Rain may improve survival from direct lightning strikes to the human head

被引:0
作者
René Machts
Alexander Hunold
Christian Drebenstedt
Michael Rock
Carsten Leu
Jens Haueisen
机构
[1] Technische Universität Ilmenau,Institute of Biomedical Engineering and Informatics
[2] Technische Universität Ilmenau,Group for Lightning and Surge Protection
[3] Leipzig University of Applied Sciences,Institute of Electrical Engineering
来源
Scientific Reports | / 14卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
There is evidence that humans can survive a direct lightning strike to the head. Our question is: could water (rain) on the skin contribute to an increase in the survival rate? We measure the influence of rain during high-energy direct lightning strikes on a realistic three-compartment human head phantom. We find a lower number of perforations and eroded areas near the lightning strike impact points on the head phantom when rain was applied compared to no rain. Current amplitudes in the brain were lower with rain compared to no rain before a fully formed flashover. We conclude that rain on the scalp potentially contributes to the survival rate of 70–90% due to: (1) lower current exposition in the brain before a fully formed flashover, and (2) reduced mechanical and thermal damage.
引用
收藏
相关论文
共 47 条
[1]  
Cooper MA(1980)Lightning injuries: Prognostic signs for death Ann. Emerg. Med. 9 134-138
[2]  
Elsom DM(1996)Surviving being struck by lightning: A preliminary assessment of the risk of lightning injuries and death in the British Isles J. Meteorol. 21 197-206
[3]  
Elsom DM(2001)Deaths and injuries caused by lightning in the United Kingdom: Analyses of two databases Atmos. Res. 56 325-334 ISSN 01698095
[4]  
Machts R(2019)Measurement and analysis of partial lightning currents in a head phantom PLOS ONE 14 1-22
[5]  
Hunold A(1986)Lightning injury caused by discharges accompanying flashovers—A clinical and experimental study of death and survival Burns Incl. Therm. Inj. 10 1493-1511
[6]  
Drebenstedt C(2019)An algorithm for estimating the detection efficiency of a lightning location system Geom. Nat. Hazards Risk 16 245-248
[7]  
Rock M(2004)Role of soft bone, CSF and gray matter in EEG simulations Brain Topogr. Summer 15 159-166
[8]  
Leu C(2002)The influence of brain tissue anisotropy on human EEG and MEG NeuroImage 12 677-686
[9]  
Haueisen J(2017)Neurological and neuropsychological consequences of electrical and lightning shock: Review and theories of causation Neural Regen. Res. 140 174-187
[10]  
Ohashi M(2016)Transcranial direct current stimulation changes resting state functional connectivity: A large-scale brain network modeling study Neuroimage 18 293-318
12345