Radiographic Analysis and Clinical Efficacy of Hindfoot Arthrodesis With Versus Without Cotton Osteotomy in Stage III Adult Acquired Flatfoot Deformity

Forefoot varus develops as a result of longstanding adult-acquired flatfoot deformity (AAFD). This occurs with varying degrees of deformity and flexibility. Residual forefoot varus following hindfoot realignment in AAFD can lead to lateral column loading and a persistent pronatory moment in efforts to reestablish contact between the forefoot and the ground. The Cotton osteotomy may serve as a reasonable adjunct procedure to help avoid complications and poor outcomes associated with residual forefoot varus in patients undergoing hindfoot arthrodesis for stage III AAFD. The aim of this study was to compare the radiographic outcomes in patients undergoing isolated hindfoot arthrodesis to patients undergoing hindfoot arthrodesis with adjunctive cotton osteotomy. We retrospectively reviewed 47 patients matched based upon age, sex, and comorbidities who underwent hindfoot reconstruction for the treatment of stage III AAFD between 2015 and 2019. A retrospective radiographic review was performed on standard weightbearing radiographs including anterior-posterior and lateral views preoperatively, postoperatively at the initiation of full weightbearing, and at final follow-up. Statistical analysis utilizing paired t test to calculate p values where <.05 was statistically significant. At final follow-up, radiographic measurements showed statistically significant differences in CAA, calcaneal inclination, talo-calcaneal, and talar tilt (p value <.05). The Cotton osteotomy group showed a quicker return to presurgical activity level and a decreased incident of tibiotalar valgus. Our study suggests that the Cotton osteotomy can address residual forefoot varus and potentially prevent further progression of ankle valgus in AAFD when used in combination with hindfoot arthrodesis.     

Cotton Osteotomy in Flatfoot Reconstruction: A Case Report Highlighting Surgical Technique and Modified Incision to Protect the Medial Dorsal Cutaneous Nerve

The Cotton osteotomy or opening wedge medial cuneiform osteotomy is a useful adjunctive flatfoot reconstructive procedure that is rarely performed in isolation. The Cotton procedure is relatively quick to perform and effectively corrects forefoot varus deformity after rearfoot fusion or osteotomy to achieve a rectus forefoot to rearfoot relationship. Proper patient selection is critical, because preoperative findings of medial column joint instability, concomitant hallux valgus deformity, or degenerative joint disease of the medial column might be better treated with arthrodesis of the naviculocuneiform or first tarsometatarsal joints. Procedure indications also include elevatus of the first ray, which can be a primary deformity in hallux limitus, or iatrogenic deformity after base wedge osteotomy in hallux valgus. We present the case of an adolescent patient who underwent flatfoot reconstruction, including Cotton osteotomy for correction of forefoot varus that was accentuated after double heel osteotomy. This case highlights our preferred procedure technique, including the use of a nerve-centric incision design. The use of an oblique dorsal medial incision is primarily intended to minimize the risk of trauma to the medial dorsal cutaneous nerve. At 20 months postoperatively for the right extremity and 12 months postoperatively for the left extremity, sensation remained intact, and the patient had not experienced any postoperative nerve symptoms. The patient had returned to playing sports without pain or restrictions.     

Dynamic correction for forefoot varus in stage II-A adult flatfoot: Technique tip

Posterior tibial tendon dysfunction (PTTD) is a progressive disorder and a common cause of adult acquired flatfoot deformity, and forefoot varus is a frequent component in advanced cases. The author proposes peroneus brevis-to-longus transfer as an additional step to correct the forefoot varus component of stage II-A posterior tibial tendon dysfunction. We have performed this dynamic correction of forefoot varus in 12 patients at our institution, and observed promising clinical and radiographic improvement. It is a soft tissue procedure that avoids additional incisions and represents a favorable alternative to more demanding techniques, such as osteotomy or arthrodesis.     

