Haluk Altiok

The Superior Mesenteric Artery Syndrome in Patients with Spinal Deformity

Study Design. A retrospective review. Objective. To determine the incidence of the superior mesenteric artery syndrome (SMAS) after surgical correction for scoliosis and if it is influenced by newer derotation/translation surgical systems. Summary of Background Data. The SMAS is a known complication after surgery. Method. Of 2939 charts reviewed, 17 patients between 1960 and 2002 matched inclusion criteria. Results. Our incidence of the SMAS was 0.5%. Onset of symptoms was 7.2 days. Several scoliosis diagnoses were included in the study group. Instrumentation that was used included: nondistraction systems (n = 14), Harrington rod with body cast (n = 1), Luque rod with sublaminar wires (n = 1), and casted in situ posterior spinal fusion (n = 1). Before surgery, 10 of 17 patients weighed less than the 50th percentile. Mean preoperative BMI was 18.6 kg/cm/cm. Postoperative height gain averaged 3.175 cm, and weight loss at onset of symptoms averaged 4.5 kg. There were 14 patients who required nasogastric suction for an average duration of 10.2 days, 11 required hyperalimentation, and 5 concurrently received hyperalimentation with enteric feeding. The SMAS recurred in 2 patients. Conclusions. Postoperative weight loss appears to be more important for the development of the SMAS than asthenic body type. Newer derotation/translation corrective techniques have not eliminated the SMAS. Gastrointestinal imaging is indicated when nausea and vomiting occur 6−12 days after surgery, associated with early satiety and normal bowel sounds. Decompression and nutritional support remain the mainstays of treatment.

Transphyseal osteotomy of the distal tibia for correction of valgus/varus deformities of the ankle.

This study is a retrospective review of the results of consecutive cases of a transphyseal osteotomy of the distal tibia. Indications for the procedure are significant valgus or varus deformities of the ankle needing acute correction because of problems with the skin and brace fit as well as progressive deformity. Twenty-one patients with a variety of underlying diagnoses, five with bilateral deformities, underwent this procedure. The technique involved making either a medially based closing or opening wedge with the distal limb of the osteotomy through the physis or the physeal scar so that it was very close to the ankle joint. A fibular osteotomy was not necessary except in three ankles. All osteotomies healed. All patients were able to ambulate and use their braces as soon as their osteotomies healed, and none had any further pressure sores or brace-related problems, although some had mild residual valgus or varus deformities. There were no significant leg-length discrepancy problems as a result of the surgery. This osteotomy is a treatment alternative for significant angular deformities of the ankle that require acute correction.

Musculoskeletal manifestations of Russell-Silver syndrome.

The musculoskeletal manifestations of Russell-Silver syndrome were studied in 25 patients. The most common manifestations were short stature (25 patients), limb-length discrepancy (23 patients), clinodactyly (19 patients) metacarpal bone and phalangeal abnormalities (13 patients), scoliosis (9 patients), foot syndactylism (5 patients), and developmental dysplasia of the hips (3 patients). Five patients underwent lower extremity limb-lengthening procedures for discrepancies greater than 3 cm and three patients had successful pelvic and/or femoral osteotomies for hip dysplasia. All 18 patients studied had retardation of bone age, which peaked at age 7 years.

Regional fasciocutaneous flap closure for clubfoot surgery.

Skin closure after a comprehensive posteromedial–lateral release of clubfeet through a Cincinnati incision may be difficult. This is especially true for cases of severe deformity either primary or recurrent. To deal with this, certain techniques have been developed. These consist of casting the foot in an undercorrected position with subsequent serial cast changes, leaving the incision completely or partially open for closure by secondary intention, using tissue expanders, and using different flap techniques. Five patients with nine clubfoot deformities who were treated with a comprehensive posteromedial–lateral release through a Cincinnati incision and underwent fasciocutaneous flap closure since June 1998 were included in this study. These flaps allowed correction and complete wound closure at the end of surgery without any skin tension. These flaps were constructed either in a rotational or V-Y advancement manner. None of the patients had any major complications. In summary, this new fasciocutaneous flap is a simple and reliable method in cases with primary skin-closure difficulties. It does not require special equipment or a plastic surgeon.

