Patents by Inventor John E. Greene
John E. Greene has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11883150Abstract: Systems and methods are provided for identifying and locating a plurality of reflector markers implanted within a target tissue region within a patient's body. A probe is provided that is activated to transmit electromagnetic signals into the patient's body, receive reflected signals from the patient's body, and in synchronization with transmitting the electromagnetic signals, deliver light pulses into the patient's body. The markers reflector tags modulate reflected signals from the respective markers based on orthogonal code sequences opening and closing respective switches of the markers to modulate the reflective properties of the markers. The probe processes the return signals to separate the reflected signals based at least in part on the code sequences to identify and locate each of the plurality of reflector tags substantially simultaneously.Type: GrantFiled: September 6, 2018Date of Patent: January 30, 2024Assignee: Cianna Medical, Inc.Inventors: John E. Greene, Nikolai F. Rulkov
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Publication number: 20230028061Abstract: Apparatus, systems, and methods are provided for localization of a needle within a patient's body using markers. In an exemplary embodiment, a probe includes a distal end for placement against a surface of the region and one or more antennas for transmitting electromagnetic signals into and receiving reflected signals from the region. A processor processes the modulated reflected signals at one or more of the surface locations to determine marker locations along the needle and generate a three-dimensional model of the body region and needle.Type: ApplicationFiled: July 11, 2022Publication date: January 26, 2023Inventors: Eduardo Chi Sing, John E. Greene, Nikolai Rulkov
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Publication number: 20220400976Abstract: Systems and methods are provided for identifying and locating a plurality of reflector markers implanted within a target tissue region within a patient's body. A probe is provided that is activated to transmit electromagnetic signals into the patient's body, receive reflected signals from the patient's body, and in synchronization with transmitting the electromagnetic signals, deliver light pulses into the patient's body. The markers reflector tags modulate reflected signals from the respective markers based on orthogonal code sequences opening and closing respective switches of the markers to modulate the reflective properties of the markers. The probe processes the return signals to separate the reflected signals based at least in part on the code sequences to identify and locate each of the plurality of reflector tags substantially simultaneously.Type: ApplicationFiled: July 1, 2022Publication date: December 22, 2022Inventors: John E. Greene, Nikolai F. Rulkov
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Publication number: 20220386890Abstract: An impedance reflector apparatus, systems, and methods are provided for detecting a marker implanted within tissue that includes a switch for changing a configuration of an antenna of the marker. The apparatus includes a set of transmit electrodes coupled to a signal generator for transmitting a drive current into tissue to generate an electromagnetic field around the marker, a set of receive electrodes configured to detect voltage signals within the tissue corresponding to the electromagnetic field, and a light source for delivering light pulses into the body to open and close the switch to change the configuration of the antenna of the marker. A processor coupled to the receive electrodes processes the detected voltage signals to identify changes in the electromagnetic field that are synchronized with the light pulses to determine whether the marker is operating properly.Type: ApplicationFiled: June 6, 2022Publication date: December 8, 2022Inventors: Nikolai Rulkov, John E. Greene
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Patent number: 11484219Abstract: Markers and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes one or more photosensitive diodes for transforming light pulses striking the marker into electrical energy, one or more antennas, and a switch coupled to the photodiodes and antennas such that the light pulses cause the switch to open and close and modulate radar signals reflected by the marker back to a source of the signals. The antenna(s) may include one or more wire elements extending from a housing, one or more antenna elements printed on a substrate, or one or more chip antennas. Optionally, the marker may include a processor coupled to the photodiodes for identifying signals in the light pulses or one or more coatings or filters to allow selective activation of the marker.Type: GrantFiled: November 9, 2020Date of Patent: November 1, 2022Assignee: Cianna Medical, Inc.Inventors: John E. Greene, Nikolai Rulkov, Jonathan White
