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Full-simulation neurosurgery surgery platform based on 3D printing and breath cyclic reconstruction

A 3D printing and breathing cycle technology, applied in the medical field, can solve problems such as training effect discounts, patients paying for neurological functions, and the inability to predict various emergency situations, etc., to achieve effective training effects

Inactive Publication Date: 2016-12-14
NANFANG HOSPITAL OF SOUTHERN MEDICAL UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, all training can only be practiced through autopsy and computer simulation, which has a huge gap with the real clinical situation. It is impossible to predict various emergencies that may occur during the operation of real cases, and the inability to realize simulation makes the training effect greatly reduced. These exercises The final result often requires the patient to pay the price of neurological function and even life
[0004] At present, there is no neurosurgery operation platform based on 3D printing simulation based on real data of clinical respiratory cycle

Method used

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  • Full-simulation neurosurgery surgery platform based on 3D printing and breath cyclic reconstruction
  • Full-simulation neurosurgery surgery platform based on 3D printing and breath cyclic reconstruction
  • Full-simulation neurosurgery surgery platform based on 3D printing and breath cyclic reconstruction

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Embodiment

[0021] refer to Figure 1 to Figure 3 , a fully simulated neurosurgery platform based on 3D printing and respiratory circulation reconstruction, including an operation platform for neurosurgery anatomy 1, a fluid circulation power system that forms a flowing fluid pressure system based on clinical breathing, heart rate and blood pressure 2, with blood vessels, nerves and brain tissue The detachable modular airtight brain model 3, the operation platform 1 is equipped with a three-dimensional fixed head frame 4, the brain model 3 is fixed on the three-dimensional fixed head frame 4, the brain model 3 is provided with a liquid inlet and a liquid outlet, The liquid circulation power system 2 is provided with a power output port and a power input port, wherein the power output port of the liquid circulation power system 2 communicates with the liquid inlet of the brain model 3 through a catheter, and the liquid outlet of the brain model 3 communicates with the liquid cycle power sys...

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Abstract

The present invention discloses a full-simulation neurosurgery surgery platform based on 3D printing and breath cyclic reconstruction. The full-simulation neurosurgery surgery platform comprises an operation platform used for neurosurgery dissection, a liquid circulation power system for forming a flowing liquid pressure system according to the clinical breath heart rate and the blood pressure and a detachable modular enclosed brain model possessing the blood vessel nerve brain tissues. A three-dimension fixing head rack is installed on the operation platform, the brain model is fixed on the three-dimension fixing head rack and is equipped with a liquid inlet and a liquid outlet, and the liquid circulation power system is equipped with a power output port and a power input port, wherein the power output port of the liquid circulation power system is communicated with the liquid inlet of the brain model via a catheter, and the liquid outlet of the brain model is communicated with the power input port of the liquid circulation power system. The advantages of the present invention are that: the medical care personnel can simulate and train by the full-simulation neurosurgery surgery platform based on the 3D printing and breath cyclic reconstruction, various emergent emergency situations of a real case during an operation process can be predicted effectively, and the omnibearing clinic simulation and the simulation exercise are realized, so that a training effect is more effective.

Description

technical field [0001] The present invention relates to surgical tools in the medical field, in particular to a fully simulated neurosurgery platform based on 3D printing and respiratory cycle reconstruction with artificial circulation breathing based on clinical data and equipped with a vascular cerebrospinal fluid system. Background technique [0002] With the development of neurosurgery equipment and technology, a large number of brain operations can be carried out, and a large number of neurosurgeons need to be trained. However, for a long time, the training of neurosurgery professionals can only be completed through computer simulation and autopsy, and many trainings close to clinical needs cannot be carried out. Because neurosurgery operations are difficult and risky, and often only the chief surgeon operates alone, the training of neurosurgeons can only accumulate experience by prolonging the clinical observation time, which is also the growth experience of every neur...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G09B23/28
CPCG09B23/28
Inventor 黄广龙张喜安彭俊祥石瑾潘军殷延毅莫益萍邱晓瑜漆松涛
Owner NANFANG HOSPITAL OF SOUTHERN MEDICAL UNIV
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