Patients undergoing femoral lengthening by external fixation
tolerate treatment less well when compared to tibial lengthening.
Lengthening of the femur with an intramedullary device may have
advantages. We reviewed all cases of simple femoral lengthening performed
at our unit from 2009 to 2014. Cases of nonunions, concurrent deformities,
congenital limb deficiencies and lengthening with an unstable hip
were excluded, leaving 33 cases (in 22 patients; 11 patients had
bilateral procedures) for review. Healing index, implant tolerance
and complications were compared.Aims
Patients and Methods
We compared lower limb coronal alignment measurements
obtained pre- and post-operatively with long-leg radiographs and
computer navigation in patients undergoing primary total knee replacement
(TKR). A series of 185 patients had their pre- and post-implant
radiological and computer-navigation system measurements of coronal alignment
compared using the Bland-Altman method. The study included 81 men
and 104 women with a mean age of 68.5 years (32 to 87) and a mean
body mass index of 31.7 kg/m2 (19 to 49). Pre-implant
Bland–Altman limits of agreement were -9.4° to 8.6° with a repeatability
coefficient of 9.0°. The Bland–Altman plot showed a tendency for the
radiological measurement to indicate a higher level of pre-operative
deformity than the corresponding navigation measurement. Post-implant
limits of agreement were -5.0° to 5.4° with a repeatability coefficient
of 5.2°. The tendency for valgus knees to have greater deformity
on the radiograph was still seen, but was weaker for varus knees. The alignment seen or measured intra-operatively during TKR is
not necessarily the same as the deformity seen on a standing long-leg
radiograph either pre- or post-operatively. Further investigation
into the effect of weight-bearing and surgical exposure of the joint
on the mechanical femorotibial angle is required to enable the most appropriate
intra-operative alignment to be selected.
Internal lengthening devices in the femur lengthen
along the anatomical axis, potentially creating lateral shift of
the mechanical axis. We aimed to determine whether femoral lengthening
along the anatomical axis has an inadvertent effect on lower limb
alignment. Isolated femoral lengthening using the Intramedullary
Skeletal Kinetic Distractor was performed in 27 femora in 24 patients
(mean age 32 years (16 to 57)). Patients who underwent simultaneous realignment
procedures or concurrent tibial lengthening, or who developed mal-
or nonunion, were excluded. Pre-operative and six-month post-operative
radiographs were used to measure lower limb alignment. The mean lengthening
achieved was 4.4 cm (1.5 to 8.0). In 26 of 27 limbs, the mechanical
axis shifted laterally by a mean of 1.0 mm/cm of lengthening (0
to 3.5). In one femur that was initially in varus, a 3 mm medial
shift occurred during a lengthening of 2.2 cm. In a normally aligned limb, intramedullary lengthening along
the anatomical axis of the femur results in a lateral shift of the
mechanical axis by approximately 1 mm for each 1 cm of lengthening.
The use of autograft bone is the best option
when undertaking a procedure that requires bone graft because it
is osteogenic, osteoconductive and osseo-inductive. Pain, morbidity
and complications associated with harvesting iliac or non-iliac
sites occur in between 6% and 30% of cases. An alternative source
of graft with possibly a lower morbidity is the intramedullary canal.
In this study, 28 patients undergoing 30 arthrodesis procedures
on the hindfoot had a mean of 48 cm3 (43 to 50) of bone
harvested locally from the hindfoot or the tibial shaft by antegrade or
retrograde reaming. No patient sustained a fracture of the calcaneum,
talus or tibia. There was no morbidity except for one complication
when the reamer breached the medial tibial cortex. This healed uneventfully. This method of using the reamer–irrigator–aspirator system is
an extension of the standard technique of intramedullary reaming
of the lower limb: it produces good-quality bone graft with viable
growth factors consistent with that of the iliac crest, and donor
site morbidity is low. This is an efficient method of obtaining
autologous bone for use in arthrodesis of the ankle or hindfoot.
The treatment of osteochondral lesions of the talus has evolved with the development of improved imaging and arthroscopic techniques. However, the outcome of treatment for large cystic type-V lesions is poor, using conventional grafting, debridement or microfracture techniques. This retrospective study examined the outcomes of 50 patients with a cystic talar defect who were treated with arthroscopically harvested, cored osteochondral graft taken from the ipsilateral knee. Of the 50 patients, 45 (90%) had a mean good to excellent score of 80.3 (52 to 90) in the Karlsson-Peterson Ankle Score, at a mean follow-up of 36 months (24 to 83). A malleolar osteotomy for exposure was needed in 26 patients and there were no malleolar mal- or nonunions. One patient had symptoms at the donor site three months after surgery; these resolved after arthroscopic release of scar tissue. This technique is demanding with or without a malleolar osteotomy, but if properly performed has a high likelihood of success.
We have assessed the proximal capsular extension of the ankle joint in 18 patients who had a contrast-enhanced MRI ankle arthrogram in order to delineate the capsular attachments. We noted consistent proximal capsular extensions anterior to the distal tibia and in the tibiofibular recess. The mean capsular extension anterior to the distal tibia was 9.6 mm (4.9 to 27.0) proximal to the anteroinferior tibial margin and 3.8 mm (−2.1 to 9.3) proximal to the dome of the tibial plafond. In the tibiofibular recess, the mean capsular extension was 19.2 mm (12.7 to 38.0) proximal to the anteroinferior tibial margin and 13.4 mm (5.8 to 20.5) proximal to the dome of the tibial plafond. These areas of proximal capsular extensions run the risk of being traversed during the insertion of finewires for the treatment of fractures of the distal tibia. Surgeons using these techniques should be aware of this anatomy in order to minimise the risk of septic arthritis.