Devices for fixing a sensor in a lumen
First Claim
Patent Images
1. An implantable vascular pressure sensor for sensing blood pressure within a pulmonary artery, the sensor comprising:
- a sensor configured to sense blood pressure within the pulmonary artery; and
a fixation element configured to secure the sensor to a wall of the pulmonary artery, wherein, when the fixation element is disposed within the pulmonary artery, the sensor is located between the wall of the pulmonary artery and a center of the pulmonary artery, the fixation element including;
a first wire loop having a first section fixedly attached to, and extending away from, a first portion of the sensor, the first wire loop having a second section making at least one turn, and the first wire loop having a third section returning to the sensor at, and fixedly attached to, a second portion of the sensor different from the first portion, wherein at least a part of each of the first and third sections of the first wire loop is disposed in a first plane, and at least a part of the second section of the first wire loop is disposed in a second plane that intersects the first plane, the first wire loop comprised entirely of a first wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position of the first wire loop, an outer periphery of the first wire loop is configured to contact and assert a radial force against the wall at a first location within the pulmonary artery; and
a second wire loop having a first section fixedly attached to, and extending away from, a third portion of the sensor different from the first and second portions, the second wire loop having a second section making at least one turn, and the second wire loop having a third section returning to the sensor at, and fixedly attached to, a fourth portion of the sensor different from the first, second, and third portions, wherein at least a part of each of the first and third sections of the second wire loop is disposed in a third plane, and at least a part of the second section of the second wire loop is disposed in a fourth plane that intersects the third plane, the second wire loop comprised entirely of a second wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position of the second wire loop, an outer periphery of the second wire loop is configured to contact and assert a radial force against the wall at a second location within the pulmonary artery.
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Accused Products
Abstract
Apparatus for positioning at least one sensor in a body lumen, the apparatus including a fixation element, a sensor, and a connecting element that connects the sensor to the fixation element, the connecting element extending at least partially into the lumen so that the sensor is located radially inward from a wall of the lumen.
223 Citations
19 Claims
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1. An implantable vascular pressure sensor for sensing blood pressure within a pulmonary artery, the sensor comprising:
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a sensor configured to sense blood pressure within the pulmonary artery; and a fixation element configured to secure the sensor to a wall of the pulmonary artery, wherein, when the fixation element is disposed within the pulmonary artery, the sensor is located between the wall of the pulmonary artery and a center of the pulmonary artery, the fixation element including; a first wire loop having a first section fixedly attached to, and extending away from, a first portion of the sensor, the first wire loop having a second section making at least one turn, and the first wire loop having a third section returning to the sensor at, and fixedly attached to, a second portion of the sensor different from the first portion, wherein at least a part of each of the first and third sections of the first wire loop is disposed in a first plane, and at least a part of the second section of the first wire loop is disposed in a second plane that intersects the first plane, the first wire loop comprised entirely of a first wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position of the first wire loop, an outer periphery of the first wire loop is configured to contact and assert a radial force against the wall at a first location within the pulmonary artery; and a second wire loop having a first section fixedly attached to, and extending away from, a third portion of the sensor different from the first and second portions, the second wire loop having a second section making at least one turn, and the second wire loop having a third section returning to the sensor at, and fixedly attached to, a fourth portion of the sensor different from the first, second, and third portions, wherein at least a part of each of the first and third sections of the second wire loop is disposed in a third plane, and at least a part of the second section of the second wire loop is disposed in a fourth plane that intersects the third plane, the second wire loop comprised entirely of a second wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position of the second wire loop, an outer periphery of the second wire loop is configured to contact and assert a radial force against the wall at a second location within the pulmonary artery. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. An implantable vascular pressure sensor for sensing blood pressure within a pulmonary artery, the sensor comprising:
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a sensor configured to sense blood pressure within the pulmonary artery; and a fixation element configured to secure the sensor to a wall of the pulmonary artery, wherein, when the fixation element is disposed within the pulmonary artery, the sensor is located between the wall of the pulmonary artery and a center of the pulmonary artery, the fixation element including; a first wire loop having a first section fixedly attached to, and extending away from, a first portion of the sensor, the first wire loop having a second section making at least one turn, and the first wire loop having a third section returning to the sensor at, and fixedly attached to, a second portion of the sensor different from the first portion, wherein at least a part of each of the first and third sections of the first wire loop is disposed in a first plane, and at least a part of the second section of the first wire loop is disposed in a second plane that intersects the first plane, and extending at least in part proximally from the sensor along a longitudinal axis of the pulmonary artery, the first wire loop comprised entirely of a first wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position of the first wire loop, an outer periphery of the first wire loop is configured to contact and assert a radial force against the wall at a first location within the pulmonary artery proximal to the sensor; a second wire loop having a first section fixedly attached to, and extending away from, a third portion of the sensor different from the first and second portions, the second wire loop having a second section making at least one turn, and the second wire loop having a third section returning to the sensor at, and fixedly attached to, a fourth portion of the sensor different from the first, second, and third portions, wherein at least a part of each of the first and third sections of the second wire loop is disposed in a third plane, and at least a part of the second section of the second wire loop is disposed in a fourth plane that intersects the third plane, and extending at least in part distally from the sensor along the longitudinal axis of the pulmonary artery, the second wire loop comprised entirely of a second wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position of the second wire loop, an outer periphery of the second wire loop is configured to contact and assert a radial force against the wall at a second location within the pulmonary artery distal to the sensor.
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19. An implantable vascular pressure sensor for sensing blood pressure within a pulmonary artery, the sensor comprising:
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a sensor configured to sense blood pressure within the pulmonary artery; and a fixation element configured to secure the sensor to a wall of the pulmonary artery, wherein, when the fixation element is disposed within the pulmonary artery, the sensor is located between the wall of the pulmonary artery and a center of the pulmonary artery, the fixation element including; a first anchoring member having a first section fixedly attached to, and extending away from, a first portion of the sensor, the first anchoring member having a second section making at least one turn, and the first anchoring member having a third section returning to the sensor at, and fixedly attached to, a second portion of the sensor different from the first portion, wherein at least a part of each of the first and third sections of the first anchoring member is disposed in a first plane, and at least a part of the second section of the first anchoring member is disposed in a second plane that intersects the first plane, the first anchoring member comprising a single wire loop formed entirely of a first wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position, an outer periphery of the first anchoring member is configured to contact and assert a radial force against the wall at a first location within the pulmonary artery; a second anchoring member having a first section fixedly attached to, and extending away from, a third portion of the sensor different from the first and second portions, the second anchoring member having a second section making at least one turn, and the second anchoring member having a third section returning to the sensor at, and fixedly attached to, a fourth portion of the sensor different from the first, second, and third portions, wherein at least a part of each of the first and third sections of the second anchoring member is disposed in a third plane, and at least a part of the second section of the second anchoring member is disposed in a fourth plane that intersects the third plane, the second anchoring member comprising a single wire loop formed entirely of a second wire configured to expand from a collapsed position to an expanded position within the pulmonary artery, wherein, in the expanded position, an outer periphery of the second anchoring member is configured to contact and assert a radial force against the wall at a second location within the pulmonary artery.
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Specification