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Patent number: 11426256Abstract: Markers, probes, and related systems and methods are provided for localizing locations within a patient's body, e.g., a lesion within a breast. The marker includes an energy converter e.g., one or more photodiodes, for transforming light energy striking the marker into electrical energy, a storage device coupled to the energy converter for storing the electrical energy, a threshold element that closes a switch when the electrical energy reaches a predetermined threshold to discharge the electrical energy and cause the antenna to transmit a radio frequency (RF) signal. The system includes a probe that transmits light into the patient's body and a processor that correlate the frequency of the RF signals to a distance from the probe to the marker.Type: GrantFiled: March 1, 2017Date of Patent: August 30, 2022Assignee: Cianna Medical, Inc.Inventors: John E. Greene, Nikolai Rulkov
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Patent number: 11412950Abstract: Systems and methods are provided for identifying or locating a tag within a patient's body that include a probe that transmits synchronized electromagnetic signals, e.g., RF energy, and optical signals, e.g., infrared light pulses into the patient's body, whereupon the tag converts the optical signals into electrical energy to open and close a switch in the tag to modulate signals, e.g., backscatter signals, transmitted by the tag in response to the electromagnetic signals. For example, the tag may include photodiodes coupled to the switch that transforms the optical signals to alternately short the antenna to modulate the backscatter signals. Alternatively, the tag may include a smart circuit that harvests electrical energy from the optical signals to power the smart circuit and/or modulate the backscatter signals, e.g., to include data related to the tag and/or alternate the tag between an information mode and a distance mode.Type: GrantFiled: May 22, 2020Date of Patent: August 16, 2022Assignee: Cianna Medical, Inc.Inventors: John E. Greene, Nikolai F. Rulkov
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Patent number: 11351008Abstract: Markers, microwave probes, and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes an energy converter e.g., one or more photodiodes, for transforming energy pulses striking the marker into electrical energy, a switch, e.g., FET, coupled to the photodiodes such that light from a probe cause the switch to open and close. A pair of antenna wires are coupled to the switch to provide an antenna, the switch configured to open and close when light strikes the photodiodes to modulate signals from the probe reflected by the antenna back to the probe to identify the location of the marker. The marker also includes an electro static discharge (ESD) protection device coupled to the switch to provide protection against an electrostatic discharge event.Type: GrantFiled: April 6, 2020Date of Patent: June 7, 2022Assignee: Cianna Medical, Inc.Inventors: Nikolai Rulkov, Michael John Lopez, John E. Greene
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Patent number: 11350846Abstract: An impedance reflector apparatus, systems, and methods are provided for detecting a marker implanted within tissue that includes a switch for changing a configuration of an antenna of the marker. The apparatus includes a set of transmit electrodes coupled to a signal generator for transmitting a drive current into tissue to generate an electromagnetic field around the marker, a set of receive electrodes configured to detect voltage signals within the tissue corresponding to the electromagnetic field, and a light source for delivering light pulses into the body to open and close the switch to change the configuration of the antenna of the marker. A processor coupled to the receive electrodes processes the detected voltage signals to identify changes in the electromagnetic field that are synchronized with the light pulses to determine whether the marker is operating properly.Type: GrantFiled: October 4, 2018Date of Patent: June 7, 2022Assignee: Cianna Medical, Inc.Inventors: Nikolai Rulkov, John E. Greene
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Patent number: 11298045Abstract: Apparatus, systems, and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The system includes a microwave antenna probe for transmitting and receiving electromagnetic signals to detect one or more markers that are implanted within or around the target tissue region. During use, the marker(s) are implanted into a target tissue region, and the microwave antenna probe is placed against the patient's skin to transmit a signal to the marker(s) and to receive the reflected signal from the marker(s) in order to determine the location of the marker(s). A tissue specimen, including the lesion and the marker(s), is then removed from the target tissue region based at least in part on the location information from the microwave antenna probe.Type: GrantFiled: August 19, 2019Date of Patent: April 12, 2022Assignee: Cianna Medical, Inc.Inventors: Larry W Fullerton, John E. Greene, Tommy G. Nguyen, Eduardo Chi Sing
