Patents by Inventor Claudio Plaza
Claudio Plaza 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: 20240081829Abstract: A system for delivering an implant device to a vascular site in a patient a delivery pusher apparatus, an implant device detachably connected to the delivery pusher apparatus by a tether having a distal end connected to a proximal end of the implant device, wherein the tether is substantially non-tensioned when connecting the implant device to the delivery pusher, and an electrical heating element configured coaxially around at least a portion of the tether, wherein heat generated by the heating element severs the tether at a point near the proximal end of the implant device.Type: ApplicationFiled: November 15, 2023Publication date: March 14, 2024Applicant: MicroVention, Inc.Inventors: Claudio Plaza, Scott Hemmelgarn, Eileen Charlton, Todd Hewitt, Philippe Marchand, Daniel Welsh, William R. Patterson, Son Pham
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Patent number: 11849955Abstract: A system for delivering an implant device to a vascular site in a patient a delivery pusher apparatus, an implant device detachably connected to the delivery pusher apparatus by a tether having a distal end connected to a proximal end of the implant device, wherein the tether is substantially non-tensioned when connecting the implant device to the delivery pusher, and an electrical heating element configured coaxially around at least a portion of the tether, wherein heat generated by the heating element severs the tether at a point near the proximal end of the implant device.Type: GrantFiled: January 26, 2021Date of Patent: December 26, 2023Assignee: MicroVention, Inc.Inventors: Claudio Plaza, Scott Hemmelgarn, Eileen Charlton, Todd Hewitt, Philippe Marchand, Daniel Welsh, William R. Patterson, Son Pham
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Publication number: 20230285028Abstract: Systems for completely or partially excluding an aneurysm from circulation of blood are described. In one embodiment, the system includes a microcatheter, a fully or partially self-expandable stent, and a delivery device configured to be deliverable together with the stent through a lumen of the microcatheter. The delivery device includes an elongate support member coupled to a self-expandable portion, which includes a tubular mesh structure having a compressed state and an expanded state. A distal portion of the self-expandable portion extends proximally from a distal end of the self-expandable portion and has a length having an expanded outer diameter that is equal to or greater than the self-expanded inner diameter of the stent. In some embodiments, the proximal end of the self-expandable portion is substantially non-expanded where it is coupled to the elongate support member.Type: ApplicationFiled: May 16, 2023Publication date: September 14, 2023Inventors: Claudio Plaza, James M. Thompson, Hung P. Tran
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Publication number: 20230270441Abstract: Methods and devices for treating a cerebral aneurysm are described. The device may include proximal and distal self-expanding resilient permeable shells each including a plurality of elongate resilient filaments having a braided structure. The distal permeable shell may include a first plurality of filaments gathered at least at the proximal end thereof. The proximal permeable shell may include a second plurality of filaments are gathered at least at the proximal end thereof. The expanded state of the distal permeable shell may have a convex shape at the distal end of the distal permeable shell and the expanded state of the proximal permeable shell may have a generally convex shape at the proximal end of the proximal permeable shell. The expanded states of the distal and proximal permeable shells may also define a toroidal cavity through which an elongate support member extends.Type: ApplicationFiled: May 8, 2023Publication date: August 31, 2023Inventors: Todd Hewitt, Brian E. Merritt, William R. Patterson, James M. Thompson, Claudio Plaza, Hung P. Tran
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Patent number: 11690629Abstract: Systems for treating an aneurysm in a cerebral vessel and methods of use are described. In one embodiment, the system includes an elongate tubular member having a lumen, an expandable stent, and a delivery device. The expandable stent has a constrained state that is configured for delivery through the lumen of the elongate tubular member, and an expanded state configured for placement within the cerebral vessel adjacent the aneurysm. The delivery device includes an elongate member and a self-expandable portion. The proximal end of the self-expandable portion is coupled to the elongate member at or near the distal end of the elongate member. The self-expandable portion of the delivery device includes a tubular mesh structure having a constrained state and an expanded state. The stent is engaged (e.g., mechanical, frictional, or intermeshing) with the self-expandable portion of the delivery device.Type: GrantFiled: February 16, 2021Date of Patent: July 4, 2023Assignee: MICROVENTION, INC.Inventors: Claudio Plaza, James M. Thompson, Hung P. Tran
