We hypothesised that adjuvant intermittent pneumatic
compression (IPC) beneath a plaster cast would reduce the risk of
deep-vein thrombosis (DVT) during post-operative immobilisation
of the lower limb. Of 87 patients with acute tendo Achillis (TA)
rupture, 26 were prospectively randomised post-operatively after
open TA repair. The treatment group (n = 14) received two weeks of
IPC of the foot for at least six hours daily under a plaster cast.
The control group (n = 12) had no additional treatment. At two weeks
post-operatively all patients received an orthosis until follow-up
at six weeks. At two and six weeks the incidence of DVT was assessed
using colour duplex sonography by two ultrasonographers blinded
to the treatment. Two patients withdrew from the study due to inability
to tolerate IPC treatment. An interim analysis demonstrated a high incidence of DVT in both
the IPC group (9 of 12, 75%) and the controls (6 of 12, 50%) (p
= 0.18). No significant differences in incidence were detected at
two (p = 0.33) or six weeks (p = 0.08) post-operatively. Malfunction
of the IPC leading to a second plaster cast was found to correlate
with an increased DVT risk at two weeks (φ = 0.71; p = 0.019), leading
to a premature abandonment of the study. We cannot recommend adjuvant treatment with foot IPC under a
plaster cast for outpatient DVT prevention during post-operative
immobilisation, owing to a high incidence of DVT related to malfunctioning
of this type of IPC application. Cite this article:
Between 1999 and 2005, 23 failed total ankle replacements were converted to arthrodeses. Three surgical techniques were used: tibiotalar arthrodesis with screw fixation, tibiotalocalcaneal arthrodesis with screw fixation, and tibiotalocalcaneal arthrodesis with an intramedullary nail. As experience was gained, the benefits and problems became apparent. Successful bony union was seen in 17 of the 23 ankles. The complication rate was higher in ankles where the loosening had caused extensive destruction of the body of the talus, usually in rheumatoid arthritis. In this situation we recommend tibiotalocalcaneal arthrodesis with an intramedullary nail. This technique can also be used when there is severe arthritic change in the subtalar joint. Arthrodesis of the tibiotalar joint alone using compression screws was generally possible in osteoarthritis because the destruction of the body of the talus was less extensive. Tibiotalocalcaneal arthrodesis fusion with compression screws has not been successful in our experience.
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.