RU91674U1 - INTRACORONARY CONDUCTOR (OPTIONS) - Google Patents

Abstract

1. Intracoronary conductor, consisting of a metal core, a braided distal tip made of platinum, in the form of a core in the tip or a simulated tape, with a hydrophilic coating having a straight or curved shape, a soldered end and a Teflon sheath, characterized in that the core is made with 350-450 cm long and 0.009 inches in diameter, and a distal tip with 5-30 mm long and 0.009 inches in diameter. ! 2. Intracoronary conductor, consisting of a metal core, a braided distal tip made of platinum, in the form of a core in the tip or simulated tape, with a hydrophilic coating, having a straight or curved shape, a soldered end and a Teflon sheath, characterized in that at the proximal end the core is made of a braided or silicone tip with a length of 20-50 mm and a diameter of 0.014 inches.

Description

The utility model relates to the field of cardiology, namely to cardiac surgical instruments and can be used to perform the coronary loop technique in retrograde recanalization of coronary artery occlusion.

Damage to the coronary vessels of the myocardium with atherosclerotic plaques, which narrow the lumen of the coronary vessels, leads to coronary heart disease (CHD), which develops into acute myocardial infarction and is the main one, including in relation to injuries and oncology, the cause of premature disability and death of people. To eliminate the narrowing of the coronary vessels and restore the necessary blood flow, cardiological and cardiosurgical methods are used.

Cardiac surgery ischemic heart disease is divided into two methods of surgical intervention: open heart cardiac surgery or coronary artery bypass grafting (CABG) and endovascular (intravascular) surgery or coronary angioplasty (CAP).

Coronary angioplasty is based on the use of dilated (expanding) balloon catheters and intracoronary prosthetic stents. A dilated balloon catheter is a flexible catheter tube with two or more shafts, through one of which an intracoronary conductor passes, which is the main delivery device for the coronary stent. Development of the design of optimal coronary conductors used in combination with coronary balloon catheters or stent delivery systems for coronary angioplasty is an urgent task

Intracoronary conductors consist of three main structural elements:

one). An axial steel rod (core), which is a guide for introducing into the lumen of the vessel other instruments for interventional angioplasty (balloon, microcatheter, stent, etc.). The distal part of the axial steel rod, which leads into the coronary artery, has a smaller diameter and passes into a thin wire that makes up the tip of the conductor.

2). Distal tip. It can be made in the form of a polymeric cover or in the form of a spiral, which has a different length and wraps around a steel rod at the distal end. Options for distal tips: a) Braided (Steel with an internal platinum braid for radiopacity); b) Polymer (Polymeric cover with inclusions of tungsten for radiopaque). There are two types of distal tips: 1) The core in the tip (creates tight support, designed for resistive lesions); 2) Modeled tape (retains its shape, arthraumatic).

Known intracoronary conductor (figure 1), consisting of an elastic core made of a linear nitinol alloy having a length of 300 cm and a diameter of 0.014 inches (1), a braided distal tip with a length of 10-30 mm (2) connected to the soldered end ( 3), the proximal end for alignment with an extension conductor (4) and a polymer shell with a hydrophilic coating (5) (Abbott Vascular Company catalog at http://www.cardiomedics.ru/item_view.php?id=3)

A disadvantage of the known conductor is its inefficiency in performing the coronary loop technique in retrograde recanalization of coronary artery occlusion.

The closest analogue to the claimed intracoronary conductor - the prototype, is a conductor (figure 2), consisting of the following structural elements: a core made of stainless steel or nitinol having a length of 175-300 cm and a diameter of 0.014 inches (1), a braided distal tip a straight or curved shape with a length of 10-30 mm, in the form of a core in the tip or simulated tape, with a hydrophilic coating (2), a soldered end (3), and a Teflon sheath (4) (http://vascular.exten.ru/ other_guide_wires)

When performing angioplasty on an occluded coronary artery in a retrograde manner, the coronary loop technique is used through a guide catheter installed to the mouth of the unaffected coronary artery. Next, the coronary conductor is passed through the collateral vessel into the distal part of the occluded coronary artery. After the retrograde passage of the occluded segment of the vessel through a double-lumen balloon catheter or microcatheter, the standard length conductor is replaced with a 300 cm long conductor. Next, the conductor is guided into the contralateral conductor catheter or into the ascending aorta, where it is captured by a goose-neck trap and brought out. Thus, a coronary loop is created, while both ends of the conductor are outside, then the soft tip of the conductor is carefully cut, then antegrade and stenting are performed antegrade.

