Patents by Inventor Alain Jordan
Alain Jordan 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: 11738192Abstract: The present disclosure describes an implantable lead device that includes an internal support comb. The support comb can include one or more faces that enable the alignment, routing, and holding of the lead device's internal wires. The support comb can enable the interconnection of the wires with to the microelectrode film that includes the lead device's electrodes.Type: GrantFiled: February 8, 2022Date of Patent: August 29, 2023Inventors: André Mercanzini, Zbynek Struzka, Jason Jinyu Ruan, Pascal Harbi, Alain Jordan
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Patent number: 11730953Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: GrantFiled: October 13, 2021Date of Patent: August 22, 2023Inventors: André Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Publication number: 20220161024Abstract: The present disclosure describes an implantable lead device that includes an internal support comb. The support comb can include one or more faces that enable the alignment, routing, and holding of the lead device's internal wires. The support comb can enable the interconnection of the wires with to the microelectrode film that includes the lead device's electrodes.Type: ApplicationFiled: February 8, 2022Publication date: May 26, 2022Applicant: Aleva NeurotherapeuticsInventors: André MERCANZINI, Zbynek STRUZKA, Jason Jinyu RUAN, Pascal HARBI, Alain JORDAN
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Patent number: 11266830Abstract: The present disclosure describes an implantable lead device that includes an internal support comb. The support comb can include one or more faces that enable the alignment, routing, and holding of the lead device's internal wires. The support comb can enable the interconnection of the wires with to the microelectrode film that includes the lead device's electrodes.Type: GrantFiled: June 15, 2020Date of Patent: March 8, 2022Assignee: ALEVA NEUROTHERAPEUTICSInventors: Andre Mercanzini, Zbynek Struzka, Jason Jinyu Ruan, Pascal Harbi, Alain Jordan
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Publication number: 20220032043Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: ApplicationFiled: October 13, 2021Publication date: February 3, 2022Applicant: Aleva NeurotherapeuticsInventors: André MERCANZINI, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Patent number: 11167126Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: GrantFiled: August 26, 2019Date of Patent: November 9, 2021Assignee: ALEVA NEUROTHERAPEUTICSInventors: André Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Publication number: 20200306524Abstract: The present disclosure describes an implantable lead device that includes an internal support comb. The support comb can include one or more faces that enable the alignment, routing, and holding of the lead device's internal wires. The support comb can enable the interconnection of the wires with to the microelectrode film that includes the lead device's electrodes.Type: ApplicationFiled: June 15, 2020Publication date: October 1, 2020Inventors: Andre Mercanzini, Zbynek Struzka, Jason Jinyu Ruan, Pascal Harbi, Alain Jordan
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Patent number: 10702692Abstract: The present disclosure describes an implantable lead device that includes an internal support comb. The support comb can include one or more faces that enable the alignment, routing, and holding of the lead device's internal wires. The support comb can enable the interconnection of the wires with to the microelectrode film that includes the lead device's electrodes.Type: GrantFiled: March 2, 2018Date of Patent: July 7, 2020Assignee: ALEVA NEUROTHERAPEUTICSInventors: Andre Mercanzini, Zbynek Struzka, Jason Jinyu Ruan, Pascal Harbi, Alain Jordan
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Publication number: 20200009372Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: ApplicationFiled: August 26, 2019Publication date: January 9, 2020Inventors: André MERCANZINI, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Patent number: 10441779Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: GrantFiled: June 22, 2018Date of Patent: October 15, 2019Assignee: ALEVA NEUROTHERAPEUTICSInventors: Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Publication number: 20190269906Abstract: The present disclosure describes an implantable lead device that includes an internal support comb. The support comb can include one or more faces that enable the alignment, routing, and holding of the lead device's internal wires. The support comb can enable the interconnection of the wires with to the microelectrode film that includes the lead device's electrodes.Type: ApplicationFiled: March 2, 2018Publication date: September 5, 2019Inventors: Andre Mercanzini, Zbynek Struzka, Jason Jinyu Ruan, Pascal Harbi, Alain Jordan
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Patent number: 10201707Abstract: Techniques using electrical stimulation for treating an Autoimmune Disease by means of an implantable pulse generator and at least one electrode. An electrode lead is surgically implanted in a region of the insular cortex to deliver electrical stimulation. The at least one electrode lead and implantable pulse generator contain features that allow the electrical stimulation to be directed to specific volumes of the insular cortex, and ensure that non-therapeutic volumes do not receive electrical stimulation.Type: GrantFiled: January 23, 2018Date of Patent: February 12, 2019Assignee: ALEVA NEUROTHERAPEUTICSInventors: Ingo Hartig, Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Publication number: 20180296825Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: ApplicationFiled: June 22, 2018Publication date: October 18, 2018Inventors: Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Patent number: 10065031Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: GrantFiled: September 30, 2016Date of Patent: September 4, 2018Assignee: ALEVA NEUROTHERAPEUTICSInventors: Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Patent number: 10004895Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: GrantFiled: September 30, 2016Date of Patent: June 26, 2018Assignee: ALEVA NEUROTHERAPEUTICSInventors: Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Publication number: 20180161574Abstract: Techniques using electrical stimulation for treating an Autoimmune Disease by means of an implantable pulse generator and at least one electrode. An electrode lead is surgically implanted in a region of the insular cortex to deliver electrical stimulation. The at least one electrode lead and implantable pulse generator contain features that allow the electrical stimulation to be directed to specific volumes of the insular cortex, and ensure that non-therapeutic volumes do not receive electrical stimulation.Type: ApplicationFiled: January 23, 2018Publication date: June 14, 2018Inventors: Ingo Hartig, Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Patent number: 9925376Abstract: Techniques using electrical stimulation for treating an Autoimmune Disease by means of an implantable pulse generator and at least one electrode. An electrode lead is surgically implanted in a region of the insular cortex to deliver electrical stimulation. The at least one electrode lead and implantable pulse generator contain features that allow the electrical stimulation to be directed to specific volumes of the insular cortex, and ensure that non-therapeutic volumes do not receive electrical stimulation.Type: GrantFiled: February 1, 2017Date of Patent: March 27, 2018Assignee: ALEVA NEUROTHERAPEUTICSInventors: Ingo Hartig, Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Publication number: 20170136238Abstract: Techniques using electrical stimulation for treating an Autoimmune Disease by means of an implantable pulse generator and at least one electrode. An electrode lead is surgically implanted in a region of the insular cortex to deliver electrical stimulation. The at least one electrode lead and implantable pulse generator contain features that allow the electrical stimulation to be directed to specific volumes of the insular cortex, and ensure that non-therapeutic volumes do not receive electrical stimulation.Type: ApplicationFiled: February 1, 2017Publication date: May 18, 2017Inventors: Ingo Hartig, Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Publication number: 20170028191Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: ApplicationFiled: September 30, 2016Publication date: February 2, 2017Inventors: Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart
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Patent number: 9474894Abstract: The present disclosure discusses a system and methods for a deep brain stimulation lead. More particularly, the disclosure discusses a stimulation lead that includes one or more silicon based barrier layers within a MEMS film. The silicon based barrier layers can improve device reliability and durability. The silicon based barrier layers can also improve adhesion between the layers of the MEMS film.Type: GrantFiled: August 27, 2014Date of Patent: October 25, 2016Assignee: ALEVA NEUROTHERAPEUTICSInventors: Andre Mercanzini, Alain Jordan, Alexandre Michalis, Marc Boers, Alain Dransart