Background: In this cohort study, the authors compared breast sensation and quality of life (QoL) after replacement of an implant-based breast reconstruction with a deep inferior epigastric perforator (DIEP) flap reconstruction in a singular sample of women. Methods: Women with implant-based breast reconstruction before their DIEP flap were included. Women formed their own control. Breast sensation was measured using Semmes-Weinstein monofilaments. QoL was evaluated using BREAST-Q questionnaires. Preoperative (T0) sensation and QoL were compared with postoperative values at 6 months (T1), at 12 months (T2), and at maximum follow-up (Tmax, sensation only). A linear mixed effects regression was used for Semmes-Weinstein monofilaments measurements; a paired samples t test was used for BREAST-Q scores. Most women chose replacement of their implant by a DIEP flap because of implant-related complaints. Results: Postoperative sensation decreased significantly compared with preoperative sensation after T1 (mean, 5.1 months), T2 (mean, 14.6 months), and Tmax (mean, 17.6 months) for the total breast but recovers to preoperative levels for the native skin after an average of 1.5 years. Nerve coaptation positively influenced recovery of sensation. BREAST-Q scores increased significantly after 6 and 12 months over the domains Satisfaction with Breasts, Psychosocial Well-Being, Physical Well-Being of the Chest, and Sexual Well-Being. Scores decreased significantly in Physical Well-Being of the Abdomen after 6 months. Conclusion: Replacing an implant with a DIEP flap initially causes a decrease in overall breast sensation, gradually recovering to preoperative levels for native skin, and can significantly increase QoL with the right indication. Superior recovery of sensation and QoL may be obtained by accompanying the DIEP flap with nerve coaptation. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, IV.
Background: Lower extremity free flap dangling protocols are still widely practiced, despite a paucity of evidence for their use. This pilot study investigates the use of tissue oximetry to provide further insight into the physiological effect of postoperative dangling in lower limb free flap transfer. Methods: Ten patients undergoing lower extremity free flap reconstruction were included in this study. Free flap tissue oxygen saturation (StO2) was continuously measured using non-invasive near-infrared spectroscopy. Measurements were performed on the free flap and contralateral limb during dangling from postoperative day (POD) 7 until 11, according to the local dangling protocol. Results: StO2 values measured in the free flap diminished to 70 ± 13.7% during dangling. This minimum StO2 was reached significantly later, and correspondingly the area under the curve (AUC) was significantly larger on POD 11 compared to the start of the dangling protocol on POD 7, reflecting an improving free flap microvascular reactivity. The dangling slope was equal between the free flap and contralateral leg. The reperfusion slope was significantly flatter on POD 7 compared to the other PODs (p < 0.001). Thereafter, no significant differences between PODs were observed. Patients with a history of smoking had significantly lower tissue oximetry values compared to non-smokers. Conclusions: The application of tissue oximetry during dangling provides further insight into the physiological effect (i.e., changes in microcirculatory function) of the free flap of the reconstructed lower extremity. This information could potentially be useful to either revise or disrupt the use of such dangling protocols.
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