Introduction Nineteen consecutive patients underwent flexor hallucis longus (FHL) tendon transfer and medial displacement calcaneal osteotomy for the treatment of Stage 2 posterior tibial tendon dysfunction. Methods The FHL tendon was utilized for transfer because it approximates the strength of the posterior tibiais muscle and is stronger than the peroneus brevis muscle. Seventeen patients returned for follow-up examination (average 18 months). Results The AOFAS hindfoot score improved from 62/100 to 84/100. The subjective portion of the AOFAS hindfoot score improved from 31/60 to 49/60. Weight bearing pre-operative and post-operative radiographs revealed no statistically significant improvement for the medial longitudinal arch in measurements of lateral talo-first metatarsal angle, calcaneal pitch, vertical distance from the floor to the medial cuneiform or talo-navicular coverage angle. Three feet had a normal medial longitudinal arch and six feet had a longitudinal arch similar to the opposite side following the procedure. Patient satisfaction was high: 10 patients satisfied without reservations, six patients satisfied with minor reservations and one dissatisfied. No patient complained of donor defecit from the harvested FHL tendon. Conculsions Despite the inability of the procedure to improve the height of the medial longitudinal arch, FHL transfer combined with medial diplacement calcaneal osteotomy yielded good to excellent clinical results and a high patient satisfaction rate. In relation to the conduct of this study, one or more of the authors has received, or is likely to receive direct material benefits

Posterior tibial tendon dysfunction is a well-recognised condition. It commonly occurs in middle aged overweight women. In contrast to most tendon pathology, the tendon is still often intact and the tendon is stretched rather than completely ruptured. The diagnosis can be made on clinical grounds. Clinical features include acquired flatfoot deformity, inability to perform a single heel raise, ‘too many toes’ sign and loss of inversion power with the foot in forced plantarflexion. Disease is staged into four stages, Stage II is the most common presentation. Treatment options for Stage I are non-operatively including rest and antiinflammatories. Surgical treatment for this is required if this fails or progresses to next stage. Treatment for Stage II disease is most commonly a tendon transfer using FDL tendon transfer and some bony procedure, most commonly calcaneal osteotomy. More recently move to sub-classify Stage II into sub-classification depending on severity of hindfoot valgus and presence of fixed forefoot varus. Other treatment options for Stage II include lateral column lengthening or medial column shortening procedures. Stage III disease is fixed deformity which is classically treated with triple arthrodesis. Stage IV deformity is fixed deformity with ankle valgus. Difficult condition to treat. This requires ankle and hindfoot fusion

Introduction. Flexor digitorum longus (FDL) transfer and medial displacement calcaneal osteotomy (CO) is a well-recognised surgical treatment for stage II posterior tibial tendon dysfunction (PTTD). Whilst excellent results are quoted for short and medium term follow-up, the long-term outcome of this procedure is unknown. Materials and Methods. We reviewed the clinical outcome of patients with a symptomatic flexible flatfoot deformity undergoing this procedure at a mean follow up of 15.3 +/−0.7 years (range 14.4–16.5). We identified 48 patients who underwent surgery by the senior author between 1994 and 1996. We were able to contact 30 patients of whom 20 were available for clinical review. 10 patients participated via telephone interview, and also completed postal questionnaires. Results. All scores improved significantly from preoperative to latest follow-up. The mean AOFAS score improved from 48.4 presurgery to 90.0+/−13.6 (range 54–100) postsurgery. The pain component improved from a mean of 12.3 to 35.0+/−8.1 (range 20–40). Function score improved from 35.8 to 45.5+/−6.1 (range 30–50). Visual analogue score improved from 7.3 to 1.3+/−2.2 (range 0–6). Seven patients had only fair objective alignment, however six of those were totally satisfied and one satisfied with minor reservations, and all said they would have the surgery again. The mean SF36 physical component score was 39.8+/−8.4 and this showed significant correlation with the AOFAS score (r = 0.61, p = 0.009). Five patients developed further pain unresponsive to analgesia and orthotics and underwent further surgery in the form of calcaneocubuoid fusion, talonavicular fusion or triple fusion at a mean of 5.5+/−4.7 years (range 0.7–11.8) following initial surgery. 25(83%) patients were pain free and functioning well at an average of 15.3 years following surgery. Conclusion. We believe that FDL transfer and CO provides long-term pain relief and satisfactory function in the treatment of Stage II PTTD