The reliability and diagnostic value of radiographic criteria in sagittal spine deformities: comparison of the vertebral wedge ratio to the segmental cobb angle.

Study Design. A prospective, radiographic cohort study. Objectives. This study assessed the radiographic reliability and diagnostic value of the vertebral wedge ratio (WR) to the more segmental Cobb angle (CA) regarding sagittal spine deformities. Summary of Background Data. The use of the CA has been used to assist in the radiographic diagnosis of various sagittal spine deformities. However, the reliability and diagnostic aptitude of the CA remains speculative and may not be as receptive to individual variations of vertebral integrity in sagittal spine deformities. Methods. Sixty patients (age range, 8–21 years) who were diagnosed with Scheuermann’s kyphosis (Group 1; n = 16), with postural roundback (Group 2; n = 23), or who were regarded normal (Group 3; n = 21) were radiographically evaluated to assess the reliability and diagnostic potential of the vertebral WR (apex of the curve and 2 adjacent vertebrae) and segmental CA. Radiographic assessment was conducted by 3 independent blinded observers on 3 separate occasions. Results. Very strong intraobserver (WR a = 0.85–0.99; CA a = 0.97–0.99) and interobserver (WR a = 0.79–0.89; CA a = 0.95) reliabilities were noted. A greater degree of WR reliability was noted in Group 1, whereas CA reliability remained consistent in all Groups. A statistically significant difference was found between all Groups in relation to vertebral WR and segmental CA (P < 0.05). Based on relative risk ratio analyses, an apex wedge ratio of ≤0.80 and/or a segmental Cobb angle of ≥20° is highly and significantly associated with Scheuermann’s kyphosis. Conclusion. The segmental CA exhibited a higher degree of reliability than the vertebral WR. The apex vertebral WR exhibited the greatest amount of wedging in the Scheuermann’s patients; whereas in the other groups it remained largely consistent with the adjacent vertebral WRs. An apex vertebral WR ≤0.80 and/or a segmental CA of ≥20° are highly associated with the clinical diagnosis of Scheuermann’s kyphosis. If the segmental CA cannot be ascertained, the apex vertebral WR is a relatively strong reliable alternative, primarily with regards to Scheuermann’s kyphosis. In addition, the type of deformity may potentially dictate the ideal measuring method.

A reappraisal of the Ortolani examination in children with developmental dysplasia of the hip.

The Ortolani maneuver is currently accepted as an accurate test to detect developmental dislocation of the hip. However, the clinical sign does not always correlate with the findings seen on ultrasound. The ultrasound-documented position of the femoral head was correlated with the result of the clinical Ortolani examination to better understand the value and validity of the Ortolani test. Two populations were compared: hips with a positive Ortolani sign and hips with a negative Ortolani sign but with an ultrasound-documented dislocated hip. In the Ortolani-positive group, there were 45 patients (53 affected hips), and in the Ortolani-negative group, there were 24 patients (25 dislocated hips). Position of the femoral head at rest, side of involvement, and sex showed no significant difference between the Ortolani-positive and -negative groups. Mean age of patients in the Ortolani-positive group was less (mean, 28 days) and was statistically different (P < 0.05) from those in the Ortolani-negative group (mean, 91 days). In conclusion, dislocated hips that show similar femoral head movement can produce an Ortolani-positive examination in a younger patient and an Ortolani-negative examination in an older patient. The classic clinical method described by Ortolani for detecting hip dislocation in which the thigh of the affected hip is abducted and the femoral head was thought to be reducing into the acetabulum can be erroneous. All Ortolani-positive hips were abnormal, as the sensation characteristic of a positive Ortolani examination may be felt without full reduction and, in some cases, with no reduction, as documented by ultrasound.

Dysplasia epiphysealis hemimelica of the knee: an unusual presentation with intra-articular loose bodies and literature review.