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Patent number: 11191445Abstract: Markers and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes one or more photosensitive diodes for transforming light pulses striking the marker into electrical energy, one or more antennas, and a switch coupled to the photodiodes and antennas such that the light pulses cause the switch to open and close and modulate radar signals reflected by the marker back to a source of the signals. The antenna(s) may include one or more wire elements extending from a housing, one or more antenna elements printed on a substrate, or one or more chip antennas. Optionally, the marker may include a processor coupled to the photodiodes for identifying signals in the light pulses or one or more coatings or filters to allow selective activation of the marker.Type: GrantFiled: December 9, 2019Date of Patent: December 7, 2021Assignee: Cianna Medical, Inc.Inventors: John E. Greene, Nikolai Rulkov, Jonathan White
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Publication number: 20210128012Abstract: Apparatus, systems, and methods are provided for localization of a region within a patient's body using markers implanted within the region. In an exemplary embodiment, a probe includes a distal end for placement against a surface of the region; one or more antennas for transmitting electromagnetic signals into and receiving reflected signals from the region; a light source for delivering light pulses into the region whereupon the markers modulate reflected signals. A processor of the probe processes the modulated reflected signals at one or more of the surface locations to determine marker locations within the region to obtain a reference frame, determine distance values corresponding to distances from the respective markers to the distal end at each of the surface locations, and determine coordinates of the surface locations relative to the reference frame to generate a three dimensional model of the body region.Type: ApplicationFiled: November 4, 2020Publication date: May 6, 2021Inventors: Nikolai Rulkov, John E. Greene
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Publication number: 20210128268Abstract: Apparatus, systems, and methods are provided for localization of a region within a patient's body using markers implanted within the region. In an exemplary embodiment, a probe includes a distal end for placement against a surface of the region; one or more antennas for transmitting electromagnetic signals into and receiving reflected signals from the region; a light source for delivering light pulses into the region whereupon the markers modulate reflected signals. A processor of the probe processes the modulated reflected signals at one or more of the surface locations to determine marker locations within the region to obtain a reference frame, determine distance values corresponding to distances from the respective markers to the distal end at each of the surface locations, and determine coordinates of the surface locations relative to the reference frame to generate a three dimensional model of the body region.Type: ApplicationFiled: November 4, 2020Publication date: May 6, 2021Inventors: Nikolai Rulkov, John E. Greene
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Publication number: 20210068705Abstract: Markers and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes one or more photosensitive diodes for transforming light pulses striking the marker into electrical energy, one or more antennas, and a switch coupled to the photodiodes and antennas such that the light pulses cause the switch to open and close and modulate radar signals reflected by the marker back to a source of the signals. The antenna(s) may include one or more wire elements extending from a housing, one or more antenna elements printed on a substrate, or one or more chip antennas. Optionally, the marker may include a processor coupled to the photodiodes for identifying signals in the light pulses or one or more coatings or filters to allow selective activation of the marker.Type: ApplicationFiled: November 9, 2020Publication date: March 11, 2021Inventors: John E. Greene, Nikolai Rullkov, Jonathan White
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Publication number: 20210000382Abstract: Probes and related systems and methods are provided for localizing markers implanted within a patient's body. The probe includes an antenna assembly adjacent a distal end thereof including a ceramic base including a planar distal surface and four proximal surfaces extending at an angle relative to a longitudinal axis of the probe to define a generally pyramidal shape. The base includes antenna elements on the proximal surfaces and radial slots between adjacent proximal surfaces to substantially isolate the antenna elements from one another. A controller is coupled to the antenna elements for transmitting signals into a patient's body and receiving reflected signals reflected from a marker implanted within the patient's body to identify and/or localize the marker.Type: ApplicationFiled: June 30, 2020Publication date: January 7, 2021Inventors: John E. Greene, Jonathan Edward White, Kohl Ian Thorlakson
