Septicaemia resulting from meningococcal infection is a devastating illness affecting children. Those who survive can develop late orthopaedic sequelae from growth plate arrests, with resultant complex deformities. Our aim in this study was to review the case histories of a series of patients with late orthopaedic sequelae, all treated by the senior author (CFB). We also describe a treatment strategy to address the multiple deformities that may occur in these patients. Between 1997 and 2009, ten patients (seven girls and three boys) were treated for late orthopaedic sequelae following meningococcal septicaemia. All had involvement of the lower limbs, and one also had involvement of the upper limbs. Each patient had a median of three operations (one to nine). Methods of treatment included a combination of angular deformity correction, limb lengthening and epiphysiodesis. All patients were skeletally mature at the final follow-up. One patient with bilateral below-knee amputations had satisfactory correction of her right amputation stump deformity, and has complete ablation of both her proximal tibial growth plates. In eight patients length discrepancy in the lower limb was corrected to within 1 cm, with normalisation of the mechanical axis of the lower limb. Meningococcal septicaemia can lead to late orthopaedic sequelae due to growth plate arrests. Central growth plate arrests lead to limb-length discrepancy and the need for lengthening procedures, and peripheral growth plate arrests lead to angular deformities requiring corrective osteotomies and ablation of the damaged physis. In addition, limb amputations may be necessary and there may be altered growth of the stump requiring further surgery. Long-term follow-up of these patients is essential to recognise and treat any recurrence of deformity

Meningococcal septicaemia from meningococcal infection is a devastating illness affecting children. Advances in medical management have reduced the mortality rate to approximately 15 to 20% and children who survive can develop late orthopaedic sequelae from growth plate arrests with resultant complex deformities. Our aim in this study was to review and analyze the case histories of a series of patients with late orthopaedic sequelae, all treated by the senior author. We describe a treatment strategy to address the multiple deformities that may occur in these patients. Methods & Results Between 1990 and 2009, 12 patients were treated for late orthopaedic sequelae after meningococcal septicaemia by the senior author. There were 8 girls and 4 boys. All patients had lower limb involvement. 1 patient had involvement of the upper limb requiring treatment. Each patient had had a mean of 3 operations (range from 2 to 9). Methods of treatment included a combination of angular deformity correction, limb lengthening and epiphysiodesis. At final follow-up 9 of the 12 patients were skeletally mature. In 9 patients limb length discrepancy in the lower limb was corrected to within 1 cm, with normalization of the lower limb mechanical axis. Conclusion. Meningococcal septicaemia can lead to late orthopaedic sequelae due to growth plate arrests. Central growth plate arrests leads to limb length discrepancy, and partial growth plate arrests leads to an angular deformity. In addition, limb amputations may occur and there may be altered growth of the stump requiring further surgery. In cases of central growth arrest with limb shortening alone, limb equalisation is performed with limb lengthening procedures. In cases of partial growth arrests, angular correction is performed together with ablation of the affected growth plate. We recommend ablation of the affected growth plates at the initial surgery to prevent recurrence of angular deformity. Angular correction can be performed acutely, with a dome or transphyseal osteotomy; or gradually, with application of Ilizarov or Taylor Spatial frames. Severe deformities of the tibial plateau are treated by plateau elevation with bone graft augmentation. With the appropriate strategy deformities can be corrected and further lengthening procedures can be undertaken if necessary. Long-term follow-up of these patients is essential to recognise and treat any recurrence of deformity

Compartment pressures have not previously been studied in healthy children. We compared the pressures in the four lower leg compartments of healthy children with those of healthy adults.

We included patients aged between two months and six years, and measured the pressures in 80 compartments of 20 healthy children using simple needle manometry. Measurements were repeated in a control group of 20 healthy adults.

The mean compartment pressure in the lower leg in children was significantly higher than in adults (p < 0.001). On average, pressures in the four compartments varied between 13.3 mmHg and 16.6 mmHg in the children and between 5.2 mmHg and 9.7 mmHg in the adults. The latter is in accordance with those recorded in the literature. The mean arterial pressure did not relate to age or to pressure in the compartment.

The findings of this study that the normal compartment pressure of the lower leg in healthy children is significantly higher than that in adults may be of considerable significance in clinical decision-making in children of this age.