The aim of this study was to clarify the factors that predict the development of avascular necrosis (AVN) of the femoral head in children with a fracture of the femoral neck. We retrospectively reviewed 239 children with a mean age of 10.0 years (Aims
Patients and Methods
Assessment of skeletal age is important in children’s
orthopaedics. We compared two simplified methods used in the assessment
of skeletal age. Both methods have been described previously with
one based on the appearance of the epiphysis at the olecranon and
the other on the digital epiphyses. We also investigated the influence
of assessor experience on applying these two methods. Our investigation was based on the anteroposterior left hand
and lateral elbow radiographs of 44 boys (mean: 14.4; 12.4 to 16.1
) and 78 girls (mean: 13.0; 11.1 to14.9) obtained during the pubertal
growth spurt. A total of nine observers examined the radiographs
with the observers assigned to three groups based on their experience (experienced,
intermediate and novice). These raters were required to determined
skeletal ages twice at six-week intervals. The correlation between
the two methods was determined per assessment and per observer groups. Interclass
correlation coefficients (ICC) evaluated the reproducibility of
the two methods. The overall correlation between the two methods was r = 0.83
for boys and r = 0.84 for girls. The correlation was equal between
first and second assessment, and between the observer groups (r ≥ 0.82).
There was an equally strong ICC for the assessment effect (ICC ≤ 0.4%)
and observer effect (ICC ≤ 3%) for each method. There was no significant
(p <
0.05) difference between the levels of experience. The two methods are equally reliable in assessing skeletal maturity.
The olecranon method offers detailed information during the pubertal
growth spurt, while the digital method is as accurate but less detailed,
making it more useful after the pubertal growth spurt once the olecranon
has ossified. Cite this article:
Children presenting with Perthes’ disease before their sixth birthday are considered to have a good prognosis. We describe 166 hips in children in this age group. The mean age at onset of the disease was 44 months (22 to 72). Mild forms (Catterall I and II) were treated conservatively and severe forms (Catterall III and IV) either conservatively or operatively. The aim of the former treatment was to restrict weight-bearing. Operative treatment consisted of innominate osteotomy and was indicated by a Conway type-B appearance on the bone scan. All the patients were followed to skeletal maturity with a mean follow-up of 11 years (8 to 15). The end results were evaluated radiologically using the classifications of Stulberg and Mose. A total of 50 hips were Catterall grade-I or grade-II, 65 Catterall grade-III and 51 Catterall grade-IV. All hips with mild disease had a good result at skeletal maturity. Of the hips with severe disease 78 (67.3%) had good (Stulberg I and II), 26 (22.4%) fair (Stulberg III) and 12 (10.3%) poor results (Stulberg IV and V). Of the Catterall grade-III hips 38 were treated conservatively of which 31 (81.6%) had a good result, six (15.8%) a fair and one (2.6%) a poor result. Operative treatment was carried out on 27 Catterall grade-III hips, of which 21 (77.8%) had a good, four (14.8%) a fair and two (7.4%) a poor result. By comparison conservative treatment of 19 Catterall grade-IV hips led to ten (52.7%) good, seven (36.8%) fair and two (10.5%) poor results. Operative treatment was carried out on 32 Catterall grade-IV hips, of which 16 (50.0%) had a good, nine (28.1%) a fair and seven (21.9%) a poor result. We confirm that the prognosis in Perthes’ disease is generally good when the age at onset is less than six years. In severe disease there is no significant difference in outcome after conservative or operative treatment (p >
0.05). Catterall grade-III hips had a better outcome according to the Stulberg and Mose criteria than Catterall grade-IV hips, regardless of the method of treatment.
Our aim was to review the efficacy of the wound vacuum-assisted closure (VAC) system in the treatment of deep infection after extensive instrumentation and fusion for spinal deformity in children and adolescents. A total of 14 patients with early deep spinal infection were treated using this technique. Of these, 12 had neuromuscular or syndromic problems. Clinical and laboratory data were reviewed. The mean follow-up was 44 months (24 to 72). All wounds healed. Two patients required plastic surgery to speed up the process. In no patient was the hardware removed and there was no loss of correction or recurrent infection. We believe that the wound VAC system is a useful tool in the armamentarium of the spinal surgeon dealing with patients susceptible to wound infections, especially those with neuromuscular diseases. It allows for the retention of the instrumentation and the maintenance of spinal correction. It is reliable and easy to use.