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Pour en savoir plus sur les causes et la prévention de la thrombo-embolie veineuse (TEV), y compris les données relatives à la compression pneumatique intermittente (CPI) avec le dispositif Flowtron™, téléchargez le document relatif aux données cliniques de la thrombose veineuse profonde (TVP).

Brooks PJ, Keramati M, Wickline A. Thromboembolism in Patients Undergoing Total Knee Arthroplasty with Epidural Analgesia. Journal of Arthroplasty. 2007; 22(5): 641-643.

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Comerota AJ, Chouhan AV, Harada RN et al. The fibrinolytic effects of intermittent pneumatic compression. Mechanism of enhanced fibrinolysis. Annals of Surgery. 1997; 226(3): 306-314.

Chouhan VD, Comerota AJ, Sun L. Inhibition of tissue factor pathway during intermittent pneumatic compression: a possible mechanism for antithrombotic effect. Arteriosclerosis Thrombosis and Vascular Biology. 1999; 19: 2812-2817.

ECRI Evaluation Update. Intermittent Pneumatic Compression Devices: Health Devices. ECRI Institute, 2009; 120-123.

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Kamran SI, Downey D, Ruff RL et al. Pneumatic Sequential Compression Reduces the Risk of Deep Vein Thrombosis in Stroke Patients. Neurology. 1998; 50:1683-1688.

Kumar S, Walker M. The effects of intermittent pneumatic compression on the arterial and venous system of the lower limb: a review. Journal of Tissue Viability. 2002; 12(2): 58-65.

Morris RJ, Giddings JC, Ralis HM et al. The influence of inflation rate on the hematologic and hemodynamic effects of intermittent pneumatic calf compression for deep vein thrombosis prophylaxis. Journal of Vascular Surgery. 2006; 44: 1039-45.

Pagella P, Cipolle M, Sacco E et al. A randomised trial to evaluate compliance in terms of patient comfort and satisfaction of two pneumatic compression devices. Orthopedic Nursing. 2007; 26(3): 169-174.

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