Purpose

The purpose of this study was to analyse inter- and intra-rater reliability of the Head-Shaft angle (HSA) on radiographs from a surveillance programme for children with cerebral palsy (CP).

Hip displacement, defined in this study as a migration percentage (MP) of more than 40%, is a common, debilitating complication of cerebral palsy (CP). In this prospective study we analysed the risk of developing hip displacement within five years of the first pelvic radiograph.

All children with CP in southern and western Sweden are invited to register in the hip surveillance programme CPUP. Inclusion criteria for the two groups in this study were children from the CPUP database born between 1994 and 2009 with Gross Motor Function Classification System (GMFCS) III to V. Group 1 included children who developed hip displacement, group 2 included children who did not develop hip displacement over a minimum follow-up of five years. A total of 145 children were included with a mean age at their initial pelvic radiograph of 3.5 years (0.6 to 9.7).

The odds ratio for hip displacement was calculated for GMFCS-level, age and initial MP and head-shaft angle. A risk score was constructed with these variables using multiple logistic regression analysis. The predictive ability of the risk score was evaluated using the area under the receiver operating characteristics curve (AUC).

All variables had a significant effect on the risk of a MP > 40%. The discriminatory accuracy of the CPUP hip score is high (AUC = 0.87), indicating a high ability to differentiate between high- and low-risk individuals for hip displacement. The CPUP hip score may be useful in deciding on further follow-up and treatment in children with CP.

Cite this article: Bone Joint J 2015;97-B:1441–4.

Introduction and Aims: In the management of newborn’s hips, ultrasonography (US) has proven to be a useful tool. However, the progression of measurements at different ages in normal hips has not been thoroughly investigated. This prospective study assessed the longitudinal development of clinically stable hips from birth to the age of 12 weeks.

Method: Forty newborn children (80 hips) with clinically stable hips were assessed by ultrasound at three points in time – namely within the first few days of life, at six weeks of age and finally at 12 weeks of age. Femoral Head Coverage (FHC) as well as Graf’s alpha and beta angles were measured.

Results: A significant change in all values occurred between the three points in time (p< 0.001). The mean FHC progressed from 58% at birth, to 65% and 69% at six weeks and at 12 weeks respectively. The mean alpha angle improved from 70 degrees to 77 degrees and then 80 degrees at birth, six weeks and at 12 weeks, respectively. The mean beta angle progressed from 52 degrees to 46 degrees and then 43 degrees at birth, at six weeks and at 12 weeks, respectively.

Conclusion: In clinically stable hips, the FHC, alpha and beta angles change significantly over time. It is important, therefore, to consider the baby’s age when interpreting US images, especially when making management decisions regarding splintage. This has important implications if ultrasound is used as a screening tool.