Plantarflexion opening wedge medial cuneiform osteotomy for correction of fixed forefoot varus associated with flatfoot deformity

BACKGROUND: Flatfoot presents as a wide spectrum of foot deformities that include varying degrees of hindfoot valgus, forefoot abduction, and forefoot varus. Medial displacement calcaneal osteotomy, lateral column lengthening, and subtalar fusion can correct heel valgus, but may not adequately correct the fixed forefoot varus component. The purpose of this study was to determine the effectiveness of plantarflexion opening wedge medial cuneiform (Cotton) osteotomy in the correction of forefoot varus. METHODS: Sixteen feet (15 patients) had plantarflexion opening wedge medial cuneiform osteotomies to correct forefoot varus associated with flatfoot deformities from several etiologies, including congenital flatfoot (six feet, average age 37 years), tarsal coalition (five feet, average age 15 years), overcorrected clubfoot deformity (two feet, ages 17 years and 18 years), skewfoot (one foot, age 15 years), chronic posterior tibial tendon insufficiency (one foot, 41 years), and rheumatoid arthritis (one foot, age 56 years). RESULTS: Standing radiographs showed an average improvement in the anterior-posterior talo-first metatarsal angle of 7 degrees (9 degrees preoperative, 2 degrees postoperative). The talonavicular coverage angle improved an average of 15 degrees (20 degrees preoperative, 5 degrees postoperative). The lateral talo-first metatarsal angle improved an average of 14 degrees (-13 degrees preoperative, 1 degree postoperative). Correcting for radiographic magnification, the distance from the mid-medial cuneiform to the floor on the lateral radiograph averaged 40 mm preoperatively and 47 mm postoperatively (average improvement 7 mm). All patients at followup described mild to no pain with ambulation. There were no nonunions or malunions. CONCLUSIONS: Opening wedge medial cuneiform osteotomy is an important adjunctive procedure to correct the forefoot varus component of a flatfoot deformity. Advantages of this technique in comparison to first tarsometatarsal arthrodesis include predictable union, preservation of first ray mobility, and the ability to easily vary the amount of correction. Because of the variety of hindfoot procedures done in these patients, the degree of hindfoot correction contributed by the cuneiform osteotomy alone could not be determined. We have had excellent results without major complications using this technique.     

Medial column procedures in the correction of adult acquired flatfoot deformity

AAFD is a complex problem with a wide variety of treatment options. No single procedure or group of procedures can be applied to all patients with AAFD because of the variety of underlying etiology and grades of deformity. As the posture of the foot progresses into hindfoot valgus and forefoot abduction through attenuation of the medial structures of the foot, the medial column begins to change shape. The first ray elevates and the joints of the medial column may begin to collapse. Careful physical examination and review of weight-bearing radiographs determines which patients have an associated forefoot varus deformity that may require correction at the time of flatfoot reconstruction. Correction of an AAFD requires a combination of soft-tissue procedures to restore dynamic inversion power and bony procedures to correct the hindfoot and midfoot malalignments. If after these corrections forefoot varus deformity remains, the surgeon should consider use of a medial column procedure to recreate the “triangle of support” of the foot that Cotton described.5 If the elevation of the medial column is identified to be at the first NC or the first TMT joint, then the joint should be carefully examined for evidence of instability, hypermobility, or arthritic change. If none of these problems exist, then the surgeon can consider use of the joint-sparing Cotton medial cuneiform osteotomy to correct residual forefoot varus. However, if instability, hypermobility, or arthritic change is present, then the surgeon should consider use of an arthrodesis of the involved joint to correct residual forefoot varus. Either procedure provides a safe and predictable correction to the medial column as part of a comprehensive surgical correction of AAFD.     

Flexor-Digitorum-Longus-Transfer und medialisierende Kalkaneusosteotomie zur Therapie der zweitgradigen erworbenen Plattfußdeformität

Acquired flatfoot deformity is characterized by flatening of the longitudinal arch of the foot and a varus alignement of the hindfoot due to insufficiency of the postero-medial soft tissue structures and is divided in four different stages. Stage II represents a flexible flatfoot deformity without active hindfoot inversion due to insufficiency of the Tendon of the posterior tibial muscle. Symptoms include pain at the medial hindfoot and difficulites associated with walking on uneven surfaces. Clinically, there occurs hindfoot varus and excessive forefoot abduction (‚too many toes sign’). Imaging studies include weight bearing a/p and lateral xrays as well as MRI scans in order to visualize tendon degeneration. Conservative treatment options include longitudinal arch support and physical therapy respectively. In case of failure of conservative treatment surgical options include flexor digitorum longus transfer and medial displacement calcaneal osteotomy. This procedure reveals good functional results with the restoration of single heel rise.     

