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Radial artery hemostat

A hemostat and radial artery technology, applied in tourniquets, medical science, surgery, etc., can solve the problems of increasing the workload of doctors and nurses, the pressure cannot be measured, and the repeatability is not high, so as to achieve automatic and precise control and avoid radial Effects of arterial occlusion and cost reduction

Active Publication Date: 2014-05-28
上海微创龙脉医疗器材有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The defects of this radial artery hemostat are: 1. Poor reusability, complicated electronic equipment disinfection process will be introduced in actual operation; 2. Complex structure, not easy to observe the wound
The technical defect of this radial artery compressing device is: 1, this invention adopts the method of rotating pressure, the pressure value cannot be measured scientifically, and it is not convenient to find a suitable pressure value; 2, manual pressure release increases the work of medical staff
The defects of the radial artery forceps are: 1. Adopting the empirical setting method, the pressure cannot be measured, and it is not convenient to find the most suitable pressure; 2. The pressure is manually adjusted, which increases the work of medical staff
However, the disadvantages are: 1. The product of this invention has low reproducibility; 2. If it is used repeatedly, it will bring complicated links such as disinfection. If it is used once, it will be expensive and poor in practicability
This method increases the workload of doctors and nurses
[0012] (3) Low reuse rate
Most of the current radial artery hemostats are for one-time use, and the reuse rate is low, which wastes resources and increases the economic pressure of patients
[0013] (4) Complex disinfection process
Even if some electronic radial artery hemostats can be reused, it will bring a complicated disinfection process, and the cost of disinfection is also high

Method used

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Examples

Experimental program
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Embodiment Construction

[0041] figure 1 Shows the block diagram of the control system of the radial artery hemostat of the present invention, the circuit mainly includes MCU21, the MCU21 is connected with a crystal oscillator unit 22, an input unit 23 for receiving signal instructions, a display control unit 24, and an output unit for controlling a pressure pump 251. An output unit 252 for controlling the solenoid valve, a sensor 26, and the like. Among them, the MCU21 can have a high-performance simplistic instruction set, and can be used in a wide range of applications. The MCU has rich function options such as low power consumption, flexible I / O, timer function, optional oscillation type, "watchdog" timer and low voltage reset, and has a very high cost performance. Preferably, the micro-control unit is a single-chip microcomputer control module, especially an ARM control module. In addition, the micro control unit can also be an FPGA control module or the like. The crystal oscillator unit 22 pr...

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Abstract

The invention relates to a radial artery hemostat comprising a wristband (1) and an electronic unit (2) controlling the wristband (1) and further comprising a fixing component (3). The wristband (1) comprises bandage (4) connected with the fixing component and an airbag (5) which is fixed to the bandage; the wristband (1) is fixed to the electronic unit (2) detachably through the fixing component (3). The radial artery hemostat is fixed to the human arm through the bandage (4), and the airbag (5) is inflated or deflated under control of the electronic unit (2). The radial artery hemostat is capable of compressing automatically and decompressing periodically after vascular intervention diagnosis and surgery via the radial artery, realizing quantitative setting of pressure value, and further capable of being reused partially so that production and disinfection costs can be reduced effectively.

Description

technical field [0001] The invention relates to the field of disposable medical devices, in particular to a radial artery hemostat. Background technique [0002] With the improvement of people's living standards, coronary heart disease has gradually become the main killer of human beings. Coronary artery interventional diagnosis and treatment has become one of the main means of diagnosis and treatment of coronary heart disease. At present, the interventional pathways for coronary interventional diagnosis and treatment are mainly divided into femoral artery and radial artery. In 1989, Canadian doctor Campeau pioneered percutaneous radial artery puncture for coronary angiography; in 1992, Dutch doctor Kiemenij reported the results of treatment using this approach. With the promotion and popularization of coronary artery interventional diagnosis and treatment operations around the world, coronary artery intervention through the radial artery has been widely used in clinical in...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B17/135
CPCA61B17/1355A61B2017/00132A61B2017/00199A61B2017/00544A61B2017/12004
Inventor 仪克晶刘智勇张久礼吕冬沈辉郝升旗
Owner 上海微创龙脉医疗器材有限公司
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