Acute Correction of Multiplanar Proximal Tibial Deformity Utilizing Fixator-Assisted Intramedullary Nailing.

IF 1 Q3 SURGERY
Joseph Nicholas Charla, Melinda S Sharkey
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We apply the principles of fixator-assisted acute deformity correction, mostly described for use at the distal aspect of the femur, as well as the principles of anatomic reduction and fixation of proximal-third tibial fractures<sup>4</sup> to acutely correct these complex deformities in skeletally mature individuals<sup>5-12</sup>. We perform acute correction of multiplanar proximal tibial deformity with use of fixator-assisted intramedullary nailing in order to avoid the complications and patient discomfort associated with gradual deformity correction with use of a circular external fixator. This procedure is novel in the treatment of adolescent Blount disease deformity in skeletally mature individuals and can additionally be utilized for other proximal tibial metaphyseal deformities, allowing the accurate and acute correction of all planes of deformity as well as the anatomic and mechanical axes, while avoiding the prolonged use of external fixators.</p><p><strong>Description: </strong>The patient is positioned supine on a radiolucent table. The locations of the proximal tibial osteotomy, fibular osteotomy, external fixator pin sites, and intramedullary nail insertion site are marked with use of a surgical marker and fluoroscopic imaging. Large external fixator half-pins are placed proximal and distal to the planned tibial osteotomy in both the anterior-posterior and sagittal planes, avoiding the path of the planned tibial intramedullary nail. A fibular osteotomy and then a low-energy tibial osteotomy are performed with use of multiple drill holes and an osteotome. Next, the bone deformity is fully corrected and held in the corrected alignment with the external fixators. Then, the opening drill for the intramedullary nail is introduced into the proximal aspect of the tibia over a guidewire, and blocking screws are placed in the coronal and sagittal planes of the proximal fragment next to the opening reamer. The intramedullary canal is then reamed over a ball-tipped guidewire to the desired diameter and the selected intramedullary nail is placed and secured with proximal and distal interlocking screws. Finally, the external fixators are removed.</p><p><strong>Alternatives: </strong>Alternative operative treatments include external fixation and gradual or acute deformity correction as well as fixator-assisted acute deformity correction and plate fixation<sup>13-16</sup>.</p><p><strong>Rationale: </strong>Typically, a tibial osteotomy with gradual deformity correction with use of a circular fixator is employed for the treatment of these deformities<sup>3,17</sup>. The literature shows this to be an effective technique for accurate correction of these complex proximal tibial deformities. With the advent of internal motorized lengthening nails, however, there have been increasing efforts to develop safe and accurate techniques for acutely correcting bone deformity so that these nails can be utilized to treat both angular deformities and bone-length differences simultaneously. Deformity at the proximal aspect of the tibia is often multiplanar, and complete correction of these deformities requires translation, angulation, and rotation through the osteotomy. An osteotomy performed at the proximal aspect of the tibia results in the equivalent of a proximal-third tibial fracture, which is more challenging and more demanding to fix than a diaphyseal tibial fracture because of the wide medullary canal and the strong deforming muscular forces at the proximal tibia. 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引用次数: 0

Abstract

Proximal tibial deformities, particularly varus deformities, are relatively common in adolescents and young adults. The etiology of these deformities is often untreated or undercorrected infantile and adolescent Blount disease. Other less common etiologies include metabolic bone disease-associated deformities, posttraumatic and iatrogenic growth disturbance, and deformity related to surgical treatment or radiation for tumors1-3. We apply the principles of fixator-assisted acute deformity correction, mostly described for use at the distal aspect of the femur, as well as the principles of anatomic reduction and fixation of proximal-third tibial fractures4 to acutely correct these complex deformities in skeletally mature individuals5-12. We perform acute correction of multiplanar proximal tibial deformity with use of fixator-assisted intramedullary nailing in order to avoid the complications and patient discomfort associated with gradual deformity correction with use of a circular external fixator. This procedure is novel in the treatment of adolescent Blount disease deformity in skeletally mature individuals and can additionally be utilized for other proximal tibial metaphyseal deformities, allowing the accurate and acute correction of all planes of deformity as well as the anatomic and mechanical axes, while avoiding the prolonged use of external fixators.

Description: The patient is positioned supine on a radiolucent table. The locations of the proximal tibial osteotomy, fibular osteotomy, external fixator pin sites, and intramedullary nail insertion site are marked with use of a surgical marker and fluoroscopic imaging. Large external fixator half-pins are placed proximal and distal to the planned tibial osteotomy in both the anterior-posterior and sagittal planes, avoiding the path of the planned tibial intramedullary nail. A fibular osteotomy and then a low-energy tibial osteotomy are performed with use of multiple drill holes and an osteotome. Next, the bone deformity is fully corrected and held in the corrected alignment with the external fixators. Then, the opening drill for the intramedullary nail is introduced into the proximal aspect of the tibia over a guidewire, and blocking screws are placed in the coronal and sagittal planes of the proximal fragment next to the opening reamer. The intramedullary canal is then reamed over a ball-tipped guidewire to the desired diameter and the selected intramedullary nail is placed and secured with proximal and distal interlocking screws. Finally, the external fixators are removed.

Alternatives: Alternative operative treatments include external fixation and gradual or acute deformity correction as well as fixator-assisted acute deformity correction and plate fixation13-16.

