Glenn E. Lipton

Wound infection after spinal fusion in children with cerebral palsy.

One hundred and seventy-two children with cerebral palsy were operated on for neuromuscular scoliosis by spinal fusion with unit rod instrumentation between January 1988 and June 1996. There were 15 (8.7%) postoperative wound infections (seven deep, eight superficial) in 15 patients (five males, 10 females) who had a mean age of 13.9 years. The mean follow-up after diagnosis of infection was 3.3 years (range, 1-7.2). Twelve of the 15 infected cases, including all seven deep infections, occurred in the distal portion of the incision. In 14 patients, the wound infections were diagnosed within the first 2 months of the original spinal fusion. All the superficial wound infections were treated successfully by local wound care and intravenous antibiotics. The removal of hardware was necessary in the one late deep wound infection that occurred 2 years after the spinal fusion. The remaining six deep infections were treated by irrigation and debridement with the wound left open, allowing it to heal by secondary intention. One patients wound was closed over suction-irrigation drains; however, due to a recurrent abscess, the wound was reopened and allowed to granulate. All the wound infections occurred in severely neurologically involved spastic quadriplegics who were nonambulatory and severely mentally retarded and had seizure disorders.

Soft-tissue release for spastic hip subluxation in cerebral palsy.

Children with spastic hip subluxation secondary to cerebral palsy were treated with a standard protocol that focused on early detection of the subluxation using physical examination and anteroposterior pelvis radiographs. Using limited hip abduction of < or =30 degrees and subluxation of > or =25% migration percentage as indications, patients had open adductor and iliopsoas lengthenings with immediate postoperative mobilization and no abduction bracing. The protocol was applied to 74 children with a mean age of 4.5 years and had 147 hips surgically addressed. Of these hips initially, 20% were normal (migration percentage <25%), 52% were mildly subluxated (migration percentage 25-39%), 22% were moderately subluxated (migration percentage 40-59%), and 6% were severely subluxated (migration percentage > or =60%). At a final postoperative follow-up of 39 months, 54% of these hips were classified as good (migration percentage <25%), 34% were fair (migration percentage 25-39%), and 12% were poor (migration percentage > or =40%). Of this patient population, 69% were nonambulators and their outcomes were not statistically different from children who could walk. No child developed an abduction contracture or wide-based gait that required treatment. With early detection and applying this treatment algorithm, 80% of children with spastic hip disease should have good or fair outcomes. Longer follow-up will be required to determine how many children will need bony reconstruction to maintain stable and located hips at the conclusion of growth.

Factors predicting postoperative complications following spinal fusions in children with cerebral palsy

A retrospective review of 107 patients with cerebral palsy who had undergone a posterior spinal fusion with unit rod instrumentation by the same two surgeons was done to determine what factors cause complications that lead to delayed recovery time and a longer than average hospital stay. The operative risk score was developed with scores for the childs ability to walk and talk, oral feeding ability, cognitive ability, and medical problems within the year prior to surgery. Operative risk score is primarily a measure of degree of neurologic involvement. The postoperative complication score (POCS) is a combined measure of all postoperative complications including factors for prolonged intubation, intensive care unit stay, hospital stay, and delayed feeding. The mean age at surgery was 14.3 years. The mean weight was 29.5 kg, with 89 of 107 patients below the fifth percentile for weight compared with age. The mean degree of spinal deformity was 75.2 degrees (range 43-120 degrees ). The mean weight for age was -1.96 SD below the normal. The mean operative time was 4.3 h, with estimated blood loss of 1.2 blood volumes. The mean length of hospitalization was 23 days 2 h, with 5 days 2 h in the intensive care unit. The operative risk score and weight for chronological age below the fifth percentile showed statistical significance (p = 0.05) in regard to increased POCS. The weight for height-age and deficient total lymphocyte count, both factors that measure nutritional status, showed no statistical significance (p > 0.05) compared with POCS. Curves with deformity of >70 degrees had statistically significant high POCS (p = 0.03). Complications for patients having a posterior and an anterior surgery versus those who had a posterior fusion alone were not statistically different (p > 0.05). The factors that led to a greater rate of complications were the severity of neurologic involvement, severity of recent history of significant medical problems, and severity of scoliosis.

