Minimally invasive coronary artery graft intravascular continuous stem cell injection system

A coronary artery and injection system technology, applied in the field of medical devices, to prevent excessive stretching, prevent repeated needle sticks, and avoid traumatic surgery

Inactive Publication Date: 2017-10-31
THE FIRST HOSPITAL OF CHINA MEDICIAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The guide needle can guide the cannula into the graft vessel and place it in the graft vessel; the trocar sealing structure is used to seal the trocar hole on the graft vessel after the trocar is pulled out to prevent bleeding; the guide needle hole is closed The structure is used to close the guide needle hole after the guide needle is taken out to prevent bleeding; when the guide needle is inserted into the cannula through the back end of the infusion tube, the guide needle can be pulled out directly during use without considering the problem of blocking the guide needle hole; the infusion tube The cannula is connected and the rear end is set with the outside body, and stem cells or drugs can be infused from outside the body to the graft vessel continuously or intermittently through the infusion tube

Method used

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  • Minimally invasive coronary artery graft intravascular continuous stem cell injection system
  • Minimally invasive coronary artery graft intravascular continuous stem cell injection system
  • Minimally invasive coronary artery graft intravascular continuous stem cell injection system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Embodiment 1 A minimally invasive coronary artery graft intravascular stem cell continuous injection system

[0030] A minimally invasive coronary artery graft continuous stem cell injection system, comprising a cannula 1, a guide needle 2 is arranged inside the cannula 1, and the rear end of the cannula 1 is connected to an infusion tube 4, wherein the guide needle 2 is inserted into the sleeve through the back end of the infusion tube In the tube, the cannula needle hole sealing structure 32 outside the rear part of the cannula 1 is used to block the cannula needle hole; the front end of the infusion tube 4 is connected to the rear end of the cannula 1 and installed in the body, and the rear end of the infusion tube 4 is set through the skin Outside the body of the infusion tube 4, a hard sheath tube 5 is arranged outside the body; the trocar hole sealing structure is used to block the trocar hole on the bridge vessel after the trocar is pulled out, so as to prevent bl...

Embodiment 2

[0032] Embodiment 2 A minimally invasive coronary artery graft intravascular stem cell continuous injection system

[0033] A minimally invasive coronary artery graft continuous stem cell injection system, comprising a cannula 1, a guide needle 2 is arranged inside the cannula 1, and the rear end of the cannula 1 is connected to an infusion tube 4, wherein the guide needle 2 is inserted into the cannula through the cannula 1 Inside 1, the guide needle hole sealing structure 31 and the cannula needle hole sealing structure 32 on the outer rear part of the cannula 1 are respectively used to block the guide needle 2 hole and the cannula needle hole; the front end of the infusion tube 4 is connected to the back end of the cannula 1 Set in the body, the rear end of the infusion tube 4 is passed through the skin and placed outside the body; a hard sheath tube 5 is set outside the body part of the infusion tube 4; the guide needle 2 can guide the cannula 1 into the graft vessel and pl...

Embodiment 3

[0035] Example 3 A minimally invasive coronary artery graft intravascular stem cell continuous injection system

[0036] A minimally invasive coronary artery graft continuous stem cell injection system, comprising a cannula 1, a guide needle 2 is arranged inside the cannula 1, and the rear end of the cannula 1 is connected to an infusion tube 4, wherein the guide needle 2 is inserted into the cannula through the cannula 1 Inside 1, the guide needle hole sealing structure 31 and the cannula needle hole sealing structure 32 on the outer rear part of the cannula 1 are respectively used to block the guide needle 2 hole and the cannula needle hole; the front end of the infusion tube 4 is connected to the back end of the cannula 1 Set in the body, the rear end of the infusion tube 4 is pierced through the skin and placed outside the body; a hard sheath 5 is set outside the body of the infusion tube 4; the guide needle 2 can guide the sleeve 1 into the graft vessel and place it in the...

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PUM

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Abstract

The present invention is a minimally invasive coronary artery graft intravascular continuous stem cell injection system, comprising a cannula, a guide needle, and an infusion tube, characterized in that the guide needle is inserted into the cannula through the cannula or inserted into the cannula through the rear end of the infusion tube The front end of the infusion tube is connected to the rear end of the sleeve, and is installed in the body during use; the rear end of the infusion tube is passed through the skin and placed outside the body; a hard sheath is set outside the inner part of the infusion tube; the rear part of the sleeve A trocar hole sealing structure for blocking the trocar needle hole is arranged on the outside; when the guide needle is inserted from the cannula, a guide needle hole sealing structure is also arranged on the outside of the cannula. The device is used to continuously stay in the graft vessel after coronary artery bypass grafting, and inject stem cells intermittently or continuously into the graft vessel. The device is less invasive and can inject stem cells or other therapeutic drugs into the graft vessel outside the body at any time. Can be safely left in the body when not in use.

Description

technical field [0001] The invention belongs to a medical device for injecting stem cells in the body, in particular to a medical device for injecting stem cells or drugs into graft vessels after coronary artery bypass surgery, and specifically relates to a minimally invasive continuous injection of stem cells in coronary artery graft vessels system. Background technique [0002] The operation is to take the patient's own blood vessels (such as the internal thoracic artery, the great saphenous vein of the lower extremities, etc.) or blood vessel substitutes, connect the distal end of the narrowed coronary artery with the aorta, and let the blood pass through the narrowed part and reach the ischemic part. site, improve myocardial blood supply, and then achieve the purpose of relieving angina symptoms, improving heart function, improving the quality of life of patients and prolonging life. The procedure, called coronary artery bypass grafting, creates a clear path between the...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61M5/14
Inventor 张光伟
Owner THE FIRST HOSPITAL OF CHINA MEDICIAL UNIV
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