Mechanical compression augments venous flow equal to intermittent pneumatic compression.
Derek F AmanatullahHarsh N ShahBonnie JohnsonJames K WallPublished in: Journal of orthopaedic research : official publication of the Orthopaedic Research Society (2020)
Intermittent pneumatic compression is part of the current standard of care model for preventing venous thromboembolic events (VTE) after total joint arthroplasty. Pneumatic motors limit the rate of inflation resulting in bulky devices with uncomfortable sleeves that inhibited patient compliance and mobility. Nonpneumatic mechanical devices are an alternative for providing mobile, graded, intermittent, sequential, rapid, and monitorable compression posthospitalization. Fifteen healthy volunteers underwent mechanical compression using the Cirvo (Radial Medical, Mountain View, CA) as well as pneumatic compression with four commercially available systems (VenaFlow Elite, Kendall SCD Compression System, ActiveCare DVT, Vasculaire Compression System) and manual calf compression. Peak flow velocity (PFV) was measured by ultrasound of the femoral vein during compression and at baseline. Mechanical compression for 1 second resulted in a significant increase in femoral venous PFV to 107.8 ± 38.2 cm/s from 17.1 ± 4.7 cm/s at baseline (P < .001). The change in femoral venous PFV with mechanical compression for 1 second (90.7 ± 34.9 cm/s) was not statistically different from pneumatic compression from VenaFlow system (106.0 ± 35.6 cm/s, P = .124) and statistically lower than manual calf compression (115.5 ± 26.8 cm/s, P = .015). Pneumatic compression from the VenaFlow system produced the largest change in femoral venous PFV of all commercial pneumatic systems tested. Mechanical compression replicates or exceeds femoral venous PFV available from currently available intermittent pneumatic compression.
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