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Patent number: 11678886Abstract: Methods and devices for treating a cerebral aneurysm utilize a device that includes a self-expanding resilient permeable shell made from elongate resilient filaments. At least some of the filaments have a distal region that extends beyond the distal end of the permeable shell and form an extension having a generally circular shape when expanded. The permeable shell has a radially constrained elongated state configured for delivery within a microcatheter and has an expanded state with a globular, axially shortened configuration. The permeable shell has a plurality of openings formed between the braided filaments. The distal regions of the plurality of filaments that form the extension may be braided, partially braided, or unraveled. Once deployed within the cerebral aneurysm, the extension may be positioned near a dome of the cerebral aneurysm.Type: GrantFiled: April 2, 2019Date of Patent: June 20, 2023Assignee: MICROVENTION, INC.Inventors: Todd Hewitt, Brian E. Merritt, William R. Patterson, James M. Thompson, Claudio Plaza, Hung P. Tran
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Patent number: 11298137Abstract: In a system and method for deployment of an implant device, the implant device includes a first loop at its proximal end, and a deployment tool has a second loop attached at its distal end. A release wire slidably disposed within the deployment tool has a distal end extending through the first and second loops to releasably couple the implant device to the deployment tool, and a proximal portion extending from a proximal end of the deployment tool, which is held in a retraction device. The retraction device is operable to hold the proximal end of the deployment tool and to pull the release wire proximally through the deployment tool until the distal end of the release wire is withdrawn from the first and second loops to decouple the implant device from the deployment tool.Type: GrantFiled: January 10, 2020Date of Patent: April 12, 2022Assignee: INCEPTUS MEDICAL LLCInventors: Martin Shabaz, Claudio Plaza, Richard Quick, Paul Lubock, Brian J. Cox
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Publication number: 20210275184Abstract: Devices and methods for treatment of a patient's vasculature are described. The device includes a self-expanding resilient permeable shell having a radially constrained state and an expanded state with a globular, axially shortened configuration. The permeable shell may be a single layer of braided elongate filaments having first and second ends that are secured at the proximal end of the permeable shell. The devices may also include permeable shells made of woven braided mesh having a variable mesh density, i.e., the average size of pores in one region are a different than the average size of pores in another region. Methods of using the device to treat a cerebral aneurysm are also described. Methods of forming a tubular braid are also described. Methods of forming a tubular braid with variable braid densities are described. Methods of forming a tubular braid using a castellated mandrel are also described.Type: ApplicationFiled: February 16, 2021Publication date: September 9, 2021Inventors: Todd Hewitt, Brian Merritt, William R. Patterson, James M. Thompson, Claudio Plaza, Hung P. Tran, Richard L. Quick
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Publication number: 20210275188Abstract: Systems for treating an aneurysm in a cerebral vessel and methods of use are described. In one embodiment, the system includes an elongate tubular member having a lumen, an expandable stent, and a delivery device. The expandable stent has a constrained state that is configured for delivery through the lumen of the elongate tubular member, and an expanded state configured for placement within the cerebral vessel adjacent the aneurysm. The delivery device includes an elongate member and a self-expandable portion. The proximal end of the self-expandable portion is coupled to the elongate member at or near the distal end of the elongate member. The self-expandable portion of the delivery device includes a tubular mesh structure having a constrained state and an expanded state. The stent is engaged (e.g., mechanical, frictional, or intermeshing) with the self-expandable portion of the delivery device.Type: ApplicationFiled: February 16, 2021Publication date: September 9, 2021Inventors: Claudio Plaza, James M. Thompson, Hung P. Tran
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Publication number: 20210145444Abstract: A system for delivering an implant device to a vascular site in a patient a delivery pusher apparatus, an implant device detachably connected to the delivery pusher apparatus by a tether having a distal end connected to a proximal end of the implant device, wherein the tether is substantially non-tensioned when connecting the implant device to the delivery pusher, and an electrical heating element configured coaxially around at least a portion of the tether, wherein heat generated by the heating element severs the tether at a point near the proximal end of the implant device.Type: ApplicationFiled: January 26, 2021Publication date: May 20, 2021Applicant: Sequent Medical, Inc.Inventors: Claudio Plaza, Scott Hemmelgarn, Eileen Charlton, Todd Hewitt, Philippe Marchand, Daniel Welsh, William R. Patterson, Son Pham
