A Modified Extra-articular Lateral Column Lengthening Procedure for Adult Acquired Flatfoot Deformity

2021 ◽  
pp. 107110072110513
Author(s):  
Yin-Chuan Shih ◽  
Chui Jia Farn ◽  
Chen-Chie Wang ◽  
Chung-Li Wang ◽  
Pei-Yu Chen
Keyword(s):  
Subtalar Joint ◽  
Case Series ◽  
Stage Ii ◽  
Posterior Tibial Tendon ◽  
Lateral Column ◽  
Metatarsal Angle ◽  
Lateral Column Lengthening ◽  
Adult Acquired Flatfoot Deformity ◽  
The Mean

Background: Lateral column lengthening (LCL), originally described by Evans, is an established procedure to correct stage II adult acquired flatfoot deformity (AAFD). However, the relative position between the facets is violated, and other problems may include nonunion, malunion, and calcaneocuboid (CC) joint subluxation. Herein, we report a modified extra-articular technique of LCL with hockey-stick osteotomy, which preserves the subtalar joint as a whole, increases bony apposition to enhance healing ability, and preserves the insertion of the calcaneofibular ligament to stabilize the posterior fragment to promote adduction of the forefoot. Methods: We retrospectively recruited 24 patients (26 feet) with stage II AAFD who underwent extra-articular LCL. The mean age was 55.7 ± 15.7 years, and the mean follow-up period was 33.4 ± 12.1 months. Associated procedures of spring ligament repair/reconstruction and posterior tibial tendon plication or flexor digitorum longus transfer were routinely performed and may also include a Cotton osteotomy, heel cord lengthening, or hallux valgus correction. Clinical and radiographic outcomes at the final follow-up were compared with the preoperative assessments. Results: All patients achieved calcaneus union within 3 months of operation. The VAS pain score improved from 5.3 ± 0.75 preoperatively to 1.2 ± 0.79 at the final follow-up ( P < .001), and the AOFAS Ankle-Hindfoot Scale from 63.5 ± 8.5 to 85.8 ± 4.8 points ( P < .001). The radiographic measurements significantly improved in terms of the preoperative vs final angles of 8.9 ± 5.3 vs 15.2 ± 3.6 degrees for calcaneal pitch ( P < .001), 20.5 ± 9.2 vs 4.9 ± 4.8 degrees for Meary angle ( P < .001), 46.5 ± 5.2 vs 41.9 ± 3.2 degrees for lateral talocalcaneal angle ( P < .001), 23.9 ± 8.5 vs 3.9 ± 3.1 degrees for talonavicular coverage angle ( P < .001), and 18.2 ± 9.2 vs 7.3 ± 5.0 degrees for talus-first metatarsal angle ( P = .002). The CC joint subluxation percentage was 7.0% ± 5.4% preoperatively compared with 8.5% ± 2.4% at the final follow-up ( P = .101). No case showed progression of CC joint arthritis or CC joint subluxation (>15% CC joint subluxation percentage). One case showed transient sural nerve territory paresthesia, and 1 had pin tract infection. Three cases had lateral foot pain, which could be relieved by custom insoles. Conclusion: Modified extra-articular LCL as part of AAFD correction is a feasible alternative technique without subtalar joint invasion and may be associated with less CC joint subluxation compared with the Evans osteotomy. Level of Evidence: Level IV, retrospective case series.

scholarly journals Biomechanical Analysis of Cuboid Osteotomy Lateral Column Lengthening for Stage II B Adult-Acquired Flatfoot Deformity: A Cadaveric Study

2017 ◽  
Vol 2017 ◽  
pp. 1-10 ◽  
Author(s):  
Haichao Zhou ◽  
Haoyang Ren ◽  
Chunguang Li ◽  
Jiang Xia ◽  
Guangrong Yu ◽  
...  
Keyword(s):  
Lateral Pressure ◽  
Biomechanical Analysis ◽  
Stage Ii ◽  
Good Effect ◽  
Lateral Column ◽  
Metatarsal Angle ◽  
Significant Difference ◽  
Significant Correction ◽  
Lateral Column Lengthening ◽  
Adult Acquired Flatfoot Deformity

