Patents by Inventor Pier-Paolo MONTICONE
Pier-Paolo MONTICONE 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: 20230289403Abstract: Provided is an electronic equipment offering a plurality of controllable functionalities and that receives information designating a functionality selected amongst this plurality of controllable functionalities. The electronic equipment also receives a plurality of recordings of a same group of at least one user input for this selected functionality. The electronic equipment also applies a trained neural network model on this received plurality of recordings to recognize an input pattern. The electronic equipment also associates this recognized input pattern with this selected functionality, and stores this association in a memory. The electronic equipment also controls this selected functionality based on this stored association.Type: ApplicationFiled: November 9, 2022Publication date: September 14, 2023Inventors: Pier Paolo MONTICONE, Layth Sliman BOUCHUIGUIR
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Publication number: 20230001179Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, a battery, a controller, and a programmer. The implantable pump includes a flexible membrane coupled to an actuator assembly via a skirt that extends toward the inlet of the pump and curves to guide blood toward the outlet. The actuator assembly is magnetically engageable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from the inlet, across the skirt, and through the outlet of the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: ApplicationFiled: September 7, 2022Publication date: January 5, 2023Applicant: CorWave SAInventors: Luc POLVERELLI, Leopold MAINE, Carl N. BOTTERBUSCH, Silvere LUCQUIN, Jean-Baptiste DREVET, Adrien GUIGNABERT, Patrick MENEROUD, Alexandra SCHMIDT, Pier-Paolo MONTICONE
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Patent number: 11526686Abstract: Provided is an electronic equipment offering a plurality of controllable functionalities and that receives information designating a functionality selected amongst this plurality of controllable functionalities. The electronic equipment also receives a plurality of recordings of a same group of at least one user input for this selected functionality. The electronic equipment also applies a trained neural network model on this received plurality of recordings to recognize an input pattern. The electronic equipment also associates this recognized input pattern with this selected functionality, and stores this association in a memory. The electronic equipment also controls this selected functionality based on this stored association.Type: GrantFiled: March 9, 2022Date of Patent: December 13, 2022Assignee: JT INTERNATIONAL SAInventors: Pier Paolo Monticone, Layth Sliman Bouchuiguir
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Publication number: 20220304385Abstract: An aerosol generating device includes a heating chamber; and a thermoelectric cell. The aerosol generating device is configured to supply electrical power to the thermoelectrical cell and the thermoelectric cell is arranged such that, when electrical power is supplied to the thermoelectric cell, heat is transferred through the thermoelectrical cell to the heating chamber by the thermoelectrical cell. A control unit is configured to control the heat transferred by the thermoelectrical cell so as to regulate an internal temperature of the heating chamber. A method of controlling the aerosol generating device includes controlling the heat transferred through the thermoelectric cell so as to regulate the internal temperature of the heating chamber.Type: ApplicationFiled: September 7, 2020Publication date: September 29, 2022Applicant: JT International SAInventor: Pier Paolo Monticone
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Patent number: 11446480Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, a battery, a controller, and a programmer. The implantable pump includes a flexible membrane coupled to an actuator assembly via a skirt that extends toward the inlet of the pump and curves to guide blood toward the outlet. The actuator assembly is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from the inlet, across the skirt, and through the outlet of the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: GrantFiled: November 22, 2018Date of Patent: September 20, 2022Assignee: CorWave SAInventors: Luc Polverelli, Leopold Maine, Carl N. Botterbusch, Silvere Lucquin, Jean-Baptiste Drevet, Adrien Guignabert, Patrick Meneroud, Alexandra Schmidt, Pier-Paolo Monticone
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Patent number: 11298522Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: GrantFiled: August 30, 2019Date of Patent: April 12, 2022Assignee: CorWave SAInventors: Carl N. Botterbusch, Silvere Lucquin, Pier-Paolo Monticone, Jean-Baptiste Drevet, Adrien Guignabert, Patrick Meneroud
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Publication number: 20200368417Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, a battery, a controller, and a programmer. The implantable pump includes a flexible membrane coupled to an actuator assembly via a skirt that extends toward the inlet of the pump and curves to guide blood toward the outlet. The actuator assembly is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from the inlet, across the skirt, and through the outlet of the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: ApplicationFiled: November 22, 2018Publication date: November 26, 2020Applicant: CorWave SAInventors: Luc POLVERELLI, Leopold MAINE, Carl N. BOTTERBUSCH, Silvere LUCQUIN, Jean-Baptiste DREVET, Adrien GUIGNABERT, Patrick MENEROUD, Alexandra SCHMIDT, Pier-Paolo MONTICONE
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Publication number: 20190381227Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: ApplicationFiled: August 30, 2019Publication date: December 19, 2019Applicant: CorWave SAInventors: Carl N. BOTTERBUSCH, Silvere LUCQUIN, Pier-Paolo MONTICONE, Jean-Baptiste DREVET, Adrien GUIGNABERT, Patrick MENEROUD
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Patent number: 10398821Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: GrantFiled: May 10, 2018Date of Patent: September 3, 2019Assignee: CorWave SAInventors: Carl N. Botterbusch, Silvere Lucquin, Pier-Paolo Monticone, Jean-Baptiste Drevet, Adrien Guignabert, Patrick Meneroud
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Patent number: 10188779Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, a battery, a controller, and a programmer. The implantable pump includes a flexible membrane coupled to an actuator assembly via a skirt that extends toward the inlet of the pump and curves to guide blood toward the outlet. The actuator assembly is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from the inlet, across the skirt, and through the outlet of the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: GrantFiled: April 13, 2018Date of Patent: January 29, 2019Assignee: CorWave SAInventors: Luc Polverelli, Leopold Maine, Carl N. Botterbusch, Silvere Lucquin, Jean-Baptiste Drevet, Adrien Guignabert, Patrick Meneroud, Alexandra Schmidt, Pier-Paolo Monticone
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Publication number: 20180256798Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: ApplicationFiled: May 10, 2018Publication date: September 13, 2018Applicant: CorWave SAInventors: Carl N. BOTTERBUSCH, Silvere LUCQUIN, Pier-Paolo MONTICONE, Jean-Baptiste DREVET, Adrien GUIGNABERT, Patrick MENEROUD
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Patent number: 9968720Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: GrantFiled: April 10, 2017Date of Patent: May 15, 2018Assignee: CorWave SAInventors: Carl N. Botterbusch, Silvere Lucquin, Pier-Paolo Monticone, Jean-Baptiste Drevet, Adrien Guignabert, Patrick Meneroud
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Publication number: 20170290966Abstract: An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.Type: ApplicationFiled: April 10, 2017Publication date: October 12, 2017Applicant: CorWave SAInventors: Carl N. BOTTERBUSCH, Silvere LUCQUIN, Pier-Paolo MONTICONE, Jean-Baptiste DREVET, Adrien GUIGNABERT, Patrick MENEROUD