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High tension electrocution death: New histopathological cardiac tools by Confocal Laser Scanning Microscope
摘要: In deaths due to electrocution intraepidermal separation, vacuolation of epidermal cells, “swiss cheese” aspect of the superficial part of epidermis (swollen and with multiple vescicles), metallization, necrosis of collagenous fibers, cardiomyocytes alterations are microscopically described. No cardiac nerve damage due to electricity is actually reported in literature. In this work we tried to find new morphological signs in the hearts of deaths due to electrocution. In three cases of deaths due to electrocution, in which forensic autopsies were performed within 36 h of the death, heart specimens were taken at the level of common trunk of the left coronary artery. The myocardium histological examination at optical microscope and Confocal Laser Scanning Microscope (CLSM) revealed fragmentation of cardiomyocytes, nerve trunks damage with hydropic swelling of the nerve fibers, interstitial and sub-nerve-sheath edema, very dishomogenous distribution of the natural fluorescence of the neurofilaments, coarctation of epicardial gangliar cells with cytoplasmic cleft and irregular fluorescence pattern. Identification of S-100 protein by immunohistochemistry can help to better observe the hydropic swelling of the nerve fibers and the central cytoplasmic clefts. These alterations could be used in future as specific signs of the passage of the electrical current through the heart. We recommend heart specimens at the level of common trunk of the left coronary artery in all the cases of suspected electrocution, to better evaluate cardiac nerve trunks damages and alterations.
关键词: Confocal laser scanning microscope (CLSM),Histology,Cardiac nerves,Electrocution,Fluorescence,Heart
更新于2025-11-21 11:20:42
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[IEEE 2019 IEEE Conference on Control Technology and Applications (CCTA) - Hong Kong, China (2019.8.19-2019.8.21)] 2019 IEEE Conference on Control Technology and Applications (CCTA) - Novel Micro Scanning with Integrated Atomic Force Microscope and Confocal Laser Scanning Microscope
摘要: Integrated atomic force microscope (AFM) and confocal laser scanning microscope (CLSM) can quickly obtain the three-dimensional (3-D) surface of the sample in large scanning range and recover the region of interesting (ROI) in nanoscale resolution. However, the traditional cooperative algorithm for integrated microscopes occupies too much scanning time. In this work, we develop a novel cooperative algorithm for the integrated microscopes to reduce scanning time of AFM and achieve higher scanning speed. First, the calibration of the microscopes will be implemented. Next, CLSM starts a large range scan first and then define the region of interesting (ROI) by edge detection. And then, the scan regions of the AFM are arranged based on the ROI and adaptive scanning region method is proposed to reduce the scanning time. Furthermore, variable speed scanning based on the height information obtained from CLSM image is applied to increase the AFM scanning speed. Finally, the scanning images obtained from AFM and CLSM are merged together. A series of experimental results show that proposed cooperative algorithm can save approximately 69.2% of scanning time compared with that obtained by traditional cooperative algorithm.
关键词: Atomic force microscope (AFM),adaptive scanning range,confocal laser scanning microscope (CLSM),regions of interest (ROI),variable speed scanning
更新于2025-09-16 10:30:52