Purpose. To investigate the effect of cuboid osteotomy lateral column lengthening (LCL) for the correction of stage II B adult-acquired flatfoot deformity in cadaver. Methods. Six cadaver specimens were loaded to 350 N. Flatfoot models were established and each was evaluated radiographically and pedobarographically in the following conditions: (1) intact foot, (2) flatfoot, and (3) cuboid osteotomy LCL (2, 3, 4, and 5 mm). Results. Compared with the flatfoot model, the LCLs showed significant correction of talonavicular coverage on anteroposterior radiographs and talus-first metatarsal angle on both anteroposterior and lateral radiographs (p<.05). Compared with the intact foot, the above angles of the LCLs showed no significant difference except the 2 mm LCL. In terms of forefoot pressure, medial pressure of the 2 mm LCL (p=.044) and lateral pressure of the 3, 4, and 5 mm LCLs showed statistical differences (p<.05), but lateral pressure of the 3 mm LCL was not more than the intact foot as compared to the 4 and 5 mm LCLs, which was less than medial pressure. Conclusion. Cuboid osteotomy LCL procedure avoids damage to subtalar joint and has a good effect on correction of stage II B adult-acquired flatfoot deformity with a 3 mm lengthening in cadavers.

Porous Titanium Wedges in Lateral Column Lengthening for Adult-Acquired Flatfoot Deformity

2017 ◽  
Vol 11 (4) ◽  
pp. 347-356 ◽  
Author(s):  
Spencer H. Moore ◽  
S. Evan Carstensen ◽  
M. Tyrrell Burrus ◽  
Truitt Cooper ◽  
Joseph S. Park ◽  
...  
Keyword(s):  
Case Series ◽  
Deformity Correction ◽  
Porous Titanium ◽  
Common Procedure ◽  
Lateral Column ◽  
Metatarsal Angle ◽  
Valgus Angle ◽  
Significant Correction ◽  
Lateral Column Lengthening ◽  
Adult Acquired Flatfoot Deformity

Lateral column lengthening (LCL) is a common procedure for reconstruction of stage II flexible adult-acquired flatfoot deformity (AAFD). The recent development of porous titanium wedges for this procedure provides an alternative to allograft and autograft. The purpose of this study was to report radiographic and clinical outcomes achieved with porous titanium wedges in LCL. A retrospective analysis of 34 feet in 30 patients with AAFD that received porous titanium wedges for LCL from January 2011 to October 2014. Deformity correction was assessed using both radiographic and clinical parameters. Radiographic correction was assessed using the lateral talo–first metatarsal angle, the talonavicular uncoverage percentage, and the first metatarsocuneiform height. The hindfoot valgus angle was measured. Patients were followed from a minimum of 6 months up to 4 years (mean 16.1 months). Postoperative radiographs demonstrated significant correction in all 3 radiographic criteria and the hindfoot valgus angle. We had no cases of nonunion, no wedge migration, and no wedges have been removed to date. The most common complication was calcaneocuboid joint pain (14.7%). Porous titanium wedges in LCL can achieve good radiographic and clinical correction of AAFD with a low rate of nonunion and other complications. Levels of Evidence: Level IV: Case series

scholarly journals Biomechanical Analysis of Cuboid Osteotomy Lateral Column Lengthening for Stage II B Adult-Acquired Flatfoot Deformity

2018 ◽  
Vol 3 (3) ◽  
pp. 2473011418S0052
Author(s):  
Yunfeng Yang
Keyword(s):  
Lateral Pressure ◽  
Biomechanical Analysis ◽  
Stage Ii ◽  
Good Effect ◽  
Lateral Column ◽  
Metatarsal Angle ◽  
Significant Difference ◽  
Significant Correction ◽  
Lateral Column Lengthening ◽  
Adult Acquired Flatfoot Deformity

