Multichannel catheter

Abstract

A single, multichannel catheter useful for extracorporeal circulation of blood to a patient undergoing cardiovascular treatments or surgery. The catheter has three independent channels and an expandable balloon at one end of the catheter. The first channel is the largest and is of a size that allows for delivery of blood to a patient in an amount sufficient to maintain the patient's metabolism and perfusion throughout the treatment or surgery. A second channel, smaller than the first, is integrated into the wall of the first channel and is suitable for delivering a biologically active fluid (e.g., for cardioplegia) to the heart and/or venting the left heart. A third channel, also smaller than the first, is integrated into the wall of the first channel and suitable for delivering a fluid to the balloon for its expansion when positioned in the ascending aorta to occlude the flow of blood to the heart. It is important that the first channel accounts for at least about 70% of the total channel volume. The catheter provides an improved means of performing cardiovascular surgery on a patient using a cardiopulmonary machine for extracorporeal circulation of blood. The catheter is particularly useful for cardiac surgery. The multichannel catheter is best prepared using an extrusion molding technique.

Description

CROSS-REFERENCE[0001] This is a continuation-in-part of U.S. patent application Ser. No. 08 / 766,384 filed Dec. 6, 1996, which in turn is a continuation-in-part of provisional application U.S. application No. 60 / 014,922, filed Apr. 10, 1996.[0002] This invention relates to a multichannel catheter for use in conjunction with cardiovascular examinations, treatments and surgery. It also relates to methods for making and using such a catheter.[0003] To better understand the background and problems faced by those of skill in this area of technology it is useful to understand the basic workings of the heart and circulatory system. The following discussion refers to schematics of the heart shown in FIGS. 1 and 2.[0004] The human heart is a muscular pump having four separate cavities and a series of valves allowing blood to pass in one direction only. Mammals, including humans, have a double circulatory system. Blood that has released oxygen to the tissues (9 and 14) and has absorbed carbon ...

AI Technical Summary

Benefits of technology

0028] It is another object of this invention to provide improvements in the management and treatment of coronary heart disease.

0029] It is another object of this invention to provide for easy positioning of a unique multichannel catheter through insertion into a major branch of the aorta such as the subclavian or femoral artery to locate the distal end of the catheter in the ascending aorta of the mammal and precise placement of the balloon.

Problems solved by technology

However, by reducing or stopping the heart rate (i.e. cardioplegia), blood will not be adequately circulated to the rest of the body.

Also, there is no teaching of the importance of the large volume needed for the blood-carrying catheter.

However, there is no description in the patent of a multichannel catheter which is designed to administer cardioplegia solution, inflate a balloon, and provide circulation of blood all using the same multichannel catheter.

This is a rather complex device and system of venous perfusion and arterial perfusion catheters for use in obtaining total cardiopulmonary bypass support and isolation of the heart during the performance of heart surgery.

While the above devices address in part the needs of the art, it has been discovered that certain problems exist that must be further addressed to maximize the efficiency of the device and cardiopulmonary operations.

The first problem is ensuring maximum flow of blood through the device (which must be of a diameter sufficiently small to fit into a patient's femoral artery) so that the tissues receive enough nourishment (i.e. oxygen, etc.).

Another problem is ensuring that the blood components are not injured by excess flow rate and sheer stress in the circulation process.

Another problem is ensuring the blood flow to the great arteries is maximized to avoid damage to the tissues, particularly the brain.

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