Plantar and Calcaneocuboid Joint Pressure after Isolated Medial Column Fusion versus Medial and Lateral Column Fusion: A Biomechanical Study

2011 ◽  
Vol 32 (11) ◽  
pp. 1069-1074 ◽  
Author(s):  
Joshua P. Nadaud ◽  
Brent G. Parks ◽  
Lew C. Schon
Keyword(s):  
Biomechanical Study ◽  
Intact Group ◽  
Lateral Column ◽  
Intact State ◽  
Calcaneocuboid Joint ◽  
Position Data ◽  
Fresh Frozen ◽  
Gait Phase ◽  
And Inversion ◽  
Column Group

Background: We compared forefoot and calcaneocuboid pressure in isolated medial column fusion (1-3 tarsometatarsal fusion) versus medial and lateral column fusion (1-5 tarsometatarsal fusion) in a neutral, inversion, and eversion loading model in stance gait phase. Methods: Twelve fresh-frozen cadaveric specimens were cyclically loaded to 720 N at 0.5 Hz for 30 cycles. Plantar and calcaneocuboid joint pressures were measured in neutral, inversion, and eversion in the intact foot, with isolated medial column fusion, and with medial and lateral column fusion. Results: Lateral pressure was higher in the medial and lateral column fusion group than isolated medial column fusion and intact in neutral (55.8 ± 14.8 versus 46.2 ± 13.6 and 45.5 ± 14.8 kPa, respectively) and eversion (80.7 ± 18.4 versus 61.8 ± 13.7 and 60.2 ± 18.2 kPa, respectively) ( p ≤ 0.001). Calcaneocuboid pressure was higher in medial and lateral column fusion than isolated medial column fusion and intact in neutral (1436.7 ± 210.6 versus 1073.7 ± 282.5 and 1084.9 ± 337.6, respectively; p = 0.001) and inversion (1518.3 ± 270.5 versus 1310.5 ± 298.8 and 1237.1 ± 401.9, respectively; p = 0.02). Using combined position data, calcaneocuboid pressure was significantly higher in the medial and lateral column group than in both other groups. The isolated medial column fusion group did not differ significantly from the intact group in any measurement. Conclusion: Medial and lateral column fusion significantly increased lateral and calcaneocuboid pressures with loading compared with isolated medial column fusion and the intact state. No difference was observed between isolated medial column fusion and the intact state. Clinical Relevance: It may be advisable to avoid fusing the lateral column in tarsometatarsal arthrodesis if possible to avoid pressure increase in the forefoot and hindfoot.

Comparison of the Syndesmotic Staple to the Transsyndesmotic Screw: A Biomechanical Study

2005 ◽  
Vol 26 (3) ◽  
pp. 224-230 ◽  
Author(s):  
Timothy Marqueen ◽  
John Owen ◽  
Gregg Nicandri ◽  
Jennifer Wayne ◽  
James Carr
Keyword(s):  
External Rotation ◽  
Biomechanical Study ◽  
Tibial Rotation ◽  
Intact State ◽  
Cortical Screw ◽  
Torsional Testing ◽  
Load To Failure ◽  
Posterior Translation ◽  
Fresh Frozen ◽  
Torsional Loads

Background: Controversy still exists about treatment of syndesmotic injuries. This study compared the fixation strengths and biomechanical characteristics of two types of ankle fracture syndesmotic fixation devices: the barbed, round staple and the 4.5-mm cortical screw. Methods: Cadaveric testing was done on 21 fresh-frozen knee disarticulation specimens in biaxial servohydraulic Instron testing equipment. Submaximal torsional loads were applied to specimens in intact and Weber C bimalleolar fracture states. The specimens were then fixed with one of two techniques and again subjected to submaximal torsion and torsion to failure. Biomechanical parameters measured included tibiofibular translation and rotation, maximal torque to failure, and degrees of rotation at failure. Results: Compared to the intact state before testing, the staple held the fibula in a more anatomic position than the screw for mediolateral and anterior displacements (p < 0.01). With submaximal torsional testing, the staple restored 85% of the tibiofibular external rotation and all of the posterior translation values as compared to the intact state. The screw resulted in 203% more tibiofibular medial translation and 115% more external rotation than the intact state. The degree of tibial rotation during submaximal torsional loading was restored to within 15% of intact values but was 21% less with the screw. There was no statistical difference between the screw and staple when tested in load to failure. Tibio-talar rotation at failure was statistically different with the staple construct, allowing more rotation as compared to the screw. Conclusion: The staple restored a more physiologic position of the fibula compared to the syndesmotic screw. Both provided similar performance for the load to failure testing, while the screw reduced tibial rotation more after cyclic loading. There was more tibial rotation before failure for the staple, suggesting a more elastic construct. This study provides biomechanical data to support the clinical use of the syndesmotic staple.