Category: Midfoot/Forefoot Introduction/Purpose: To investigate the effect of cuboid osteotomy lateral column lengthening (LCL) for the correction of stage II B adultacquired flatfoot deformity in cadaver Methods: Six cadaver specimens were loaded to 350 N. Flatfoot models were established and each was evaluated radiographically and pedobarographically in the following conditions: (1) intact foot, (2) flatfoot, and (3) cuboid osteotomy LCL (2, 3, 4, and 5 mm). Results: Compared with the flatfoot model, the LCLs showed significant correction of talonavicular coverage on anteroposterior radiographs and talus-first metatarsal angle on both anteroposterior and lateral radiographs ( p < .05). Compared with the intact foot, the above angles of the LCLs showed no significant difference except the 2mmLCL. In terms of forefoot pressure, medial pressure of the 2mmLCL ( p = .044) and lateral pressure of the 3, 4, and 5mmLCLs showed statistical differences ( p < .05), but lateral pressure of the 3 mm LCL was not more than the intact foot as compared to the 4 and 5 mm LCLs, which was less than medial pressure. Conclusion: Cuboid osteotomy LCL procedure avoids damage to subtalar joint and has a good effect on correction of stage II B adult-acquired flatfoot deformity with a 3 mm lengthening in cadavers.

scholarly journals Porous Titanium Wedges are an Alternative in Lateral Column Lengthening for Adult Acquired Flatfoot Deformity

2018 ◽  
Vol 3 (3) ◽  
pp. 2473011418S0018
Author(s):  
Samuel Carstensen ◽  
Spencer Moore ◽  
Joseph Park ◽  
M. Truitt Cooper ◽  
Venkat Perumal
Keyword(s):  
Deformity Correction ◽  
Porous Titanium ◽  
Treatment Modalities ◽  
Posterior Tibial Tendon ◽  
Lateral Column ◽  
Metatarsal Angle ◽  
Valgus Angle ◽  
Significant Correction ◽  
Lateral Column Lengthening ◽  
Adult Acquired Flatfoot Deformity

Category: Hindfoot Introduction/Purpose: Lateral column lengthening (LCL) is a common procedure for reconstruction of stage II flexible adult acquired flatfoot deformity (AAFD). The recent development of porous titanium wedges for this procedure provides an alternative to allograft and autograft. The purpose of this study was to report radiographic and clinical outcomes achieved with porous titanium wedges in LCL. Methods: A retrospective analysis of 34 feet in 30 patients with AAFD that received porous titanium wedges for LCL from January 2011 – October 2014. Deformity correction was assessed using both radiographic and clinical parameters. Radiographic correction was assessed using the lateral talo-first metatarsal angle, the talonavicular uncoverage percentage, and the first metatarsocuneiform height. The hindfoot valgus angle was also obtained. Results: Patients were followed from a minimum of six months up to 48 months (mean 16.1 months). Patients underwent concomitant procedures including medial displacement calcaneal osteotomy (94.1%), flexor digitorum longus transfer (70.6%), posterior tibial tendon tenolysis (64.7%), gastrocnemius recession (20.6%), and cotton osteotomy (4.9%). Postoperative radiographs demonstrated significant correction in all three radiographic criteria as well as the hindfoot valgus angle compared to their preoperative measurements. There were no cases of nonunion, no wedge migration, no infections, and no patients required removal of hardware. The most common complication was calcaneocuboid joint pain (14.7%). Conclusion: AAFD is a problem with various treatment modalities. Porous titanium wedges in LCL can achieve good radiographic and clinical correction of AAFD with a low rate of nonunion and other complications.

