The Effects of Extramedullary Reduction in Unstable Intertrochanteric Fracture: A Biomechanical Study Using Cadaver Bone

Park, Young Chang; Yoon, Soon Phil; Yang, Kyu Hyun

doi:10.12671/jkfs.2018.31.3.79

Cited by 13 publications

(9 citation statements)

References 19 publications

(20 reference statements)

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“…However, blade sliding was not blocked by cortical apposition in the intramedullary reduction group, and after that, cut-out occurred following varus malposition and rotation of proximal fragment. A previous biomechanical study demonstrated results similar to those in the extamedullary reduction group which had better resistance against axial loading compared with the intramedullary reduction group 17) .…”

Section: Discussionsupporting

confidence: 55%

“…For the prevention of mechanical complications, appropriate fracture reduction and blade position are essential 15 16) . Anatomical reduction or extramedullary reduction with medial cortical overlap known as the Wayne-County technique are associated with biomechanical stability compared with intramedullary reduction 17) . Intramedullary reduction in comminuted intertrochanteric fractures without posteromedial cortical support is prone to excessive sliding and varus malposition of proximal fragment leading to mechanical failures.…”

Section: Introductionmentioning

confidence: 99%

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Factors Associated with Mechanical Complications in Intertrochanteric Fracture Treated with Proximal Femoral Nail Antirotation

Park

2021

Hip & Pelvis

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Purpose Although proximal femoral nail antirotation (PFNA; Synthes, Switzerland) has demonstrated satisfactory results when used for the treatment of intertrochanteric fractures, mechanical complications may occur. To better quantify the risk of mechanical complications when proximal femoral nail antirotation is used to treat intertrochanteric fractures, this study aimed to: (1) characterize the frequency of mechanical complications and extent of blade sliding and their correlation with reduction quality and (2) identify factors associated with mechanical complications. Materials and Methods A review of medical records from 93 patients treated for intertrochanteric fractures with a minimum of 6-months of follow-up between February 2014 and February 2019 was conducted. Blade position was evaluated using Tip-apex distance (TAD) and Cleveland index. The extent of blade sliding was evaluated using the adjusted Doppelt's method for intramedullary nailing. Individuals were classified as having or not having mechanical complications, and reduction quality and radiologic outcomes were compared between the two groups. Results Mechanical complications occurred in 12 of 94 hips (12.8%), with 11 out of 12 being from the intramedullary reduction group. There was no significant difference in TAD between groups; however, there were significant differences were noted in Cleveland index, AO/OTA classification, reduction quality and extent of blade sliding. The mean blade sliding distance was 1.17 mm (anatomical group), 3.28 mm (extramedullary group), and 6.11 mm (intramedullary group), respectively ( P <0.001). Data revealed that blade sliding was an associated factor for mechanical complications (odds ratio 1.25, 95% confidence interval 1.03–1.51). Conclusion The extent of blade sliding determined using the adjusted Doppelt's method was significantly associated with mechanical complications suggesting that prevention of excessive sliding through proper intraoperative reduction is important to help achieve satisfactory treatment outcomes.

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Section: Discussionsupporting

confidence: 55%

Section: Introductionmentioning

confidence: 99%

Factors Associated with Mechanical Complications in Intertrochanteric Fracture Treated with Proximal Femoral Nail Antirotation

Park

2021

Hip & Pelvis

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“…The authors believed that the Chang's criteria which emphasized anteromedial cortical contact was more reliable and effective than the Baumgaertner's criteria in predicting postoperative mechanical complications and worthy of clinical applications. Biomechanical [14] and clinical [15] researches have confirmed that the anteromedial cortical contact can not only share stress load from the internal fixation device (mechanical role), but also can promote close contact and fracture healing at the fracture sites (biological role), both of which are benefit for maintaining the normal femoral neck length and the neck-shaft angle.…”

Section: Discussionmentioning

confidence: 99%

Utility of the 30° oblique tangential view for evaluation of anteromedial cortical reduction in reconstruction of intertrochanteric fractures

Gandhi¹,

Gandhi²,

Oza³

2022

Nat. J. Clin. Orthop.

