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http://dx.doi.org/10.5999/aps.2019.00311

Intraoperative near-infrared spectroscopy for pedicled perforator flaps: a possible tool for the early detection of vascular issues  

Marchesi, Andrea (Department of Plastic Surgery, Hand Surgery and Reconstructive Microsurgery, Ospedale San Gerardo)
Garieri, Pietro (Department of Plastic Surgery, Hand Surgery and Reconstructive Microsurgery, Ospedale San Gerardo)
Amendola, Francesco (Department of Plastic Surgery, Hand Surgery and Reconstructive Microsurgery, Ospedale San Gerardo)
Marcelli, Stefano (Department of Plastic Surgery, Hand Surgery and Reconstructive Microsurgery, Ospedale San Gerardo)
Vaienti, Luca (Department of Plastic Surgery, Hand Surgery and Reconstructive Microsurgery, Ospedale San Gerardo)
Publication Information
Archives of Plastic Surgery / v.48, no.4, 2021 , pp. 457-461 More about this Journal
Abstract
Background Pedicled perforator flaps can present postoperative complications similar to those encountered in free flap surgery. Beyond a clinical evaluation, there is still no reliable technical aid for the early prediction of vascular issues. The aim of this study was to assess the support of near-infrared spectroscopy technology as an intraoperative tool to anticipate postsurgical flap ischemia. Methods We prospectively enrolled 13 consecutive patients who were referred to our hospital from March 2017 to July 2018 and required a reconstructive procedure with a pedicled fasciocutaneous perforator flap. We measured flap peripheral capillary oxygen saturation (SpO2) in each patient with a Somanetics INVOS 5100C Cerebral/Somatic Oximeter (Medtronic), both before and after transposition. Patient demographics, operative data, and complications were then recorded during the following 6 months. We analyzed the data using the Wilcoxon signed-rank test and linear regression. Results The mean flap SpO2 before and after transposition was 92%±3% and 78%±19%, respectively. The mean change in SpO2 was 14%±17%, with a range of 0% to 55%. The change in saturation and mean saturation ratio were significantly different between patients with and without postoperative flap necrosis. Conclusions An immediate quantitative analysis of flap peripheral capillary SpO2 after transposition has never before been described. In our experience, an intraoperative drop in SpO2 equal to or greater than 15%-20% predicted vascular complications in pedicled perforator flaps. Conversely, flap size and rotation angle were not correlated with the risk of flap necrosis.
Keywords
Perforator flap; Oximetry; Monitoring; Surgical flap; Postoperative complications;
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1 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;120:187-95.   DOI
2 Cusano A, Fernandes R. Technology in microvascular surgery. Oral Maxillofac Surg Clin North Am 2010;22:73-90.   DOI
3 Schmulder A, Gur E, Zaretski A. Eight-year experience of the Cook-Swartz Doppler in free-flap operations: microsurgical and reexploration results with regard to a wide spectrum of surgeries. Microsurgery 2011;31:1-6.   DOI
4 Stranc MF, Sowa MG, Abdulrauf B, et al. Assessment of tissue viability using near-infrared spectroscopy. Br J Plast Surg 1998;51:210-7.   DOI
5 Bui DT, Cordeiro PG, Hu QY, et al. Free flap reexploration: indications, treatment, and outcomes in 1193 free flaps. Plast Reconstr Surg 2007;119:2092-100.   DOI
6 Zhu C, Chen S, Chui CH, et al. Early prediction of skin viability using visible diffuse reflectance spectroscopy and autofluorescence spectroscopy. Plast Reconstr Surg 2014;134:240e-247e.   DOI
7 Sisti A, D'Aniello C, Fortezza L, et al. Propeller flaps: a literature review. In Vivo 2016;30:351-73.
8 Marchesi A, Marcelli S, Zingaretti N, et al. Pedicled thoracodorsal artery perforator and muscle-sparing latissimus dorsi flaps in the axillary reconstruction after hidradenitis suppurativa excision: functional and aesthetic issues. Ann Plast Surg 2018;81:694-701.   DOI
9 Vaienti L, Calori GM, Leone F, et al. Posterior tibial artery perforator flaps for coverage of Achilles region defects. Injury 2014;45 Suppl 6:S133-7.   DOI
10 Marchesi A, Amendola F, Bordone F, et al. Muscle electrical activity after perforator flap surgery: a pilot cohort study. Eur J Plast Surg 2020;43:165-8.   DOI
11 Innocenti M, Menichini G, Baldrighi C, et al. Are there risk factors for complications of perforator-based propeller flaps for lower-extremity reconstruction? Clin Orthop Relat Res 2014;472:2276-86.   DOI
12 Lineaweaver W. Techniques of monitoring buried fasciocutaneous free flaps. Plast Reconstr Surg 2009;124:1729-31.   DOI
13 Kagaya Y, Miyamoto S. A systematic review of near-infrared spectroscopy in flap monitoring: current basic and clinical evidence and prospects. J Plast Reconstr Aesthet Surg 2018;71:246-57.   DOI
14 Salgado CJ, Moran SL, Mardini S. Flap monitoring and patient management. Plast Reconstr Surg 2009;124(6 Suppl): e295-302.   DOI
15 Moubayed SP, Mourad M, Urken ML. What are the optimal monitoring techniques in head and neck microvascular reconstruction? ORL J Otorhinolaryngol Relat Spec 2016;78:241-4.   DOI
16 Lohman RF, Langevin CJ, Bozkurt M, et al. A prospective analysis of free flap monitoring techniques: physical examination, external Doppler, implantable Doppler, and tissue oximetry. J Reconstr Microsurg 2013;29:51-6.
17 Ozturk CN, Ozturk C, Ledinh W, et al. Variables affecting postoperative tissue perfusion monitoring in free flap breast reconstruction. Microsurgery 2015;35:123-8.   DOI
18 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;62:538-43.   DOI
19 Smit JM, Zeebregts CJ, Acosta R, et al. Advancements in free flap monitoring in the last decade: a critical review. Plast Reconstr Surg 2010;125:177-85.   DOI
20 Salgarello M, Pagliara D, Rossi M, et al. Postoperative monitoring of free DIEP flap in breast reconstruction with nearinfrared spectroscopy: variables affecting the regional oxygen saturation. J Reconstr Microsurg 2018;34:383-8.   DOI
21 Whitaker IS, Rozen WM, Chubb D, et al. Postoperative monitoring of free flaps in autologous breast reconstruction: a multicenter comparison of 398 flaps using clinical monitoring, microdialysis, and the implantable Doppler probe. J Reconstr Microsurg 2010;26:409-16.   DOI