The disadvantages of the known conductor are its limited functionality, in particular, due to the non-optimal length, since outside the operator’s hands are short (20-30 cm) ends of the conductors, which makes it difficult to hold stents or cylinders to the lesion site. In addition, in the case of massive calcification of this conductor, it is not possible to perform rotational ablation.

The technical task of the proposed utility model is to increase the level of conductor patency through the occluded coronary artery (option I) and increase the functionality of the latter (option II)

The technical task is achieved by the proposed intracoronary conductor (two options), consisting of the following structural elements.

Option 1 (figure 3):

The intracoronary conductor consists of a metal core having a length of 350-450 cm and a diameter of 0.009 inches (1), a straight or curved distal braided tip made of platinum in the form of a core in the tip or simulated tape, with a hydrophilic coating, having a length of 5-30 mm and a diameter of 0.009 inches (2), a soldered end (3), and a Teflon sheath (4).

Option 2 (figure 4):

The intracoronary conductor consists of a metal core having a length of 180-300 cm and a diameter of 0.014 inches (1), a distal braided or silicone tip of a straight or curved shape made of platinum in the form of a core in the tip, with a hydrophilic coating, having a length of 5-30 mm and a diameter of 0.014 inches (2), a soldered end (3), a straight or curved proximal braided or silicone tip made of platinum in the form of a core in the tip or a simulated tape having a length of 20-50 mm and a diameter of 0.014 inches (4) and Teflon shell (5).

For the manufacture of the distal tip, mainly an MP 35 N grade platinum alloy is used. The proposed intracoronary conductor (two versions) is characterized by a high level of passability, with a rotation transmission of 1: 1, with the possibility of forming the shape of the tip.

The inventive intracoronary conductor (two options) is used as follows.

An intracoronary conductor is inserted into the coronary artery through the conductor catheter installed to the mouth of the unaffected coronary artery, and then through the catheter into the distal part of the occluded artery. After the retrograde passage of the occluded segment of the vessel through a double-lumen balloon catheter or microcatheter, the intracoronary conductor 175 cm long is replaced with the proposed conductor 350-450 cm long (option 1). Next, the conductor is guided into the contralateral guiding catheter or into the ascending aorta, where it is captured by a goose neck trap and pulled out through the guiding catheter, creating a coronary loop, the ends of the guides that are sufficient in length (70-150 cm) are located outside the operator’s hands, which allows you to quickly, without technical difficulties, carry out stents or balloons to the lesion site. The soft tip of the conductor is carefully cut, then antegrade and pre-dilatation and stenting are performed through the proximal (trimmed) end of the conductor.

The conductor (option 2) is used when performing the coronary loop technique in the case when it becomes necessary not to leave the proximal end of the conductor outside, and pulling the conductor out of the contralateral catheter to leave the proximal end of the conductor in the artery, thus the retrograde conductor is converted to antegrade because it has an atraumatic distal tip with similar properties of the proximal tip of the coronary conductor.

The defining difference of the inventive coronary conductor (options) from the prototype is that the first version of the conductor has experimentally selected optimal dimensions of length and diameter, and the second option is made with two working ends (distal and proximal), which allows to expand the functionality of the conductor and to use it not only when carrying out a standard operation of coronary angioplasty, but also when performing its modification regarding the technique of the coronary loop with retrograde recanalization of coronary artery occlusion.

Using the proposed coronary conductor (options) allows you to eliminate chronic occlusion of the coronary arteries in a retrograde manner using the technique of the coronary loop, providing a sufficient length and diameter of the conductor for quick and efficient conduct of special endovascular instruments.

Considering that the base of domestic cardiac surgical instruments is limited for this period, the proposed intracoronary guide will expand the range of manufactured instruments for cardiac surgery.

Claims (2)

1. Intracoronary conductor, consisting of a metal core, a braided distal tip made of platinum, in the form of a core in the tip or a simulated tape, with a hydrophilic coating having a straight or curved shape, a soldered end and a Teflon sheath, characterized in that the core is made with 350-450 cm long and 0.009 inches in diameter, and a distal tip with 5-30 mm long and 0.009 inches in diameter. 2. Intracoronary conductor, consisting of a metal core, a braided distal tip made of platinum, in the form of a core in the tip or simulated tape, with a hydrophilic coating having a straight or curved shape, a soldered end and a Teflon sheath, characterized in that at the proximal end the core is made of a braided or silicone tip with a length of 20-50 mm and a diameter of 0.014 inches.