Wallace B. Lehman

Predicting the need for tenotomy in the Ponseti method for correction of clubfeet.

The purpose of this study was to determine how to predict the need for tenotomy at the initiation of the Ponseti treatment. Fifty clubfeet (35 patients) were prospectively rated according to Pirani and Dimeglio scoring systems. Tenotomies were performed in 36 of 50 feet (72%). Those that underwent tenotomy required significantly more casts (P = 0.005). Of 27 feet with initial Pirani scores ≥5.0, 85.2% required a tenotomy and 14.8% did not; 94.7% of the Dimeglio Grade IV feet required tenotomies. Following removal of the last cast, there was no significant difference between those that did and did not have a tenotomy. Children with clubfeet who have an initial score of ≥5.0 by the Pirani system or are rated as Grade IV feet by the Dimeglio system are very likely to need a tenotomy. At the end of casting, feet were equally well corrected whether or not they needed a tenotomy.

Correction of tibia vara with six-axis deformity analysis and the Taylor Spatial Frame.

Operative correction for infantile and adolescent tibia vara has been described using both external and internal fixation. Gradual correction using a circular fixator offers the advantage of accurate coronal, sagittal, and axial plane correction without significant soft tissue dissection. This study evaluated the use of six-axis deformity analysis and the Taylor Spatial Frame (TSF) for the correction of tibia vara. Nineteen patients (22 tibias), 6 with infantile and 13 with adolescent tibia vara, underwent correction with TSF. On the basis of mechanical axis correction, 21 of 22 tibias were corrected within 3° of normal. Using Schoeneckers criteria, all patients achieved good results (no pain, <5° difference in tibial-femoral angle from the normal side). Complications included one intractable pin-site infection, two superficial pin-site infections, and one delayed union. Six-axis deformity analysis and TSF provide accurate and safe correction of infantile and adolescent tibia vara.

The Ilizarov technique in correction of complex foot deformities.

The Ilizarov technique allows new histogenesis of soft tissue as well as bone. This process, extended to the foot, has allowed correction of complex three-dimensional deformities. The method is described and demonstrated to illustrate the action and limitations as well as the complications of the method.

Use of the foot abduction orthosis following Ponseti casts: Is it essential?

The purpose of this study was to evaluate the need for the use of a foot abduction orthosis (FAO) in the treatment of idiopathic clubfeet using the Ponseti technique. Forty-four idiopathic clubfeet were treated with casting using the Ponseti method followed by FAO application. Compliance was defined as full-time FAO use for 3 months and part-time use subsequently. Noncompliance was failure to fulfill the criteria during the first 9 months after casting. Feet were rated according to the Dimeglio and Pirani scoring systems at initial presentation, at the time of FAO application, and at 6 to 9 months of follow-up. At the time of application, no significant differences in scores were found between the groups. At follow-up, the compliant groups scores were significantly (P < 0.01) better than those of the noncompliant group. From the time of application to follow-up, for the compliant group, the Dimeglio scores improved significantly (P = 0.005). For the noncompliant group, the Dimeglio scores deteriorated significantly (P = 0.001). The feet of patients compliant with FAO use remained better corrected than the feet of those patients who were not compliant. Proper use of FAO is essential for successful application of the Ponseti technique.

Accuracy of correction of tibia vara: acute versus gradual correction.

The purpose was to assess the accuracy of deformity correction achieved in patients with tibia vara using acute intraoperative correction compared with gradual postoperative correction. Acute correction (AC) group consisted of 14 patients (14 tibiae) with a mean age of 11.4 years and whose tibia vara was corrected acutely and held using an EBI external fixator. Gradual correction (GC) group consisted of 18 patients (18 tibiae) with a mean age of 10.2 years and whose tibia vara was corrected gradually using 6-axis deformity analysis and Taylor Spatial Frame. Deformity measurements were compared preoperatively, postoperatively, and at latest follow-up. At latest follow-up, medial proximal tibial angle deviation from normal was similar for the 2 groups; posterior proximal tibial angle was significantly greater in the AC group (5.6 degrees) than in the GC group (1.9 degrees). Mechanical axis deviation was significantly greater in the AC group (17.1 mm) than in the GC group (3.1 mm). Postoperatively, frequency of accurate translation corrections (achieved translation within 5 mm of preoperative required translation) was significantly greater in the GC group (18/18) than in the AC group (7/14). Frequency of accurate angulation corrections (medial proximal tibial angle within 3 degrees of normal and posterior proximal tibial angle within 5 degrees of normal) was significantly greater in the GC group (17/18) than in the AC group (7/14). For both groups, all tibiae with preoperative internal rotation deformity had accurate rotation correction. Correction of preoperative limb-length inequality was achieved in 5 of the 7 patients in the AC group and 11 of the 11 patients in the GC group. Gradual deformity correction is a more accurate treatment method of tibia vara than acute correction.

Clubfoot classification: correlation with Ponseti cast treatment.

