Patents by Inventor Chad Allen Lieber
Chad Allen Lieber 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: 9717560Abstract: A system for measuring real-time tissue reflection spectral characteristics during ablation includes a catheter for collecting light reflected from tissue undergoing ablation, a detection component for separating constituent wavelengths of the collected light, a quantification apparatus for generating measured light intensity data of the collected light, and a processor for analyzing the data in relation to time. A method for monitoring formation of steam pop during ablation includes delivering light to tissue, delivering ablative energy to the tissue, measuring the reflectance spectral intensity of the tissue, and observing whether the measured reflectance spectral instensity (MRSI) initially increases in a specified time period followed by a decrease at a specified rate. If the MRSI does not decrease, delivery of ablation energy continues.Type: GrantFiled: June 27, 2016Date of Patent: August 1, 2017Assignee: BIOSENSE WEBSTER, INC.Inventors: Chad Allen Lieber, Ariel Garcia, Shiva Sharareh
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Publication number: 20170212049Abstract: An optically-based method and apparatus for monitoring a cannabis sample is provided. The method includes selecting a light source; selecting an optional optical filter; and applying the light source to illuminate a sample, wherein at least one of: light reflected from the sample, light transmitted through the sample, and light produced by fluorescence of the sample, is directed from the sample to the optical filter.Type: ApplicationFiled: August 11, 2015Publication date: July 27, 2017Inventors: Chad Allen Lieber, Randall James Kruep, Alexander James Makowski
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Publication number: 20170143420Abstract: A catheter is adapted to ablate tissue and provide lesion qualitative information on a real time basis, having an ablation tip section with a generally omni-directional light diffusion chamber with one openings to allow light energy in the chamber to radiate the tissue and return to the chamber. The chamber is irrigated at a positive pressure differential to continuously flush the opening with fluid. The light energy returning to the chamber from the tissue conveys a tissue parameter, including without limitation, lesion formation, depth of penetration of lesion, cross-sectional area of lesion, formation of char during ablation, recognition of char during ablation, recognition of char from non-charred tissue, formation of coagulum around the ablation site, differentiation of coagulated from non-coagulated blood, differentiation of ablated from healthy tissue, tissue proximity, and recognition of steam formation in the tissue for prevention of steam pop.Type: ApplicationFiled: February 3, 2017Publication date: May 25, 2017Inventors: Shiva Sharareh, Chad Allen Lieber, Jeffrey William Schultz
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Publication number: 20170045450Abstract: An optically-based method and apparatus for monitoring a cannabis sample is provided. The method includes selecting a light source; selecting an optional optical filter; and applying the light source to illuminate a sample, wherein at least one of: light reflected from the sample, light transmitted through the sample, and light produced by fluorescence of the sample, is directed from the sample to the optical filter.Type: ApplicationFiled: August 11, 2015Publication date: February 16, 2017Inventors: Chad Allen Lieber, Randall James Kruep, Alexander James Makowski
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Patent number: 9561074Abstract: A catheter is adapted to ablate tissue and provide lesion qualitative information on a real time basis, having an ablation tip section with a generally omni-directional light diffusion chamber with one openings to allow light energy in the chamber to radiate the tissue and return to the chamber. The chamber is irrigated at a positive pressure differential to continuously flush the opening with fluid. The light energy returning to the chamber from the tissue conveys a tissue parameter, including without limitation, lesion formation, depth of penetration of lesion, cross-sectional area of lesion, formation of char during ablation, recognition of char during ablation, recognition of char from non-charred tissue, formation of coagulum around the ablation site, differentiation of coagulated from non-coagulated blood, differentiation of ablated from healthy tissue, tissue proximity, and recognition of steam formation in the tissue for prevention of steam pop.Type: GrantFiled: October 5, 2015Date of Patent: February 7, 2017Assignee: Biosense Webster, Inc.Inventors: Shiva Sharareh, Chad Allen Lieber, Jeffrey William Schultz
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Publication number: 20160302859Abstract: A system for measuring real-time tissue reflection spectral characteristics during ablation includes a catheter for collecting light reflected from tissue undergoing ablation, a detection component for separating constituent wavelengths of the collected light, a quantification apparatus for generating measured light intensity data of the collected light, and a processor for analyzing the data in relation to time. A method for monitoring formation of steam pop during ablation includes delivering light to tissue, delivering ablative energy to the tissue, measuring the reflectance spectral intensity of the tissue, and observing whether the measured reflectance spectral instensity (MRSI) initially increases in a specified time period followed by a decrease at a specified rate. If the MRSI does not decrease, delivery of ablation energy continues.Type: ApplicationFiled: June 27, 2016Publication date: October 20, 2016Inventors: Chad Allen Lieber, Ariel Garcia, Shiva Sharareh
