The early surgical management of the anterior cruciate ligament (ACL) tears in children remains controversial. The argument for nonoperative treatment is driven by concerns about the risk of growth arrest caused by a transphyseal procedure. On the other hand, early surgical reconstruction is favoured because of poor compliance with conservative treatment and increased risk of secondary damage due to instability. This paper reports a series of 39 very young children who had an ACL reconstruction using a transphyseal procedure with a hamstring graft. Patients were followed to skeletal maturity or for a minimum of three years. Only those patients with either a chronological age less than 14 years or with a Tanner stage of 1 and 2 of puberty were included in the study. Thirty children were Tanner 1 or 2 and nine were Tanner 3-4 but were younger than 14. The mean age at operation was 12.2 years (Range 9.5-14.2, Median 12.4). The mean follow up was 60.7 months (range 36-129, median: 51) months. Thirty four patients had attained skeletal maturity at the last follow up. The mean Lysholm score improved from 72.4 pre-operatively to 95.86 postoperatively (p<0.0001). The mean Tegner activity scale was 4.23 after injury and it improved to 7.52 after operation (p<0.0001)) which was a reasonable comparison to the pre- injury score of 8.0. One patient had a mild valgus deformity with no functional disturbance. No other growth related abnormalities including limb length discrepancy were noted. There has been one re-rupture but all others had good or excellent outcome. This is one of the largest series reporting the long term results of ACL reconstruction in very young children. Most other studies include children up to the age of 16. Based on our results we can conclude that transphyseal ACL reconstruction modified for very young patients is a safe procedure.

Anterior Cruciate Ligament (ACL) injuries are increasing in prevalence amongst younger patients. Concerns exist as to the possibility of growth impairment due to transphyseal reconstruction techniques. However, due to the poor results of conservative treatment, reconstructive procedures have been employed to improve the outcome of these injuries. A growing body of evidence supports the safety of transphyseal reconstruction in older children. This study evaluates the safety and results of these techniques in younger patients.

Between 1999 and 2006, 17 patients of Tanner stage 1 or 2 underwent unilateral transphyseal ACL ligament reconstruction, using ipsilateral, four-strand hamstring grafts. Patients were aged between 9.5–14.0 years (mean, 12.1 years), and were followed up for a minimum of two years and a mean of 44 months (range 25–100 months). Graft survival, functional outcome and complications were recorded.

There was one graft failure after re-injury (6%). Of the remaining patients, all reported a good or excellent result and a normal IKDC score. Mean postoperative Lysholm score was 97.5 ± 2.6, mean Tegner activity scale was 8.1 ± 0.8 pre-injury, 4.2 ± 1.0 post-injury, and 7.9 ± 1.4 post-operatively. One patient had mild valgus deformity which caused no functional disturbance; otherwise examination was normal in all patients. There were no leg length discrepancies and KT1000 arthrometer measurements showed no significant difference between normal and operated legs.

Based on the results of this series, transphyseal reconstruction appears to be a safe option for the treatment of anterior cruciate ligament injuries in the young child.

Introduction: The place of Anterior Cruciate Ligament (ACL) reconstruction in skeletally immature patients is now well established, but in reported series the numbers are few and the follow-ups short. Also, the majority of children are aged between 14 and 16 years and the results are as good as in adults. This report includes a number of ACL reconstructions in children aged less than 12 years.

Materials & Methods: A group of twenty patients with an average age of 13.5 years were reviewed. 7 children were aged 12 or under at the time of operation. There were 17 boys and 3 girls. The follow-up ranged from 12 to 72 months (mean 37.8 months).

Reconstruction was done by a standard 4-strand hamstring technique using an endobutton proximally and a spiked washer and screw distally in the tibia.

The IKDC, Lysholm and Tegner scores were used to assess the knees pre and post-operatively. Stability was measured using the KT-1000 arthrometer.

Results: Common modes of injury were football, rugby, skiing and squash. The left side was involved in 12 patients, and the right side in 8 patients. Interval between injury and surgery ranged from 3 to 22 months with an average of 8 months. Meniscal repair was carried out in 7 out of 12 patients. The average Tegner score before injury was 7.7, before operation was 4 and at the last follow-up was 7.6. The average pre-operative Lysholm score was 54.6 compared to the post-operative score of 93. There was no incidence of angular deformity or a limb length discrepancy. There has been 1 re-rupture in a child aged 11 years 11 months at operation but no meniscal injuries. The outcome in the 6 other children aged 12 or less at the time of operation has been as good as the older children.

Conclusion: Reconstruction of the anterior cruciate ligament using a trans-physeal technique gives good results in pre-pubertal children and in adolescents.