Percutaneous sagittal plane closing wedge osteotomy of the first metatarsal

Osteotomy of the first metatarsal in the sagittal plane is useful in correction of numerous deformity of the foot. Plantarflexion osteotomy of the first metatarsal can be used to treat hallux rigidus, hallux limitus, forefoot varus in flatfoot deformity and iatrogenic metatarsus primus elevates. Dorsiflexion osteotomy of the first metatarsal is an important component in surgical correction of pes cavus. It is also indicated in recalcitrant diabetic neuropathic ulcers at the first metatarsal head. We described a minimally invasive technique of sagittal plane corrective osteotomy of the first metatarsal, which can be either a plantarflexion or dorsiflexion one.     

Cotton Osteotomy in Flatfoot Reconstruction: A Review of Consecutive Cases

The Cotton osteotomy or opening wedge medial cuneiform osteotomy is a useful adjunctive flatfoot reconstructive procedure that is commonly performed; however, the outcomes are rarely reported owing to the adjunctive nature of the procedure. The Cotton procedure is relatively quick to perform and effectively corrects forefoot varus deformity after rearfoot fusion or osteotomy to achieve a rectus forefoot to rearfoot relationship. Proper patient selection is critical because the preoperative findings of medial column joint instability, concomitant hallux valgus deformity, or degenerative joint disease of the medial column might be better treated by arthrodesis of the naviculocuneiform or first tarsometatarsal joints. Procedure indications also include elevatus of the first ray, which can be a primary deformity in hallux limitus or an iatrogenic deformity after base wedge osteotomy for hallux valgus. We undertook an institutional review board-approved retrospective review of 32 consecutive patients (37 feet) who had undergone Cotton osteotomy as a part of flatfoot reconstruction. All but 1 case (2.7%) had radiographic evidence of graft incorporation at 10 weeks. No patient experienced graft shifting. Three complications (8.1%) were identified, including 2 cases with neuritis (5.4%) and 1 case of delayed union (2.7%) that healed with a bone stimulator at 6 months postoperatively. Meary's angle improved an average of 17.75°, from ?17.24°± 8.00° to 0.51°± 3.81°, and this change was statistically significant (p < .01). The present retrospective series highlights our experience with the use of the Cotton osteotomy as an adjunctive procedure in flatfoot reconstructive surgery.     

Osteotomy for malunion of a talar neck fracture: a case report

A malunion of the talar neck after a Hawkins type II fracture/dislocation of the talar neck occurred in a 34-year-old man after nonoperative treatment. Rigid varus deformity of the forefoot was a source of severe pain and disability in this patient. We describe our surgical technique for osteotomy of the talar neck with insertion of a tricortical iliac crest bone graft to correct the deformity. At follow-up (56 months), the patient had consistent relief of pain and was employed at his preinjury job doing heavy labor. The score on the American Orthopaedic Foot and Ankle Society Ankle-Hindfoot Scale improved from 11 points, preoperatively, to 85 points, postoperatively. Radiographs showed maintenance in the position of the osteotomy and no evidence of avascular necrosis in the talar body. Evidence of arthrosis of the talonavicular joint was apparent radiographically, but the patient did not complain of symptoms referable to this area.     

Surgical management of forefoot supinatus in flexible flatfoot deformity

In the past, many surgical procedures have been advocated for correction of painful flexible flatfoot deformity. More recent opinions advocate the concept that no one procedure is appropriate to all flatfoot deformities. Individual assessment is now necessary to determine the predominant component deformities. One such component deformity frequently encountered is forefoot supinatus. The authors review the more commonly performed procedures for this problem, as well as their preferred approach of the modified Hoke arthrodesis or Cotton osteotomy. The choice of procedure is dictated by whether the first metatarsal or longitudinal axis subluxation predominates.     