Rationale: Typically, a tibial osteotomy with gradual deformity correction with use of a circular fixator is employed for the treatment of these deformities3,17. The literature shows this to be an effective technique for accurate correction of these complex proximal tibial deformities. With the advent of internal motorized lengthening nails, however, there have been increasing efforts to develop safe and accurate techniques for acutely correcting bone deformity so that these nails can be utilized to treat both angular deformities and bone-length differences simultaneously. Deformity at the proximal aspect of the tibia is often multiplanar, and complete correction of these deformities requires translation, angulation, and rotation through the osteotomy. An osteotomy performed at the proximal aspect of the tibia results in the equivalent of a proximal-third tibial fracture, which is more challenging and more demanding to fix than a diaphyseal tibial fracture because of the wide medullary canal and the strong deforming muscular forces at the proximal tibia. Fixator-assisted intramedullary nailing with blocking screws allows for the accurate correction of the mechanical and anatomic axes while avoiding external fixation.

Expected outcomes: The expected outcome is complete bone deformity correction and healing of the osteotomy site(s)2.

Important tips: Careful preoperative planning is essential to accurately correct the anatomic and mechanical axes in all planes.In cases of acute correction of severe bone deformities, consider prophylactic nerve decompression.When possible, avoid the use of a tourniquet in order to minimize tissue trauma, postoperative swelling, and the need for prophylactic fasciotomies.Obtain and hold perfect osseous alignment with use of temporary uniplanar external fixators prior to placing any definitive hardware.

Acronyms and abbreviations: AP = anteroposteriorIM = intramedullaryPACS = picture archiving and communication systemK-wire = Kirschner wireCORA = center of rotation and angulationDVT = deep venous thrombosisPE = pulmonary embolism.

固定器辅助髓内钉治疗胫骨近端多平面畸形的急性矫治。
胫骨近端畸形,特别是内翻畸形,在青少年和年轻人中相对常见。这些畸形的病因往往是未经治疗或纠正不足的婴儿和青少年布朗特病。其他不太常见的病因包括代谢性骨病相关的畸形、创伤后和医源性生长障碍,以及与手术治疗或肿瘤放疗相关的畸形1-3。我们应用固定器辅助的急性畸形矫正原理,主要用于股骨远端,以及近三胫骨骨折的解剖复位和固定原理,以急性纠正骨骼成熟个体的这些复杂畸形5-12。我们使用固定架辅助髓内钉对胫骨近端多平面畸形进行急性矫正,以避免使用圆形外固定架进行逐渐畸形矫正的并发症和患者不适。该方法在治疗骨骼成熟个体的青少年布朗特病畸形方面是新颖的,也可用于其他胫骨近端干骺端畸形,允许准确和急性地纠正所有平面的畸形以及解剖和机械轴,同时避免长时间使用外固定架。描述:患者仰卧在透光手术台上。使用手术标记和透视成像标记胫骨近端截骨、腓骨截骨、外固定钉钉位置和髓内钉插入位置。大的外固定架半钉放置在胫骨截骨术的近端和远端,在前后和矢状面放置,避免了胫骨髓内钉的路径。先行腓骨截骨术,然后行低能量胫骨截骨术,使用多个钻孔和截骨术。接下来,将骨畸形完全矫正,并用外固定架保持矫正后的对中。然后,通过导丝将髓内钉的开孔钻孔引入胫骨近端,并将封闭螺钉放置在近端碎片的冠状面和矢状面,旁边是开孔铰刀。然后用球头导丝扩髓至所需直径,放置选定的髓内钉并用近端和远端互锁螺钉固定。最后,取出外固定架。其他选择:其他手术治疗包括外固定和逐渐或急性畸形矫正,以及固定架辅助的急性畸形矫正和钢板固定13-16。基本原理:通常采用胫骨截骨术并使用圆形固定器逐渐矫正畸形来治疗这些畸形3,17。文献表明,这是一种有效的技术,准确纠正这些复杂的胫骨近端畸形。然而,随着内部电动延长钉的出现,人们越来越多地努力开发安全准确的技术来急性纠正骨畸形,以便这些钉子可以同时用于治疗角度畸形和骨长度差异。胫骨近端畸形通常是多平面的,这些畸形的完全矫正需要通过截骨术进行平移、成角和旋转。在胫骨近端行截骨术相当于胫骨近端-第三段骨折,由于胫骨近端髓管宽,肌肉变形力强,这比胫骨干骺端骨折更具有挑战性和更高的固定要求。固定器辅助髓内钉锁紧螺钉可以精确矫正机械轴和解剖轴,同时避免外固定。预期结果:预期结果是骨畸形完全矫正和截骨部位愈合2。重要提示:仔细的术前计划是必要的,以准确地纠正解剖和机械轴在所有平面。在严重骨畸形的急性矫正病例中,可考虑预防性神经减压。如果可能的话,避免使用止血带,以减少组织损伤、术后肿胀和预防性筋膜切开术的需要。在放置任何确定的硬体之前,使用临时的平面外固定架获得并保持完美的骨对齐。首字母缩写:AP = anteroposteriorIM =髓内图像存档和通信系统ypacs =图像存档和通信系统k -wire =克氏线recora =旋转成角中心dvt =深静脉血栓sispe =肺栓塞
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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.
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