Introduction and Aims: A number of x-ray appearances have been identified as indicative of discoid menisci. None are reliable or statistically significant. The purpose of this paper is to identify a reliable radiographic sign, diagnostic of the discoid lateral meniscus.

Method: The anteroposterior view radiographs of 14 knees in 13 patients with arthroscopically proven discoid meniscus were studied. Ages ranged from 11 to 26, with a mean age of 18.4 ± 4.84 years, right to left ratio 9/5, male to female ratio 8/5. Fifteen normal knees in 14 people were used as a control group, age from 11 to 30, mean age 16.20 ± 6.41, right to left ratio 8/7, male to female ratio 6/8. The parameters measured were: Lateral Joint Space (LJS); Height of the Lateral Tibial Spine (LTS); change of the Medial Tibial Spine (MTS); Height of Fibular Head (HFH); changes of the Edge of the Lateral Tibial Plateau (ELTP), cupping of the lateral tibial plateau, and squaring of the lateral femoral condyle.

Results: There was no significant difference between the two groups in LJS, height of LTS, cupping of the lateral tibial plateau, and squaring off of the lateral femoral condyle. There was a difference between the two groups in HFH which was statistically significant at an absolute value of p = 0.033, but not significant in normalised value p = 0.056. The medial tibial spine was sharpened in three patients.

There were 12 positive changes on ELTP out of 14 patients (85.71%) in the discoid group, while only one positive of 15 (6.67%) in the normal group, and the difference between the two groups was statistically significant at p< 0.01. The diagnosis parameters were Sensitivity (Se) = 85.71%, Specificity (Sp) = 93.33%, Positive predictive value (PV+) = 92.31%, Negative predictive value (PV−) = 87.50%, Correct rate (ñ) = 89.66%. The typical change on the edge of lateral tibial plateau is sharpening and/or formation of a spur.

Conclusion: Sharpening with spur formation on the edge of lateral tibial plateau is a diagnostic radiological sign of a discoid lateral meniscus.

To report on previously unreported behaviour of a rare condition and to recommend suitable management.

Fibrous periosteal tethers are a rare but recognised cause of angular growth deformity, usually of the femur. The periosteum is thought to act as a brake to growth, and unilateral tethering has been shown to cause angular growth deformity experimentally, although the aetiology of periosteal tethers is obscure.

Nine cases have previously been reported, all of which were progressive and none of which were present at birth. All required release of the tether and all but one required osteotomy to correct deformity. It has been thought that periosteal tethering might remodel if allowed to and that, if periosteal release were carried out, the deformity might correct without the need for osteotomy. However, this has never been reported.

We report two cases of periosteal tethering, well demonstrated on MRI which were remarkable in that they were present at birth. Neither child had any history of an intrauterine event or any other pathology. One involved the tibia, which remodelled without intervention. This is the first ever report of a tibial periosteal tether, and the tether could clearly be seen to be reabsorbed as the tibia remodelled. The other involved the ulna, which corrected after release of the tether alone.

Periosteal tethering can affect children of any age and has the potential to remodel without intervention. We therefore recommend a period of observation first if the deformity is not progressive. If the deformity is progressive, then early release of the tether is recommended. If this path is followed then it is likely that osteotomy would not be required. M.R.I. demonstrates the tether well and is the investigation of choice for this condition.

The vertical configuration open MRI Scanner (Signa SPIO, General Electric) has been used to assess the place of interventional MR in the management of developmental dysplasia of the hip over the last four years. Twenty-six patients have been studied. In static mode, coronal and axial T1 – weighted spin echo images are initially obtained to assess the anatomy of the hip, followed by dynamic imaging in near-real time.

In all cases, dynamic imaging was very good for assessing and demonstrating stability. The best position for containment can be assessed and a hip spica applied. Scanning in two planes gives more information and allows more accurate positioning than an arthrogram. Confirmation of location of the hip after application of the spica can be easily demonstrated. Adductor tenotomies have been performed within the imaging volume, and in two cases, this enabled planning of femoral osteotomies. All patients have had a satisfactory outcome, but five have required open reduction and a Salter innominate osteotomy.

In ten cases, the opportunity has also arisen to alternative perform an arthrogram, either because of the complexity of the cases, or at a later date as an alternative to a repeat MRI, or because of difficulty with access to the machine.

The place of interventional MRI in DDH is not yet defined. As machines get better and the definition improves, the amount of information about the nature of dislocation, the relative size of the acetabulum to the femoral head, the state of the limbus, the best position for containment and stability, and the potential for growth of the acetabulum, particularly posteriorly will be increased.

It follows that the potential for more accurate definition of each hip and the outcome is better – and safer – than by arthrography, which remains the ‘gold standard’ but involves radiation and is only one-dimensional.