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DOI: 10.1055/s-0032-1315771
Hypercoagulability in Microvascular Breast Reconstruction: An Algorithmic Approach for an Underestimated Situation
Publikationsverlauf
14. Dezember 2011
20. Februar 2012
Publikationsdatum:
28. Juni 2012 (online)
Abstract
Despite appropriate surgical technique and follow-up, flap failures can be encountered for which no valid reason is evident. Current literature states that these unpredictable flap failures can be caused by unknown patient factors, such as undiagnosed hypercoagulability. Our approach and experience utilizing an algorithm to minimize unpredictable failures in microvascular breast reconstruction by predetermining hypercoagulation risk factors in preoperative patients is presented. A prospective assessment of microsurgical breast reconstruction candidates between October 2007 and December 2010 was conducted. Patients were questioned about their tendency toward hypercoagulation. A thrombophilia panel was requested for patients confirming any risk factors. Appropriate surgical planning was conducted according to results of the panel. Of the 60 patients thoroughly questioned about hypercoagulation tendency, 21 (35%) confirmed having prothrombotic tendency and were referred to the thrombophilia testing. The results indicated hypercoagulation in 9 (15%) patients. The primary reconstruction plan of utilizing free flaps was abandoned for these patients and pedicled flaps or implants were preferred for reconstruction. These percentages emphasize the value of questioning risk factors and testing for hypercoagulation in patients seeking microsurgical breast reconstruction. We believe that detailed preoperative questioning of risk factors and appropriate testing according to prothrombotic tendency is beneficial in minimizing unpredictable flap failures and increasing rates of success.
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References
- 1 Bui DT, Cordeiro PG, Hu QY, Disa JJ, Pusic A, Mehrara BJ. Free flap reexploration: indications, treatment, and outcomes in 1193 free flaps. Plast Reconstr Surg 2007; 119: 2092-2100
- 2 Chen KT, Mardini S, Chuang DC , et al. Timing of presentation of the first signs of vascular compromise dictates the salvage outcome of free flap transfers. Plast Reconstr Surg 2007; 120: 187-195
- 3 Chen HC, Coskunfirat OK, Ozkan O , et al. Guidelines for the optimization of microsurgery in atherosclerotic patients. Microsurgery 2006; 26: 356-362
- 4 Okazaki M, Asato H, Takushima A , et al. Analysis of salvage treatments following the failure of free flap transfer caused by vascular thrombosis in reconstruction for head and neck cancer. Plast Reconstr Surg 2007; 119 (4) 1223-1232
- 5 Bozikov K, Arnez ZM. Factors predicting free flap complications in head and neck reconstruction. J Plast Reconstr Aesthet Surg 2006; 59: 737-742
- 6 Davison SP, Kessler CM, Al-Attar A. Microvascular free flap failure caused by unrecognized hypercoagulability. Plast Reconstr Surg 2009; 124: 490-495
- 7 Davis MR, Shell IV DH, Marques M, Long JN. Free flap failure secondary to dual thrombophilia. Microsurgery 2009; 29: 62-65
- 8 Vekris MD, Ovrenovits M, Dova L , et al. Free functional muscle transfer failure and thrombophilic gene mutations as a potential risk factor: a case report. Microsurgery 2007; 27: 88-90
- 9 Asai E, Okouchi M, Momiyama M, Kajikawa A, Ueda K. Free flap failure in an anticardiolipin antibody-positive patient with neoplasm—a case report. Microsurgery 2010; 30: 238-241
- 10 Handschin AE, Guggenheim M, Calcagni M, Künzi W, Giovanoli P. Factor V Leiden mutation and thrombotic occlusion of microsurgical anastomosis after free TRAM flap. Clin Appl Thromb Hemost 2010; 16: 199-203
- 11 Olsson E, Höijer P. Activated protein C resistance due to factor V Leiden, elevated coagulation factor VIII and postoperative deep vein thrombosis in late breast reconstruction with a free TRAM flap: a report of two cases. Br J Plast Surg 2005; 58: 720-723
- 12 Bertina RM, Koeleman BP, Koster T , et al. Mutation in blood coagulation factor V associated with resistance to activated protein C. Nature 1994; 369: 64-67
- 13 Poort SR, Rosendaal FR, Reitsma PH, Bertina RM. A common genetic variation in the 3′-untranslated region of the prothrombin gene is associated with elevated plasma prothrombin levels and an increase in venous thrombosis. Blood 1996; 88: 3698-3703
- 14 Egeberg O. Inherited antithrombin deficiency causing thrombophilia. Thromb Diath Haemorrh 1965; 13: 516-530
- 15 Griffin JH, Evatt B, Zimmerman TS, Kleiss AJ, Wideman C. Deficiency of protein C in congenital thrombotic disease. J Clin Invest 1981; 68: 1370-1373
- 16 Schwarz HP, Fischer M, Hopmeier P, Batard MA, Griffin JH. Plasma protein S deficiency in familial thrombotic disease. Blood 1984; 64: 1297-1300
- 17 den Heijer M, Koster T, Blom HJ , et al. Hyperhomocysteinemia as a risk factor for deep-vein thrombosis. N Engl J Med 1996; 334: 759-762
- 18 Boushey CJ, Beresford SA, Omenn GS, Motulsky AG. A quantitative assessment of plasma homocysteine as a risk factor for vascular disease. Probable benefits of increasing folic acid intakes. JAMA 1995; 274: 1049-1057
- 19 Ueland PM, Refsum H. Plasma homocysteine, a risk factor for vascular disease: plasma levels in health, disease, and drug therapy. J Lab Clin Med 1989; 114: 473-501