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Publication number: 20200390364Abstract: Systems and methods are provided for identifying or locating a tag within a patient's body that include a probe that transmits synchronized electromagnetic signals, e.g., RF energy, and optical signals, e.g., infrared light pulses into the patient's body, whereupon the tag converts the optical signals into electrical energy to open and close a switch in the tag to modulate signals, e.g., backscatter signals, transmitted by the tag in response to the electromagnetic signals. For example, the tag may include photodiodes coupled to the switch that transforms the optical signals to alternately short the antenna to modulate the backscatter signals. Alternatively, the tag may include a smart circuit that harvests electrical energy from the optical signals to power the smart circuit and/or modulate the backscatter signals, e.g., to include data related to the tag and/or alternate the tag between an information mode and a distance mode.Type: ApplicationFiled: May 22, 2020Publication date: December 17, 2020Inventors: John E. Greene, Nikolai F. Rulkov
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Publication number: 20200390516Abstract: Markers, microwave probes, and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes an energy converter e.g., one or more photodiodes, for transforming energy pulses striking the marker into electrical energy, a switch, e.g., FET, coupled to the photodiodes such that light from a probe cause the switch to open and close. A pair of antenna wires are coupled to the switch to provide an antenna, the switch configured to open and close when light strikes the photodiodes to modulate signals from the probe reflected by the antenna back to the probe to identify the location of the marker. The marker also includes an electro static discharge (ESD) protection device coupled to the switch to provide protection against an electrostatic discharge event.Type: ApplicationFiled: April 6, 2020Publication date: December 17, 2020Inventors: Nikolai Rulkov, Michael John Lopez, John E. Greene
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Patent number: 10827949Abstract: Markers and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes one or more photosensitive diodes for transforming light pulses striking the marker into electrical energy, one or more antennas, and a switch coupled to the photodiodes and antennas such that the light pulses cause the switch to open and close and modulate radar signals reflected by the marker back to a source of the signals. The antenna(s) may include one or more wire elements extending from a housing, one or more antenna elements printed on a substrate, or one or more chip antennas. Optionally, the marker may include a processor coupled to the photodiodes for identifying signals in the light pulses or one or more coatings or filters to allow selective activation of the marker.Type: GrantFiled: March 21, 2018Date of Patent: November 10, 2020Assignee: Cianna Medical, Inc.Inventors: John E. Greene, Nikolai Rulkov, Jonathan White
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Publication number: 20200170541Abstract: Markers and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes one or more photosensitive diodes for transforming light pulses striking the marker into electrical energy, one or more antennas, and a switch coupled to the photodiodes and antennas such that the light pulses cause the switch to open and close and modulate radar signals reflected by the marker back to a source of the signals. The antenna(s) may include one or more wire elements extending from a housing, one or more antenna elements printed on a substrate, or one or more chip antennas. Optionally, the marker may include a processor coupled to the photodiodes for identifying signals in the light pulses or one or more coatings or filters to allow selective activation of the marker.Type: ApplicationFiled: December 9, 2019Publication date: June 4, 2020Inventors: John E. Greene, Nikolai Rulkov, Jonathan White
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Patent number: 10660542Abstract: Systems and methods are provided for identifying or locating a tag within a patient's body that include a probe that transmits synchronized electromagnetic signals, e.g., RF energy, and optical signals, e.g., infrared light pulses into the patient's body, whereupon the tag converts the optical signals into electrical energy to open and close a switch in the tag to modulate signals, e.g., backscatter signals, transmitted by the tag in response to the electromagnetic signals. For example, the tag may include photodiodes coupled to the switch that transforms the optical signals to alternately short the antenna to modulate the backscatter signals. Alternatively, the tag may include a smart circuit that harvests electrical energy from the optical signals to power the smart circuit and/or modulate the backscatter signals, e.g., to include data related to the tag and/or alternate the tag between an information mode and a distance mode.Type: GrantFiled: May 30, 2018Date of Patent: May 26, 2020Assignee: Cianna Medical, Inc.Inventors: John E. Greene, Nikolai F. Rulkov