Surgical correction of spinal deformity using a unit rod in children with cerebral palsy

Thirty-one patients with cerebral palsy and neuromuscular scoliosis underwent instrumentation with a unit rod fixed with sublaminar wires and posterior spine fusion. The mean curve measured 79 degrees preoperatively, 19 degrees immediately postoperatively, and 18 degrees at final follow-up of 2.8 years, excluding two patients who died and four who were lost to follow-up after < 12 months. The preoperative pelvic obliquity was 25 degrees, which was initially corrected to 3 degrees and remained unchanged at 4 degrees at final follow-up. Twenty-four patients underwent a one-stage posterior fusion, and seven patients underwent both anterior and posterior fusions. Complications included one acute deep-wound infection and one late deep-wound infection seeded from the urinary tract. No pseud-arthroses or hardware failures have occurred to date. Seven children with open triadiate cartilages had a posterior spinal fusion only and were followed up to skeletal maturity with a 3 degrees loss of correction of the scoliosis and a 0 degree loss of correction of pelvic obliquity. Questionnaires filled out by primary caretakers demonstrated that the objective of improving the childs ability to sit more comfortably was accomplished for the majority (65%) of patients. Spinal fusion was recommended for other children by 86% of interviewed caretakers.

Reconstruction of the dysplastic spastic hip with peri-ilial pelvic and femoral osteotomy followed by immediate mobilization.

All children with cerebral palsy who had a pelvic osteotomy performed by the senior author (F.M.) from 1989 through 1991 were reviewed. Indications for operative reconstruction were failed muscle lengthening in a child younger than 8 years or a painful hip. The operative procedure included adductor muscle lengthening, varus shortening femoral osteotomy, and peri-ilial pelvic osteotomy. Patients were immediately mobilized after surgery by physical therapy. Fifty-one children had reconstruction of 49 subluxated and 21 dislocated hips. Femoral and pelvic osteotomies were performed on 59 hips, and 11 hips had only a femoral osteotomy. Forty-nine hips had adductor muscle lengthening, and 27 hips had femoral osteotomy to provide for relief of contractures. At mean follow-up of 34 months, two hips in two patients had redislocated, requiring repeated surgery. Two hips remained subluxated and asymptomatic. Twenty-three hips in 18 patients were painful before surgery. One hip continued with severe pain after surgery, requiring further surgery. Three hips continued with mild pain not requiring surgery, and 14 (82%) hips had complete pain relief. Of 37 caretakers interviewed, 80% felt the procedure was beneficial and would recommend it to others. Eight percent were uncertain, and 6% (two caretakers) thought it was not helpful.

A method of Dynamic foot-pressure measurement for the evaluation of pediatric orthopaedic foot deformities

Dynamic foot-pressure measurements are time-sensitive measurements of the pressures under the foot while walking. Historically, many methods are used to measure these pressures; however, current medical literature does not contain a method suitable for the evaluation of pediatric orthopaedic foot deformities. A method for the measurement of dynamic foot pressure for the treatment of pediatric orthopaedic foot deformities was defined in this study. We established the dynamic foot-pressure pattern of a normal population using this method. Dynamic foot-pressure measurements were collected from 54 normal subjects (108 feet). These measurements were divided into the following five segments: the heel, the lateral midfoot, the medial midfoot, the lateral forefoot, and the medial forefoot. Standard tables and graphs were created describing the normal progression of pressure across each segment of the foot while walking. These standard tables and graphs can be used as a reference with which clinical measurements can be compared. This method may be useful as a diagnostic measure of foot deformities and may increase the clinicians ability to measure changes in foot deformity resulting from treatment intervention.

Computer modeling of the pathomechanics of Spastic hip dislocation in children

Spastic muscles about the hip cause subluxation, dislocation, and lead to acetabular dysplasia. Spastic hip disease occurs when the muscles about the hip exert forces that are too high or in the wrong direction or both. To determine the role of the hip forces in the progression of spastic hip disease and the effect of both muscle-lengthening and bony reconstructive surgeries, a computerized mathematical model of a spastic hip joint was created. The magnitude and direction of the forces of spastic hips undergoing surgery were analyzed preoperatively and postoperatively to determine which procedure is best suited for the treatment of spastic hip disease. The muscle-lengthening procedures included (a) the adductor longus, (b) the psoas, iliacus, gracilis, adductor brevis, and adductor longus, and (3) the psoas, iliacus, gracilis, adductor brevis, adductor longus, semimembranosus, and semitendinosus. The bony reconstructive and muscle-lengthening procedures included (a) lengthening the psoas, iliacus, gracilis, adductor brevis, adductor longus, semimembranosus, and semitendinosus combined with changing femoral neck anteversion from 45 to 10 degrees , (b) lengthening of the psoas, iliacus, gracilis, adductor brevis, adductor longus, semimembranosus, and semitendinosus combined with changing neck-shaft angle from 165 to 135 degrees , and (c) lengthening of the psoas, iliacus, gracilis, adductor brevis, adductor longus, semimembranosus, and semitendinosus combined with changing femoral neck anteversion from 45 to 10 degrees and neck-shaft angle from 165 to 135 degrees . Results show that a child with spastic hip disease has a hip-force magnitude 3 times that of the a child with a normal hip in the normal physiologic position. Based on this mathematical model the best to normalize the magnitude of the hip-joint reaction force, the muscles to be lengthened should include the psoas, iliacus, gracilis, adductor brevis, and the adductor longus. To normalize the direction of the hip force, the extremity should be positioned in the normal physiologic position. The impact of decreasing the femoral anteversion or femoral neck-shaft angle or both had little additional effect on the direction or magnitude of hip forces.