scholarly journals The effect of posterior compression of the facet joints for initial stability and sagittal profile in the treatment of thoracolumbar fractures: a biomechanical study

2021 ◽  
Author(s):  
Michael Ruf ◽  
Tobias Pitzen ◽  
Ivo Nennstiel ◽  
David Volkheimer ◽  
Jörg Drumm ◽  
...  
Keyword(s):  
Axial Rotation ◽  
Biomechanical Study ◽  
Sagittal Profile ◽  
Posterior Fixation ◽  
Neutral Position ◽  
Intact State ◽  
Custom Made ◽  
Flexion Extension ◽  
Fresh Frozen ◽  
Anterior Support

Abstract Purpose Surgical treatment of thoracolumbar A3-fractures usually comprises posterior fixation—in neutral position or distraction—potentially followed by subsequent anterior support. We hypothesized that additional posterior compression in circumferential stabilization may increase stability by locking the facets, and better restore the sagittal profile. Methods Burst fractures Type A3 were created in six fresh frozen cadaver spine segments (T12–L2). Testing was performed in a custom-made spinal loading simulator. Loads were applied as pure bending moments of ± 3.75 Nm in all six movement axes. We checked range of motion, neutral zone and Cobb’s angle over the injured/treated segment within the following conditions: Intact, fractured, instrumented in neutral alignment, instrumented in distraction, with cage left in posterior distraction, with cage with posterior compression. Results We found that both types of instrumentation with cage stabilized the segment compared to the fractured state in all motion planes. For flexion/extension and lateral bending, flexibility was decreased even compared to the intact state, however, not in axial rotation, being the most critical movement axis. Additional posterior compression in the presence of a cage significantly decreased flexibility in axial rotation, thus achieving stability comparable to the intact state even in this movement axis. In addition, posterior compression with cage significantly increased lordosis compared to the distracted state. Conclusion Among different surgical modifications tested, circumferential fixation with final posterior compression as the last step resulted in superior stability and improved sagittal alignment. Thus, posterior compression as the last step is recommended in these pathologies.

Effect of Variations in Calcaneocuboid Fusion Technique on Kinematics of the Normal Hindfoot

1998 ◽  
Vol 19 (1) ◽  
pp. 19-25 ◽  
Author(s):  
Andrew Sands ◽  
John Early ◽  
Richard M Harrington ◽  
Allan F Tencer ◽  
Randal P Ching ◽  
...  
Keyword(s):  
Tracking System ◽  
Plantar Flexion ◽  
Neutral Position ◽  
Joint Motion ◽  
Electromagnetic Tracking ◽  
Tibiotalar Joint ◽  
Lateral Column ◽  
Calcaneocuboid Joint ◽  
And Inversion ◽  
Electromagnetic Tracking System

Calcaneocuboid fusion with lengthening of the lateral column of the foot has been advocated as a method of treating flatfoot deformity. This study was designed to determine how the length of the lateral column chosen or the position of the foot selected when performing this fusion affect hindfoot kinematics in normal cadaver feet. An electromagnetic tracking system was used to monitor the positions of the talus, calcaneus, navicular, and cuboid while the intact cadaver feet were moved passively and then under reproducible loads. Calcaneocuboid fusion was then performed on these feet first with the feet in neutral position and the lateral column of normal length, then lengthened 10 mm or shortened 5 mm, and then with the lateral column lengthened 10 mm and the feet positioned in plantar flexion and eversion or dorsiflexion and inversion. Kinematic measurements were made at each stage using the same loads. Fusing the calcaneocuboid joint with lengthening or shortening the lateral column and the feet in neutral position did not affect hindfoot joint motion compared with intact. Changing the position of the foot for fusion, however, resulted in significant decreases in motion in the talocalcaneal and talonavicular joints. Tibiotalar joint motion was unaffected. This study, therefore, demonstrates that when fusing the calcaneocuboid joint, attention should be paid to maintaining a neutral position of the foot.

scholarly journals The Effect of Lateral Column Lengthening on Subtalar Motion: Are We Trading Deformity for Stiffness?

