Patents by Inventor Simone BOTTAN
Simone BOTTAN 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: 12623084Abstract: An insertion tool having a wall of tubular or funneled shape, with, on a front portion thereof, a front side opening so that an opening of an empty pouch for an implantable pulse generator, and corresponding wiring, can be shifted onto the front portion and over the front side opening, and with, on a back portion of the insertion tool, a backside opening so that an implantable pulse generator, and corresponding wiring, can be inserted through that backside opening, through a passageway opening to the front side opening and into the pouch, while manually holding the insertion tool using the back portion The wall has an axial slot between the front side opening and the backside opening.Type: GrantFiled: May 25, 2021Date of Patent: May 12, 2026Assignee: Hylomorph AGInventors: Benjamin Josi, Francesco Robotti, Simone Bottan, Aldo Ferrari
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Publication number: 20260108455Abstract: Device for sustained controlled release of therapeutically active substance after implantation of the device alone or in combination with further implantable elements. The device has one layer of material having at least one therapeutically active substance, wherein the layer has a biodegradable matrix consisting of a mixture of 60-95% by dry weight of a first component (A) in the form of a copolymer of DL-lactide and glycolide (PLGA) with a molar ratio of DL-lactide to glycolide in the range of 40:60-60:40 and with a weight average molecular weight (MWw) in the range of 100,000-150,000 g/mol and 5-40% by dry weight of a second component (B) in the form of polyethylene glycol (PEG), the dry weights of component (A) and (B) complementing to 100% of the matrix. In this matrix the at least one therapeutically active substance is dissolved and/or suspended.Type: ApplicationFiled: June 29, 2023Publication date: April 23, 2026Applicant: Hylomorph AGInventors: Aldo FERRARI, Simone BOTTAN, Francesco ROBOTTI, Georgios STEFOPOULOS
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Publication number: 20240350814Abstract: Method for the preparation of an implantable device, wherein in a first step a non-degradable implantable device is at least partially covered or surrounded by at least one separate layer of material comprising a therapeutically active substance providing for sustained controlled release of said substance under physiological conditions, and wherein in a second step this is inserted into a wet or humid pouch through an opening thereof.Type: ApplicationFiled: June 7, 2022Publication date: October 24, 2024Applicant: Hylomorph AGInventors: Aldo FERRARI, Simone BOTTAN, Francesco ROBOTTI, Georgios STEFOPOULOS
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Publication number: 20230256255Abstract: An insertion tool having a wall of tubular or funnelled shape, with, on a front portion thereof, a front side opening so that an opening of an empty pouch for an implantable pulse generator, and corresponding wiring, can be shifted onto the front portion and over the front side opening, and with, on a back portion of the insertion tool, a backside opening so that an implantable pulse generator, and corresponding wiring, can be inserted through that backside opening, through a passageway opening to the front side opening and into the pouch, while manually holding the insertion tool using the back portion The wall has an axial slot between the front side opening and the backside opening.Type: ApplicationFiled: May 25, 2021Publication date: August 17, 2023Applicant: Hylomorph AGInventors: Benjamin JOSI, Francesco ROBOTTI, Simone BOTTAN, Aldo FERRARI
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Patent number: 11648103Abstract: The invention relates to an artificial vascular graft comprising a primary scaffold structure encompassing an inner space of the artificial vascular graft, said primary scaffold structure having an inner surface facing towards said inner space and an outer surface facing away from said inner space, a coating on said inner surface, wherein a plurality of grooves is comprised in said coating of said inner surface. The primary scaffold structure comprises further a coating on said outer surface. The primary scaffold structure and the coating on said inner surface and on said outer surface are d designed in such a way that cells, in particular progenitor cells, can migrate from the periphery of said artificial vascular graft through said outer surface of said coating, said primary scaffold structure and said inner surface to said inner space, if the artificial vascular graft is used as intended. The invention relates further to a method for providing said graft.Type: GrantFiled: December 11, 2018Date of Patent: May 16, 2023Assignee: UNIVERSITÄTSSPITAL BASELInventors: Bernhard Winkler, Martin Grapow, Friedrich Eckstein, Aldo Ferrari, Dimos Poulikakos, Simone Bottan, Maximilian Fischer, Tobias Lendenmann
