Purpose

To determine whether radiographically demonstrated femoral neck irregularities (pistolgrip-deformity, focal prominences or lytic defects) are associated with positive clinical impingement tests.

The use of MRI scanning has been described after open reduction of the hip in DDH to check hip position but has not previously been reported after open reduction with femoral osteotomy and the use of metalwork. We performed a prospective study utilising MRI to document the adequacy of reduction.

An MRI scan was performed on the second postoperative day in order to confirm the satisfactory reduction of the hip following surgery. Previously a CT scan was performed.

10 consecutive cases were scanned and all gave diagnostic information of satisfactory reduction. Sedation was not required. The mean scanning time was 3 minute 45 seconds and the total time in the MRI suite ranged from 7 to 10 minutes.

Satisfactory images, the lack of need of sedation, comparable time and cost to CT scanning and most importantly the lack of exposure of the child to ionising radiation make MRI a most appealing method of imaging. We therefore recommend it as the investigation of choice in this patient group.

Demographic data reviewed included gender, MP at time of primary surgery, GMFCS level, age at time of surgery, type of adductor release procedure performed, and experience of surgeon.

Outcome variables assessed were type of subsequent failure, time of failure after primary procedure, and length of follow-up.

Three hundred and thirty children underwent hip adductor surgery. The number of children per GMFCS Level was 33 Level II, 55 level III, 103 level IV, and 139 level V. The average age at time of primary surgery was 4.19 years, mean MP at time of primary surgery 43.16%, and mean length of post-operative follow-up was 7.10 years.

Eighty two children had adductor longus and gracilis lengthening alone, 97 also had an iliopsoas release, 97 had psoas tenotomy and phenolisation of the obturator nerve, and 54 had a psoas tenotomy and neurectomy of the anterior branch of the obturator nerve (in addition to longus & gracilis lengthening).

At time of audit 106 children did not require further surgery (‘surgery success’ of 32%). Thirty one were in children of GMFCS level II (94%), 27 level III (49%), 28 level IV (27%), and 20 level V (14%).

A Cox proportional hazards survivorship analysis was constructed to chart the time course of progression to further surgery over time to reveal statistically significant ‘surgery success’ rates according to GMFCS. Differences in the success rates according to GMFCS become more apparent beyond 3 years post-surgery.

The most important determinant for predicting the success of hip adductor surgery in preventing hip displacement is GMFCS at the time of primary surgery. Current treatment strategies need to be re-evaluated with the context of undertaking long-term post-operative follow up, particularly for children GMFCS levels VI and V.

Aim: To study the adequacy of reduction of DDH postoperatively using MRI.

Method: Ten consecutive children with DDH who underwent open reduction and femoral osteotomy using Coventry stainless steel implants were scanned postoperatively.

Results: MRI gave reliable diagnostic information in all cases. The position of the femoral head in the acetabulum was clearly seen, despite artefact due to the metal. The mean scanning time was 3 minutes 45 seconds (range: 2 minutes 20 seconds – 5 minutes 30 seconds) and the total time in the MRI suite was between 7 and 10 minutes. No child required sedation.

Conclusions: The use of MRI scanning has been described after closed and open reduction of the hip in DDH to check hip position but has not previously been reported after open reduction with femoral osteotomy and the use of metalwork. Satisfactory images, comparable time and cost to CT scanning and the lack of exposure to ionising radiation make MRI an appealing method of imaging. We recommend it as the investigation of choice in this patient group.