Abstract
BackgroundThe quality and viability of mastectomy flaps remain a central challenge in reconstructive surgery, particularly for immediate breast reconstruction. Insufficient perfusion in tissue flaps is a leading cause of early complications following reconstructive procedures, and clinical judgment alone is not completely reliable for the assessment of flap viability. Accurate and reliable intraoperative methods for assessment of tissue perfusion are needed to help surgeons identify tissue at risk for ischemia and necrosis, thereby allowing for maneuvers to improve tissue flap viability.MethodsThis study evaluates the use of intraoperative laser angiography using the SPY System (LifeCell Corp., Branchburg, NJ) for the assessment of perfusion in mastectomy flaps for immediate breast reconstruction. The SPY System uses the contrast agent indocyanine green, which has an excellent safety profile and pharmacokinetics that allow for repeat evaluations during the same surgical procedure. In recent work, the SPY System has demonstrated high sensitivity and specificity for detection of tissues at risk for ischemia and necrosis during reconstructive surgery. Using a retrospective, chart-review design, the authors compared consecutive cases of immediate breast reconstruction using a prosthesis, before and after implementation of the SPY System.ResultsNinety-one subjects were included in the analysis: 52 prior to SPY (Pre-SPY) and 39 after implementation of SPY (Post-SPY). Baseline characteristics were similar between the groups. Both groups had high rates of comorbidities, chemotherapy, and radiation therapy. The rate of postoperative complications was two-fold higher in the Pre-SPY group compared to the Post-SPY group (36.5% vs. 17.9%); this difference was of borderline significance (P = 0.0631). However, mean number of repeat visits to the OR per patient was significantly higher in the Pre-SPY group (1.21 ± 1.47 vs. 0.41 ± 0.71; P = 0.0023). Of the seven patients with complications in the Post-SPY group, five were identified by SPY as having poor flap perfusion; none were identified by clinical judgment alone.ConclusionsThis study suggests that the SPY System can contribute to reduced ischemia-related complications in a population of women undergoing immediate breast reconstruction following mastectomy for breast cancer.
Highlights
The quality and viability of mastectomy flaps remain a central challenge in reconstructive surgery, for immediate breast reconstruction
There were no significant differences between groups in terms of age, presence of comorbidities, history of smoking, tumor status, or cancer therapy
This difference did not achieve statistical significance (P = 0.0631), it strongly suggests that the use of intraoperative methods to accurately determine tissue perfusion as an augment to clinical judgment can profoundly reduce the incidence of ischemia, flap necrosis, and related complications
Summary
The quality and viability of mastectomy flaps remain a central challenge in reconstructive surgery, for immediate breast reconstruction. Insufficient perfusion in tissue flaps is a leading cause of early complications following reconstructive procedures, and clinical judgment alone is not completely reliable for the assessment of flap viability. The optimal approach to postmastectomy breast reconstruction continues to evolve. U.S practice has evolved to include immediate reconstruction with one-stage, direct-to-implant procedures or two-stage procedures with insertion of tissue expanders (TE) followed by replacement with permanent implant. Immediate reconstructive procedures have been made more feasible through surgical approaches that preserve the native skin envelope, including skin-sparing and nipple-sparing mastectomy. Key issues in immediate reconstructive procedures include coverage of the implant, the use of appropriate TE, and the quality and viability of tissue flaps
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