You are visiting a website that is not intended for your region

The page or information you have requested is intended for an audience outside the United States. By continuing to browse you confirm that you are a non-US resident requesting access to this page or information. Switch to the US site. 


Źródła z poniższej listy odnoszą się do kwestii omawianych na stronie internetowej. Wiele z nich ma dostępne podsumowania, które można pobrać po kliknięciu łącza.

Bardziej szczegółowe informacje na temat przyczyn i zapobiegania żylnej chorobie zakrzepowo-zatorowej, w tym dowody na skuteczność terapii metodą przerywanej kompresji pneumatycznej Flowtron™, można znaleźć w dokumencie zawierającym badania kliniczne.

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

Chen, A., S. Frangos, S. Kilaru i in. Intermittent pneumatic compression devices — physiological mechanisms of action. European Journal of Vascular and Endovascular Surgery. 2001; 21: 383-392.

Cohen, A.T., V.F. Tapson, J.-F. Bergman i in. Venous thromboembolism and prophylaxis in the acute hospital setting (ENDORSE study): a multinational cross-sectional study. Lancet. 2008; 371: 387-394.

Comerota, A.J., A.V. Chouhan, R.N. Harada RN i in. The fibrinolytic effects of intermittent pneumatic compression. Mechanism of enhanced fibrinolysis. Annals of Surgery. 1997; 226(3): 306-314.

Chouhan, V.D., A.J. Comerota, L. Sun. 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.

Fedullo, P. Comparison of thigh and calf-length Intermittent Pneumatic Compression Devices for Venous Thrombosis Prophylaxis in Trauma Patients. Presented at The American Thoracic Society. 1994.

Flam, E., S. Berry, A. Coyle i in. DVT prophylaxis: comparison of two thigh-high intermittent pneumatic compression systems. Presented at the meeting of the American College of Surgeons, San Francisco. 1993.

Flam, E., S. Berry, A. Coyle i in. Blood-Flow Augmentation of Intermittent Pneumatic Compression Systems Used for the Prevention of Deep Vein Thrombosis Prior to Surgery. Am. Journ. Surg. 1996; 171(3): 312-315.

Geerts, W.H., D. Bergqvist, G.F. Pineo i in. Prevention of venous thromboembolism: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8. wydanie). Chest. 2008; 133 (6 supl.): 381S–453S.

Giddings, J.C., H. Ralis, G. Jennings i in. Systemic haemostasis after intermittent compression. Clues for the investigation of DVT prophylaxis and traveller’s thrombosis. Clinical and Laboratory Haemotology. 2004; 26(4): 269-273.

Ginzburg, E., S. Cohn, J. Lopez i in. Randomised clinical trial of intermittent pneumatic compression and low molecular weight heparin in trauma . British Journal of Surgery. 2003; 90: 1338-1344.

Heit, J., A. Cohen, F.J. Anderson. Estimated annual number of incident and recurrent, non-fatal and fatal venous thromboembolism (VTE) events in the US. Blood. 2005; 106: 267A.

Kahn, S.R., S. Solymoss, D.L. Lamping i in. Long-term Outcomes After Deep Vein Thrombosis: Postphlebitic Syndrome and Quality of Life. J Gen Intern Med. 2000; 15(6): 425–429.

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

Kumar, S., M. Walker. 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, R.J., J.C. Giddings, H.M. Ralis i in. 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., M. Cipolle, E. Sacco i in. 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.

Pidala, M.J., D.L. Donovan, R.F. Kepley i in. A prospective study on intermittent pneumatic compression in the prevention of deep vein thrombosis in patients undergoing total hip or total knee replacement. Surgery, Gynecology & Obstetrics. 1992; 175: 47-51 .

Proctor, M.C., L.J. Greenfield, T.W. Wakefield i in. A clinical comparison of pneumatic compression devices: the basis for selection. Journal of Vascular Surgery. 2001; 34(3): 459-464.

Proctor, M.C., P.J. Zajkowski, T.W. Wakefield i in. Venous hemodynamic characteristics of pneumatic compression devices. Journal of Vascular Technology. 2001; 25(3): 141-145.

Stone, M.H., D. Limb, P. Campbell i in. A comparison of intermittent pneumatic calf compression and enoxaparin for thromboprophylaxis in total hip replacement. International Orthopaedics. 1996; 20: 367-369.

Sutkowska, E., M. Wozniewski, A. Gamian i in. Intermittent pneumatic compression in stable claudicants: effect on hemostasis and endothelial function. International Angiology. 2009; 28(5): 373-379.

Turpie, A.G., B.S. Chin, G.Y. Lip. Venous thromboembolism: pathophysiology, clinical features and prevention. BMJ. 2002; 325: 887-890.

Westrich, G., L.M. Specht, N.E. Sharrock i in. Venous haemodynamics after total knee arthroplasty: evaluation of active dorsal to plantar flexion and several mechanical compression devices. The Journal of Bone & Joint Surgery. 1998; 80B(6): 1057-1066.

Woodcock, J.P., R.J. Morris. The effect of the Kendall SCD™ and Huntleigh DVT30 garments on femoral and popliteal vein bloodflow measurements. ArjoHuntleigh Clinical Report. 2002.