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Patent number: 10952739Abstract: Systems for treating an aneurysm in a cerebral vessel and methods of use are described. In one embodiment, the system includes an elongate tubular member having a lumen, an expandable stent, and a delivery device. The expandable stent has a constrained state that is configured for delivery through the lumen of the elongate tubular member, and an expanded state configured for placement within the cerebral vessel adjacent the aneurysm. The delivery device includes an elongate member and a self-expandable portion. The proximal end of the self-expandable portion is coupled to the elongate member at or near the distal end of the elongate member. The self-expandable portion of the delivery device includes a tubular mesh structure having a constrained state and an expanded state. The stent is engaged (e.g., mechanical, frictional, or intermeshing) with the self-expandable portion of the delivery device.Type: GrantFiled: March 8, 2017Date of Patent: March 23, 2021Assignee: SEQUENT MEDICAL, INC.Inventors: Claudio Plaza, James M Thompson, Hung P Tran
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Patent number: 10939914Abstract: Devices and methods for treatment of a patient's vasculature are described. The device includes a self-expanding resilient permeable shell having a radially constrained state and an expanded state with a globular, axially shortened configuration. The permeable shell may be a single layer of braided elongate filaments having first and second ends that are secured at the proximal end of the permeable shell. The devices may also include permeable shells made of woven braided mesh having a variable mesh density, i.e., the average size of pores in one region are a different than the average size of pores in another region. Methods of using the device to treat a cerebral aneurysm are also described. Methods of forming a tubular braid are also described. Methods of forming a tubular braid with variable braid densities are described. Methods of forming a tubular braid using a castellated mandrel are also described.Type: GrantFiled: March 23, 2018Date of Patent: March 9, 2021Assignee: SEQUENT MEDICAL, INC.Inventors: Todd Hewitt, Brian Merritt, William R. Patterson, James M. Thompson, Claudio Plaza, Hung P. Tran, Richard L Quick
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Patent number: 10932787Abstract: A system for delivering an implant device to a vascular site in a patient a delivery pusher apparatus, an implant device detachably connected to the delivery pusher apparatus by a tether having a distal end connected to a proximal end of the implant device, wherein the tether is substantially non-tensioned when connecting the implant device to the delivery pusher, and an electrical heating element configured coaxially around at least a portion of the tether, wherein heat generated by the heating element severs the tether at a point near the proximal end of the implant device.Type: GrantFiled: October 11, 2018Date of Patent: March 2, 2021Assignee: Sequent Medical, Inc.Inventors: Claudio Plaza, Scott Hemmelgarn, Eileen Charlton, Todd Hewitt, Philippe Marchand, Daniel Welsh, William R. Patterson, Son Pham
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Publication number: 20200146689Abstract: In a system and method for deployment of an implant device, the implant device includes a first loop at its proximal end, and a deployment tool has a second loop attached at its distal end. A release wire slidably disposed within the deployment tool has a distal end extending through the first and second loops to releasably couple the implant device to the deployment tool, and a proximal portion extending from a proximal end of the deployment tool, which is held in a retraction device. The retraction device is operable to hold the proximal end of the deployment tool and to pull the release wire proximally through the deployment tool until the distal end of the release wire is withdrawn from the first and second loops to decouple the implant device from the deployment tool.Type: ApplicationFiled: January 10, 2020Publication date: May 14, 2020Applicant: Inceptus Medical LLCInventors: Martin Shabaz, Claudio Plaza, Richard Quick, Paul Lubock, Brian J. Cox
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Patent number: 10531877Abstract: In a system and method for deployment of an implant device, the implant device includes a first loop at its proximal end, and a deployment tool has a second loop attached at its distal end. A release wire slidably disposed within the deployment tool has a distal end extending through the first and second loops to releasably couple the implant device to the deployment tool, and a proximal portion extending from a proximal end of the deployment tool, which is held in a retraction device. The retraction device is operable to hold the proximal end of the deployment tool and to pull the release wire proximally through the deployment tool until the distal end of the release wire is withdrawn from the first and second loops to decouple the implant device from the deployment tool.Type: GrantFiled: November 9, 2018Date of Patent: January 14, 2020Assignee: INCEPTUS MEDICAL LLCInventors: Martin Shabaz, Claudio Plaza, Richard Quick, Paul Lubock, Brian J. Cox