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Background: Intertrochanteric fractures are one of the most commonly presented cases at a tertiary care center. While operating them reduction of the fracture is a prime factor deciding the prognosis. Anatomical reduction of anteromedial cortex per se is the key parameter for stable reconstruction of the fracture. To evaluate this reduction conventional AP and Lateral projections are in wide use. A study was done to check the utility a novel 30 degree oblique tangential fluoroscopic projection to evaluate the quality of anteromedial cortical reduction. Methods: To conduct this study normal side calibration confirmation was used in initial cases. Using steel wires along five anatomic landmarks: Greater trochanter, Lesser trochanter, Intertrochanteric line, Anterolateral tubercle and the Anteromedial cortical line were identified, after which conventional AP and lateral fluoroscopic views were taken. The C-arm of the machine was then rotated by every 10°increments until a clear tangential view of the anteromedial-inferior corner cortex was observed. 100 operative cases of intertrochanteric hip fractures were studied from September 2021 to May 2022. In all of those intra-operative AP, Lateral and 30degree oblique tangential views were used after reduction as well as after final fixation to assess the quality of anteromedial cortical reduction. For 28 cases fluoroscopic results were compared with the post-operative 3D-CT reconstruction images. Results:The study on normal specimens showed that internal rotation of the C-arm to approximately 30° can remove all the obscure shadows and clearly display the anteromedial cortical tangent line. Intraoperative positive, neutral and negative apposition of anterior and medial cortices showed 78, 22 and 0 cases of medial cortical apposition in AP views; 17, 75 and 8 cases of anterior cortices in lateral views; and 70, 28 and 2 cases of anteromedial cortical apposition in oblique views respectively. The postoperative 3D-CT reconstruction images revealed that the final anteromedial cortical contact was noted in 72 cases (72.0%), and lost in 28 cases (28%). The coincidence rate between intra-operative fluoroscopy and post-operative 3D-CT was 89.0% (89/100) in AP view, 78.0% (78/ 100) in lateral view, and 82.0% (82/100) in oblique view (p<0.001). Conclusions: Along with conventional AP and lateral projections, an additional oblique view of 30° becomes a very useful means for evaluation of the intra-operative anteromedial cortical reduction of fracture.

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“…The advantages of EM reduction have been recently reported in several clinical and biomechanical studies 1 2 4 5) . Additionally, several reduction techniques were noted to remove the head-neck fragment from the intramedullary (IM) space of the distal femoral shaft fragment 2 4 6) to achieve fracture reduction in the EM position.…”

Section: Introductionmentioning

confidence: 91%

“…One of the major reasons for treatment failure in pertrochanteric hip fracture surgeries is excessive sliding of the lag screw 1) . Extramedullary (EM) reduction, defined as the medial cortex of the head-neck fragment located outside of the medullary canal of the distal shaft fragment, has been introduced to prevent excessive postoperative sliding or failure of the lag screw in pertrochanteric fracture surgeries 1 2 3 4 5) . In EM reduction, the anteromedial cortical bone of the proximal fragment has bony contact with the distal fragment during sliding and theoretically plays the role of a buttress from the beginning, preventing excessive sliding and varus deformity of the proximal fragment 5) .…”

Section: Introductionmentioning

confidence: 99%

Additional Reduction Screw Fixation Technique for Pertrochanteric Hip Fractures: A Novel Method to Prevent Excessive Sliding in Cephalomedullary Nail Surgery

Kim

Moon

2021

Hip & Pelvis

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Extramedullary (EM) reduction, defined as the medial cortex of the head-neck fragment located outside the medullary canal of the distal shaft fragment, has been introduced to prevent excessive postoperative sliding or failure of the lag screw in pertrochanteric fracture surgeries. Favorable EM reduction results have recently been reported in several clinical and biomechanical studies. Despite these efforts, maintaining the head-neck fragment in an EM position is periodically a difficult and challenging problem. Herein, the technique for reduction and maintenance of the head-neck fragment was introduced in an EM position using a Kirschner wire and partially threaded cannulated screw fixation via screw fixation from EM to the head-neck fragment, which was positioned inferior to the lag screw on the femoral calcar, also called the reduction screw. The authors utilized this reduction screw in 34 pertrochanteric fracture surgeries using a cephalomedullary nail and fracture union was acheive in all cases by a minimum one-year follow-up period without surgical complications.

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The Effects of Extramedullary Reduction in Unstable Intertrochanteric Fracture: A Biomechanical Study Using Cadaver Bone

Cited by 13 publications

References 19 publications

Factors Associated with Mechanical Complications in Intertrochanteric Fracture Treated with Proximal Femoral Nail Antirotation

Factors Associated with Mechanical Complications in Intertrochanteric Fracture Treated with Proximal Femoral Nail Antirotation

Utility of the 30° oblique tangential view for evaluation of anteromedial cortical reduction in reconstruction of intertrochanteric fractures

Additional Reduction Screw Fixation Technique for Pertrochanteric Hip Fractures: A Novel Method to Prevent Excessive Sliding in Cephalomedullary Nail Surgery

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