Establishment of an animal model of deep tissue defect caused by high-explosive ammunition fragment in mini-pigs

doi:10.3877/cma.j.issn.1673-9450.2017.01.002

Chinese Journal of Injury Repair and Wound Healing(Electronic Edition) ›› 2017, Vol. 12 ›› Issue (01): 7-12. doi: 10.3877/cma.j.issn.1673-9450.2017.01.002

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Establishment of an animal model of deep tissue defect caused by high-explosive ammunition fragment in mini-pigs

Fan Zhao¹, Daifeng Hao¹^,^†(), Guang Feng¹, Wanli Chu¹, Jiake Chai¹, Shu Wang², Yongxi Jin², Zequn Chen¹, Kesong Yan³

^1. Department of Burn and Plastic Surgery, Wound Repair Center, the First Hospital Affiliated to the People′s Liberation Army of China General Hospital, Beijing 100048, China
^2. Key Laboratory of Light Weapons Endpoint Kill Technology, the 208th Research Institute of China Ordnance Industry, Beijing 102202, China
^3. Laboratory Animal Center, the First Hospital Affiliated to the People′s Liberation Army of China General Hospital, Beijing 100048, China

Received:2016-11-26 Online:2017-02-01 Published:2017-02-01
Contact: Daifeng Hao
About author:
Corresponding author: Hao Daifeng, Email: hdf304@126.com

Abstract

Abstract:

Objective

To estimate the characteristics of ballistics and deep soft tissue injury of the animal model of deep tissue defect caused by high explosive ammunition firearm wound in miniature pigs and thus provide a clear theoretical basis for the establishment of the animal model.

Method

Sixteen Bama mini-pigs were divided into four groups according to the load of ammunition and fragment weight. After injury, the initial velocity of fragment and wound depth were measured as well as the entry area volume of wound track. The muscle samples were obtained from wound track for pathological observation.

Result

Compared with other groups, the result showed the average entrance area (0.66±0.05) cm^2, wound length (4.5±0.3) cm and unit length of wound tract volume (2.11±0.24) cm³ were caused by large fragment(0.234 g), which was launched by 0.5 g ammunition , there were no significant differences (P>0.05), but the pathological examination showed deep muscle tissue injury, such as obvious muscle fiber degeneration and necrosis, and there was no vascular injury and fracture.

Conclusions

The degree of deep tissue damage caused by high-explosive munitions gunshot wounds was related to ammunition content and fragment weight. By this method, animal model of deep tissue injury had satisfactory repeatability and no fracture and vascular injury, which is suitable for the study of experimental animals with high-explosive ammunition.

Key words: Firearms, Models, animal, Soft tissue injuries

Fan Zhao, Daifeng Hao, Guang Feng, Wanli Chu, Jiake Chai, Shu Wang, Yongxi Jin, Zequn Chen, Kesong Yan. Establishment of an animal model of deep tissue defect caused by high-explosive ammunition fragment in mini-pigs[J]. Chinese Journal of Injury Repair and Wound Healing(Electronic Edition), 2017, 12(01): 7-12.

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Figures/Tables 15

References 9

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不同破片	弹药含量(g)	入口面积(cm²)	伤道长度(cm)	单位伤道长度的空腔容积(mL/cm)
大破片	0.5	0.66±0.05	4.5±0.3	2.11±0.24
小破片	?	0.42±0.07	5.7±0.3	1.66±0.11
大破片	0.6	0.68±0.03	5.1±0.6	2.06±0.14
小破片	?	0.43±0.02	6.7±0.4	1.74±0.31
大破片	0.7	0.67±0.01	5.5±0.5	2.24±0.18
小破片	?	0.45±0.04	7.4±0.5	1.94±0.25
大破片	0.8	0.66±0.06	6.5±0.5	2.11±0.17
小破片	?	0.44±0.03	8.6±0.3	1.97±0.07

不同破片	弹药含量(g)	入口面积(cm²)	伤道长度(cm)	单位伤道长度的空腔容积(mL/cm)
大破片	0.5	0.66±0.05	4.5±0.3	2.11±0.24
小破片	?	0.42±0.07	5.7±0.3	1.66±0.11
大破片	0.6	0.68±0.03	5.1±0.6	2.06±0.14
小破片	?	0.43±0.02	6.7±0.4	1.74±0.31
大破片	0.7	0.67±0.01	5.5±0.5	2.24±0.18
小破片	?	0.45±0.04	7.4±0.5	1.94±0.25
大破片	0.8	0.66±0.06	6.5±0.5	2.11±0.17
小破片	?	0.44±0.03	8.6±0.3	1.97±0.07

投射物种类	弹药含量(g)	骨折(次)	血管损伤(次)
大破片	0.5	0	0
小破片	?	0	0
大破片	0.6	0	1
小破片	?	0	1
大破片	0.7	1	2
小破片	?	2	1
大破片	0.8	2	2
小破片	?	3	0

投射物种类	弹药含量(g)	骨折(次)	血管损伤(次)
大破片	0.5	0	0
小破片	?	0	0
大破片	0.6	0	1
小破片	?	0	1
大破片	0.7	1	2
小破片	?	2	1
大破片	0.8	2	2
小破片	?	3	0

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