Intradiscal lesioning apparatus
First Claim
1. An intradiscal lesioning device for percutaneous treatment of a patient'"'"'s intervertebral disc, the disc including a nucleus pulposus bounded by an annulus fibrosus and cartilage endplates, an inner wall of the annulus being defined between the nucleus and the annulus, said device comprising:
- an elongate introducer, comprising a tube having an inner end, an outer end and a longitudinal hollow bore extending therebetween, for percutaneous surgical insertion into the annulus fibrosus thereby providing external surgical access to a target region of the disc;
an elongate probe having a proximal portion and a distal portion, the probe slidably engaging in the bore when longitudinally inserted through the bore from the inner to the outer end of the introducer tube;
wherein the distal portion is capable of conforming to the bore in a longitudinally slidably confined configuration therein and being deployed into a configuration when released within the nucleus pulposus in which the distal portion forms at least one loop of a dimension able to remain within the nucleus pulposus without depending on contact with said inner wall; and
the distal portion comprising means for emitting energy at a desired location in the disc;
wherein the distal portion includes active shape control means for controlling at least one of a trajectory, a position, a size, a shape and a deployment of the distal portion in three-dimensional space, as the distal portion is longitudinally slidably released from the outer end of the introducer tube into the nucleus pulposus;
wherein a shape of the distal portion differs for a range of lengths of the distal portion being released within the nucleus pulposus;
whereby the distal portion can be forced to take on a preferred shape and trajectory for the percutaneous treatment of the disc.
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Accused Products
Abstract
An intradiscal lesioning device for percutaneous treatment of a patient'"'"'s intervertebral disc. An elongate introducer having a longitudinal hollow bore is surgically inserted from the patient'"'"'s skin to extend through the annulus fibrosus thereby providing external surgical access to the nucleus pulposus through the introducer bore. An elongate probe slides through and flexibly conforms to the bore when longitudinally inserted through the bore of the introducer. The distal portion of the probe is capable of resiliently conforming to the bore in a longitudinally slidably confined configuration and resiliently rebounding to a deployed configuration when released within the nucleus pulposus. The distal portion houses lesioning devices for emitting energy toward the inner wall of the annulus fibrosus when the distal portion is in the deployed configuration. Examples of suitable energy sources include: thermal energy; radio frequency electric current; microwave emission; ultrasound emission; radioactive emission; and optical emission.
290 Citations
11 Claims
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1. An intradiscal lesioning device for percutaneous treatment of a patient'"'"'s intervertebral disc, the disc including a nucleus pulposus bounded by an annulus fibrosus and cartilage endplates, an inner wall of the annulus being defined between the nucleus and the annulus, said device comprising:
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an elongate introducer, comprising a tube having an inner end, an outer end and a longitudinal hollow bore extending therebetween, for percutaneous surgical insertion into the annulus fibrosus thereby providing external surgical access to a target region of the disc;
an elongate probe having a proximal portion and a distal portion, the probe slidably engaging in the bore when longitudinally inserted through the bore from the inner to the outer end of the introducer tube;
wherein the distal portion is capable of conforming to the bore in a longitudinally slidably confined configuration therein and being deployed into a configuration when released within the nucleus pulposus in which the distal portion forms at least one loop of a dimension able to remain within the nucleus pulposus without depending on contact with said inner wall; and
the distal portion comprising means for emitting energy at a desired location in the disc;
wherein the distal portion includes active shape control means for controlling at least one of a trajectory, a position, a size, a shape and a deployment of the distal portion in three-dimensional space, as the distal portion is longitudinally slidably released from the outer end of the introducer tube into the nucleus pulposus;
wherein a shape of the distal portion differs for a range of lengths of the distal portion being released within the nucleus pulposus;
whereby the distal portion can be forced to take on a preferred shape and trajectory for the percutaneous treatment of the disc. - View Dependent Claims (2, 3, 4, 5, 6)
said elongate introducer having at least one temperature measuring element on said introducer; a temperature measuring device being electrically connected to said at least one temperature measuring element for measuring a temperature of tissue.
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6. An intradiscal lesioning device according to claim 5, further comprising
a controller for controlling said lesioning means using said temperature.
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7. A method for percutaneous treatment of a patient'"'"'s intervertebral disc, the disc including a nucleus pulposus bounded by an annulus fibrosus and cartilage endplates, an inner wall of the annulus fibrosus being defined between the nucleus pulposus and the annulus fibrosus, said method comprising:
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surgically inserting and placing an elongate introducer, comprising a tube having an inner end, an outer end and a longitudinal hollow bore extending into the annulus fibrosus thereby providing external surgical access to a target region of the disc;
inserting an elongate probe having a proximal portion and a distal portion into said bore, the probe slidably engaging and flexibly conforming to the bore when longitudinally inserted through the bore from the inner end to the outer end of the introducer tube;
deploying a distal portion of said probe into a configuration within the nucleus pulposus in which the distal portion forms at least one loop of a dimension able to remain within the nucleus pulposus without depending on contact with said inner wall;
controlling at least one of a trajectory, a position, a size, a shape and a deployment of the distal portion in three-dimensional space, as the distal portion is longitudinally slidably released from the outer end of the introducer tube into the nucleus pulposus, wherein a shape of the distal portion differs for a range of lengths of the distal portion being released within the nucleus pulposus and whereby the distal portion can be forced to take on a preferred shape and trajectory for the percutaneous treatment of the disc;
connecting said probe to an energy source; and
emitting energy from said energy source at said distal portion to a desired location in the disc. - View Dependent Claims (8, 9, 10, 11)
measuring a temperature of tissue using at least one temperature measuring element near a distal end of said introducer. -
11. A method according to claim 10, further comprising
controlling said emitting using said temperature.
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Specification