Background Capsular contracture is a devastating complication of post-mastectomy implant-based breast reconstruction. Unfortunately, capsular contracture rates are drastically increased by targeted radiotherapy, a standard post-mastectomy treatment. Thy1 (also called CD90) is important in myofibroblast differentiation and scar tissue formation. However, the impact of radiotherapy on Thy1 expression and the role of Thy1 in capsular contracture are unknown. Methods We analyzed Thy1 expression in primary human capsular tissue and primary fibroblast explants by RT-qPCR, Western blotting, and immunohistochemistry. Thy1 was depleted using RNA interference to determine if Thy1 expression was essential for the myofibroblast phenotype in capsular fibroblasts. Furthermore, human capsular fibroblasts were treated with a new anti-scarring compound, salinomycin to determine if Thy1 expression and myofibroblast formation were blocked by salinomycin. Results Herein, we show that radiation therapy significantly increased Thy1 mRNA and protein expression in peri-implant scar tissue. Capsular fibroblasts explanted from scar tissue retained the ability to make the myofibroblast produced scar forming components collagen I and α-smooth muscle actin (αSMA). Depletion of Thy1 decreased the fibrotic morphology of capsular fibroblasts and significantly decreased αSMA and collagen levels. Furthermore, we show for the first time that salinomycin decreased Thy1 expression and prevented myofibroblast formation in capsular fibroblasts. Conclusions These data reveal that ionizing radiation-induced Thy1 over-expression may contribute to increased capsular contracture severity, and fibroblast scar production can be ameliorated through targeting Thy1 expression. Importantly, our new results show promise for the anti-scarring ability of salinomycin in radiation-induced capsular contracture.
Introduction The use of an inferiorly based dermal flap (IBDF) with implant insertion allows for 1-step reconstruction of a ptotic breast after mastectomy. An IBDF allows for secondary protection of the inferior pole and provides a vascularized pocket for implant insertion. Previous literature has demonstrated the use of this surgical approach for optimal patient satisfaction and higher patient-reported outcomes. For this approach, the dermal flap epidermis is removed before insetting; however, invaginations containing epithelial components may serve as a nidus for infection. There is no study that has compared the safety of an IBDF technique to standard reconstruction. We hypothesize that there is no increase in surgical complications in the IBDF approach versus standard reconstruction. Methods This is a single-institution retrospective chart review of all patients who underwent implant-based reconstruction from June 2016 through December 2020. Patients who did not have a permanent implant placed by December 2020 or had delayed reconstruction were excluded. Two cohorts were established: those who underwent immediate reconstruction after mastectomy via IBDF and reconstruction without an IBDF. Patient demographics, use of the IBDF technique, and surgical complications were recorded and compared. Results A total of 208 breasts were included: 52 breasts in the IBDF cohort and 156 breasts in the control cohort. There were no statistically significant differences between cohorts, except that the IBDF cohort has a significantly higher body mass index (mean = 30.9 vs 26.5, P ≤ .001). There was no statistically significant difference in the rate of complications between the IBDF and control groups, including seroma (5.8% vs 3.8%), hematoma (3.8% vs 0.6%), wound dehiscence (0.0% vs. 1.9%), mastectomy flap necrosis (11.5% vs 6.4%), breast infection (5.8% vs 7.1%), implant salvage (0.0% vs 5.8%), and implant loss (5.8% vs. 5.8%), respectively. Conclusions Using an IBDF to reconstruct a ptotic breast immediately after mastectomy has a similar risk profile to an immediate standard breast reconstruction. This technique has resulted in optimal patient satisfaction scores and allows for a “one-stop reconstruction” of ptotic breasts that normally would undergo sequential revisions. In conclusion, immediate implant-based reconstruction of a ptotic breast after mastectomy using a IBDF can be performed safely.
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