scholarly journals Radiographic Union of Evans Osteotomy Without Fixation

2020 ◽  
Vol 5 (4) ◽  
pp. 2473011420S0035
Author(s):  
Megan R. Miles ◽  
Brian P. Gallagher ◽  
Katherine L. Mistretta ◽  
Nigel N. Hsu ◽  
Haijun Wang ◽  
...  
Keyword(s):  
Allogenic Bone ◽  
Lateral Column ◽  
First Metatarsal ◽  
Calcaneocuboid Joint ◽  
Calcaneal Osteotomy ◽  
Metatarsal Angle ◽  
Flexible Flatfoot ◽  
Lateral Column Lengthening ◽  
Allogenic Bone Graft

Category: Hindfoot; Other Introduction/Purpose: The Evans osteotomy is a lateral column lengthening procedure of the calcaneus that is commonly used to correct flexible flatfoot deformities. There is no consensus on whether fixation is needed to avoid nonunion and calcaneocuboid subluxation when performing this osteotomy. We assessed the nonunion rate and correlated extent of subluxation with graft size in an unfixed Evans osteotomy with an allograft wedge and no pinning of the calcaneocuboid joint at any point in the largest series of the procedure to date. Surgeries were performed in patients undergoing flexible flatfoot reconstruction. Methods: We retrospectively reviewed 120 consecutive patients who had undergone 145 unfixed Evans osteotomies by a single surgeon with allogenic bone graft for flatfoot reconstruction between January 2013 and October 2017, with a mean follow-up of 62.5 (range 9.4-266.7) weeks. The calcaneocuboid joint was not pinned during the procedure. Data were collected using clinical and radiographical examination during regular follow-up. Results: A total of 137 feet (94.5%) underwent a double calcaneal osteotomy with an associated medial displacement calcaneal osteotomy (MDCO). There was one nonunion (0.69%). The mean time to union was 10.8 (range, 6.7-17.9) weeks. There was significant improvement in all radiographic parameters postoperatively, including calcaneal pitch, talonavicular uncoverage, anteroposterior and lateral talo-first metatarsal angle, lateral column length, and naviculocuboid overlap (p<0.05). Minor postoperative calcaneocuboid joint subluxation (1.51 +- 2.3 mm) occurred in 72 of 118 feet (61.0%) and had no correlation with wedge size (r=0.06; 95% CI, -0.13, 0.24; p=0.6). Conclusion: An unfixed Evans osteotomy for symptomatic flatfoot deformity resulted in a significant improvement in the radiographic alignment of the foot with an exceptionally rare nonunion rate. Detectable calcaneocuboid subluxation was common but minimal in extent and was not correlated with wedge size in this series in which wedges were less than 12 mm in the maximum dimension. This report represents the largest series of the Evans procedure to date.

A Retrospective Radiographic Evaluation of a Modified Method of Lateral Column Lengthening

2020 ◽  
pp. 193864002091918
Author(s):  
Keith Wapner ◽  
Erik Freeland ◽  
Gregory Kirwan ◽  
Keith Baldwin
Keyword(s):  
Weight Bearing ◽  
Case Series ◽  
Stage Ii ◽  
Radiographic Evaluation ◽  
Retrospective Case ◽  
Lateral Column ◽  
Modified Method ◽  
Radiographic Outcomes ◽  
Alternative Approach ◽  
Lateral Column Lengthening

Background: Lateral column lengthening (LCL) is a commonly performed procedure for patients with stage II adult-acquired flatfoot deformity (AAFD) to correct forefoot abduction. This procedure is frequently completed concomitantly with both soft-tissue and bony procedures, including a medial slide calcaneal osteotomy to further reduce hindfoot valgus. The purpose of this study is to investigate and identify the radiographic outcomes of a modified step-cut LCL utilized as an alternative approach for correction of stage II AAFD. Methods: A retrospective radiographic review was performed on 15 feet in 14 patients who underwent correction of stage II AAFD using a step-cut LCL between August 2009 and January 2012. Two independent examiners utilizing 6 radiographic parameters evaluated preoperative and postoperative weight-bearing radiographs of the foot. Results: At a mean follow-up of 13.4 (range 12-16) weeks, weight-bearing radiographs demonstrated a significant median decrease in the lateral talometatarsal angle of 14.4° (P < .001), lateral talocalcaneal angle of 7° (P < .001), anteroposterior talometatarsal angle of 14.5° (P < .001), anteroposterior talocalcaneal angle of 5.5° (P < .001), and talonavicular coverage angle of 26.5° (P < .001). Additionally, a significant median increase in calcaneal pitch of 8.5° (P < .001) was noted. Conclusion: This study demonstrates statistically significant improvement of radiographic outcomes with use of a modified step-cut LCL as an alternative approach for correction of stage II AAFD. Levels of Evidence: Level IV: Retrospective case series