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Patent number: 9375251Abstract: A system for measuring real-time tissue reflection spectral characteristics during ablation includes a catheter for collecting light reflected from tissue undergoing ablation, a detection component for separating constituent wavelengths of the collected light, a quantification apparatus for generating measured light intensity data of the collected light, and a processor for analyzing the data in relation to time. A method for monitoring formation of steam pop during ablation includes delivering light to tissue, delivering ablative energy to the tissue, measuring the reflectance spectral intensity of the tissue, and observing whether the measured reflectance spectral instensity (MRSI) initially increases in a specified time period followed by a decrease at a specified rate. If the MRSI does not decrease, delivery of ablation energy continues.Type: GrantFiled: December 20, 2013Date of Patent: June 28, 2016Assignee: BIOSENSE WEBSTER, INC.Inventors: Chad Allen Lieber, Ariel Garcia, Shiva Sharareh
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Publication number: 20160022358Abstract: A catheter is adapted to ablate tissue and provide lesion qualitative information on a real time basis, having an ablation tip section with a generally omni-directional light diffusion chamber with one openings to allow light energy in the chamber to radiate the tissue and return to the chamber. The chamber is irrigated at a positive pressure differential to continuously flush the opening with fluid. The light energy returning to the chamber from the tissue conveys a tissue parameter, including without limitation, lesion formation, depth of penetration of lesion, cross-sectional area of lesion, formation of char during ablation, recognition of char during ablation, recognition of char from non-charred tissue, formation of coagulum around the ablation site, differentiation of coagulated from non-coagulated blood, differentiation of ablated from healthy tissue, tissue proximity, and recognition of steam formation in the tissue for prevention of steam pop.Type: ApplicationFiled: October 5, 2015Publication date: January 28, 2016Inventors: Shiva Sharareh, Chad Allen Lieber, Jeffrey William Schultz
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Patent number: 9149330Abstract: A catheter is adapted to ablate tissue and provide lesion qualitative information on a real time basis, having an ablation tip section with a generally omni-directional light diffusion chamber with one openings to allow light energy in the chamber to radiate the tissue and return to the chamber. The chamber is irrigated at a positive pressure differential to continuously flush the opening with fluid. The light energy returning to the chamber from the tissue conveys a tissue parameter, including without limitation, lesion formation, depth of penetration of lesion, cross-sectional area of lesion, formation of char during ablation, recognition of char during ablation, recognition of char from non-charred tissue, formation of coagulum around the ablation site, differentiation of coagulated from non-coagulated blood, differentiation of ablated from healthy tissue, tissue proximity, and recognition of steam formation in the tissue for prevention of steam pop.Type: GrantFiled: December 20, 2013Date of Patent: October 6, 2015Assignee: Biosense Webster, Inc.Inventors: Shiva Sharareh, Chad Allen Lieber, Jeffrey William Schultz
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Publication number: 20140350547Abstract: A catheter is adapted to ablate tissue and provide lesion qualitative information on a real time basis, having an ablation tip section with a generally omni-directional light diffusion chamber with one openings to allow light energy in the chamber to radiate the tissue and return to the chamber. The chamber is irrigated at a positive pressure differential to continuously flush the opening with fluid. The light energy returning to the chamber from the tissue conveys a tissue parameter, including without limitation, lesion formation, depth of penetration of lesion, cross-sectional area of lesion, formation of char during ablation, recognition of char during ablation, recognition of char from non-charred tissue, formation of coagulum around the ablation site, differentiation of coagulated from non-coagulated blood, differentiation of ablated from healthy tissue, tissue proximity, and recognition of steam formation in the tissue for prevention of steam pop.Type: ApplicationFiled: December 20, 2013Publication date: November 27, 2014Applicant: BIOSENSE WEBSTER, INC.Inventors: Shiva Sharareh, Chad Allen Lieber, Jeffrey William Schultz