Dysplasia epiphysealis hemimelica (DEH) is a rare disease characterized by the formation of osteochondromas asymmetrically at the epiphysis of extremities, typically involving the ankle and the knee. It progresses during childhood and presents with limited range of motion, swelling, and angular deformities. A 9-year-old boy with a 7-year history of DEH and previous removal of ankle osteochondromas presented with acute knee pain, swelling, and limited range of motion. A clinical, radiographic, and literature review of this case was conducted to better describe this occurrence. On the basis of clinical and radiographic analyses, loose bodies were found to be originating from intra-articular osteochondromas. Because of the patient’s symptoms, an exploratory arthroscopy was performed to further assess the formations, and the loose bodies were removed. After the procedure, the patient’s function and symptoms improved. To the best of our knowledge, this is the first report of a case that identifies a complication of DEH to be loose bodies with a clear etiology and acute progression of symptoms. The possibility of loose bodies should be considered when examining a patient diagnosed with DEH with acute progression of symptoms. Level of evidence level IV, case report.

Classification of Legg-Calvé-Perthes disease.

Although the etiology of Perthes disease remains unknown 100 years after its first description, there are many articles that describe the disease course, final outcome, and results of treatment. A system of classification of the extent and severity of the disease is essential to understanding variability of Perthes, and along with the age of the patient when first affected, is useful in predicting long-term outcomes. Published reports of treatment strategies and their success depend on effective classification of the disease severity and radiographic result at final follow-up concerning head sphericity, congruency with the acetabulum, and arthritis. This article reviews published articles that contain classification systems and details presently used systems that are helpful in understanding and in treating Perthes.

Segmental Kinematic Analysis of Planovalgus Feet during Walking in Children with Cerebral Palsy

Pes planovalgus (flatfoot) is a common deformity among children with cerebral palsy. The Milwaukee Foot Model (MFM), a multi-segmental kinematic foot model, which uses radiography to align the underlying bony anatomy with reflective surface markers, was used to evaluate 20 pediatric participants (30feet) with planovalgus secondary to cerebral palsy prior to surgery. Three-dimensional kinematics of the tibia, hindfoot, forefoot, and hallux segments are reported and compared to an age-matched control set of typically-developing children. Most results were consistent with known characteristics of the deformity and showed decreased plantar flexion of the forefoot relative to hindfoot, increased forefoot abduction, and decreased ranges of motion during push-off in the planovalgus group. Interestingly, while forefoot characteristics were uniformly distributed in a common direction in the transverse plane, there was marked variability of forefoot and hindfoot coronal plane and hindfoot transverse plane positioning. The key finding of these data was the radiographic indexing of the MFM was able to show flat feet in cerebral palsy do not always demonstrate more hindfoot eversion than the typically-developing hindfoot. The coronal plane kinematics of the hindfoot show cases planovalgus feet with the hindfoot in inversion, eversion, and neutral. Along with other metrics, the MFM can be a valuable tool for monitoring kinematic deformity, facilitating clinical decision making, and providing a quantitative analysis of surgical effects on the planovalgus foot.

Evaluation of cast creep occurring during simulated clubfoot correction

The Ponseti method is a widely accepted and highly successful conservative treatment of pediatric clubfoot involving weekly manipulations and cast applications. Qualitative assessments have indicated the potential success of the technique with cast materials other than standard plaster of Paris. However, guidelines for clubfoot correction based on the mechanical response of these materials have yet to be investigated. The current study sought to characterize and compare the ability of three standard cast materials to maintain the Ponseti-corrected foot position by evaluating cast creep response. A dynamic cast testing device, built to model clubfoot correction, was wrapped in plaster of Paris, semi-rigid fiberglass, and rigid fiberglass. Three-dimensional motion responses to two joint stiffnesses were recorded. Rotational creep displacement and linearity of the limb-cast composite were analyzed. Minimal change in position over time was found for all materials. Among cast materials, the rotational creep displacement was significantly different (p < 0.0001). The most creep displacement occurred in the plaster of Paris (2.0°), then the semi-rigid fiberglass (1.0°), and then the rigid fiberglass (0.4°). Torque magnitude did not affect creep displacement response. Analysis of normalized rotation showed quasi-linear viscoelastic behavior. This study provided a mechanical evaluation of cast material performance as used for clubfoot correction. Creep displacement dependence on cast material and insensitivity to torque were discovered. This information may provide a quantitative and mechanical basis for future innovations for clubfoot care.