Craniocerebral underwater impact injury experimental device capable of accurately causing injury

An experimental device and brain technology, applied in the field of diving medicine, can solve problems such as inability to breathe normally, animal models caused by a single factor, etc., and achieve the effect of simple structure, small explosive source equivalent and high safety

Inactive Publication Date: 2021-05-11
张丹枫 +2
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] Aiming at the above-mentioned shortcomings, the present invention provides an experimental device for accurately causing traumatic underwater trauma to the brain, which not only overcomes the de

Method used

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  • Craniocerebral underwater impact injury experimental device capable of accurately causing injury
  • Craniocerebral underwater impact injury experimental device capable of accurately causing injury

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Embodiment

[0017] Examples of the present invention are Figure 1 to Figure 2 As shown, the present invention includes a detonating device 1 , a shock wave generator 2 , a pressure detector 3 , a rat 4 and a head holder 5 . Detonation device 1 includes Nd:YAG laser 6 and quartz fiber 7 ; shock wave generator 2 includes explosion chamber 8 and miniature explosion source 9 ; pressure detector 3 includes hydrophone 10 , data line 11 and digital oscilloscope 12 .

[0018] In this embodiment, the Nd:YAG laser 6 is a yttrium aluminum garnet crystal laser, which is a solid-state laser and can excite a pulsed laser for detonating a micro-explosion source 9. Its wavelength is 1064 mm, its pulse width is 7 μs, and its pulse energy is 25mJ; one end of the quartz fiber 7 is connected to the Nd:YAG laser 6, and the other end is connected to the micro-explosion source 9, which is used to guide the pulsed laser, and finally detonate the micro-explosion source 9. Its material is quartz glass, covered wi...

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Abstract

The invention relates to a craniocerebral underwater impact injury experimental device capable of accurately causing injury. The craniocerebral underwater impact injury experimental device comprises a detonating device, an impact wave generator, a pressure detector, a rat and a head fixator, wherein the detonating device comprises an Nd: YAG laser and a silica fiber; the shock wave generator comprises an explosion cabin and a micro explosion source; the pressure detector comprises a hydrophone, a data line and a digital oscilloscope; the Nd: YAG laser can excite pulse laser to detonate the micro explosion source; the ellipsoidal explosion cabin can reflect shock waves and focus the shock waves on the hippocampus CA1 area on the left side of the rat; and the hydrophone is located on the side wall of the explosion cabin and transmits measured shock wave pressure data to the digital oscilloscope. During an experiment, after the rat is anesthetized, a hole is drilled in the skull and is fixed by the head fixaor; and the head fixator and the explosion cabin are filled with normal saline to avoid energy attenuation. The craniocerebral underwater impact injury experimental device is simple in structure, high in stability, good in repeatability, capable of causing underwater shock wave accurate injury and pure craniocerebral injury, and suitable for underwater medical scientific research experiments such as underwater impact injury.

Description

technical field [0001] The invention belongs to diving medicine, and in particular relates to an experimental device for underwater impact injury of craniocerebral which can accurately injure. Background technique [0002] In modern naval warfare, major changes have taken place in weaponry and combat methods. There are more and more underwater combat personnel, and underwater weapons such as torpedoes, mines, and depth charges are equipped and applied on a large scale. Therefore, the shock waves of underwater explosions cause more and more injuries to personnel in underwater combat positions, which has become a hot spot and difficulty in military medicine in the world. The density of water is 800 times that of air, and it is relatively incompressible. Compared with air shock waves, underwater shock waves have the characteristics of fast propagation speed, long propagation distance and no typical compression zone and sparse zone, so it can cause injury The mechanism and dama...

Claims

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Application Information

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IPC IPC(8): A61D1/00A61D3/00A61D7/00A61D7/04
CPCA61D1/00A61D3/00A61D7/00A61D7/04A61D2003/003
Inventor 张丹枫朱开鑫陈吉钢侯立军张孝凤李振兴王君玉韩凯伟朱一白
Owner 张丹枫
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