2020 ◽  
Vol 5 (4) ◽  
pp. 2473011420S0004
Author(s):  
Brittany Hedrick ◽  
Anthony Riccio ◽  
Danielle M. Thomas ◽  
Claire Shivers ◽  
Matthew Siebert ◽  
...  
Keyword(s):  
Motion Capture ◽  
Three Dimensional ◽  
Deformity Correction ◽  
Porous Titanium ◽  
Testing System ◽  
Materials Testing ◽  
Lateral Column ◽  
Fresh Frozen ◽  
Lateral Column Lengthening ◽  
Paired T Test

Category: Hindfoot; Other Introduction/Purpose: While lengthening of the lateral column through a calcaneal neck osteotomy is an integral component of flatfoot reconstruction in younger patients with flexible planovalgus deformities, concern exists as to the effect of this intra- articular osteotomy on subtalar motion. The purpose of this study is to quantify the alterations in subtalar motion following lateral column lengthening (LCL). Methods: The subtalar motion of 14 fresh frozen cadaveric feet was assessed using a three-dimensional motion capture system and materials testing system (MTS). Following potting of the tibia and calcaneus, optic markers were placed into the tibia, calcaneus and talus. The MTS was used to apply a rotational force across the subtalar joint to a torque of 5Nm. Abduction/adduction, supination/pronation, and plantarflexion/dorsiflexion about the talus was recorded. Specimens then underwent LCL via a calcaneal neck osteotomy which was maintained with a 12mm porous titanium wedge. Repeat subtalar motion analysis was performed and compared to pre-LCL motion using a paired t-test. Results:: No statistically significant differences in subtalar abduction/adduction (10.9O vs. 11.8O degrees, p=.48), supination/pronation (3.5O vs. 2.7O, p=.31), or plantarflexion/dorsiflexion (1.6O vs 1.0O, p=.10) were identified following LCL. Conclusion:: No significant changes in subtalar motion were observed following lateral column lengthening in this biomechanical cadaveric study. While these findings do not obviate concerns of clinical subtalar stiffness following planovalgus deformity correction, they suggest that diminished postoperative subtalar motion may be due to soft tissue scarring rather than alterations of joint anatomy.

Biomechanical Analysis of the Calcaneocuboid Joint Pressure After Sequential Lengthening of the Lateral Column

2013 ◽  
Vol 34 (2) ◽  
pp. 261-266 ◽  
Author(s):  
Jiang Xia ◽  
Peng Zhang ◽  
Yun-Feng Yang ◽  
Jia-Qian Zhou ◽  
Qian-Ming Li ◽  
...  
Keyword(s):  
Biomechanical Analysis ◽  
Lateral Column ◽  
Calcaneocuboid Joint

Effect of decrease in radial inclination of distal radius fractures on distal radioulnar joint stability: a biomechanical study

2018 ◽  
Vol 43 (9) ◽  
pp. 967-973 ◽  
Author(s):  
Yuki Bessho ◽  
Toshiyasu Nakamura ◽  
Masao Nishiwaki ◽  
Takeo Nagura ◽  
Morio Matsumoto ◽  
...  
Keyword(s):  
Distal Radius ◽  
Joint Stiffness ◽  
Distal Radioulnar Joint ◽  
Biomechanical Study ◽  
Joint Stability ◽  
Radius Fractures ◽  
Radioulnar Joint ◽  
Radial Inclination ◽  
Fresh Frozen ◽  
The Relationship

We investigated the relationship between the radial inclination of the distal radius and distal radioulnar joint stability. Six fresh-frozen upper extremities were used. Radial inclination was decreased by 10° and 20° and increased by 10° from the original radial inclination. Distal radioulnar joint stiffness was assessed with an intact radioulnar ligament and after partial and then complete sectioning of the radioulnar ligament. Radial angulation deformities significantly increased distal radioulnar joint stiffness when the radioulnar ligament is totally or partially attached to the ulnar fovea. After complete sectioning of the radioulnar ligament, distal radioulnar joint stiffness decreased significantly; additional radial angulation deformity slightly increased distal radioulnar joint stiffness, but the distal radioulnar joint never recovered to the original stiffness. Based on the results, radial angulation deformities of the distal radius should be corrected within 10° when the radioulnar ligament is intact, to reduce the risk of symptomatic distal radioulnar joint instability.

