Prolonged Electro‐muscular Incapacitation in a Porcine Model Causes Spinal Injury
Conducted electrical weapons are designed to cause temporary electro‐muscular incapacitation (EMI) without significant injury. The objective of this study was to assess the risk and cause of spinal injury due to exposure to a benchtop EMI device. Porcine subjects were exposed to 19 and 40 Hz electri...
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| Published in | Journal of forensic sciences Vol. 65; no. 1; pp. 144 - 153 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Wiley Subscription Services, Inc
01.01.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-1198 1556-4029 1556-4029 |
| DOI | 10.1111/1556-4029.14177 |
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| Abstract | Conducted electrical weapons are designed to cause temporary electro‐muscular incapacitation (EMI) without significant injury. The objective of this study was to assess the risk and cause of spinal injury due to exposure to a benchtop EMI device. Porcine subjects were exposed to 19 and 40 Hz electrical stimuli for a prolonged duration of 30 sec. X‐ray imaging, necropsy, and accelerometry found that lumbosacral spinal fractures occurred in at least 89% of all subjects, regardless of the stimulus group, and were likely caused by musculoskeletal fatigue‐related stress in the lumbosacral spine. Spinal fractures occurred in the porcine model at an unusually high rate compared to human. This may be due to both the prolonged duration of electrical stimulation and significant musculoskeletal differences between humans and pigs, which suggests that the porcine model is not a good model of EMI‐induced spinal fracture in humans. |
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| AbstractList | Conducted electrical weapons are designed to cause temporary electro-muscular incapacitation (EMI) without significant injury. The objective of this study was to assess the risk and cause of spinal injury due to exposure to a benchtop EMI device. Porcine subjects were exposed to 19 and 40 Hz electrical stimuli for a prolonged duration of 30 sec. X-ray imaging, necropsy, and accelerometry found that lumbosacral spinal fractures occurred in at least 89% of all subjects, regardless of the stimulus group, and were likely caused by musculoskeletal fatigue-related stress in the lumbosacral spine. Spinal fractures occurred in the porcine model at an unusually high rate compared to human. This may be due to both the prolonged duration of electrical stimulation and significant musculoskeletal differences between humans and pigs, which suggests that the porcine model is not a good model of EMI-induced spinal fracture in humans. Conducted electrical weapons are designed to cause temporary electro-muscular incapacitation (EMI) without significant injury. The objective of this study was to assess the risk and cause of spinal injury due to exposure to a benchtop EMI device. Porcine subjects were exposed to 19 and 40 Hz electrical stimuli for a prolonged duration of 30 sec. X-ray imaging, necropsy, and accelerometry found that lumbosacral spinal fractures occurred in at least 89% of all subjects, regardless of the stimulus group, and were likely caused by musculoskeletal fatigue-related stress in the lumbosacral spine. Spinal fractures occurred in the porcine model at an unusually high rate compared to human. This may be due to both the prolonged duration of electrical stimulation and significant musculoskeletal differences between humans and pigs, which suggests that the porcine model is not a good model of EMI-induced spinal fracture in humans.Conducted electrical weapons are designed to cause temporary electro-muscular incapacitation (EMI) without significant injury. The objective of this study was to assess the risk and cause of spinal injury due to exposure to a benchtop EMI device. Porcine subjects were exposed to 19 and 40 Hz electrical stimuli for a prolonged duration of 30 sec. X-ray imaging, necropsy, and accelerometry found that lumbosacral spinal fractures occurred in at least 89% of all subjects, regardless of the stimulus group, and were likely caused by musculoskeletal fatigue-related stress in the lumbosacral spine. Spinal fractures occurred in the porcine model at an unusually high rate compared to human. This may be due to both the prolonged duration of electrical stimulation and significant musculoskeletal differences between humans and pigs, which suggests that the porcine model is not a good model of EMI-induced spinal fracture in humans. Conducted electrical weapons are designed to cause temporary electro‐muscular incapacitation (EMI) without significant injury. The objective of this study was to assess the risk and cause of spinal injury due to exposure to a benchtop EMI device. Porcine subjects