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Apparatuses and methods for performing minimally invasive diagnostic and surgical procedures inside of a beating heart

a technology of applied in the field of apparatus and methods for performing minimally invasive diagnostic and surgical procedures inside of the beating heart, can solve the problems of valvular insufficiency, inability to precisely measure, blind dilation, etc., and achieves sufficient intracardial pressure, minimizes the need for cardiopulmonary bypass, and minimizes the risk of air introduction

Inactive Publication Date: 2008-07-31
UNIV OF MARYLAND
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This approach reduces the risk of air introduction and emboli, minimizes blood loss, and allows for precise surgical techniques like mitral valve repair without the need for CPB, potentially lowering morbidity and mortality rates and reducing surgical costs.

Problems solved by technology

These dilations were blind in that the patient's blood blocked the surgeon's sight to the valve.
These various techniques were somewhat effective to repair heart valves, but operating “blind” made precision impossible, and dilation often tore the valve, leading to valvular insufficiency.
In addition, embolic brain and other organ injuries occurred due to air entering the heart chambers and to loosening calcific debris.
Like the valve repairs, this procedure was a blind one, due to the surgeon's inability to see through blood that collected in the heart chamber.
In addition, blood loss was unpredictable.
Further, it was easy to entrain air into the cardiac chamber during this procedure, which could cause heart failure, strokes, and death.
Several creative methods were devised to temporarily stop blood flow or briefly turn off the circulation or to support the circulation using another person's circulatory system, but these methods were cumbersome and dangerous, and only the simplest repairs could be performed.
Despite advances, many open-heart surgical procedures still have a 5-9% mortality rate and a 20% morbidity rate.
The advances have not reduced the major complication rates, however, and they are associated with an increased risk of aortic dissection and stroke.
Further, they increase the cost per case by approximately $5000.
The major complication rate has not been reduced because the procedures have not eliminated the need for cardioplegia and CPB, which together account for the majority of the complications.
However, cardiac function is always depressed after cardioplegic arrest, and the longer the duration of arrest, the greater the injury.
In addition to the risks associated with cardioplegia, CPB, in its own right, can be damaging in multiple ways.
This leads to pulmonary dysfunction, third space loss, and neurohumoral imbalances.
Additionally, CPB has negative effects on the immune system.
Surgery of the interior of the heart is not possible with these methods, however, because the methods do not allow the cardiac chambers to be opened.
Opening the cardiac chambers of a beating heart would lead to massive blood loss and air being drawn into the circulation in large amounts.
The clip technique has some potential drawbacks, however, including possible device embolization.
In addition, entering the heart through the apex of the left ventricle increases the risk of blood loss due to the high intracavitary pressures of the ventricle and does not allow for any other work to be performed on the mitral valve.

Method used

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  • Apparatuses and methods for performing minimally invasive diagnostic and surgical procedures inside of a beating heart
  • Apparatuses and methods for performing minimally invasive diagnostic and surgical procedures inside of a beating heart
  • Apparatuses and methods for performing minimally invasive diagnostic and surgical procedures inside of a beating heart

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Embodiment Construction

[0066]The present invention provides apparatuses and methods for performing minimally invasive diagnostic and surgical procedures inside of a beating heart, thereby obviating the need for administration of cardioplegia and cardiopulmonary bypass (CPB). Procedures contemplated by the present invention can include mitral and tricuspid valve repair, aortic and pulmonary valve repair, and repair of intracardiac defects, such as atrial and ventricular septal defects. Repair of the mitral valve in turn can include correcting mitral regurgitation (i.e., annular dilation and heart failure, myxomatous degeneration, and chordal rupture) and mitral stenosis. Other procedures include adjuncts to endovascular surgery and access for electrophysiologic studies. One of ordinary skill in the art will recognize other applications for the present apparatuses and methods.

[0067]In this connection, the present invention provides a valved cardiac port that can be temporarily inserted in a chamber wall of ...

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Abstract

The present invention provides apparatuses and methods for performing minimally invasive diagnostic and surgical procedures inside of a beating heart. An assembly for use in performing such a medical procedure includes a port and a fluid transport device. The port has a housing configured for insertion through a chamber wall of a heart chamber, at least one valve disposed in the housing, and an inlet connected to the housing. The inlet has an inlet passage in fluid communication with a lumen of the housing. The fluid transport device has an end that attaches to the inlet of the port, another end that attaches to a fluid source, and a fluid channel therebetween to pass a fluid from the fluid source to the heart chamber. A method of preparing a beating heart for a diagnostic or medical procedure comprises the steps of inserting a cardiac port through a chamber wall of the beating heart and pressurizing the heart chamber with blood from the patient's artery. Repair of the heart's mitral valve can be effected by a stapled annuloplasty procedure. Where sutures are used in the diagnostic or surgical procedure, a suture cutting device for cutting a suture inside a beating heart can be used. The suture cutting device can include an elongated body having a lumen, a wall member extending into the lumen, and a knot-receiving chamber defined by a first area on a first side of the wall member. The wall member defines a channel therethrough dimensioned to permit passage of a suture and to prevent passage of a knot. A cutting implement is movably disposed in the lumen in a second area on a second side of the wall member opposite the first side. The cutting implement moves between a first position and second position to cut the suture. Movement of the cutting implement is limited to ensure that the cutting implement does not cut through the suture knot.

Description

[0001]This application claims the benefit of U.S. Provisional Application No. 60 / 212,075, filed Jun. 20, 2000, incorporated by reference herein in its entirety.FIELD OF THE INVENTION[0002]The present invention relates generally to an apparatuses and methods for performing minimally invasive diagnostic and surgical procedures inside of a beating heart. More particularly, the present invention relates to an apparatuses and methods for accessing the heart chamber and performing minimally invasive diagnostic and surgical procedures, including diagnosing and repairing pathology of the heart valves (aortic, mitral, pulmonary and tricuspid) and the cardiac chambers (atrial and ventricular septums), inside of a heart while the heart is still beating.BACKGROUND OF THE INVENTION[0003]Diagnostic and reparative surgical procedures have been performed on the heart since at least the 1920s. The first attempts at repairing heart valves began in 1923 with Cutler and Levine performing blind dilation...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61F2/24A61B17/03
CPCA61B2017/3425A61B2017/3441A61F2/2466A61F2/2445
Inventor DOWNING, STEPHEN W.
Owner UNIV OF MARYLAND
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