Apparatus and method for monitoring a condition inside a body cavity
First Claim
1. An apparatus for monitoring a condition in a body cavity, said apparatus comprising:
- at least one sensor for insertion into a body cavity, said at least one sensor for generating a signal in response to a condition inside the body cavity and said at least one sensor including at least one base member; and
at least one telemetric device operatively coupled with said at least one sensor, said at least one telemetric device being operable to receive said signal from said at least one sensor and to transmit an EMF signal dependent upon said signal;
said at least one telemetric device including at least one coil member extending from said at least one telemetric devices said at least one coil member each having a proximal end physically coupled to said at least one base member and a distal end for engaging a wall of the body cavity to secure said at least one base member within the body cavity, said at least one base member being spaced from the wall of the body cavity by said at least one coil member.
1 Assignment
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Accused Products
Abstract
An apparatus (10) utilizes microelectricalmechanical systems (MEMS) technology to monitor a condition in a body cavity (28). The apparatus (10) comprises at least one sensor (42) for insertion into the body cavity. The sensor (42) generates a signal in response to a condition inside the body cavity (28). At least one telemetric device (44) is operatively coupled with the sensor (42). The telemetric device (44) is operable to receive the signal from the sensor (42) and to transmit an electromagnetic signal dependent upon the signal. The telemetric device (44) includes at least one coil member (82) extending from the telemetric device. The coil member (82) engages the body cavity (28) to secure the telemetric device (44) in the body cavity.
157 Citations
39 Claims
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1. An apparatus for monitoring a condition in a body cavity, said apparatus comprising:
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at least one sensor for insertion into a body cavity, said at least one sensor for generating a signal in response to a condition inside the body cavity and said at least one sensor including at least one base member; and
at least one telemetric device operatively coupled with said at least one sensor, said at least one telemetric device being operable to receive said signal from said at least one sensor and to transmit an EMF signal dependent upon said signal;
said at least one telemetric device including at least one coil member extending from said at least one telemetric devices said at least one coil member each having a proximal end physically coupled to said at least one base member and a distal end for engaging a wall of the body cavity to secure said at least one base member within the body cavity, said at least one base member being spaced from the wall of the body cavity by said at least one coil member. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An apparatus for monitoring pressure inside an aneurysm sac, said apparatus comprising:
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at least one pressure sensor for insertion into an aneurysm sac, said at least one pressure sensor for generating an output signal in response to and indicative of the pressure inside the aneurysm sac and said at least one pressure sensor including at least one base member; and
at least one telemetric device operatively coupled with said at least one pressure sensor, said at least one telemetric device being operable to receive said output signal from said at least one pressure sensor and to transmit an EMF signal dependent upon said output signal;
said at least one telemetric device including at least one coil member extending from said at least one telemetric device, said at least one coil member, each having a proximal end physically connected to said at least one base member and a distal end for engaging a wall of the aneurysm sac to secure said at least one base member within the aneurysm sac, said at least one base member being spaced from the wall of the body cavity by said at least one coil member. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
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28. An apparatus for monitoring a condition in a body cavity, said apparatus comprising:
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at least one sensor for insertion into a body cavity, said at least one sensor for generating a signal in response to a condition inside the body cavity;
at least one telemetric device operatively coupled with said at least one sensor, said at least one telemetric device being operable to receive said signal from said at least one sensor and to transmit an EMF signal dependent upon said signal; and
a compliant enclosure surrounding said at least one sensor and a portion of said at least one telemetric device;
said at least one telemetric device including at least one coil member that is extendable inside the body cavity to minimize migration of said at least one telemetric device in the body cavity through increased drag. - View Dependent Claims (29, 30, 31, 32, 33, 34, 35)
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36. A method for monitoring a condition in an internal body cavity, said method comprising the steps of:
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providing a sensor for generating an output signal in response to and indicative of a condition inside the body cavity and a telemetric device for receiving the output signal from the sensor and transmitting an EMF signal dependent upon the output signal;
encapsulating the sensor and the telemetric device in a compliant enclosure to form a transducer assembly;
connecting at least one coil member with the transducer assembly, the at least one coil member projecting from the compliant enclosure;
inserting the transducer assembly into a body cavity;
attaching the transducer assembly to a wall of the body cavity with the at least one coil member, such that said at least one coil member engages with a wall of the body cavity and said transducer assembly is spaced from the wall; and
monitoring the EMF signal from the sensor transmitted by the telemetric device. - View Dependent Claims (37)
inserting a plurality of transducer assemblies into the body cavity to form a sensor network, each transducer assembly becoming attached to the body cavity in a different location inside the body cavity; and
monitoring the EMF signals from each of the transducer assemblies to detect variations in the condition inside the body cavity.
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38. A method for monitoring a condition in an internal body cavity, said method comprising the steps of:
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providing a sensor for generating an output signal in response to and indicative of a condition inside the body cavity and a telemetric device for receiving the output signal from the sensor and transmitting an EMF signal dependent upon the output signal;
encapsulating the sensor and the telemetric device in a compliant enclosure to form a transducer assembly;
connecting at least one coil member with the transducer assembly, the at least one coil member being extendable from the compliant enclosure inside a body cavity;
inserting the transducer assembly into a body cavity;
extending the at least one coil member inside the body cavity to minimize migration of the transducer assembly in the body cavity; and
monitoring the EMF signal from the sensor transmitted by the telemetric device. - View Dependent Claims (39)
inserting a plurality of transducer assemblies into the body cavity to form a sensor network, the plurality of transducer assemblies being spaced apart in different locations inside the body cavity by the extended at least one coil member associated with each transducer assembly; and
monitoring the EMF signals from each of the transducer assemblies to detect variations in the condition inside the body cavity.
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Specification