Background Many different clubfoot classification systems have been proposed, but no single one is universally accepted. Two frequently cited systems, developed by Dimeglio/Bensahel and Catterall/Pirani, are often used for evaluation purposes in the treatment of idiopathic clubfoot. Our hypothesis was that the initial scores would be positively correlated with the number of casts required for clubfoot correction, indicating to us that the more severe score would require more casts, and therefore truly show the accuracy and usefulness of the scoring system. Methods From May 2000 to April 2008, 123 patients (185 feet) with idiopathic clubfeet were treated. All patients were below 60 days of age (mean 15.3 d, range: 2 to 57 d) at the time of their initial evaluation, and had not received prior clubfoot treatment. All cast placements were under the supervision of the same pediatric orthopedic surgeon. Initial correction was achieved in all patients. Results The mean number of casts required for correction was 5.1 (range: 2 to 8). On the basis of number of casts required, no significant differences were found in final total scores (Dimeglio/Bensahel P=0.14 and Catterall/Pirani P=0.44), indicating a similar level of correction for all feet. The Dimeglio/Bensahel and Catterall/Pirani classification systems were both similarly, poorly correlated with the number of casts needed [Spearman rank correlation coefficients (rs)=0.34 vs. 0.33]. The 2 components with the highest correlations were equinus (rs=0.39) and forefoot adduction (rs=0.35) for the Dimeglio/Bensahel system and coverage of the lateral head of the talus (rs=0.40) and rigid equinus (rs=0.39) for the Catterall/Pirani system. Conclusions When using the initial scores, both the Dimeglio/Bensahel and Catterall/Pirani classification systems had a low correlation with the number of Ponseti casts required. Analysis of the individual components revealed variability in the coefficients, with some having low-to-moderate correlation and others having none. There was no difference between the Dimeglio/Bensahel and Catterall/Pirani classification systems when measuring their correlation with the number of Ponseti casts required for clubfoot correction. An improved classification system is needed to predict the length of treatment and, ultimately, the risk of recurrence. Level of Evidence Prognostic Level IV.

Congenital pseudoarthrosis of the tibia.

&NA; Congenital pseudoarthrosis of the tibia remains one of the most difficult conditions to treat in orthopedic surgery. Seven cases were treated in our hospital by different methods. Three out of seven patients were healed, two of these refractured. At follow‐up, the success rate was 14% (one out of seven cases). It is our recommendation that early primary amputation with an appropriate prosthesis should be considered, and that the final evaluation should not be based on obtaining bone union, but on the level of function of the lower extremity.

The problem of evaluating in situ pinning of slipped capital femoral epiphysis: an experimental model and a review of 63 consecutive cases

Over a 3-year follow-up period, 63 hips (in 49 patients) that were pinned as treatment for slipped capital femoral epiphysis were examined and evaluated. A 36.8% incidence of unsuspected pin penetration was discovered. Four types of experimental models representing different degrees of severity of slipped capital femoral epiphysis were designed and manufactured in the bioengineering laboratory. In situ pinning was performed on each model. An extensive series of controlled test films on the models indicated the difficulty of accurately determining the true position of the pins with conventional roentgenographic views. Subsequent fluoroscopic analysis revealed a verifiable correlation between the limited visualization of conventional X-ray analysis following the pinning of a slipped capital femoral epiphysis and unrecognized pin penetration.

Correction of Arthrogrypotic Clubfoot With a Modified Ponseti Technique

Surgical releases for arthrogrypotic clubfeet have high recurrence rates, require further surgery, and result in short, painful feet. We asked whether a modified Ponseti technique could achieve plantigrade, braceable feet. Ten patients (mean age, 16.2 months; range, 3–40 months), with 19 arthrogrypotic clubfeet, underwent an initial percutaneous Achilles tenotomy to unlock the calcaneus from the posterior tibia followed by weekly Ponseti-style casts. A second percutaneous Achilles tenotomy was performed in 53%. Mean number of casts was 7.7 (range, 4–12). From pretreatment to completion of initial series of casts, mean scores of Dimeglio et al. improved from 16 to 5 (ranges, 12–18 and 2–9, respectively), Catterall scores (as modified by Pirani and colleagues) from 4.8 to 0.9 (ranges, 1.5–6.0 and 0.0–2.0), and maximum passive dorsiflexion from −45° (range, −75° to −20°) to 10° (range, 0° to 40°). Ankle-foot orthoses maintained correction. At the minimum followup of 13 months (mean, 38.5 months; range, 13–70 months), the mean maximum dorsiflexion was 5° (range, –20° to 20°), two patients had posterior releases and no patient’s ambulatory ability was compromised by foot shape. Arthrogrypotic clubfeet can be corrected without extensive surgery during infancy or early childhood. Limited surgery may be required as the children age.

Chondrolysis following slipped capital femoral epiphysis.

Medical records and radiographs of 17 known cases of slipped capital femoral epiphysis, treated with in-situ pin fixation and complicated by chondrolysis were reviewed. Fourteen of these 17 hips that developed chondrolysis had definite evidence of pin penetration of the femoral head. One hip had intra-articular pin penetration of the femoral neck. In the remaining two hips, the pins were placed within the anterolateral quadrant of the femoral head and within 2 mm of the articular surface. Overall, this is an 88% incidence of definite intra-articular pin penetration on postoperative radiographs, and a 100% rate if the two probable cases are included. This suggests a correlation between pin penetration and the development of chondrolysis following slipped capital femoral epiphysis.