Abstract
BACKGROUND: Deep vein thrombosis (DVT) is a blood clot that forms in the deep veins and is the third most common cardiovascular disease today. One of the causes of DVT is venous stasis. Current methods of DVT prevention include anticoagulants and mechanical prophylaxis. Anticoagulant use is contraindicated in individuals with bleeding risks and mechanical interventions are often cumbersome and uncomfortable. OBJECTIVE: The overall goal of this project is to investigate a novel method for DVT prevention, termed intermittent electrical stimulation (IES). The current study investigated the effects of IES on healthy typical as well as post-stroke persons. METHOD: Of the 32 participants, 22 were healthy subjects from Edmonton, and 10 were inpatient post-stroke subjects at the Glenrose Rehabilitation Hospital, Edmonton. A two-channel stimulator was used to administer IES through electrodes placed on the posterior and anterior sides of the leg and was applied in increasing stimulation amplitudes to the gastrocnemius muscle and the resulting plantar flexion force and changes in popliteal and femoral venous velocities were recorded for each stimulation respectively using B-mode ultrasound. RESULTS: IES-induced contractions produced significant increases in venous flow compared to baseline. Small contractions induced by comfortable levels of stimulation in typical and in post-stroke persons were sufficient to increase flow in the popliteal and femoral veins. CONCLUSION: The results indicate that IES can sufficiently increase venous flow to prevent venous stasis and is comfortable for end users. Incorporation of IES into a clinical device could provide a feasible and effective alternative for DVT prophylaxis.