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Publication number: 20190159880Abstract: The invention relates to an artificial vascular graft comprising a primary scaffold structure encompassing an inner space of the artificial vascular graft, said primary scaffold structure having an inner surface facing towards said inner space and an outer surface facing away from said inner space, a coating on said inner surface, wherein a plurality of grooves is comprised in said coating of said inner surface. The primary scaffold structure comprises further a coating on said outer surface. The primary scaffold structure and the coating on said inner surface and on said outer surface are d designed in such a way that cells, in particular progenitor cells, can migrate from the periphery of said artificial vascular graft through said outer surface of said coating, said primary scaffold structure and said inner surface to said inner space, if the artificial vascular graft is used as intended. The invention relates further to a method for providing said graft.Type: ApplicationFiled: December 11, 2018Publication date: May 30, 2019Inventors: Bernhard WINKLER, Martin GRAPOW, Friedrich ECKSTEIN, Aldo FERRARI, Dimos POULIKAKOS, Simone BOTTAN, Maximilian FISCHER, Tobias LENDENMANN
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Patent number: 10188499Abstract: The invention relates to an artificial vascular graft comprising a primary scaffold structure encompassing an inner space of the artificial vascular graft, said primary scaffold structure having an inner surface facing towards said inner space and an outer surface facing away from said inner space, a coating on said inner surface, wherein a plurality of grooves is comprised in said coating of said inner surface. The primary scaffold structure comprises further a coating on said outer surface. The primary scaffold structure and the coating on said inner surface and on said outer surface are d designed in such a way that cells, in particular progenitor cells, can migrate from the periphery of said artificial vascular graft through said outer surface of said coating, said primary scaffold structure and said inner surface to said inner space, if the artificial vascular graft is used as intended. The invention relates further to a method for providing said graft.Type: GrantFiled: September 18, 2014Date of Patent: January 29, 2019Assignee: UNIVERSITÄTSSPITAL BASELInventors: Bernhard Winkler, Martin Grapow, Friedrich Eckstein, Aldo Ferrari, Dimos Poulikakos, Simone Bottan, Maximilian Fischer, Tobias Lendenmann
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Patent number: 10173352Abstract: A method for the self-assembled production of a topographically surface structured cellulose element. First, a mold is provided having on one side a first surface which is in a complementary manner topographically structured and which is permeable to oxygen. Next, a liquid growth medium containing cellulose producing bacteria is provided. Then, the mold is placed to form a interface such that the side of the mold with the first surface is in direct contact with the liquid growth medium, and an opposite side is facing air or a specifically provided oxygen containing gas surrounding. This allows bacteria to be produced and deposit cellulose on the first surface and developing on the interface a surface structured surface complementary thereto, until a cellulose layer with a thickness of the element of at least 0.3 mm is formed. Finally; the element is removed from the mold.Type: GrantFiled: September 18, 2014Date of Patent: January 8, 2019Assignee: ETH ZURICHInventors: Tobias Lendenmann, Maximilian Fischer, Simone Bottan, Aldo Ferrari, Dimos Poulikakos, Bernhard Winkler, Martin Grapow
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Publication number: 20160221228Abstract: A method for the self-assembled production of a topographically surface structured cellulose element. First, a mold is provided having on one side a first surface which is in a complementary manner topographically structured and which is permeable to oxygen. Next, a liquid growth medium containing cellulose producing bacteria is provided. Then, the mold is placed to form a interface such that the side of the mold with the first surface is in direct contact with the liquid growth medium, and an opposite side is facing air or a specifically provided oxygen containing gas surrounding. This allows bacteria to be produced and deposit cellulose on the first surface and developing on the interface a surface structured surface complementary thereto, until a cellulose layer with a thickness of the element of at least 0.3 mm is formed. Finally; the element is removed from the mold.Type: ApplicationFiled: September 18, 2014Publication date: August 4, 2016Applicant: ETH ZÜRICHInventors: Tobias LENDENMANN, Maximilian FISCHER, Simone BOTTAN, Aldo FERRARI, Dimos POULIKAKOS, Bernhard WINKLER, Martin GRAPOW