APPARATUS AND METHODS FOR THE POSITIONING OF IMPLANTABLE LEADS
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Accused Products
Abstract
A device (1) for the positioning of implantable leads includes a base unit (3) and at least two, preferably detachable, leads (5, 7). The distal end (27, 35) of each lead (5, 7), which is introduced into the tissue (11) to be treated, has at least two longitudinally spaced apart electrode surfaces (37, 39, 41, 43) for applying current to the tissue. The base unit (3) has computing element (17), current generating element (50) for generating an alternating current, and conductivity determining element (854) for determining the tissue conductivity between pairs of electrode surfaces (37-41) based on the alternating current applied by the current generating element to the tissue. By comparing readings taken between appropriate pairs of electrode surfaces, the relative position of the leads can be determined by triangulation. Methods for using the device and leads for use in the device are also described.
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Citations
24 Claims
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1-10. -10. (canceled)
- 11. Device for positioning leads for the thermal treatment of tissue comprising a base unit and at least one insertable lead, wherein at least one insertable lead is provided with a distal electrode surface and at least one further electrode surface, and wherein said base unit is provided with control means, current generating means and measuring means able to measure an electrical property of the electrical path between two electrode surfaces wherein said control means, current generating means and measuring means are arrangeable to measure the electrical property between selectable pairs of electrode surfaces.
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19. Method for determining the position of a first insertable lead with respect to a second insertable lead which are in electrical communication through tissue wherein said first lead and said second lead each are provided with a distal electrode surface and at least a further electrode surface, comprising the steps of:
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a) measuring the conductance and/or transfer function between distal and further electrode surfaces on said first lead to determine the conductivity and/or transfer function per unit distance between the distal and further electrode surfaces and/or transfer function for this first lead; b) measuring the conductance and/or transfer function between distal and further electrode surfaces on said second lead to determine the conductivity and/or transfer function per unit distance between distal and further electrode surfaces and/or transfer function for this second lead; c) measuring the conductance and/or transfer function between the distal electrode surface on the first lead and the distal electrode surface on the second lead to determine the conductivity and/or transfer function per unit distance between these electrode surfaces and comparing it/them to the conductivity and/or transfer functions determined in steps a) and b) in order to determine the distance between said distal electrodes; d) measuring the conductance and/or transfer function between the further electrode surface on the first lead and the further electrode surface on the second lead to determine the conductivity and/or transfer function per unit distance between these electrode surfaces and comparing it/them to the conductivity and/or transfer functions determined in steps a) and b) in order to determine the distance between said further electrode surfaces; e) measuring the conductance and/or transfer function between the distal electrode surface on the first lead and the further electrode surface on the second lead to determine the conductivity and/or transfer function per unit distance between these electrode surfaces and comparing it/them to the conductivity and/or transfer functions determined in steps a) and b) in order to determine the distance between said distal electrode surface and said further electrode surface; f) measuring the conductivity and/or transfer function between the further electrode surface on the first lead and the distal electrode surface on the second lead to determine the conductivity and/or transfer function per unit distance between these electrode surfaces and comparing it/them to the conductivity and/or transfer functions determined in steps a) and b) in order to determine the distance between said further electrode surface and said distal electrode surface; and
,g) determining the relative positions of said leads by triangulation. - View Dependent Claims (20, 21, 22, 23, 24)
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Specification