Patents by Inventor Eason Abbott
Eason Abbott 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: 20260069440Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: ApplicationFiled: April 25, 2025Publication date: March 12, 2026Inventors: Dustin Armer, Eason Abbott, Nima V. Nia
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Patent number: 12551329Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: GrantFiled: June 2, 2025Date of Patent: February 17, 2026Assignee: Renata Medical, Inc.Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Publication number: 20250288407Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: ApplicationFiled: June 2, 2025Publication date: September 18, 2025Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Patent number: 12343249Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: GrantFiled: December 17, 2024Date of Patent: July 1, 2025Assignee: Renata Medical, Inc.Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Publication number: 20250114185Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: ApplicationFiled: December 17, 2024Publication date: April 10, 2025Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Patent number: 12208002Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: GrantFiled: April 16, 2024Date of Patent: January 28, 2025Assignee: Renata Medical, Inc.Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Publication number: 20240382326Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: ApplicationFiled: July 24, 2024Publication date: November 21, 2024Inventors: Dustin Armer, Eason Abbott
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Patent number: 12076256Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: GrantFiled: November 3, 2023Date of Patent: September 3, 2024Assignee: Renata Medical, Inc.Inventors: Dustin Armer, Eason Abbott
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Publication number: 20240261083Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: ApplicationFiled: April 16, 2024Publication date: August 8, 2024Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Publication number: 20240189092Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: ApplicationFiled: December 7, 2023Publication date: June 13, 2024Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Patent number: 12004939Abstract: A transcatheter growth device for treating congenital illnesses in infantile and other pediatric heart disease patients and methods for making and using the same. The growth device includes an elongated device frame with alternating annular growth cell members and spacing members that axially span proximal and distal end regions of the device frame. The growth cell members and spacing members define a radial periphery for the growth device. Each growth cell member can comprise a scaffolded growth cell member with first and second annular strut arrangements coupled via a growth cell junction to provide device frame flexibility. A retention member for engaging a selected lumen within a patient and a covering member for sealing the growth device, when deployed, are disposed at the device periphery. The growth device advantageously can be deployed for treating heart disease alone or in combination with one or more additional growth devices.Type: GrantFiled: December 7, 2023Date of Patent: June 11, 2024Assignee: Renata Medical, Inc.Inventors: Corey Marshall, Eason Abbott, Dustin Armer, Jordan Roy, Evan Zahn, Rani Mahmoudi
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Publication number: 20240065866Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: ApplicationFiled: November 3, 2023Publication date: February 29, 2024Inventors: Dustin Armer, Eason Abbott
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Patent number: 11839560Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: GrantFiled: November 17, 2022Date of Patent: December 12, 2023Assignee: Renata Medical, Inc.Inventors: Dustin Armer, Eason Abbott
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Publication number: 20230085236Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: ApplicationFiled: November 17, 2022Publication date: March 16, 2023Inventors: Dustin Armer, Eason Abbott
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Patent number: 11534319Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: GrantFiled: February 17, 2022Date of Patent: December 27, 2022Assignee: Renata Medical, Inc.Inventors: Dustin Armer, Eason Abbott
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Publication number: 20220168123Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: ApplicationFiled: February 17, 2022Publication date: June 2, 2022Inventors: Dustin Armer, Eason Abbott
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Patent number: 11291571Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: GrantFiled: December 10, 2020Date of Patent: April 5, 2022Assignee: Renata Medical, Inc.Inventors: Dustin Armer, Eason Abbott
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Publication number: 20210085496Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: ApplicationFiled: December 10, 2020Publication date: March 25, 2021Inventors: Dustin Armer, Eason Abbott
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Patent number: 10893962Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: GrantFiled: May 18, 2020Date of Patent: January 19, 2021Assignee: RENATA MEDICAL, INC.Inventors: Dustin Armer, Eason Abbott
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Publication number: 20200276037Abstract: A growth stent and valve and methods for making and using the same. The growth stent and valve may be delivered to treat early stage congenital lesions, while expanding to adult vessel diameters. In selected embodiments, the growth stent and valve can comprise a frame and may have a covering on some portion to prevent blood flow through a wall of the frame. The growth stent and valve advantageously can maintain radial strength across an entire range of diameters necessary to treat a narrowed lesion from birth and childhood through adulthood as the vessels grow over the lifetime of a patient.Type: ApplicationFiled: May 18, 2020Publication date: September 3, 2020Inventors: Dustin Armer, Eason Abbott