1. Field of the Invention
The present invention relates to a medical implantable lead comprising an elongate body including a flexible insulating tube and a plurality of conductors.
2. Description of the Prior Art
A medical implantable lead is preferably designed as thin as possible. It also needs to be well flexible in order to be able to follow narrow winding body cavities. A conventional structure is an elongate lumen defined, i.e. formed, by coiled conductors carrying electrical signals for different applications. The lumen is used for facilitating implantation of the flexible lead into a body by means of a slightly stiffer guide wire, stylet or the like, which is inserted into the lumen and maneuvered by an operator, typically a surgeon.
Modern technology imposes demands on increased ability to carry more and more signals for sensing, monitoring and commanding purposes. These demands introduce a conflict between outer diameter of the lead and number of available conductors within the lead, since with the traditional design of the lead a coaxial addition of a conductor coil adds significantly to the diameter of the lead.
Therefore different ways to increase the number of conductors without increasing the outer dimensions of the lead have been proposed. For example, in U.S. Pat. No. 5,201,903 to Corbett et al. there is shown a multi conductor electrical cable, which is said to be suitable for implantation in living bodies. The main embodiment has several, e.g. seven, separately insulated conductors, helically twinned to a cable, which is provided with a further insulating coating forming a single, or integral, unit. The conductors are thin wire conductors having diameters as small as about ten micrometers. There is no teaching in U.S. Pat. No. 5,201,903 of how to implant such a cable into the body. A central lumen is disclosed, which is meant to be used as a catheter, however being to thin to work as a lumen for a stylet or the like. However, it would probably be a simple task to enlarge the central lumen. Notwithstanding the positive properties of such a thin multi conductor cable, it is also suffering from some disadvantages. The manufacturing process of handling such thin wire conductors and embed them in an insulating material to form the electrical cable is rather a difficult task.
It is an object of the present invention to provide a medical implantable lead that alleviates the above-mentioned drawbacks of the prior art.
This object is achieved by a medical implantable lead according to the present invention
Thus, in accordance with an aspect of the present invention, a medical implantable lead has an elongate body including a flexible insulating tube, and a tubular conductor layer consisting of a plurality of separate strip conductors, which are arranged at the outer surface of the insulating tube and extend along the length thereof.
In accordance with another aspect of the present invention the above object is achieved by a method for manufacturing a medical implantable lead, including the steps of providing a flexible insulating tube, and providing the insulating tube with a conductor layer, including a number of separate strip conductors extending along the insulating tube, at an outer surface thereof.
Thus, in its simplest form a tube provided with conductors on the outer surface thereof is obtained in accordance with the teaching of the present invention. Since the tube is flexible, by inserting a stylet or the like into the central cavity thereof, it is possible to implant the lead into a body cavity guided/controlled by means of the stylet. The application of strip conductors, which per se are very thin, and optionally wide, makes it possible to easily arrange a large number of conductors side by side around the tube.
According to an embodiment of the medical implantable lead the elongate body has an insulating layer, which is arranged coaxially of the insulating tube and which covers the strip conductors. This is a typical structure for intra body applications, where the conductors should be insulated from the ambient environment as well as from each others.
According to another embodiment of the medical implantable lead the strip conductors and composed of metal, which has been deposited on the insulating tube. Several techniques already in use are applicable for forming the strip conductors on the insulating tube by means of depositing the metal, for example sputtering, vapor deposition, deposition from a liquid solution, etc.
According to another embodiment of the medical implantable lead the elongate body has a further insulating tube arranged coaxially of the insulating tube and enclosing the multiple strip conductors. Thus, the insulating layer can be of different kinds, such as another tube similar to the basic one.
According to another embodiment of the medical implantable lead the elongate body comprises a further tubular conductor layer of one or more strip conductors arranged on the outer surface of the further insulating tube. In other words, it is possible to form a lead that has two, or more, conductor layers, which are coaxially arranged with insulating material between the conductor layers. A conductor layer can be a single conductor forming a thin metal tube or a portion of a tube, or a large number of stripes arranged at a fraction of the circumference from each other.
These and other aspects, features, and advantages of the invention will be apparent from and elucidated with reference to the embodiments described hereinafter.
a and 6b are enlarged views of a connector portion of a lead shown in
A first embodiment of a lead 101 according to this invention has an elongate body 103, an electrode tip 105 at a distal end 107 of the lead 101, and a connector, or connector portion, 109 at a proximal end 111 of the lead 101. The lead 101, and more particularly the elongate body 103, further has a first, or inner, insulating tube 113, which has a central cavity 115, as shown in
Since the strip conductors are very thin, and the insulating layers are also thin, it is possible to construct various combinations of conductor layers and insulating layers. One such combination, as shown in
It is also possible to combine this lead design with the conventional coil conductors, as shown in
In order to facilitate connection of the elongate body 103 to devices and electrode tips, or bodies, in one embodiment of the lead a connector portion, or connector, 109 is formed at each end of the elongate body 103. The connector at the proximal end 111 is illustrated more closely in
The lead 101 is manufactured as follows. An insulating tube of a suitable plastic or rubber material is formed. The tube is then used as a substrate upon which the conductors are formed. Thus, a thin layer of metal is formed on the lateral area of the tube by means of a suitable method. Preferably an epitaxial process is employed. For example the metal is deposited by sputtering, i.e. using a metal plasma in vacuum, or at a low pressure, by chemical deposition, i.e. a chemical reduction of metal salts in a water solution causes a deposition on an available surface, or by chemical vapor decomposition, i.e. a gas comprising metal compositions is decomposed and then the metal is deposited on an available surface. In order to form a number of separate stripe conductors, a protective film, e.g. a photoresist, is applied to the metal layer, and photo hardened through a mask providing a desired pattern of stripes. Unprotected areas are then etched off. An insulating layer is then applied upon the conductor layer. This insulating layer can be anything from a thin cover to a thicker one having about the same thickness as the innermost tube. Further layers of conductors and insulating material can then be applied in further coaxial tubular structures.
Above, embodiments of the lead and the method for manufacturing a lead according to the present invention have been described. These should be seen as merely non-limiting examples. As understood by those skilled in the art, many modifications and alternative embodiments are possible within the scope of the invention as defined by the appended claims.
Although modifications and changes may be suggested by those skilled in the art, it is the intention of the inventors to embody within the patent warranted hereon all changes and modifications as reasonably and properly come within the scope of their contribution to the art.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE06/01209 | 10/25/2006 | WO | 00 | 4/24/2009 |