scholarly journals Union Rates and Deformity Correction Using the Hintermann Osteotomy in Type IIb Flatfoot Deformity

2020 ◽  
Vol 5 (4) ◽  
pp. 2473011420S0022
Author(s):  
Brian P. Gallagher ◽  
Walter C. Hembree ◽  
Lew C. Schon
Keyword(s):  
Articular Cartilage ◽  
Clinical Signs ◽  
Deformity Correction ◽  
Degenerative Changes ◽  
Stage Ii ◽  
Lateral Column ◽  
Metatarsal Angle ◽  
Significant Correction ◽  
Lateral Column Lengthening ◽  
Radiographic Union

Category: Ankle; Hindfoot Introduction/Purpose: Multiple Lateral column lengthening procedures have been described for the correction of the abduction component of stage II flatfoot deformity. The Hintermann osteotomy, although technically difficult, offers powerful lengthening of the lateral column with low risk of violating the articular cartilage of the subtalar joint as compared to the more widely performed Evans osteotomy. This study reports on the radiographic and clinical outcomes of the Hintermann osteotomy performed by a single surgeon. Methods: Patients who underwent reconstruction for stage II flatfoot deformity with a Hintermann lateral column lengthening were restrospectively identified. The talus-1st metatarsal angle, percent talus uncoverage, calcaneal pitch, lateral column length, CC joint subluxation, and distance from CC joint to the osteotomy were measured on pre and postop radiographs. Radiographic union was also assessed. The Kellgren-Lawrence scale was used to assess degenerative changes at the ST, CC, and TN joints. Charts were reviewed for comorbidities, clinical evidence of union, time to protected weightbearing, time to unrestricted weightbearing, signs of peroneal irritation, clinical signs of osteoarthritis progression, and complications. A paired students t test was used to identify differences in radiographic parameters. Results: Twenty-six patients (30 feet) met inclusion criteria. All osteotomies achieved union with only 1 (1/30) instance of delayed union. Average duration before clinical and radiographic union was 12.6 weeks (9-37). The AP Talus-1st metatarsal angle decreased on average of 12.3 degrees (STD 9.1) (p<0.0001). Percent talus uncoverage decreased on average 17.7 percent (STD 11.5%) (p<0.0001). Subluxation at the CC joint was found to increase on average 1.63mm (STD 1.99) (p<0.01). Only 3 patients (10%) had radiographic progression of osteoarthritis at either the CC or ST joint. No patients showed clinical signs of osteoarthritis and none went on to fusion. One patient had lateral hardware pain necessitating plate removal. Conclusion: The Hintermann osteotomy is a powerful tool for lateral column lengthening. In this series there was significant correction of the preoperative abduction deformity with no nonunions. Degenerative changes in the surrounding hindfoot joints were rare. One benefit of the Hintermann osteotomy is its ability to preserve the articular cartilage of the anterior and middle facets.