were exposed to 19 and 40 Hz electrical stimuli for a prolonged duration of 30 sec. X‐ray imaging, necropsy, and accelerometry found that lumbosacral spinal fractures occurred in at least 89% of all subjects, regardless of the stimulus group, and were likely caused by musculoskeletal fatigue‐related stress in the lumbosacral spine. Spinal fractures occurred in the porcine model at an unusually high rate compared to human. This may be due to both the prolonged duration of electrical stimulation and significant musculoskeletal differences between humans and pigs, which suggests that the porcine model is not a good model of EMI‐induced spinal fracture in humans. Conducted electrical weapons are designed to cause temporary electro‐muscular incapacitation ( EMI ) without significant injury. The objective of this study was to assess the risk and cause of spinal injury due to exposure to a benchtop EMI device. Porcine subjects were exposed to 19 and 40 Hz electrical stimuli for a prolonged duration of 30 sec. X‐ray imaging, necropsy, and accelerometry found that lumbosacral spinal fractures occurred in at least 89% of all subjects, regardless of the stimulus group, and were likely caused by musculoskeletal fatigue‐related stress in the lumbosacral spine. Spinal fractures occurred in the porcine model at an unusually high rate compared to human. This may be due to both the prolonged duration of electrical stimulation and significant musculoskeletal differences between humans and pigs, which suggests that the porcine model is not a good model of EMI ‐induced spinal fracture in humans. |
| Author | Kamykowski, Michael G. Moreno, Justin A. Burns, Jennie M. Jirjis, Michael B. |
| Author_xml | – sequence: 1 givenname: Jennie M. surname: Burns fullname: Burns, Jennie M. email: jennie.burns@gdit.com organization: General Dynamics Information Technology – sequence: 2 givenname: Michael G. surname: Kamykowski fullname: Kamykowski, Michael G. organization: General Dynamics Information Technology – sequence: 3 givenname: Justin A. surname: Moreno fullname: Moreno, Justin A. organization: General Dynamics Information Technology – sequence: 4 givenname: Michael B. surname: Jirjis fullname: Jirjis, Michael B. organization: U.S. Air Force Research Laboratory |
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| Copyright | 2019 American Academy of Forensic Sciences. This article has been contributed to by US Government employees and their work is in the public domain in the USA. 2020 American Academy of Forensic Sciences |
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| Keywords | swine acceleration muscle contraction spinal injuries X-rays forensic science conducted energy weapon injuries spinal fractures Sus scrofa autopsy |
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| Notes | Work was supported by the U.S. Department of Defense Non‐Lethal Weapons Program, Joint Non‐Lethal Weapons Directorate. The U.S. Department of Defense Non‐Lethal Weapons Program, Joint Non‐Lethal Weapons Directorate provided all funding for this research. The opinions expressed on this document, electronic or otherwise, are solely those of the author(s). They do not represent an endorsement by or the views of the United States Air Force, the Department of Defense, or the United States Government. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 |
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| Snippet | Conducted electrical weapons are designed to cause temporary electro‐muscular incapacitation (EMI) without significant injury. The objective of this study was... Conducted electrical weapons are designed to cause temporary electro‐muscular incapacitation ( EMI ) without significant injury. The objective of this study... Conducted electrical weapons are designed to cause temporary electro-muscular incapacitation (EMI) without significant injury. The objective of this study was... |
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| SubjectTerms | acceleration Accelerometers Animals autopsy conducted energy weapon injuries Conducted Energy Weapon Injuries - diagnostic imaging Conducted Energy Weapon Injuries - pathology Electric Stimulation - instrumentation Forensic Medicine forensic science Fractures Fractures, Comminuted - diagnostic imaging Fractures, Comminuted - pathology Humans Lumbar Vertebrae - diagnostic imaging Lumbar Vertebrae - injuries Lumbar Vertebrae - pathology Models, Animal muscle contraction Radiography Sacrum - diagnostic imaging Sacrum - injuries Sacrum - pathology Spinal cord injuries spinal fractures Spinal Fractures - diagnostic imaging Spinal Fractures - pathology spinal injuries Sus scrofa Swine X‐rays |
| Title | Prolonged Electro‐muscular Incapacitation in a Porcine Model Causes Spinal Injury |
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