Patents by Inventor Channy LOEUM
Channy LOEUM 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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Publication number: 20230123995Abstract: A method of monitoring physiological conditions including an acoustic measurement device and a remote controller. The remove controller configured to measure physiological conditions; calculate absolute tidal volume, a direction of tidal volume, and a rate of change of tidal volume; correlate absolute tidal volume, a direction of tidal volume, and a rate of change of tidal volume to a risk score; calculate a direction trend and rate of change for each physiological condition; correlate the direction trend and rate of change for each physiological condition; detect predefined patterns in the direction trend and rate of change of the measured physiological condition at the predetermined interval; and generating at least one from the group consisting of an alert, an alarm, and a medical treatment if the risk score defined on the predefined scale exceeds a first predetermined risk score threshold and at least one predefined pattern is detected.Type: ApplicationFiled: December 15, 2022Publication date: April 20, 2023Inventors: Jeffrey I. JOSEPH, Noud Van HELMOND, Marc C. TORJMAN, Denise L. DEVINE, Nance K. DICCIANI, Channy LOEUM
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Patent number: 11529076Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: October 11, 2021Date of Patent: December 20, 2022Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Noud Van Helmond, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Publication number: 20220022773Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: October 11, 2021Publication date: January 27, 2022Inventors: Jeffrey I JOSEPH, Noud Van HELMOND, Marc C TORJMAN, Denise L DEVINE, Nance K DICCIANI, Channy LOEUM
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Patent number: 11213225Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: May 5, 2021Date of Patent: January 4, 2022Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Noud Van Helmond, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Publication number: 20210251520Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: May 5, 2021Publication date: August 19, 2021Inventors: Jeffrey I JOSEPH, Noud Van HELMOND, Marc C TORJMAN, Denise L DEVINE, Nance K DICCIANI, Channy LOEUM
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Patent number: 11071476Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: August 22, 2019Date of Patent: July 27, 2021Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Noud Van Helmond, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Patent number: 11006863Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: February 27, 2020Date of Patent: May 18, 2021Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Noud Van Helmond, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Patent number: 11000212Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: August 18, 2020Date of Patent: May 11, 2021Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Noud Van Helmond, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Patent number: 11000191Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: July 24, 2020Date of Patent: May 11, 2021Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Patent number: 10881330Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: August 19, 2019Date of Patent: January 5, 2021Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Noud Van Helmond, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Publication number: 20200375502Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: August 18, 2020Publication date: December 3, 2020Inventors: Jeffrey I. JOSEPH, Noud Van HELMOND, Marc C. TORJMAN, Denise L DEVINE, Nance K DICCIANI, Channy LOEUM
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Patent number: 10842416Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: GrantFiled: August 22, 2019Date of Patent: November 24, 2020Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Noud Van Helmond, Marc C Torjman, Denise L Devine, Nance K Dicciani, Channy Loeum
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Patent number: 10835280Abstract: A tissue punch including a barrel defining a first open end, a second open end, and inner diameter, an outer diameter, and a lumen there through. A piston is at least partially disposed within the lumen and pressed against the inner diameter of the barrel, the piston being configured to create negative pressure within the barrel when the piston is retracted. A cutting element defines a proximal end and a distal end, the proximal end of the cutting element being disposed at the second open end of the barrel, the distal end of the cutting element defining a cutting edge, the cutting element is in fluid communication with the barrel. A pushing element is slideably disposed about the outer diameter of the barrel, the pushing element is movable from a biased first position away from the cutting edge to a second position proximate the cutting edge.Type: GrantFiled: October 1, 2018Date of Patent: November 17, 2020Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Channy Loeum, Noud Van Helmond, Nance K Dicciani, Denise L Devine
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Patent number: 10835281Abstract: A tissue punch including a barrel defining a first open end, a second open end, and inner diameter, an outer diameter, and a lumen there through. A piston is at least partially disposed within the lumen and pressed against the inner diameter of the barrel, the piston being configured to create negative pressure within the barrel when the piston is retracted. A cutting element defines a proximal end and a distal end, the proximal end of the cutting element being disposed at the second open end of the barrel, the distal end of the cutting element defining a cutting edge, the cutting element is in fluid communication with the barrel. A pushing element is slideably disposed about the outer diameter of the barrel, the pushing element is movable from a biased first position away from the cutting edge to a second position proximate the cutting edge.Type: GrantFiled: June 15, 2020Date of Patent: November 17, 2020Assignees: Thomas Jefferson University, RTM Vital Signs LLCInventors: Jeffrey I Joseph, Channy Loeum, Noud Van Helmond, Nance K Dicciani, Denise L Devine
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Publication number: 20200352456Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: July 24, 2020Publication date: November 12, 2020Inventors: Jeffrey I. Joseph, Marc C. Torjman, Denise L. Devine, Nance K. Dicciani, Channy Loeum
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Publication number: 20200305921Abstract: A tissue punch including a barrel defining a first open end, a second open end, and inner diameter, an outer diameter, and a lumen there through. A piston is at least partially disposed within the lumen and pressed against the inner diameter of the barrel, the piston being configured to create negative pressure within the barrel when the piston is retracted. A cutting element defines a proximal end and a distal end, the proximal end of the cutting element being disposed at the second open end of the barrel, the distal end of the cutting element defining a cutting edge, the cutting element is in fluid communication with the barrel. A pushing element is slideably disposed about the outer diameter of the barrel, the pushing element is movable from a biased first position away from the cutting edge to a second position proximate the cutting edge.Type: ApplicationFiled: June 15, 2020Publication date: October 1, 2020Inventors: Jeffrey I JOSEPH, Channy LOEUM, Noud VAN HELMOND, Nance K Dicciani, Denise L Devine
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Publication number: 20200196911Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: February 27, 2020Publication date: June 25, 2020Inventors: Jeffrey I. JOSEPH, Noud Van HELMOND, Marc C. TORJMAN, Denise L. DEVINE, Nance K. DICCIANI, Channy LOEUM
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Publication number: 20200054278Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: August 22, 2019Publication date: February 20, 2020Inventors: Jeffrey I JOSEPH, Noud Van HELMOND, Marc C TORJMAN, Denise L DEVINE, Nance K DICCIANI, Channy LOEUM
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Publication number: 20200054250Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: August 22, 2019Publication date: February 20, 2020Inventors: Jeffrey I. JOSEPH, Noud Van HELMOND, Marc C. TORJMAN, Denise L. DEVINE, Nance K. DICCIANI, Channy LOEUM
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Publication number: 20200054277Abstract: A method of monitoring respiration with an acoustic measurement device, the acoustic measurement device having a sound transducer, the sound transducer configured to measure sound associated with airflow through a mammalian trachea, the method includes correlating the measured sound into a measurement of tidal volume and generating at least one from the group consisting of an alert and an alarm if the measured tidal volume falls outside of a predetermined range.Type: ApplicationFiled: August 19, 2019Publication date: February 20, 2020Inventors: Jeffrey I. JOSEPH, Noud Van HELMOND, Marc C. TORJMAN, Denise L. DEVINE, Nance K. DICCIANI, Channy LOEUM