The Peroneal Groove Deepening Procedure: A Biomechanical Study of Pressure Reduction

2005 ◽  
Vol 26 (6) ◽  
pp. 442-448 ◽  
Author(s):  
Craig I. Title ◽  
Hung-Geun Jung ◽  
Brent G. Parks ◽  
Lew C. Schon
Keyword(s):  
Biomechanical Study ◽  
Posterior Tibial Tendon ◽  
Peroneal Tendon ◽  
Foot And Ankle ◽  
Calcaneofibular Ligament ◽  
Significant Difference ◽  
Mean Pressure ◽  
Fresh Frozen ◽  
The Mean ◽  
Pressure Changes

Background: The goal of this study was to identify pressure changes throughout the peroneal groove after a groove deepening procedure. We hypothesized that pressures would decrease. Methods: Twelve fresh-frozen foot and ankle specimens were used. A thin pressure strip containing four sensor pads was secured within the peroneal groove with pads 1 through 4 positioned at the calcaneofibular ligament (CFL) and at the distal, middle, and proximal groove, respectively. The midstance phase of gait was simulated with loads applied to the plantar foot and posterior tibial tendon and to the peroneus longus and brevis tendons. Pressures were recorded with the ankle in neutral, plantarflexion, dorsiflexion, inversion, and eversion. Groove deepening was done by osteotomizing the posterior fibular wall. Pressure readings were then recorded. Average pressures for each of the four sensor pads after the procedure were compared to those obtained before the procedure. Results: The mean pressure overlying the CFL increased at all five ankle positions; however, these changes were not significant. Significant decreases in pressure were noted within the distal and middle groove at all ankle positions after the peroneal groove deepening procedure. Pressure within the proximal groove increased at all but one position, with a significant difference noted in neutral and plantarflexion. Conclusion: Pressures within the middle and distal peroneal groove significantly decreased after a groove deepening procedure. Combining this technique with peroneal tendon debridement may be advantageous for treatment of partial peroneal tendon tears or recalcitrant peroneal tendinitis.

Ability of Medial Patellofemoral Ligament Reconstruction to Overcome Lateral Patellar Motion in the Presence of Trochlear Flattening: A Cadaveric Biomechanical Study

2021 ◽  
pp. 036354652110410
Author(s):  
Amrit V. Vinod ◽  
Alex M. Hollenberg ◽  
Melissa A. Kluczynski ◽  
John M. Marzo
Keyword(s):  
Repeated Measures ◽  
Knee Flexion ◽  
Medial Patellofemoral Ligament ◽  
Operative Procedure ◽  
Biomechanical Study ◽  
Mpfl Reconstruction ◽  
Trochlear Groove ◽  
Sulcus Angle ◽  
Fresh Frozen ◽  
Patellar Stability

Background: Medial patellofemoral ligament (MPFL) reconstruction is an established operative procedure to restore medial restraining force in patients with patellar instability. In the setting of a shallow sulcus, it is unclear whether an isolated MPFL reconstruction is sufficient to restore patellofemoral stability. Hypothesis: Progressively increasing the sulcus angle would have an adverse effect on the ability of an MPFL reconstruction to restrain lateral patellar motion. Study Design: Controlled laboratory study. Methods: Seven fresh-frozen human cadaveric knees were harvested and prepared for experimentation. Each specimen was run through the following test conditions: native, lateral retinacular release, lateral retinacular repair, MPFL release, MPFL reconstruction, and MPFL reconstruction with trochlear flattening. Four 3-dimensional printed wedges (10°, 20°, 30°, and 40°) were created to insert beneath the native trochlea to raise the sulcus angle incrementally and simulate progressive trochlear flattening. For each test condition, the knee was positioned at 0°, 15°, 30°, and 45° of flexion, and the force required to displace the patella 1 cm laterally at 10 mm/s was measured. Group comparisons were made with repeated measures analysis of variance. Results: In the setting of an MPFL reconstruction, as the trochlear groove was incrementally flattened, the force required to laterally displace the patella progressively decreased. A 10° increase in the sulcus angle significantly reduced the force at 15° ( P = .01) and 30° ( P = .03) of knee flexion. The force required to laterally displace the patella was also significantly lower at all knee flexion angles after the addition of the 20°, 30°, and 40° wedges ( P≤ .05). Specifically, a 20° increase in the sulcus angle reduced the force by 29% to 36%; a 30° increase, by 35% to 43%; and a 40° increase, by 40% to 47%. Conclusion: Despite an MPFL reconstruction, the force required to laterally displace the patella decreased as the sulcus angle was increased in our cadaveric model. Clinical Relevance: An isolated MPFL reconstruction may not be sufficient to restore patellar stability in the setting of a shallow or flat trochlea. Patients with an abnormal sulcus angle may have recurrent instability postoperatively if treated with an isolated MPFL reconstruction.

scholarly journals Late Abduction Deformity of the Midfoot Following the “Medial Double” (Diple) Procedure for Hindfoot Valgus Deformity

