained prior to deformation and loss of alignment was measured. Medical records were reviewed for surgical approach, plating techniques, operative time, length of admission, and rate of complications, including malocclusion, nonunion, infection, neurosensory disturbance, and wound dehiscence.
Of the 84 patients included in the retrospective review, 76 (91%) were men, and the mean (SD) age was 29.7 (12.0) years. During biomechanical analysis, the vertical box plate provided greater stability and 150% of the resistance against torsional forces when compared with traditional linear plating. In the retrospective review, analysis showed vertical plating was associated with a lower incidence of postoperative neurosensory disturbance (25 [38%] patients treated with vertical plating vs 0 patients treated with box plating; P = .002) and a lower risk of any complication (41 [62%] vs 6 [33%], respectively; relative risk, 0.54; 95% CI, 0.27-1.06; P = .03). Vertical plating was associated with reduced operative time (134 minutes vs 70 minutes, respectively; P < .001).
This investigation suggests that vertical box plating is associated with a lower incidence of postoperative complications and reduced operative time compared with traditional plating techniques. The comparative biomechanical component demonstrated that the vertical box plate offered equal or greater resistance to torsional forces. Further studies of greater power and level of evidence are needed to more robustly demonstrate these benefits.
尽管取得了进展,但下颌体骨折的治疗仍存在并发症问题。需要评估一种新的接骨板系统,以降低并发症发生率。
评估垂直定向盒式钢板与传统刚性内固定钢板技术治疗下颌体骨折的生物力学行为,并验证平行于骨折线放置三维钢板是否能提高刚度,增强抗扭转能力,从而改善治疗效果。
设计、地点和参与者:本研究采用下颌骨骨折模型和合成复制品来比较不同接骨板固定方式的抗扭转力能力。此外,还对 2005 年至 2018 年在纽约布朗克斯的一级创伤中心雅可比医疗中心接受下颌体骨折治疗的 84 例患者的医疗记录进行了回顾性比较研究。
患者发生下颌体骨折,接受切开复位内固定金属板治疗。
在比较不同接骨板固定方式的生物力学行为的研究中,测量了在变形和失准时之前承受的最大扭矩。回顾性分析了手术入路、接骨板技术、手术时间、住院时间以及并发症发生率,包括咬合不正、骨不连、感染、感觉神经障碍和伤口裂开。
在回顾性研究中,84 例患者中 76 例(91%)为男性,平均(标准差)年龄为 29.7(12.0)岁。在生物力学分析中,与传统线性接骨板相比,垂直盒式钢板具有更高的稳定性和 150%的抗扭转力。回顾性分析显示,垂直接骨板与术后感觉神经障碍发生率较低相关(25 例[38%]接受垂直接骨板治疗的患者与 0 例接受盒式接骨板治疗的患者相比;P = .002),且任何并发症的风险也较低(41 例[62%]与 6 例[33%]相比;相对风险,0.54;95%置信区间,0.27-1.06;P = .03)。垂直接骨板还与手术时间缩短相关(分别为 134 分钟和 70 分钟;P < .001)。
本研究表明,与传统接骨板技术相比,垂直盒式钢板治疗与较低的术后并发症发生率和较短的手术时间相关。比较生物力学部分表明,垂直盒式钢板在抗扭转力方面提供了同等或更高的强度。需要进一步进行更大规模和更高证据水平的研究,以更有力地证明这些益处。
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