Blood filter devices, systems, and methods of using the same to detect the presence of a thrombus within said filter devices
Abstract
Blood filter devices, systems, and methods of using the same to detect the presence of a thrombus within said filter devices. A device of the present disclosure for detecting a thrombus or other blood particulate matter of a threshold size within a vessel can comprise a filter having a head and a plurality of legs extending distally therefrom, configured to capture the thrombus or other blood particulate matter of at least a threshold size, and at least one impedance element positioned distal to the head and configured to detect a presence of the thrombus or other blood particulate matter of at least a threshold size within the filter by obtaining data within a bloodstream when the filter is positioned within the bloodstream.
Claims
exact text as granted — not AI-modified1 . A device for detecting a thrombus or other blood particulate matter of a threshold size within a vessel, comprising:
a filter having a head and a plurality of legs extending distally therefrom, configured to capture the thrombus or other blood particulate matter of at least a threshold size; at least one impedance element positioned distal to the head and configured to detect a presence of the thrombus or other blood particulate matter of at least a threshold size within the filter by obtaining data within a bloodstream when the filter is positioned within the bloodstream; and a sheath having a distal balloon positioned thereon, the sheath configured to be positioned around at least part of the filter within the blood vessel, wherein the balloon is configured for inflation within the blood vessel.
2 . The device of claim 1 , wherein balloon inflation causes the balloon to inflate both outwardly toward a blood vessel wall, and proximally along the sheath, and wherein the balloon at least partially surrounds the filter when inflated.
3 . The device of claim 1 , wherein the at least one impedance element comprises an excitation electrode configured to generate an electric field within the bloodstream, or a detection electrode configured to detect conductance data within the bloodstream, when the filter is positioned within the bloodstream of a vessel.
4 . The device of claim 1 , wherein the at least one impedance element comprises a combination excitation and detection electrode configured to both excite an electric field and detect conductance data within the electric field in the bloodstream when the filter is positioned within the bloodstream of a vessel.
5 . The device of claim 1 , wherein the device further comprises at least one pressure sensor configured to obtain pressure data within a bloodstream, and wherein the pressure data indicates presence of the thrombus or other blood particulate matter of at least a threshold size within the filter.
6 . The device of claim 1 , wherein the device further comprises at least one fiber-optic sensor configured to obtain light data within a bloodstream, and wherein the light data indicates presence of the thrombus or other blood particulate matter of at least a threshold size within the filter.
7 . The device of claim 1 , wherein the device is at least partially coated with a coating comprising one or more fibroblast growth factor inhibitors.
8 . The device of claim 1 , wherein the legs form a generally conical configuration and further comprise barbs on the distal ends thereof, the barbs configured for detachable engagement with vessel walls to hold the filter in place within the bloodstream of the vessel.
9 . A system for detecting a thrombus or other blood particulate matter of a threshold size within a vessel, comprising:
a device, comprising:
a filter having a head and a plurality of legs extending distally therefrom, configured to capture the thrombus or other blood particulate matter of at least a threshold size; and
at least one impedance element positioned distal to the head and configured to detect a presence of the thrombus or other blood particulate matter of at least a threshold size within the filter by obtaining data within a bloodstream when the filter is positioned within the bloodstream; and
a console operably coupled to the device, configured to wirelessly obtain data from the device, based the data received from the at least one impedance element positioned within the bloodstream of a vessel; and wherein the system further comprises a sheath having a distal balloon positioned thereon, the sheath configured to be positioned around at least part of the filter within a blood vessel.
10 . The system of claim 9 , wherein balloon inflation causes the balloon to inflate outwardly toward the blood vessel wall, and proximally along the sheath.
11 . The system of claim 9 , wherein the balloon at least partially surrounds the filter when inflated.
12 . The system of claim 9 , wherein the device may further comprise a filter transmitter/receiver, and wherein the console may further comprise a console transmitter/receiver, the filter transmitter/receiver operably coupled to the console transmitter/receiver to both transmit and receive the data detected by the at least one impedance element to and from the console.
13 . The system of claim 12 , wherein the filter transmitter/receiver and the console transmitter/receiver are operably coupled via a bidirectional radio frequency link.
14 . The system of claim 9 , further comprising a display operably coupled to the console, the display configured to visually or audibly provide the data received from the at least one impedance element positioned within the bloodstream of a vessel.
15 . The system of claim 9 , further comprising a remote computer operably coupled to the console, wherein the remote computer, the console, and the device can communicate with one another through a wireless network.
16 . The system of claim 9 , wherein the device is at least partially coated with a coating comprising a fibroblast growth factor inhibitor.
17 . The system of claim 9 , wherein the at least one impedance element comprises a combination excitation and detection electrode configured to both excite an electric field and detect conductance data within the electric field in the bloodstream when the filter is positioned within the bloodstream of a vessel.
18 . The system of claim 9 , wherein the device further comprises at least one sensor configured to obtain data within a bloodstream, and wherein the sensor data indicates presence of the thrombus or other blood particulate matter of at least a threshold size within the filter.
19 . A device for detecting a thrombus or other blood particulate matter of a threshold size within a vessel, comprising:
a filter having a head and a plurality of legs extending distally therefrom, configured to capture the thrombus or other blood particulate matter of at least a threshold size; at least one impedance element positioned distal to the head and configured to detect a presence of the thrombus or other blood particulate matter of at least a threshold size within the filter by obtaining data within a bloodstream when the filter is positioned within the bloodstream; and a sheath having a distal balloon positioned thereon, the sheath configured to be positioned around at least part of the filter within the blood vessel, wherein the balloon at least partially surrounds the filter when inflated within the blood vessel.
20 . The device of claim 19 , wherein inflation of the balloon further causes the balloon to inflate both outwardly toward a blood vessel wall, and proximally along the sheath.Cited by (0)
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