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Publication number: 20140243812Abstract: A system for measuring real-time tissue reflection spectral characteristics during ablation includes a catheter for collecting light reflected from tissue undergoing ablation, a detection component for separating constituent wavelengths of the collected light, a quantification apparatus for generating measured light intensity data of the collected light, and a processor for analyzing the data in relation to time. A method for monitoring formation of steam pop during ablation includes delivering light to tissue, delivering ablative energy to the tissue, measuring the reflectance spectral intensity of the tissue, and observing whether the measured reflectance spectral instensity (MRSI) initially increases in a specified time period followed by a decrease at a specified rate. If the MRSI does not decrease, delivery of ablation energy continues.Type: ApplicationFiled: December 20, 2013Publication date: August 28, 2014Applicant: BIOSENSE WEBSTER, INC.Inventors: Chad Allen Lieber, Ariel Garcia, Shiva Sharareh
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Patent number: 8641706Abstract: A system for measuring real-time tissue reflection spectral characteristics during ablation includes a catheter for collecting light reflected from tissue undergoing ablation, a detection component for separating constituent wavelengths of the collected light, a quantification apparatus for generating measured light intensity data of the collected light, and a processor for analyzing the data in relation to time. A method for monitoring formation of steam pop during ablation includes delivering light to tissue, delivering ablative energy to the tissue, measuring the reflectance spectral intensity of the tissue, and observing whether the measured reflectance spectral intensity (MRSI) initially increases in a specified time period followed by a decrease at a specified rate. If the MRSI does not decrease, delivery of ablation energy continues.Type: GrantFiled: March 29, 2012Date of Patent: February 4, 2014Assignee: Biosense Webster, Inc.Inventors: Chad Allen Lieber, Ariel Garcia, Shiva Sharareh
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Patent number: 8628520Abstract: A catheter is adapted to ablate tissue and provide lesion qualitative information on a real time basis, having an ablation tip section with a generally omni-directional light diffusion chamber with one openings to allow light energy in the chamber to radiate the tissue and return to the chamber. The chamber is irrigated at a positive pressure differential to continuously flush the opening with fluid. The light energy returning to the chamber from the tissue conveys a tissue parameter, including without limitation, lesion formation, depth of penetration of lesion, cross-sectional area of lesion, formation of char during ablation, recognition of char during ablation, recognition of char from non-charred tissue, formation of coagulum around the ablation site, differentiation of coagulated from non-coagulated blood, differentiation of ablated from healthy tissue, tissue proximity, and recognition of steam formation in the tissue for prevention of steam pop.Type: GrantFiled: May 2, 2006Date of Patent: January 14, 2014Assignee: Biosense Webster, Inc.Inventors: Shiva Sharareh, Chad Allen Lieber, Jeffrey William Schultz
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Patent number: 8500730Abstract: A catheter enables real-time light measurements from tissue while performing RF ablation. The tip design isolates illumination and collection paths such that light exits the tip and travels through the tissue before returning to the tip. The catheter has a tip electrode having an exterior shell, an inner layer and a hollow cavity. The inner layer is configured to transmit light outside the tip electrode, and the hollow cavity is configured to receive light. An inner surface of the inner layer has an opaque coating to isolate light injected into the inner layer from light collected in the hollow cavity. A first optical waveguide extends between the catheter body and tip electrode to inject light into the inner layer and illuminate the tissue, and a second optical waveguide extends between the catheter body and tip electrode to collect the recaptured light in the hollow cavity.Type: GrantFiled: November 16, 2007Date of Patent: August 6, 2013Assignee: Biosense Webster, Inc.Inventors: James K. Lee, Chad Allen Lieber, Michael Olen Zirkle
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Publication number: 20120245572Abstract: A system for measuring real-time tissue reflection spectral characteristics during ablation includes a catheter for collecting light reflected from tissue undergoing ablation, a detection component for separating constituent wavelengths of the collected light, a quantification apparatus for generating measured light intensity data of the collected light, and a processor for analyzing the data in relation to time. A method for monitoring formation of steam pop during ablation includes delivering light to tissue, delivering ablative energy to the tissue, measuring the reflectance spectral intensity of the tissue, and observing whether the measured reflectance spectral instensity (MRSI) initially increases in a specified time period followed by a decrease at a specified rate. If the MRSI does not decrease, delivery of ablation energy continues.Type: ApplicationFiled: March 29, 2012Publication date: September 27, 2012Inventors: Chad Allen Lieber, Ariel Garcia, Shiva Sharareh
