IntroductionPartial breast reconstruction (PBR) using chest wall perforator flaps (CWPF) allows for excision of tumors in the outer quadrant of the breast in women with small to moderate non-ptotic breasts resulting in a good aesthetic outcome. There are limited data available in the literature regarding long-term follow-up and the effect of CWPF on subsequent surveillance mammographic interpretation and recall rates. A retrospective audit with qualitative analysis of initial mammograms was performed to assess this.Patients and MethodsThis retrospective analysis of a prospectively maintained database included all consecutive patients who underwent either PBR with CWPF or wide local excision (WLE) between January 2013 and December 2014 by a single surgeon in a tertiary referral center. Qualitative analysis of the postoperative mammograms was performed after review by 2 blinded radiologists.ResultsThirty-six patients were included in the study, 18 in each arm. The CWPF group was younger and had larger tumor size anticipated on preoperative imaging, which correlated with larger specimens excised. Both groups were comparable with respect to tumor pathological characteristics. Comparing the first postoperative mammograms, both groups were similar in features reported such as calcifications, fat necrosis, volume loss, and radiotherapy changes. During the follow-up period (median 4 years), 138 surveillance mammograms were performed. One patient was recalled for further imaging in the CWPF group. There was no significant difference in the need for diagnostic imaging and biopsy between the groups.ConclusionPatients who underwent PBR using CWPF had similar features on postoperative surveillance mammograms compared with that post WLE. 相似文献
Objectives: Increases in astrocytes and one of their markers, glial fibrillary acidic protein (GFAP) have been reported in the brains of patients with Alzheimer’s disease (AD). N-3 polyunsaturated fatty acids (PUFA) modulate neuroinflammation in animal models; however, their effect on astrocytes is unclear.
Methods: Fat-1 mice and their wildtype littermates were fed either a fish oil diet or a safflower oil diet deprived of n-3 PUFA. At 12 weeks, mice underwent intracerebroventricular infusion of amyloid-β 1-40. Astrocyte phenotype in the hippocampus was assessed at baseline and 10 days post-surgery using immunohistochemistry with various microscopy and image analysis techniques.
Results: GFAP increased in all groups in response to amyloid-β, with a greater increase in fish oil-fed mice than either fat-1 or wildtype safflower oil-fed mice. Astrocytes in this group were also more hypertrophic, suggesting increased activation. Both fat-1- and fish oil-fed mice had greater increases in branch number and length in response to amyloid-β infusion than wildtype safflower animals.
Conclusion: Fish oil feeding, and to a lesser extent the fat-1 transgene, enhances the astrocyte activation phenotype in response to amyloid-β 1-40. Astrocytes in mice fed fish oil were more activated in response to amyloid-β than in fat-1 mice despite similar levels of hippocampal n-3 PUFA, which suggests that other fatty acids or dietary factors contribute to this effect. 相似文献