Long-term follow-up of surgery for equinovarus foot deformity in children with cerebral palsy.

The factors associated with failed operative intervention in the treatment of equinovarus foot deformity in children with cerebral palsy (CP) were evaluated after long-term follow-up. One hundred eight children with CP who had surgery on the posterior tibialis tendon (split tendon transfer, intramuscular lengthening, or Z-lengthening) on 140 feet were reviewed at a mean age of 16.8 years with 7.3 years of follow-up. The surgery was considered a failure when a 10° or greater varus or valgus hindfoot deformity was present or if an additional operative intervention was required or planned. Involvement of CP, age at operation, and preoperative status of ambulation were significant factors in the outcome of the surgery. Hemiplegic patients demonstrated the best results, regardless of age or surgical procedure. Seventy-five percent of diplegic and quadriplegic patients who were younger than 8 years or who were not capable of community ambulation failed operative intervention, and surgery on the posterior tibialis tendon is not recommended in this group of patients.

Bilateral Legg-Calvé-Perthes disease: presentation and outcome.

Most patients who develop Legg-Calve-Perthes disease have unilateral involvement. For those children who do develop bilateral involvement, the disease and its outcome have not been characterized. This study reviewed the records and radiographs of 83 patients (20 girls and 63 boys) with bilateral Legg-Calve-Perthes disease. The patients were then divided into 3 groups based on the Waldenstrom stage at the time of the first radiograph. In Group I (26 patients), both hips were in the same stage. In Group II (45 patients), the hips were in a different stage. In Group III (12 patients), the first hip was well into the remodeling stage by the time the second hip became affected. Twenty of the 83 patients (24%) were girls. There were significantly more lateral pillar group A hips on the second side than the first side in Groups II and III, and only 10 of the 45 patients (22%) in these groups had more severe disease in the second hip. When compared with data from a group of hips with unilateral involvement, there were significantly more hips with a Catterall group I rating in the patients with bilateral involvement. In general, the Stulberg et al. class assigned appeared to be independent of bilaterality. It appears that the development of bilateral disease is an independent event. The data in the present study do not support that onset of disease in one hip leads to disease or causes a more severe disease in the second hip.

Legg-Calvé-Perthes disease in girls. A comparison of the results with those seen in boys.

We reviewed the records and roentgenograms of all patients with Legg-Calvé-Perthes disease who had been seen at our institution between 1940 and 1996. One hundred and five girls (122 hips) and 470 boys (531 hips) were identified. Thus, 18 per cent of the 575 patients in the present series were girls. Seventeen (16 per cent) of the girls and sixty-one (13 per cent) of the boys had bilateral involvement. Although more girls than boys had severe involvement of the femoral head and the lateral pillar, we could not detect a significant difference between the two groups with respect to the distribution of the involvement of the hips according to the system of Catterall or the lateral pillar classification (p > 0.05, beta = 0.99). Serial roentgenograms that showed all four stages of the disease according to the system of Waldenström were available for fifty-two hips in girls and 184 hips in boys. A review of these roentgenograms revealed that the average ages of the girls at the stages of necrosis, fragmentation, reossification, and remodeling were 6.8, 7.3, 7.9, and 9.5 years, respectively, whereas the average ages of the boys were 6.8, 7.3, 7.9, and 9.9 years, respectively. Girls, however, had closure of the affected proximal femoral physis at an average age of 12.9 years, whereas boys had closure at an average age of 15.8 years. Therefore, girls had a shorter potential period for remodeling of the femoral head (average, 3.4 years) compared with boys (average, 5.9 years). Sixty-four girls (seventy-eight hips) and 363 boys (416 hips) had reached skeletal maturity by the time of the latest follow-up and were evaluated according to the system of Stulberg et al.; we could not detect a significant difference between boys and girls with respect to the distribution of the hips according to this system (p > 0.05, beta = 0.99). Although the numbers were too small for statistical analysis, our findings suggest that boys and girls who have the same Catterall or lateral pillar classification at the time of the initial evaluation can be expected to have similar outcomes according to the classification system of Stulberg et al.