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Original Article
- Displacement of Surgical Clips in Patients with Human Acellular Dermal Matrix in the Excision Cavity during Whole Breast Irradiation Following Breast-Conserving Surgery
- Wonguen Jung, Kyubo Kim, Nam Sun Paik
- Cancer Res Treat. 2020;52(2):388-395. Published online August 13, 2019
- DOI: https://doi.org/10.4143/crt.2019.213
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Abstract
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ePub - Purpose
The purpose of this study was to investigate the displacement of surgical clips in the excision cavity during whole breast irradiation following breast-conserving surgery (BCS) with or without acellular dermal matrix (ADM) insertion, and to analyze clinicopathologic factors associated with the displacement of surgical clips.
Materials and Methods
From 2016 to 2017, 100 consecutive breast cancer patients who underwent BCS with the placement of surgical clips (superior, inferior, medial, lateral, and deep sides) in the tumor bed were included in this study. All patients took first planning computed tomography (CT) scan (CT 1) before whole breast irradiation and second CT scan (CT 2) before boost irradiation. Between two sets of planning CT, the displacement of surgical clips was calculated from the ΔX (lateral–medial), ΔY (anterior–posterior), ΔZ (superior–inferior), and three-dimensional (3D) directions. Patients were divided into two groups according to the breast volume replacement with ADM: group A with ADM and group B without ADM.
Results
The means and 1 standard deviations of 3D displacement for superior, inferior, medial, lateral and deep clips were 5.2±2.9, 5.2±3.2, 5.6±4.5, 5.6±4.3, and 4.9±4.9 mm in entire cohort (n=100); 5.6±2.6, 6.0±3.5, 6.7±5.8, 6.7±5.7, and 6.1±7.4 mm in group A (n=38); 4.9±3.1, 4.8±3.0, 5.0±3.5, 5.0±2.9, and 4.3±2.8 mm in group B (n=62), respectively. The 3D displacements of group A were longer than those of group B, but only significant difference was observed in lateral clip (p=0.047).
Conclusion
This study demonstrated displacement of surgical clips during whole breast irradiation in patients with ADM insertion. For patients who had breast volume replacement using ADM, adaptive boost planning should be considered. -
Citations
Citations to this article as recorded by
- Interobserver variability of clinical target volume delineation in patients undergoing breast-conserving surgery without surgical clips: a pilot study on preoperative magnetic resonance simulation
Shuning Jiao, Yiqing Wang, Jiabin Ma, Jing Shen, Xi-Qian Zhang, Bing Zhou, Xiansong Sun, Haoran Xu, Xia Liu, Ke Hu, Fuquan Zhang, Xiaorong Hou, Jie Qiu
BMC Cancer.2024;[Epub] CrossRef - What Should We Know in Postoperative Surveillance Imaging After Oncoplastic Breast-Conserving Surgery with Pellet-Type Acellular Dermal Matrix?
Yeong Yi An, Hyejung Hwang, Young Jin Suh
Academic Radiology.2023; 30: S16. CrossRef - Imaging surveillance for the detection of ipsilateral local tumor recurrence in patients who underwent oncoplastic breast-conserving surgery with acellular dermal matrix: abbreviated MRI versus conventional mammography and ultrasonography
Mi Young Kim, Young Jin Suh, Yeong Yi An
World Journal of Surgical Oncology.2021;[Epub] CrossRef
- Interobserver variability of clinical target volume delineation in patients undergoing breast-conserving surgery without surgical clips: a pilot study on preoperative magnetic resonance simulation
- 5,863 View
- 175 Download
- 3 Web of Science
- 3 Crossref
Review Article
- RNA Regulation in Neurologic Disease and Cancer
- Robert B. Darnell
- Cancer Res Treat. 2010;42(3):125-129. Published online September 30, 2010
- DOI: https://doi.org/10.4143/crt.2010.42.3.125
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Abstract
PDFPubReaderePub
The paraneoplastic neurologic diseases (PNDs) are brain degenerations that develop in the setting of clinically inapparent cancers. PNDs arise when common cancers express brain proteins, triggering an anti-tumor immune response and tumor immunity. Research on these brain-cancer proteins has revealed a new world of neuron-specific RNA binding proteins whose functions may be aberrantly used by tumor cells. Efforts to gain insight into their function has led to the development of new methods and strategies to understand RNA protein regulation in living tissues.
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Citations
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- 13,796 View
- 107 Download
- 28 Crossref
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