NL1006254C2 - MRI-compatible guidewire. - Google Patents

Description

T-103

MRI-compatible guidewire 5

The invention relates to a guide wire for use in inserting a catheter past it under MRI conditions, or under magnetic resonance imaging.

The use of per se known leads in MRI has drawbacks. These lead wires can be heated by the high-frequency field used in MRI. This can cause damage to the tissue surrounding the guidewire in use or, for example, coagulation of blood.

The object of the invention is to provide a guide wire of the type described in the preamble, wherein this drawback does not occur.

This aim is achieved with the guide wire according to the invention in that the guide wire is made of non-metallic material with a high specific electrical impedance. As a result, the high-frequency field variations cannot lead to any significant electrical currents in the material of the guide wire, which are the cause of the temperature increase in the guide wire of the prior art.

The measure of claim 2 is preferably applied. With reinforcing fiber, the desired properties of the guidewire in terms of torsional and bending strength can be suitably achieved.

Preferably, materials are selected here, as characterized in claim 3.

The reinforcing fiber can be contained in an envelope so that the guidewire obtains a cohesive body.

1006254 2

In particular when more thin reinforcement fibers are used, the measure as set out in claim 4 is preferably used. The body of the guide wire then forms a homogeneous whole.

Another suitable embodiment is characterized in claim 5.

The choice of fiber type or types, average fiber length, filling percentage and the like can be varied as desired to give the guidewire the properties suitable for a particular purpose, such as torsional and flexural strength.

A further developed embodiment is characterized in claim 6. In certain circumstances it is desirable for a guidewire to have an end portion of metal, in particular stainless steel. As a result of the measure of claim 6, the heating of this metal end portion will remain limited such that this does not cause any objection.

The invention will be further elucidated in the following description with reference to the attached figures.

Fig. 1 shows a perspective view of a guidewire according to a preferred embodiment of the invention.

Fig. 2 shows a partial longitudinal section of a guidewire according to the invention in a first embodiment.

FIG. 3 shows a partial longitudinal section of a guidewire according to a second embodiment of the invention.

Fig. 4 shows a partial longitudinal section of a guidewire according to a third embodiment of the invention.

The guidewire 1 shown in Fig. 1 comprises a body 2 with a distal end portion 3. The guidewire 1006254 3 guidewire is torsionally rigid but flexible without being limp. The guidewire 1 shown has a straight end portion 3, but other embodiments are also known in which the end portion has a hook shape.

In use, the guide wire 1 is inserted into a patient, the wire being visualized using an imaging technique. The guidewire according to the invention is particularly intended to be used under MRI conditions.

When the guidewire is in place, a catheter is slipped over the guidewire from the proximal end so that it passes through the guidewire at the desired location in the patient's body.

In order to increase the temperature of the lead wire as a result of the changes in the magnetic field used in the magnetic resonance imaging, the guide wire according to the invention is made of non-metallic material with a high specific electrical impedance. As a result, the currents generated by the field changes remain so limited that no significant heat exchange occurs.

The end portion 3 in the shown embodiment is made of stainless steel but has a short length, which is small related to the wavelength of the high-frequency vibrations used in the imaging. As a result, no resonance occurs in the metal of this end portion 3, as a result of which no significant heat development occurs.

Fig. 2 shows in more detail the construction of the body 2 of the catheter of FIG. 1.

The body 2 comprises a jacket 6 in which an amount of fibers 7 directed in their longitudinal direction are received. Depending on the desired properties of the guidewire, these fibers may be, for example, carbon fibers, boron, aramid or glass fibers, or a combination thereof. The jacket 6 is made of a plastic material and, for example, shrunk around the bundle of fibers 7.

In the embodiment as shown in Fig. 3, a series of longitudinally oriented fibers 8 are also used, which, however, are embedded in a plastic matrix 9. The plastic can be suitably chosen to achieve certain properties of the formed guidewire, in particular bending stiffness and torsional stiffness properties.

In the embodiment of Fig. 4, the body 2 comprises reinforcing fibers 10 which are incorporated as short fiber pieces in a plastic matrix 11. A covering layer 12 is provided around the assembly thus formed, which gives the body 2 a smooth surface and above this prevents pieces of fiber 10 from protruding from the surface.

1006254

Claims (8)

1. Guidewire for use in inserting a catheter past it in magnetic resonance imaging, characterized in that the guidewire is made of non-metallic material with a high specific electrical impedance. The guidewire of claim 1, wherein the material comprises reinforcing fiber. The guidewire of claim 2, wherein the reinforcing fiber is selected from the group consisting of carbon, boron, aramid, and glass fiber. The guidewire of claim 2 or 3, wherein the reinforcing fiber is contained in a plastic matrix. The guidewire according to claim 4, wherein the reinforcing fiber is in the form of short fiber pieces. 6. Guidewire according to any one of the preceding claims, comprising an end portion of metal-containing material, with a short length relative to the wavelength of the high-frequency vibrations used in the imaging. Guidewire according to any of the preceding claims, provided with a covering layer. 8. Guidewire according to claim 7, wherein the cover layer is a plastic sheath. 1006254