2019 ◽  
Vol 4 (4) ◽  
pp. 2473011419S0029
Author(s):  
Arthur Manoli
Keyword(s):  
Valgus Deformity ◽  
High Rate ◽  
Joint Involvement ◽  
Bone Block ◽  
Lateral Side ◽  
Triple Arthrodesis ◽  
Lateral Column ◽  
Calcaneocuboid Joint ◽  
Lateral Incision ◽  
Hindfoot Deformity

Category: Hindfoot Introduction/Purpose: There has been considerable interest in recent years in performing a combined talonavicular and subtalar arthrodesis instead of a standard triple arthrodesis for a rigid hindfoot deformity. The ”medial double” (diple) avoids fusing the calcaneocuboid joint with its lateral incision, common bone block graft and high rate of complications. Although the results of the “medial double” are generally satisfactory, there are no reports of late midfoot abduction deformity, although it was predicted by Evans in 1975. Methods: A 79 year-old-male with long-standing skin psoriasis with joint involvement presented with severe bilateral flatfoot deformities. The left hindfoot was arthritic, deformed and painful. Despite a conservative course of orthotics and ankle braces, the pain persisted. Because there was a psoriatic plaque over the lateral side of the foot, it was decided to perform a ”medial double” arthrodesis with screw fixation, a plantarflexing 1st tarsometatarsal joint fusion for medial column stabilization, and a heel cord lengthening Results: Skin and bony healing were uneventful. Over the subsequent three years a progressive abduction deformity developed through the naviculocuneiform joints and the unfused calcaneocuboid joint. The patient had only occasional pain in the midfoot and wore wide shoewear to accommodate the deformity. Conclusion: A late abduction deformity can develop through the midfoot in patients who have the ‘medial double” procedure for hindfoot valgus. The cuboid settles proximally against the short distal calcaneus, and the naviculocuneiform joints sublux laterally. In patients with hindfoot valgus with severe lateral column shortening secondary to calcaneocuboid joint remodeling, it may be better to perform an actual triple arthrodesis with a bone graft in the calcaneocuboid joint instead of a “medial double.” Alternatively, one could add a naviculocuneiform arthrodesis to the ”medial double” arthrodesis to prevent this complication.

scholarly journals Carpal Kinematics following Sequential Scapholunate Ligament Sectioning

2019 ◽  
Vol 08 (02) ◽  
pp. 124-131 ◽  
Author(s):  
Clare Padmore ◽  
Helen Stoesser ◽  
G. Daniel Langohr ◽  
James Johnson ◽  
Nina Suh
Keyword(s):  
Treatment Strategies ◽  
Biomechanical Study ◽  
Wrist Flexion ◽  
Scapholunate Ligament ◽  
Wrist Extension ◽  
Intact State ◽  
Carpal Kinematics ◽  
Significant Change ◽  
Flexion And Extension

Background The scapholunate ligament (SLL) is the most commonly injured intercarpal ligament of the wrist. It is the primary stabilizer of the scapholunate (SL) joint, but the scaphotrapeziotrapezoid (STT) and radioscaphocapitate (RSC) ligaments may also contribute to SL stability. The contributions of SL joint stabilizers have been reported previously; however, this study aims to examine their contributions to SL stability using a different methodology than previous studies. Purpose The purpose of this in vitro biomechanical study was to quantify changes in SL kinematics during wrist flexion and extension following a previously untested sequential sectioning series of the SL ligament and secondary stabilizers. Methods Eight cadaveric upper extremities underwent active wrist flexion and extension in a custom motion wrist simulator. SL kinematics were captured with respect to the distal radius. A five-stage sequential sectioning protocol was performed, with data analyzed from 45-degree wrist flexion to 45-degree wrist extension. Results Wrist flexion and extension caused the lunate to adopt a more extended posture following sectioning of the SLL and secondary stabilizers compared with the intact state (p < 0.009). The isolated disruption to the dorsal portion of the SLL did not result in significant change in lunate kinematics compared with the intact state (p > 0.05). Scaphoid kinematics were altered in wrist flexion following sequential sectioning (p = 0.013). Additionally, disruption of the primary and secondary stabilizers caused significant change to SL motion in both wrist flexion and wrist extension (p < 0.03). Conclusions The SLL is the primary stabilizer of the SL articulation, with the STT and RSC ligaments playing secondary stabilization roles. Clinical Relevance Understanding the role primary and secondary SL joint stabilizers may assist in the development of more effective treatment strategies and patient outcomes following SLL injuries.

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