Despite the suggestion by Virchow in 1856 that thrombosis was the result of venous stasis, endothelial dysfunction and hypercoagulability there are some fundamental questions which remain to be answered. The published studies fail to provide specific details such as cast type and anatomical location of the thrombosis, but instead focus on the incidence of VTE and which chemical thromboprophylaxis is most effective. Previous studies of VTE in trauma patients have involved small numbers of patients and have not look at the risk medium to long term risk. Most importantly they have not looked at the site of the VTE. This makes interpretation of the link between cast and VTE even more complex. We analysed 1479 consecutive trauma cast applications and the incidence of symptomatic VTE in the six months following the injury. The diagonosis, cast type and site of the VTE was recorded.Background
Methodology
The muscles of the leg collectively comprise the calf pump, however the action of each muscle group on calf pump function is not known. Patients with foot or ankle injury or surgery are often advised to perform foot and ankle movements to help prevent deep venous thrombosis. Our aim was to determine which foot and ankle movements were most effective in stimulating the calf pump. Method: Nine healthy participants were enrolled in this research and ethics approved prospective study. Participants with a previous history of peripheral vascular disease, varicose veins, deep venous thrombosis or previous foot and ankle surgery were excluded. Each participant followed a standardized protocol of foot and ankle movements, starting with foot in neutral position and the baseline and movement peak systolic velocity within the popliteal vein was measured during each movement. The movements tested were toe dorsiflexion, toe plantar flexion, ankle dorsiflexion, ankle plantar flexion. The mean patient age was 34 years (range 28–58), the majority were female (n = 6). All movements resulted in statistically significant changes in peak systolic velocity (p = <0.05). In order of decreasing peak velocity the exercises which had greatest effect on calf pump function were: Ankle dorsiflexion (101cm/s), Ankle plantarflexion (84cm/s), Toe dorsiflexion (63cm/s), Toe plantarflexion (59cm/s). We have shown that all four exercises significantly increased calf pump function. The greatest effect was seen with ankle movements.Introduction
Results