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Patent number: 8147484Abstract: A system and method that enable real-time optical measurements of tissue reflection spectral characteristics while performing ablation, involves the radiation of tissue and recapturing of light from the tissue to monitor changes in the reflected optical intensity as an indicator of steam formation in the tissue for prevention of steam pop. The system includes a catheter adapted to collect light reflected from tissue undergoing ablation, a detection component that identifies and separates constituent wavelengths of collected light, a quantification apparatus for generating measured light intensity data for the collected light, and a processor that analyses the measured light intensity data in relation to time. The system may include a graphical display and/or an audio output (e.g., speaker) that provide visual and/or audio alarm when the system infers formation of a steam pocket in the tissue.Type: GrantFiled: October 23, 2006Date of Patent: April 3, 2012Assignee: Biosense Webster, Inc.Inventors: Chad Allen Lieber, Ariel Garcia, Shiva Sharareh
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Patent number: 8123745Abstract: A catheter enables real-time light measurements, for example, without limitation, diffuse reflectance, fluorescence, etc., from biological materials, such as tissue (including blood), while performing RF ablation. The catheter tip design isolates illumination and collection paths such that light exits the catheter tip and travels through the tissue of interest (e.g., cardiac tissue or blood) before returning to the catheter tip. Such a design advantageously avoids saturation of the optical detector, and ensures diffusion of the illumination light within the medium of interest. The catheter has a catheter body and a tip electrode. The tip electrode has an exterior shell, an inner layer of diffuse material and a hollow cavity, wherein the inner layer is configured to transmit light outside the tip electrode to a tissue via a set of illumination openings in the shell wall and the hollow cavity is configured to receive light from the tissue via a set of collection openings in the shell wall and the inner layer.Type: GrantFiled: June 29, 2007Date of Patent: February 28, 2012Assignee: Biosense Webster, Inc.Inventors: Christopher Beeckler, Chad Allen Lieber, Shiva Sharareh
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Patent number: 7976537Abstract: A system for opto-pyrometric tissue temperature monitoring in real time. The system is adapted for cardiac ablation and tissue temperature measurement, having a catheter having a tip electrode adapted for RF ablation of cardiac tissue and an optical collector whose distal end is received in an opening formed in the tip electrode to detect black body radiation from the cardiac tissue. The system includes an optical detection system in communication with the optical collector, the optical processing system processing signals representative of a wavelength of at least a portion of the black body radiation to determine a tissue temperature. The incorporation of an optical collector within a catheter tip permits real time monitoring of tissue temperature during ablation and lesion formation to prevent critical thresholds in temperature associated with events that can damage tissue, including steam pop, thrombus, char, etc.Type: GrantFiled: June 28, 2007Date of Patent: July 12, 2011Assignee: Biosense Webster, Inc.Inventors: Chad Allen Lieber, Shiva Sharareh
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Publication number: 20090253990Abstract: Non-invasive systems and methods to distinguish between blood and synovial fluid in patients are described. In one embodiment, the system comprises a patient interface system that can be placed over a swollen joint. A region of the swollen joint is illuminated with radiation. The scattered or transmitted radiation from the region of effusion is collected by a collection system and detected by a radiation detector. The information from the detector is analyzed by an analytic processing system to diagnose the cause of the joint effusion.Type: ApplicationFiled: December 5, 2008Publication date: October 8, 2009Applicant: Children's Hospital of Orange CountyInventors: Chad Allen Lieber, Diane Jean Nugent, Amit Soni
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Publication number: 20090131931Abstract: A catheter enables real-time light measurements, for example, without limitation, diffuse reflectance, fluorescence, etc., from biological materials, such as tissue (including blood), while performing RF ablation. The catheter tip design isolates illumination and collection paths such that light exits the catheter tip and travels through the tissue of interest (e.g., cardiac tissue or blood) before returning to the catheter tip. Such a design advantageously avoids saturation of the optical detector, and ensures diffusion of the illumination light within the medium of interest. The catheter has a catheter body and a tip electrode. The tip electrode has an exterior shell, an inner layer of diffuse material and a hollow cavity, wherein the inner layer is configured to transmit light outside the tip electrode to a tissue via a set of illumination openings in the shell wall and the hollow cavity is configured to receive light from the tissue via a set of collection openings in the shell wall and the inner layer.Type: ApplicationFiled: November 16, 2007Publication date: May 21, 2009Inventors: James K. Lee, Chad Allen Lieber, Michael Olen Zirkle