Partial capitate shortening for Kienböck’s disease

2014 ◽  
Vol 40 (9) ◽  
pp. 957-960 ◽  
Author(s):  
A. Citlak ◽  
U. Akgun ◽  
T. Bulut ◽  
M. Tahta ◽  
B. Dirim Mete ◽  
...  
Keyword(s):  
Magnetic Resonance ◽  
Case Series ◽  
Magnetic Resonance Images ◽  
Stage Ii ◽  
Pinch Strength ◽  
Case Series Study ◽  
The Mean ◽  
Series Study ◽  
Carpal Height

The purpose of this study was to report our experience of partial capitate shortening in seven patients with a median 38 months follow-up. Staging was made by the Lichtman classification system and stage II and III-A patients were included in the study. The mean age was 34 years (range 22–52). Patients were assessed for pain, range of motion, grip and pinch strength, and satisfaction was recorded using a scale between 0 and 4. All these parameters showed improvement after surgery. The Lichtman stage, lunate height index and carpal height index were determined radiographically. Magnetic resonance images of the wrist were studied for lunate revascularization at the final follow-up and occurred in all patients. According to our study, partial capitate shortening seems an effective treatment for Lichtman stage II and III-A patients. Level IV case series study.

Posterior Tibial Tendon Excision and Postoperative Pain in Adult Flatfoot Reconstruction: A Preliminary Report

2013 ◽  
Vol 3 (1) ◽  
pp. 20-24
Author(s):  
James K DeOrio ◽  
James A Nunley ◽  
Constantine A Demetracopoulos
Keyword(s):  
Surgical Treatment ◽  
Preliminary Report ◽  
Stage Ii ◽  
Posterior Tibial Tendon ◽  
Resection Group ◽  
First Metatarsal ◽  
Posterior Tibial ◽  
Metatarsal Angle

ABSTRACT Background Posterior tibial tendon insufficiency plays a large role in the pathogenesis of adult acquired flatfoot deformity (AAFD) in select patients. Transfer of the flexor digitorum longus is indicated to compensate for the loss of posterior tibial tendon function; however the role of resection of the degenerated posterior tibial tendon remains unclear. The aim of this study was to determine the effect of posterior tibial tendon resection on pain relief following surgical treatment of stage II AAFD. Methods All patients who underwent surgical treatment for stage II AAFD and posterior tibial tendon insufficiency were retrospectively reviewed. Patients were divided into two groups based on whether the degenerated posterior tibial tendon was resected or left in situ. Twenty-seven patients with a mean follow-up of 13.3 months were included in the study. A visual analog scale (VAS) score for pain was recorded for each patient pre-operatively and at final follow-up. Concomitant surgical procedures and the incidence of postoperative medial arch pain were also reported. Preoperative deformity and postoperative deformity correction were assessed by measuring the anteroposterior talar-first metatarsal angle, the talonavicular (TN) coverage angle, the lateral talar-first metatarsal angle, and the calcaneal pitch onstandard weight bearing radiographs. Results Eleven patients underwent FDL transfer and resection of the posterior tibial tendon (PTT resection group), and 16 patients underwent FDL transfer without resection of the posterior tibial tendon (PTT in situ group). A greater percentage of patients in the PTT resection group underwent lateral column lengthening (100 vs 18.8%, p < 0.001), and a greater percentage of patients in the PTT in situ group had a medial displacement calcaneal osteotomy performed (93.8 vs 18.2%, p < 0.001). There was no difference in preoperative VAS pain scores between groups, and all patients demonstrated excellent pain relief postoperatively. No patient in either group reported medial arch pain postoperatively. Radiographic assessment revealed similar deformity preoperatively in both groups, and patients in the PTT resection group demonstrated a greater correction of the TN coverage angle (9.8 ± 4.6 vs 6.0 ± 4.1 degrees, p = 0.041). Conclusion Resection of the PTT did not significantly affect postoperative VAS scores at final follow-up. It did however, correlate with a slightly greater correction of the TN coverage angle. There were no instances of pain along the medial ankle or medial arch of the foot in either group postoperatively. Future prospective studies are needed to determine whether resection of the PTT is necessary at the time of surgery for stage II AAFD. Demetracopoulos CA, DeOrio JK, Nunley JA II. Posterior Tibial Tendon Excision and Postoperative Pain in Adult Flatfoot Reconstruction: A Preliminary Report. The Duke Orthop J 2013;3(1):20-24.

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