HyProCure距下关节稳定治疗柔韧性平足症的疗效分析

目的通过影像学及临床结果评价HyProCure距下关节稳定治疗柔韧性平足症的初期治疗效果。方法对16例（27足）柔韧性平足症采用HyProCure距下关节稳定治疗,并对获完整随访者的临床及影像学结果进行分析。结果本组随访时间12～20个月,平均14．6个月。1例（1足）出现轻度足内翻,1例（1足）因负重疼痛术后14个月取出HyPm．Cure。末次随访时平均Maryland评分较术前提高26．3分（P〈0．01）,术后平均VAS评分较术前显著减少（P〈O．01）。术后距骨跖骨角（Meary＇s角）、距骨跟骨角（TCA）、跟骨倾斜角（CPA）、距骨第1跖骨角（T1MT）、距骨第2跖骨角（T2MT）较术前均有明显改善（P〈0．05）。结论HyProCure距下关节稳定可以较好地矫正柔韧性平足症的后足外翻和前足外展畸形,抬高足内侧纵弓,缓解负重及行走时的疼痛症状。但是应选择合适患者,避免畸形矫正不足或矫正过度。     

Pedal ectrodactyly: a case report with a new surgical management.

A case report is presented regarding a patient with type IV bilateral ectrodactyly treated with a double surgical approach: in forefoot to correct the malformation and in rearfoot to prevent secondary deformity of the subtalar joint. The forefoot was enlarged and in particular the second and third rays were absent. There was also a metatarsus primus varus with interphalangeal hallux abductus. The second cuneiform bone was removed with a wedge resection of the midfoot. The reduction in transverse diameter of the forefoot was obtained by cerclage of the first and fourth metatarsal bones. For hallux valgus, a percutaneous distal osteotomy of the proximal phalanx was performed. Several months after the forefoot correction, subtalar joint pronation was noted secondary to the altered forefoot mechanics and was treated with a subtalar Arthroereisis. The contralateral foot was addressed using similar techniques, except all procedures were done in a single surgical session. A favorable outcome for the patient 1 year and 6 months after surgery seems to justify this approach.     

Adult cavovarus foot

Cavovarus foot deformity, which often results from an imbalance of muscle forces, is commonly caused by hereditary motor sensory neuropathies. Other causes are cerebral palsy, cerebral injury (stroke), anterior horn cell disease (spinal root injury), talar neck injury, and residual clubfoot. In cavovarus foot deformity, the relatively strong peroneus longus and tibialis posterior muscles cause a hindfoot varus and forefoot valgus (pronated) position. Hindfoot varus causes overload of the lateral border of the foot, resulting in ankle instability, peroneal tendinitis, and stress fracture. Degenerative arthritic changes can develop in overloaded joints. Gait examination allows appropriate planning of tendon transfers to correct stance and swing-phase deficits. Inspection of the forefoot and hindfoot positions determines the need for soft-tissue release and osteotomy. The Coleman block test is invaluable for assessing the cause of hindfoot varus. Prolonged use of orthoses or supportive footwear can result in muscle imbalance, causing increasing deformity and irreversible damage to tendons and joints. Rebalancing tendons is an early priority to prevent unsalvageable deterioration of the foot. Muscle imbalance can be corrected by tendon transfer, corrective osteotomy, and fusion. Fixed bony deformity can be addressed by fusion and osteotomy.     

Lateral column calcaneal lengthening, flexor digitorum longus transfer, and opening wedge medial cuneiform osteotomy for flexible flatfoot: a biomechanical study

BACKGROUND: Lengthening of the lateral column is commonly used for reconstruction of the adult and pediatric flatfoot, but can result in supination of the foot and symptomatic lateral column overload. The addition of a medial cuneiform osteotomy has been used to redistribute forces to the medial column. The combined use of a lateral column lengthening and medial cuneiform osteotomy in a reproducible cadaver flatfoot model was evaluated. METHODS: Twelve cadaver specimens were physiologically loaded and each was evaluated radiographically and pedobarographically in the following conditions: 1) intact, 2) severe flatfoot, 3) lateral column lengthening with simulated flexor digitorum longus transfer, and 4) lateral column lengthening and flexor digitorum longus (FDL) transfer with added medial cuneiform osteotomy. The lateral column lengthening was performed with a 10-mm foam bone wedge through the anterior process of the calcaneus, and the medial cuneiform osteotomy was performed with a dorsally placed 6-mm wedge. RESULTS: Lateral column lengthening with simulated FDL transfer on a severe flatfoot model resulted in a significant change as compared with the flatfoot deformity in three measurements: in lateral talus-first metatarsal angle (-17 to -7 degrees; p<0.001), talonavicular angle (46 to 24 degrees; p<0.001), and medial cuneiform height (16 to 20 mm; p<0.001). Lateral forefoot pressure increased from 24.6 to 33.9 kPa (p<0.001) after these corrections as compared with the flatfoot. Adding a medial cuneiform osteotomy decreased the lateral talar-first metatarsal angle from -7 to -4 degrees, decreased the talonavicular coverage angle from 24 to 20 degrees, and increased the medial cuneiform height from 20 to 25 mm. After added medial cuneiform osteotomy, lateral pressure was significantly different from that of the flatfoot (p=0.01) and was not significantly different from that of the intact foot (p=0.14). Medial forefoot pressure was overcorrected as compared with the intact foot with added medial cuneiform osteotomy. CONCLUSIONS: Lateral column lengthening increased lateral forefoot pressures in a severe flatfoot model. An added medial cuneiform osteotomy provided increased deformity correction and decreased pressure under the lateral forefoot.     

