Patents by Inventor Adriano De Lima Santos
Adriano De Lima Santos 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: 20230211115Abstract: A ventilator includes electronic control circuitry configured to control a supply of breathing gas for a plurality of respiratory cycles, measure a volume received by the patient in each of the plurality of respiratory cycles, and determine, for each cycle of the plurality of respiratory cycles, a cycle score corresponding to a deviation between the volume of the cycle and a predetermined target volume. The determined cycle score can be selected from a predetermined number of cycle scores that span positive and negative numbers based on the deviation. A pressure step value can be determined based on a plurality of cycle scores corresponding to the plurality of respiratory cycles, and a current pressure of the breathing gas is adjusted by an amount corresponding to the determined pressure step value. The pressure step value may be generated by dividing a sum of the plurality of cycle scores by a sample size.Type: ApplicationFiled: March 13, 2023Publication date: July 6, 2023Inventors: Jorge BONASSA, Adriano DE LIMA SANTOS, José Augusto CALVO LONARDONI, Tito COUTINHO MELCO
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Patent number: 11602609Abstract: A ventilator includes electronic control circuitry configured to control a supply of breathing gas for a plurality of respiratory cycles, measure a volume received by the patient in each of the plurality of respiratory cycles, and determine, for each cycle of the plurality of respiratory cycles, a cycle score corresponding to a deviation between the volume of the cycle and a predetermined target volume. The determined cycle score can be selected from a predetermined number of cycle scores that span positive and negative numbers based on the deviation. A pressure step value can be determined based on a plurality of cycle scores corresponding to the plurality of respiratory cycles, and a current pressure of the breathing gas is adjusted by an amount corresponding to the determined pressure step value. The pressure step value may be generated by dividing a sum of the plurality of cycle scores by a sample size.Type: GrantFiled: January 18, 2019Date of Patent: March 14, 2023Assignee: Vyaire Medical Capital LLCInventors: Jorge Bonassa, Adriano De Lima Santos, José Augusto Calvo Lonardoni, Tito Coutinho Melco
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Publication number: 20210060285Abstract: A method for controlling mechanical lung ventilation is described. The method may include intermittently switching the airway pressure of a patient from a first baseline pressure level to a second baseline pressure and vice-versa such that the patient is able to breathe spontaneously in both first and second baseline pressure levels; detecting an inspiration effort by the patient within a predetermined period of time before a switching event of the intermittently switching the airway pressure; and controlling, responsive to detecting a breathing effort, a flow control valve and an exhalation valve to adjust a length of the first period of time according to a delay time so a patient inspiration-exhalation cycle is completed prior to the switching event.Type: ApplicationFiled: November 12, 2020Publication date: March 4, 2021Inventors: Jorge BONASSA, Adriano DE LIMA SANTOS, José Augusto CALVO LONARDONI, Tito COUTINHO MELCO
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Patent number: 10857322Abstract: A method for controlling mechanical lung ventilation is described. The method may include intermittently switching the airway pressure of the patient from a substantially constant high baseline pressure level to a substantially constant low baseline pressure and vice-versa such that the patient is able to breathe spontaneously in both high and low baseline pressure levels; detecting an inspiration effort by the patient inside a trigger time window that immediately precedes a switching event of the intermittently switching the airway pressure; maintaining a baseline pressure at the level in which the inspiration effort was detected so that the patient can complete the inspiration-exhalation cycle; and switching the baseline pressure level after a delay time.Type: GrantFiled: November 16, 2017Date of Patent: December 8, 2020Assignee: Vyaire Medical Capital LLCInventors: Jorge Bonassa, Adriano De Lima Santos, Jose Augusto Calvo Lonardoni, Tito Coutinho Melco
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Publication number: 20190151601Abstract: A ventilator includes electronic control circuitry configured to control a supply of breathing gas for a plurality of respiratory cycles, measure a volume received by the patient in each of the plurality of respiratory cycles, and determine, for each cycle of the plurality of respiratory cycles, a cycle score corresponding to a deviation between the volume of the cycle and a predetermined target volume. The determined cycle score can be selected from a predetermined number of cycle scores that span positive and negative numbers based on the deviation. A pressure step value can be determined based on a plurality of cycle scores corresponding to the plurality of respiratory cycles, and a current pressure of the breathing gas is adjusted by an amount corresponding to the determined pressure step value. The pressure step value may be generated by dividing a sum of the plurality of cycle scores by a sample size.Type: ApplicationFiled: January 18, 2019Publication date: May 23, 2019Inventors: Jorge BONASSA, Adriano DE LIMA SANTOS, José Augusto CALVO LONARDONI, Tito COUTINHO MELCO
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Patent number: 10183139Abstract: A method for controlling mechanical lung ventilation is described. The method may include supplying a breathing gas to an airway of a patient in an intermittent way such that a plurality of respiratory cycles are formed; measuring a volume received by the patient in one or more respiratory cycles of the plurality of respiratory cycles; comparing the measured volume of each of the one or more respiratory cycles with a user defined target volume; attributing a classifying score to each of the one or more respiratory cycles based at least partially on a deviation between the measured volume and the user defined target volume; summing the classifying scores and dividing the result by a sample size of the one or more respiratory cycles; attributing a pressure step value based at least partially on the division result; and adding the pressure step value to a present pressure.Type: GrantFiled: April 11, 2014Date of Patent: January 22, 2019Assignee: Vyaire Medical Capital LLCInventors: Jorge Bonassa, Adriano De Lima Santos, José Augusto Calvo Lonardoni, Tito Coutinho Melco
