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DOI: 10.1055/s-0033-1348039
Glucose and Lactate Metabolism in Well-Perfused and Compromised Microvascular Flaps
Publication History
23 July 2012
29 March 2013
Publication Date:
11 June 2013 (online)
Abstract
The success in microvascular flap transfer depends on the maintenance of optimal perfusion postoperatively. In addition to anastomosis thrombosis, other perfusion failures such as venous congestion, spasms, and kinks may appear. As perforator flaps become more frequent, it must be remembered that perforating vessels are more fragile and susceptible for trauma and mechanical compression. Sometimes, a flap is doing not well even though its anastomosis is patent. The flap perfusion can be measured using different tools in addition to clinical surveillance. We have used microdialysis in monitoring 268 microsurgical flaps and compared the metabolic data of normally perfused flaps to those that suffered from relative or absolute perfusion failure. We found that tissue glucose and lactate concentrations and especially their relation (lactate-to-glucose ratio) can show the presence of ischemia and aid in decision making, whether to reoperate or not. High lactate-to-glucose ratio may also predict total or partial flap necrosis.
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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 (7) 2092-2100
- 2 Winterton RI, Pinder RM, Morritt AN , et al. Long term study into surgical re-exploration of the 'free flap in difficulty'. J Plast Reconstr Aesthet Surg 2010; 63 (7) 1080-1086
- 3 Rozen WM, Chubb D, Whitaker IS, Acosta R. The efficacy of postoperative monitoring: a single surgeon comparison of clinical monitoring and the implantable Doppler probe in 547 consecutive free flaps. Microsurgery 2010; 30 (2) 105-110
- 4 Keller A. A new diagnostic algorithm for early prediction of vascular compromise in 208 microsurgical flaps using tissue oxygen saturation measurements. Ann Plast Surg 2009; 62 (5) 538-543
- 5 Paydar KZ, Hansen SL, Chang DS, Hoffman WY, Leon P. Implantable venous Doppler monitoring in head and neck free flap reconstruction increases the salvage rate. Plast Reconstr Surg 2010; 125 (4) 1129-1134
- 6 Setälä L, Joukainen S, Uusaro A, Alhava E, Härmä M. Metabolic response in microvascular flaps during partial pedicle obstruction and hypovolemic shock. J Reconstr Microsurg 2007; 23 (8) 489-496
- 7 Setälä L, Papp A, Romppanen EL, Mustonen P, Berg L, Härmä M. Microdialysis detects postoperative perfusion failure in microvascular flaps. J Reconstr Microsurg 2006; 22 (2) 87-96
- 8 Setälä LP, Korvenoja EM, Härmä MA, Alhava EM, Uusaro AV, Tenhunen JJ. Glucose, lactate, and pyruvate response in an experimental model of microvascular flap ischemia and reperfusion: a microdialysis study. Microsurgery 2004; 24 (3) 223-231
- 9 Sörensen HB. Free jejunal flaps can be monitored by use of microdialysis. J Reconstr Microsurg 2008; 24 (6) 443-448
- 10 Yuen JC, Feng Z. Monitoring free flaps using the laser Doppler flowmeter: five-year experience. Plast Reconstr Surg 2000; 105 (1) 55-61
- 11 Chubb D, Rozen WM, Whitaker IS, Acosta R, Grinsell D, Ashton MW. The efficacy of clinical assessment in the postoperative monitoring of free flaps: a review of 1140 consecutive cases. Plast Reconstr Surg 2010; 125 (4) 1157-1166