Published in:
01-10-2018 | General Gynecology
Reconstructive breast surgery with partially absorbable bi-component Seragyn® BR soft mesh: an outcome analysis
Authors:
Anna Machleidt, Nora Schmidt-Feuerheerd, Jens-Uwe Blohmer, Ralf Ohlinger, Janina Kueper, Gabriel von Waldenfels, Sissi Dittmer, Stefan Paepke, Evelyn Klein
Published in:
Archives of Gynecology and Obstetrics
|
Issue 4/2018
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Abstract
Objective
Synthetic meshes and acellular dermal matrices are increasingly used in implant-based breast reconstruction. The objective of this study was to determine the incidence and severity of complications following the implantation of the partially absorbable bi-component soft mesh SERAGYN® BR and assess risk factors for adverse operative outcomes.
Methods
A retrospective clinical study was performed: The SERAGYN® BR soft mesh was utilized in 148 operations (skin-sparing mastectomy, nipple-sparing mastectomy, breast-conserving surgery, and secondary reconstruction after mastectomy) in four different institutions in Germany from June 2012 to February 2014. We analyzed whether the results were affected by tumor morphology (e.g., grading), patient characteristics and comorbidities, previous surgery or therapies, and use of alloplastic materials.
Results
The SERAGYN® BR soft mesh was successfully implanted in 131 of 148 operations. The rate of reconstructive failure was 11.5%. The most common complication was seroma (25.7%), followed by hematoma and skin infection (each 14.2%). Wound-healing issues were detected in 13.5% cases, secondary wound infections in 10.8%. 83.8% of operations had no severe complications. Independent predictors for reconstructive failure were wound-healing issues, nipple- or skin necrosis, wound- or skin infections, a high volume of excised tissue, hematomas, seromas, and sentinel lymph node excisions. A higher body mass index was correlated with a higher rate of infection.
Conclusion
SERAGYN® BR mesh can be used successfully in breast reconstructive surgery. Rates of major complications or reconstructive failure are comparable to the use of other synthetic or biological meshes.