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Patent number: 9956365Abstract: A lung ventilation apparatus and system are described. The lung ventilation apparatus may include a control panel; and a graphical user interface associated with the control panel, the graphical user interface comprising a central strip content item covering at least 50% of a total area of the graphical user interface, the central strip content item representing at least one of a patient monitoring screen or surveillance screen, the central strip content item comprising a first portion and a second portion, wherein the first portion comprises numerical elements indicating ventilation parameters of a patient, and the second portion comprises a graphical element indicating pressure at a patient airway.Type: GrantFiled: April 11, 2014Date of Patent: May 1, 2018Assignee: VYAIRE MEDICAL CAPITAL LLCInventors: Jorge Bonassa, Adriano De Lima Santos, José Augusto Calvo Lonardoni
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Publication number: 20180085547Abstract: A method for controlling mechanical lung ventilation is described. The method may include intermittently switching the airway pressure of the patient from a substantially constant high baseline pressure level to a substantially constant low baseline pressure and vice-versa such that the patient is able to breathe spontaneously in both high and low baseline pressure levels; detecting an inspiration effort by the patient inside a trigger time window that immediately precedes a switching event of the intermittently switching the airway pressure; maintaining a baseline pressure at the level in which the inspiration effort was detected so that the patient can complete the inspiration-exhalation cycle; and switching the baseline pressure level after a delay time.Type: ApplicationFiled: November 16, 2017Publication date: March 29, 2018Inventors: Jorge BONASSA, Adriano DE LIMA SANTOS, Jose Augusto CALVO LONARDONI, Tito COUTINHO MELCO
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Patent number: 9839760Abstract: A method for controlling mechanical lung ventilation is described. The method may include intermittently switching the airway pressure of the patient from a substantially constant high baseline pressure level to a substantially constant low baseline pressure and vice-versa such that the patient is able to breathe spontaneously in both high and low baseline pressure levels; detecting an inspiration effort by the patient inside a trigger time window that immediately precedes a switching event of the intermittently switching the airway pressure; maintaining a baseline pressure at the level in which the inspiration effort was detected so that the patient can complete the inspiration-exhalation cycle; and switching the baseline pressure level after a delay time.Type: GrantFiled: April 11, 2014Date of Patent: December 12, 2017Assignee: VYAIRE MEDICAL CAPITAL LLCInventors: Jorge Bonassa, Adriano De Lima Santos, José Augusto Calvo Lonardoni, Tito Coutinho Melco
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Publication number: 20150290407Abstract: A lung ventilation apparatus and system are described. The lung ventilation apparatus may include a control panel; and a graphical user interface associated with the control panel, the graphical user interface comprising a central strip content item covering at least 50% of a total area of the graphical user interface, the central strip content item representing at least one of a patient monitoring screen or surveillance screen, the central strip content item comprising a first portion and a second portion, wherein the first portion comprises numerical elements indicating ventilation parameters of a patient, and the second portion comprises a graphical element indicating pressure at a patient airway.Type: ApplicationFiled: April 11, 2014Publication date: October 15, 2015Applicant: CareFusion 2200, Inc.Inventors: Jorge BONASSA, Adriano De Lima Santos, José Augusto Calvo Lonardoni
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Publication number: 20150290408Abstract: A method for controlling mechanical lung ventilation is described. The method may include intermittently switching the airway pressure of the patient from a substantially constant high baseline pressure level to a substantially constant low baseline pressure and vice-versa such that the patient is able to breathe spontaneously in both high and low baseline pressure levels; detecting an inspiration effort by the patient inside a trigger time window that immediately precedes a switching event of the intermittently switching the airway pressure; maintaining a baseline pressure at the level in which the inspiration effort was detected so that the patient can complete the inspiration-exhalation cycle; and switching the baseline pressure level after a delay time.Type: ApplicationFiled: April 11, 2014Publication date: October 15, 2015Applicant: CareFusion 2200, Inc.Inventors: Jorge BONASSA, Adriano De Lima Santos, José Augusto Calvo Lonardoni, Tito Coutinho Melco
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Publication number: 20150290409Abstract: A method for controlling mechanical lung ventilation is described. The method may include supplying a breathing gas to an airway of a patient in an intermittent way such that a plurality of respiratory cycles are formed; measuring a volume received by the patient in one or more respiratory cycles of the plurality of respiratory cycles; comparing the measured volume of each of the one or more respiratory cycles with a user defined target volume; attributing a classifying score to each of the one or more respiratory cycles based at least partially on a deviation between the measured volume and the user defined target volume; summing the classifying scores and dividing the result by a sample size of the one or more respiratory cycles; attributing a pressure step value based at least partially on the division result; and adding the pressure step value to a present pressure.Type: ApplicationFiled: April 11, 2014Publication date: October 15, 2015Applicant: CareFusion 2200, Inc.Inventors: Jorge BONASSA, Adriano DE LIMA SANTOS, José Augusto CALVO LONARDONI, Tito COUTINHO MELCO