Muscle stiffness and joint contractures are common complications of limb lengthening. Authors have demonstrated less permanent soft tissue complications with intramedullary lengthening than external fixation. Our aim was to evaluate the joint response following intramedullary femoral lengthening and need for physiotherapy and alteration to rate/rhythm of lengthening. A retrospective review of documentation for all femoral Precice nails in our centre inserted between 2012 and 2017. This involved 98 nails (68 antegrade, 30 retrograde) in 88 patients (59 males, 29 females) with a mean age of 32 years (range 12–69 yrs). We excluded cases where there was no documentation regarding Range of Movement (ROM). Bilateral lengthenings were recorded as separate cases. This left 50 antegrade, 16 retrograde cases with hip ROM data and 55 antegrade, 26 retrograde cases with Knee ROM data.Introduction
Method
Several low energy osteotomy techniques are described in the literature but there is limited evidence comparing healing indices. We present a retrospective review of two techniques to evaluate an optimum method. Two cohorts of patients underwent osteotomy of the tibia using a Gigli saw (n=15) or DeBastiani corticotomy (n=12) technique. Indications for surgery included limb lengthening and bone transport for defect reconstruction with a minimal distraction of 2 cm. The patient radiographs were anonymised and the regenerate assessed by the two senior authors who were blinded to the osteotomy type. Bone quality was recorded along the anterior, posterior, medial and lateral cortices, graded 1–5 from absent to full consolidation over time in frame. The time to 3 cortices healed/regenerate length was calculated. The time to consolidation of the anterior, posterior, medial and lateral cortices were compared. The mean 3 cortices index in the Gigli group was 2.0 months/cm and in the DeBastiani group 1.8 months/cm, This was not a significant difference. In both groups anterior bone formation was slower, and in 50% and 33% of the Gigli and DeBastiani groups respectively the anterior cortex did not fully heal by the time of frame removal.Method:
Results:
The Exogen Ultrasound Device is licensed for fracture non-union under NICE guideline MTG-12. Reimbursement is offered if there is no fracture union after 250 days of treatment as per manufacturer guidelines. Quoted healing rates vary between 62% and 100%: we compare our results to these. A retrospective audit of all patients who received Exogen for long bone non-union was undertaken. The indication, duration of treatment, fracture outcome and compliance with the recommended treatment pathway were recorded.Background:
Method:
External fixators are not as well tolerated around the femur when compared to the tibia. Lengthening with an intramedullary device is therefore attractive. We reviewed all cases of femoral lengthening performed at our unit from 2007 to 2014. Cases of non-unions, concurrent deformities, congenital limb deficiencies and lengthening with an unstable hip were excluded. This left 33 cases for review. Healing index, implant tolerance and complications were compared.Background:
Method:
Leg length discrepancy related to absence of the femoral head with proximal migration of the femur presents a treatment dilemma. Late sequelae of neonatal hip sepsis and chronic hip dislocation due to developmental dysplasia are the most common causes. Traditional teaching dictates that the hip is stabilised prior to limb lengthening. Reconstructive options alter the shape of the proximal femur which complicates future surgery. We retrospectively reviewed 3 cases of femoral lengthening with an ‘unstable’ hip without prior stabilization. The aetiology was neonatal hip sepsis in 2 cases and chronic hip dislocation due to developmental dysplasia in 1 case. Lengthening was performed with the use of a retrograde Precice lengthening nail.Background:
Methods:
