Axillary artery cannula for achieving no perfusion ischemic areas during extracorporeal circulation period and application thereof

A technique of extracorporeal circulation and axillary artery, applied in the direction of catheters, etc., can solve the problems of difficult to achieve blood flow distribution and pressure regulation, easy damage to the axillary artery subclavian vein, right common carotid artery ischemia, etc., to reduce ischemia time. , The effect of shortening the operation time and reducing blood damage

Inactive Publication Date: 2014-12-17
黄晓
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The existing technology usually uses a straight intubation tube with a length of 20 cm, one end of which is connected to the artificial heart-lung machine arterial perfusion tube, and the other end is inserted into the right axillary artery. Because the right axillary artery is located deep, it is difficult to expose and intubate, and it is easy to damage the axillary artery. Arteries, subclavian veins, axillary nerves, etc., the operation is more difficult
Moreover, during the operation, the patient’s right upper limb at the distal end was always in an ischemic state due to the intubation facing the proximal end; an artificial blood vessel with a diameter of 8 mm was used, one end was connected to the arterial perf

Method used

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  • Axillary artery cannula for achieving no perfusion ischemic areas during extracorporeal circulation period and application thereof
  • Axillary artery cannula for achieving no perfusion ischemic areas during extracorporeal circulation period and application thereof
  • Axillary artery cannula for achieving no perfusion ischemic areas during extracorporeal circulation period and application thereof

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Embodiment 1

[0034] Such as figure 1 , the simplest structure of the present invention includes the cannula main body 1 at the blood supply end, which is characterized in that it also includes two branch short tubes with shunt and partial pressure that communicate with the cannula main body 1—the proximal end tube 2 and the The distal end tube 3' forms a medical perfusion plastic tube with a T-shaped structure on the overall structure. The internal diameters are all taken as 8mm, and the ends of the proximal end tube 2 and the distal end tube 3 form a 45° bevel 5 to facilitate intubation.

[0035] Usually, the length of the main body of the intubation tube is 20 cm, and the length of the proximal end tube 2 and the distal end tube 3 is 1.5 cm and 1.0 cm, respectively.

Embodiment 2

[0037] Such as Figure 4 , the present invention includes a cannula main body 1 at the blood supply end, which is characterized in that it also includes a proximal end tube 2 and a distal end tube 3 communicating with the cannula main body 1, and the three are medical plastics with a Y-shaped structure on the same plane tube, and the proximal tube 2 and the cannula body 1 at the blood supply end form an included angle of 135°, that is, Q is an included angle of 45° to reduce blood flow resistance and pump pressure, thereby ensuring perfusion flow and reducing blood damage.

Embodiment 3

[0039] Such as image 3 , the present invention includes a cannula main body 1 at the blood supply end, which is characterized in that it also includes two branch tubes that communicate with the cannula main body 1 and have a shunt and a partial pressure effect—a proximal end tube 2 and a distal end tube 3, forming The perfusion plastic tube for medical extracorporeal circulation with a T-shaped or Y-shaped structure in the overall structure, and the above-mentioned perfused plastic tube with a T-shaped or Y-shaped structure in the overall structure, its proximal end tube 2 and distal end tube The ends of 3 can be spherical crowns with side holes, and there are 6 symmetrically arranged side holes, and it is ensured that the total area of ​​each side hole is greater than the maximum opening area of ​​the intubation tube main body 1.

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Abstract

The invention relates to an axillary artery cannula for achieving no perfusion ischemic areas during extracorporeal circulation period and application thereof. The axillary artery cannula comprises a cannula body with a blood supplying end, and is characterized by also comprising a proximal artery tube and a distal artery tube which communicate with the cannula body and play roles in shunting and sharing pressure, thus forming an extracorporeal circulation plastic perfusion tube of which the whole structure is T-shaped or Y-shaped, wherein an included angle is reserved between the proximal artery tube of the perfusion tube with Y-shaped structure and the cannula body of the blood supplying end to distribute and adjust blood flow volume of perfusion. The axillary artery cannula is applied to a right axillary artery to achieve systemic arterial perfusion during the extracorporeal circulation period and selective cerebral perfusion during deep hypothermic circulatory arrest, and meanwhile can avoid right upper limb ischemia. Obviously, the axillary artery cannula can meet systemic arterial perfusion during the extracorporeal circulation period and cerebral perfusion during circulatory arrest, can distribute and adjust perfusion blood flow, and achieves no perfusion ischemic areas; and the axillary artery cannula is simple and convenient to operate, easy and reliable to fix, not prone to rising perfusion pressure and causing blood leakage, less in blood damage, greatly shortened in operation time and reduced in right upper limb ischemic time.

Description

[0001] technology field. [0002] The invention relates to the field of medical devices, in particular to an axillary artery cannula without perfusing ischemic regions during extracorporeal circulation and its application. Background technique [0003] The existing technology usually uses a straight intubation tube with a length of 20 cm, one end of which is connected to the artificial heart-lung machine arterial perfusion tube, and the other end is inserted into the right axillary artery. Because the right axillary artery is located deep, it is difficult to expose and intubate, and it is easy to damage the axillary artery. Arteries, subclavian veins, and axillary nerves are more difficult to operate. Moreover, during the operation, the patient’s right upper limb at the distal end was always in an ischemic state due to the intubation facing the proximal end; an artificial blood vessel with a diameter of 8 mm was used, one end was connected to the arterial perfusion tube of the...

Claims

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Application Information

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IPC IPC(8): A61M25/14
Inventor 黄晓朱蕾黄强
Owner 黄晓
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