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Publication number: 20190223881Abstract: Methods and devices for treating a cerebral aneurysm are described. The device may include a self-expanding resilient permeable shell made from elongate resilient filaments. At least some of the filaments have a distal region that extends beyond the distal end of the permeable shell and form an extension having a generally circular shape when expanded. The permeable shell has a radially constrained elongated state configured for delivery within a microcatheter and has an expanded state with a globular, axially shortened configuration. The permeable shell has a plurality of openings formed between the braided filaments. The distal regions of the plurality of filaments that form the extension may be braided, partially braided, or unraveled. Once deployed within the cerebral aneurysm, the extension is positioned near a dome of the cerebral aneurysm.Type: ApplicationFiled: April 2, 2019Publication date: July 25, 2019Applicant: SEQUENT MEDICAL, INC.Inventors: TODD HEWITT, Brian E. Merritt, William R. Patterson, James M. Thompson, Claudio Plaza, Hung P. Tran
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Publication number: 20190133600Abstract: In a system and method for deployment of an implant device, the implant device includes a first loop at its proximal end, and a deployment tool has a second loop attached at its distal end. A release wire slidably disposed within the deployment tool has a distal end extending through the first and second loops to releasably couple the implant device to the deployment tool, and a proximal portion extending from a proximal end of the deployment tool, which is held in a retraction device. The retraction device is operable to hold the proximal end of the deployment tool and to pull the release wire proximally through the deployment tool until the distal end of the release wire is withdrawn from the first and second loops to decouple the implant device from the deployment tool.Type: ApplicationFiled: November 9, 2018Publication date: May 9, 2019Applicant: Inceptus Medical LLCInventors: Martin Shabaz, Claudio Plaza, Richard Quick, Paul Lubock, Brian J. Cox
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Publication number: 20190046209Abstract: A system for delivering an implant device to a vascular site in a patient a delivery pusher apparatus, an implant device detachably connected to the delivery pusher apparatus by a tether having a distal end connected to a proximal end of the implant device, wherein the tether is substantially non-tensioned when connecting the implant device to the delivery pusher, and an electrical heating element configured coaxially around at least a portion of the tether, wherein heat generated by the heating element severs the tether at a point near the proximal end of the implant device.Type: ApplicationFiled: October 11, 2018Publication date: February 14, 2019Applicant: Sequent Medical, Inc.Inventors: Claudio Plaza, Scott Hemmelgarn, Eileen Charlton, Todd Hewitt, Philippe Marchand, Daniel Welsh, William R. Patterson, Son Pham
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Patent number: 10123802Abstract: A system for delivering an implant device to a vascular site in a patient a delivery pusher apparatus, an implant device detachably connected to the delivery pusher apparatus by a tether having a distal end connected to a proximal end of the implant device, wherein the tether is substantially non-tensioned when connecting the implant device to the delivery pusher, and an electrical heating element configured coaxially around at least a portion of the tether, wherein heat generated by the heating element severs the tether at a point near the proximal end of the implant device.Type: GrantFiled: December 17, 2015Date of Patent: November 13, 2018Assignee: Sequent Medical, Inc.Inventors: Claudio Plaza, Scott Hemmelgarn, Eileen Charlton, Todd Hewitt, Philippe Marchand, Daniel Welsh, William R. Patterson, Son Pham
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Publication number: 20180206849Abstract: Devices and methods for treatment of a patient's vasculature are described. The device includes a self-expanding resilient permeable shell having a radially constrained state and an expanded state with a globular, axially shortened configuration. The permeable shell may be a single layer of braided elongate filaments having first and second ends that are secured at the proximal end of the permeable shell. The devices may also include permeable shells made of woven braided mesh having a variable mesh density, i.e., the average size of pores in one region are a different than the average size of pores in another region. Methods of using the device to treat a cerebral aneurysm are also described. Methods of forming a tubular braid are also described. Methods of forming a tubular braid with variable braid densities are described. Methods of forming a tubular braid using a castellated mandrel are also described.Type: ApplicationFiled: March 23, 2018Publication date: July 26, 2018Applicant: SEQUENT MEDICAL, INC.Inventors: Todd Hewitt, Brian Merritt, William R. Patterson, James M. Thompson, Claudio Plaza, Hung P. Tran, Richard L. Quick