无楔v型股骨内侧远端截骨加锁定钢板固定矫正膝外翻在青少年和年轻人中的应用

Sumit Arora, Rahul Garg, Mudit Sharma, Vineet Bajaj, Abhishek Kashyap, Vikas Gupta
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引用次数: 0

摘要

背景:膝外翻是一种影响青少年和年轻人的常见疾病。这种疾病的治疗需要恢复正常的机械轴对齐和关节方向,因此评估畸形是来自股骨远端、膝关节还是胫骨近端是很重要的。最常见的是,畸形起源于股骨远端,各种股骨远端截骨术已被描述1-6。目前描述的无楔v形截骨术7,8是下面列出的各种替代手术中的一个很好的选择。麻醉后的病人仰卧在透光手术台上。在膝盖下方放置一个靠枕来放松背部结构。从内侧关节线水平至内收肌结节近端5cm处做一个内侧纵向皮肤切口。通过将股内侧肌从远端和后侧面分离出来,我们可以在前面认出并抬高股内侧肌。股内侧肌下面的血管链被识别出来,v形截骨术的顶点就在它的近端。V字型的前臂要比后臂长,两者要互相垂直,并使V字型的顶点指向远端。在内侧皮质上使用振荡锯或多个钻孔进行截骨,然后使用薄的截骨器连接。注意不要在外侧皮质上使用锯子或钻头。在不破坏骨膜的情况下,应用温和的外翻推力打破外侧皮质。修整近端碎片上的V形截骨顶点,用内翻力矫正畸形。截骨部位使用解剖形状的股骨远端内侧锁定钢板或胫骨近端内侧l型支撑钢板(对侧)进行稳定。在c臂图像增强器下验证植入物位置。伤口按标准方式在抽吸管上分层闭合。替代方案:文献中描述了股骨远端各种类型的矫正截骨,包括外侧开口楔骨、内侧闭合楔骨、圆顶截骨和钉状截骨1-6。这些方法都有一定的局限性和不足。理由:无楔v形截骨术是另一种固有稳定的手术7,8。这是一个安全的程序,并产生良好的临床结果8,9。v型截骨术的后臂比前臂要小。在畸形矫正时,允许近端皮质骨挖入较宽的远端干骺端松质骨。截骨后修整近端骨端尖端有助于手术。预期结果:在一项46例患者的研究中,平均年龄为16.9岁(范围,15岁至23岁),Gupta等8报道,平均胫骨股骨放射角度从术前的22.2°(范围,16°至29°)改善到术后的5.1°(范围,0°至10°)(p <0.001)。同样,股骨远端外侧平均角度从术前79.2°改善到术后89.1°(p <0.001),平均机械轴偏差从术前的19.6 mm改善到术后的3.7 mm (p <0.001)。46例患者中44例功能预后良好,2例预后良好。在这项研究中,没有一个病人的结果令人不满意。重要提示:术中保持整个下肢接近图像增强器是很重要的。识别股内侧肌下的血管束对于确定截骨的水平是很重要的。保留股骨外侧的骨膜套是很重要的。CORA =成角旋转中心ECG =心电图LDFA =股骨外侧远端角MAD =机械轴偏差MPTA =胫骨内侧近端角
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Wedgeless V-Shaped Osteotomy of the Distal Medial Femur with Locking Plate Fixation for Correction of Genu Valgum in Adolescents and Young Adults
Background: Genu valgum is a common disorder affecting adolescents and young adults. Treatment of this disorder requires restoration of normal mechanical axis alignment and joint orientation, for which it is important to assess whether the deformity arises from the distal femur, knee joint, or proximal tibia. Most commonly, the deformity originates from the distal femur, and various osteotomies of the distal femur have been described 1–6 . The presently described wedgeless V-shaped osteotomy 7,8 is a good option among the various alternative procedures listed below. Description: The anesthetized patient is placed in the supine position on a radiolucent operating table. A bolster is placed beneath the knee to relax the posterior structures. A medial longitudinal skin incision is made that extends from the level of the medial joint line to 5 cm proximal to the adductor tubercle. The vastus medialis is identified and elevated anteriorly by detaching it from its distal and posterior aspects. The leash of vessels underneath the vastus medialis is identified, and the apex of the V-shaped osteotomy is kept just proximal to it. The anterior arm of the V is kept longer than the posterior one, both of them are kept perpendicular to each other, and the apex of the V is made to point distally. The osteotomy is performed on the medial cortex with use of an oscillating saw or multiple drill holes that are then connected using a thin osteotome. Care is taken not to utilize a saw or drill on the lateral cortex. A gentle valgus thrust is applied to break the lateral cortex without periosteal disruption. The apex of the V osteotomy on the proximal fragment is trimmed, and the deformity is corrected with varus force. The osteotomy site is stabilized with use of an anatomically contoured distal medial femoral locking plate or a medial proximal tibial L-shaped buttress plate (of the contralateral side). The implant position is verified under a C-arm image intensifier. The wound is closed in layers over a suction drain in a standard manner. Alternatives: Various types of corrective osteotomies of the distal femur have been described in the literature, including the lateral opening wedge, medial closing wedge, dome, and spike osteotomies 1–6 . All of these procedures have certain limitations and shortcomings. Rationale: The wedgeless V-shaped osteotomy is another described procedure that is inherently stable 7,8 . It is a safe procedure and yields good clinical outcomes 8,9 . The posterior arm of the V-shaped osteotomy is kept smaller than the anterior arm. The proximal cortical bone is allowed to dig into the cancellous bone of the wider distal metaphysis during deformity correction. Trimming the apex of proximal bone end after making the osteotomy facilitates the process. Expected Outcomes: In a study of 46 patients with a mean age of 16.9 years (range, 15 years to 23 years), Gupta et al. 8 reported that the mean radiographic tibiofemoral angle improved from 22.2° (range, 16° to 29°) preoperatively to 5.1° (range, 0° to 10°) postoperatively (p < 0.001). Similarly, the mean lateral distal femoral angle improved from 79.2° preoperatively to 89.1° postoperatively (p < 0.001) and the mean mechanical axis deviation improved from 19.6 mm preoperatively to 3.7 mm postoperatively (p < 0.001). A total of 44 of 46 cases had an excellent functional outcome, with the other 2 having good outcomes. None of the patients in the study had an unsatisfactory outcome. Important Tips: It is important to keep the whole lower limb accessible to the image intensifier intraoperatively. Identification of the leash of vessels underneath the vastus medialis is important to decide the level of the osteotomy. It is important to preserve the periosteal sleeve on the lateral aspect of the femur. Acronyms and Abbreviations: CORA = center of rotation of angulation ECG = electrocardiogram LDFA = lateral distal femoral angle MAD = mechanical axis deviation MPTA = medial proximal tibial angle
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来源期刊
CiteScore
2.30
自引率
0.00%
发文量
22
期刊介绍: JBJS Essential Surgical Techniques (JBJS EST) is the premier journal describing how to perform orthopaedic surgical procedures, verified by evidence-based outcomes, vetted by peer review, while utilizing online delivery, imagery and video to optimize the educational experience, thereby enhancing patient care.
期刊最新文献
Bikini Incision Modification of the Direct Anterior Approach. Closed Intramedullary Pinning of Displaced Radial Neck Fracture (Metaizeau Technique). Flexible Intramedullary Nail Placement in Pediatric Humerus Fractures. Ligamentum Flavum Flap Technique in Lumbar Microdiscectomy. Surgery for Pediatric Trigger Finger.
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