Effects of surgical correction for the treatment of adult acquired flatfoot deformity: A computational investigation

Computational models of the foot/ankle complex were developed to predict the biomechanical consequences of surgical procedures that correct for Stage II adult acquired flatfoot deformity. Cadaveric leg and foot bony anatomy was captured by CT imaging in neutral flexion and imported to the modeling software. Ligaments were approximated as tension only springs attached at insertion sites. Muscle contraction of the gastrocnemius/soleus complex was simulated through force vectors and desired external loads applied to the model. Ligament stiffnesses were modified to reflect Stage II flatfoot damage, followed by integration of corrective osteotomies—medializing calcaneal osteotomy (MCO) and Evans and calcaneocuboid distraction arthrodesis (CCDA)—to treat flatfoot. Joint angles, tissue strains, calcaneocuboid contact force, and plantar loads were analyzed. The flatfoot simulation demonstrated clinical signs of disease evidenced by degradation of joint alignment. Repair states corrected these joint misalignments with MCO having greatest impact in the hindfoot, and Evans/CCDA having greatest effect in the mid‐ and forefoot. The lateral procedures unevenly strained plantar structures, while offloading the medial forefoot, and increased loading on the lateral forefoot, which was amplified by combining with MCO. The Evans procedure raised calcaneocuboid joint contact force to twice intact levels. Computational results are in agreement with clinical and experimental findings. The model demonstrated potential precursors to such complications as lateral tightness and arthritic development and may thus be useful as a predictor of surgical outcomes. © 2011 Orthopaedic Research Society Published by Wiley Periodicals, Inc. J Orthop Res 29: 1047–1054, 2011     

Calcaneocuboid distraction arthrodesis and first metatarsocuneiform arthrodesis for correction of acquired flatfoot deformity in a cadaver model

BACKGROUND: Lateral column lengthening has been associated with residual forefoot supination and symptomatic lateral overload in treatment of acquired flatfoot. A medial column procedure may be useful to redistribute load to the medial column. We evaluated radiographic and pressure changes in a severe flatfoot model with lateral column lengthening and investigated the effect of an added first metatarsocuneiform arthrodesis. METHODS: Ten cadaver specimens were loaded in simulated double-legged stance, and radiographic and pressure data were collected for all tested states. Calcaneocuboid arthrodesis was done with a 10-mm foam wedge. Residual forefoot varus was corrected through the first metatarsocuneiform joint. RESULTS: Differences in the mean lateral talar-first metatarsal angle, talonavicular angle, talocalcaneal angle, and calcaneal pitch were significant between the intact foot and the flatfoot. After calcaneocuboid distraction arthrodesis and tendon transfer, the lateral talar-first metatarsal angle, talonavicular angle, and calcaneal pitch were significantly different from the flatfoot. After added first metatarsocuneiform arthrodesis, the talonavicular angle was not significantly different from the intact foot. Lateral forefoot pressure increased in the flatfoot after lateral column lengthening but was not significantly different from the intact foot after first metarsocuneiform arthrodesis was added. CONCLUSIONS: Adding first metatarsocuneiform arthrodesis to calcaneocuboid distraction arthrodesis for treatment of flatfoot deformity provided improvement in radiographic and pedobarographic parameters of a severe model of stage II posterior tibial tendon dysfunction.     