Aim. We report the results of Cobb I procedure and Rose calcaneal osteotomy for stage II posterior tibial dysfunction in a consecutive series of thirty patients. Methods. These patients were reviewed prospectively after average of 30 months (range: 12-92 months). An experienced independent, biomechanics specialist carried out the ultrasound examination to assess dynamic function of the posterior tibial tendon at final follow-up. Results. Twenty-eight patients were available for final follow-up. Two patients died of unrelated causes. Mean age was 60 years (range: 40-81 years). Average AOFAS score improved from 53.6 pre-operatively to 89.8 at final follow-up. Twenty-five (89%) patients were able to perform single heel raise. Six (22%) were using some form of orthotics at final follow-up. All calcaneal osteotomies united. On ultrasound examination, the posterior tibial tendon was intact in all patients and it was found to be mobile in twenty-six (93%) patients. There was one superficial wound infection and two prominent screws were removed. Three patients had subtalar joint arthritis. The surgical intervention improved the quality of life in all but two patients and only two patients were not satisfied with the surgery. Conclusion. These results suggest that a combination of Cobb I procedure and Rose Calcaneal osteotomy is a safe, effective, reliable and attractive option for the treatment of stage II posterior tibial tendon dysfunction, which provides dynamic function of posterior tibial tendon without sacrificing the primary function of long flexor tendons in foot and ankle

Objective

The objective of this study was to evaluate the rotation and translation of each joint in the hindfoot and compare the load response in healthy feet with that in stage II posterior tibial tendon dysfunction (PTTD) flatfoot by analysing the reconstructive three-dimensional (3D) computed tomography (CT) image data during simulated weight-bearing.

Aims

The Chopart joint complex is a joint between the midfoot and hindfoot. The static and dynamic support system of the joint is critical for maintaining the medial longitudinal arch of the foot. Any dysfunction leads to progressive collapsing flatfoot deformity (PCFD). Often, the tibialis posterior is the primary cause; however, contrary views have also been expressed. The present investigation intends to explore the comprehensive anatomy of the support system of the Chopart joint complex to gain insight into the cause of PCFD.

Background. Ankle fractures represent an increasing workload, particularly in the elderly female population. The posterior tibial tendon is exposed to injury during displaced medial malleolar fractures. Posterior tibial tendon dysfunction delays rehabilitation and results in significant morbidity and is most prevalent in women over 40. Objective. To ascertain whether posterior tibial tendon should be routinely explored in displaced medial malleolar fractures and consequently should post-operative rehabilitation of ankle fractures be modified. Intra-operative assessment of the tendon may help with this diagnosis and consequently alter post-operative rehabilitation. Method. We performed a prospective case series of 25 patients with displaced medial malleolar ankle fractures admitted to the Royal Victoria Hospital Belfast between August and November 2009. The admission notes were then checked for any previous injuries and the initial reduction was assessed radiologically. At the time of surgery the primary operator explored the posterior tibial tendon and assessed the tendon for damage using the following scale: nil, bruising, superficial, partial tear, complete tear. Results. The average age was 58. The majority of injuries were Weber B (20/25), bimalleolar (19/25), had an initial satisfactory reduction (19/25) and had the surgery performed by SPR/STR (22/25). The mechanism of injury was reported as mainly supination-external rotation (13/25). Eight patients were reported as having superficial damage and one with a partial rupture. Of note all patients included under the age of forty were reported as having no damage to posterior tibial tendon. Conclusion. This study does not support the routine exploration of the posterior tibial tendon in displaced medial malleolar fractures. However, the study would advocate an altered post-op regime for at risk groups for posterior tibial dysfunction

Aims: To clarify correlation between magnetic resonance imaging (MRI) and pathology of pain in posterior aspect of the ankle in ballet dancers. Methods: Twenty feet of þfteen patients, who underwent surgery with the average age of 19.2 years, were retrospectively analyzed. They were diagnosed as ßexor hallucis longus (FHL) tendon injury or posterior ankle impingement (PAI) syndrome mainly based on physical signs. MRI þndings of FHL tendon were classiþed with the classiþcation of posterior tibial tendon dysfunction presented by Conti et al., and were compared with macroscopic changes of the tendon. FHL injuries were classiþed as follows; paratendinitis as grade-1, superþcial injury (< 1/2 thickness) as grade-2, and deep injury as grade-3. MRI þndings of PAI syndrome were also compared to surgical and histological þndings. Results: Correlation of FHL tendon injury with MRI þndings was presented on the table. There was a case with a ganglion cyst of FHL tendon presented on MRI. There were, however, two cases with ganglions on þbro-osseous tunnel MRI could not reveal. In four feet of three patients, bone marrow edema in os trigonum or posterior part of the talus was observed. Conclusion: MRI was useful to investigate the pathology of pain in posterior aspect of the ankle