Crescentic transmalleolar osteotomy for optimal exposure of the medial talar dome

A review of the literature suggests that surgical treatment of transchondral talar dome fractures affords superior results over lengthy conservative therapy. Medial lesions have been reported most often. The authors perform stress views in acute and chronic ankle injuries, as there are often associated ligament ruptures with suspected talar dome fractures, and routinely use an air-contrast radiographic technique for visualization of the continuity of the articular cartilage. An arthrogram is performed for definitive diagnosis of ligamentous injury. A new osseous surgical approach to the medial talar dome has been presented, entailing a crescentic osteotomy of the medial malleolus. The distinct advantage has proven to be enhanced exposure to the middle and posterior aspects of the medial margin of the talus. The configuration of the crescentic osteotomy is also amenable to internal fixation and tension band wiring has been recommended. Unrestricted access to the site of a medial transchondral talar dome fracture through this osteotomy is the benefit of a technically well-performed procedure.     

Salvage of severe ankle varus deformity with soft tissue and bone rebalancing

The etiology of ankle varus is multifactorial. Treatment recommendations after failed conservative care include hindfoot and ankle fusions or total ankle arthroplasty (TAA) with ligament rebalancing. The purpose of this study was to evaluate chronic varus ankle deformities through corrective calcaneal osteotomies and lateral soft tissue reconstruction. All skeletally mature patients with at least 5 degrees of ankle varus were included in the study. Pre and postoperative radiographs were retrospectively reviewed measuring talar tilt. All patients had a lateral closing wedge (Dwyer) calcaneal osteotomy, joint debridement, and lateral ankle ligament reconstruction. Eight feet were included in the study. The average follow-up time was 20.6 months. Six patients (six feet) were asymptomatic and did not have any additional surgery at their most recent follow-up. Two patients failed treatment, requiring surgical intervention for persistent pain and/or deformity. The average postoperative ankle varus correction overall was 4.9 degrees. We found ankle varus on average of less than 10 degrees can be reliably corrected with a combination of lateral ligament reconstruction and calcaneal osteotomy. Approximately 50% of the deformity was corrected when comparing pre and postoperative talar tilt values. In patients with varus deformity greater than 10 degrees preoperatively, persistent varus may occur.     

Supramalleolar Osteotomy With Distraction Arthroplasty in Treatment of Varus Ankle Osteoarthritis With Large Talar Tilt Angle: A Case Report and Literature Review

We treated a 57-year-old female with modified Takakura stage 3B varus ankle osteoarthritis. Her preoperative talar tilt angle was 21.3°. The patient wished to avoid ankle joint arthrodesis or replacement. Therefore, medial opening wedge supramalleolar osteotomy with fibular osteotomy was used for her varus ankle osteoarthritis. Also, fixed medial distraction arthroplasty was performed to improve her talar tilt. After 3 months, the external device was removed, and the patient was allowed partial weightbearing and began full weightbearing 4 months postoperatively after the osteotomy site had reached bony union radiographically. At the 3-year follow-up visit, a radiograph showed the medial ankle joint space enlargement had been maintained. The talar tilt angle had decreased to 3.3°, and the modified Takakura stage had improved to stage 1. The American Orthopaedic Foot and Ankle Society (AOFAS) Ankle-Hindfoot scale score had improved from 26 points preoperatively to 85 points at 3 years postoperatively. Our findings suggested that good clinical and radiologic results can be achieved with supramalleolar osteotomy combined with distraction arthroplasty in the treatment of varus ankle osteoarthritis with a large talar tilt angle.     

Chevron osteotomy for hallux valgus.

The chevron osteotomy for realignment of the first metatarsal head in metatarsus primus varus deformity has been utilized at the Mayo Clinic since 1976 on 26 feet (18 patients). Follow-up evaluation disclosed excellent relief of pain, good cosmetic correction, and overall patient satisfaction. Radiographic evaluation demonstrated reduction in the angle between the phalanx and the metatarsal bone of the great toe as well as narrowing of the forefoot with a decreased angle between the first and the second metatarsal bones. The stability of the osteotomy, the technical ease, and the absence of secondary difficulties such as transfer metatarsalgia make this procedure preferable when osteotomy of the distal portion of the first metatarsal bone is used for correction of moderate deformity.