Patents by Inventor Kenneth Jeffrey Hayworth
Kenneth Jeffrey Hayworth 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: 11085853Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: GrantFiled: July 6, 2020Date of Patent: August 10, 2021Assignee: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff W. Lichtman
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Publication number: 20200393332Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: ApplicationFiled: July 6, 2020Publication date: December 17, 2020Inventors: KENNETH JEFFREY HAYWORTH, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff W. Lichtman
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Patent number: 10704992Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: GrantFiled: April 26, 2019Date of Patent: July 7, 2020Assignee: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff W. Lichtman
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Publication number: 20190250071Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: ApplicationFiled: April 26, 2019Publication date: August 15, 2019Applicant: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff W. Lichtman
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Patent number: 10288532Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: GrantFiled: August 7, 2017Date of Patent: May 14, 2019Assignee: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff Lichtman
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Patent number: 9927327Abstract: Methods, apparatus and systems for collecting thin tissue samples for imaging. Thin tissue sections may be cut from tissue samples using a microtome-quality knife. In one example, tissue samples are mounted to a substrate that is rotated such that thin tissue sections are acquired via lathing. Collection of thin tissue sections may be facilitated by a conveyor belt. Thin tissue sections may be mounted to a thin substrate (e.g., by adhering thin tissue sections to a thin substrate via a roller mechanism) that may be imaged, for example, by an electron beam (e.g., in an electron microscope). Thin tissue sections may be strengthened before cutting via a blockface thinfilm deposition technique and/or a blockface taping technique. An automated reel-to-reel imaging technique may be employed for collected/mounted tissue sections to facilitate random-access imaging of tissue sections and maintaining a comprehensive library including a large volume of samples.Type: GrantFiled: January 25, 2016Date of Patent: March 27, 2018Assignee: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Amy Au Hayworth
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Publication number: 20180080856Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: ApplicationFiled: August 7, 2017Publication date: March 22, 2018Inventors: Kenneth Jeffrey Hayworth, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff Lichtman
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Patent number: 9784648Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: GrantFiled: September 7, 2011Date of Patent: October 10, 2017Assignee: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff Lichtman
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Publication number: 20160139007Abstract: Methods, apparatus and systems for collecting thin tissue samples for imaging. Thin tissue sections may be cut from tissue samples using a microtome-quality knife. In one example, tissue samples are mounted to a substrate that is rotated such that thin tissue sections are acquired via lathing. Collection of thin tissue sections may be facilitated by a conveyor belt. Thin tissue sections may be mounted to a thin substrate (e.g., by adhering thin tissue sections to a thin substrate via a roller mechanism) that may be imaged, for example, by an electron beam (e.g., in an electron microscope). Thin tissue sections may be strengthened before cutting via a blockface thinfilm deposition technique and/or a blockface taping technique. An automated reel-to-reel imaging technique may be employed for collected/mounted tissue sections to facilitate random-access imaging of tissue sections and maintaining a comprehensive library including a large volume of samples.Type: ApplicationFiled: January 25, 2016Publication date: May 19, 2016Applicant: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Amy Au Hayworth
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Patent number: 9304067Abstract: Methods, apparatus and systems for collecting thin tissue samples for imaging. Thin tissue sections may be cut from tissue samples using a microtome-quality knife. In one example, tissue samples are mounted to a substrate that is rotated such that thin tissue sections are acquired via lathing. Collection of thin tissue sections may be facilitated by a conveyor belt. Thin tissue sections may be mounted to a thin substrate (e.g., by adhering thin tissue sections to a thin substrate via a roller mechanism) that may be imaged, for example, by an electron beam (e.g., in an electron microscope). Thin tissue sections may be strengthened before cutting via a blockface thinfilm deposition technique and/or a blockface taping technique. An automated reel-to-reel imaging technique may be employed for collected/mounted tissue sections to facilitate random-access imaging of tissue sections and maintaining a comprehensive library including a large volume of samples.Type: GrantFiled: January 4, 2013Date of Patent: April 5, 2016Assignee: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Amy Au Hayworth
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Publication number: 20140026683Abstract: Methods, apparatuses and systems for facilitating automated or semi-automated collection of tissue samples cut by a microtome. In one example, a collection apparatus may be moved back and forth between respective positions at which the collection apparatus is operatively coupled to a microtome so as to collect cut tissue samples, or routine access to the microtome is provided. Relatively easy movement and positioning of the collection apparatus is facilitated, while at the same time ensuring structural stability and appropriate alignment and/or isolation between the collection apparatus and the microtome. A fluid reservoir receives samples cut by the microtome, and the collection apparatus may collect samples via a conveyor-like substrate disposed near/in the reservoir. A linear movement of the substrate may be controlled based on a cutting rate of the microtome, and the fluid level in the reservoir may be automatically maintained to facilitate effective sample collection.Type: ApplicationFiled: September 7, 2011Publication date: January 30, 2014Applicant: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Richard Schalek, Juan Carlos Tapia, Narayanan Kasthuri, Jeff Lichtman
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Publication number: 20100323445Abstract: Methods, apparatus and systems for collecting thin tissue samples for imaging. Thin tissue sections may be cut from tissue samples using a microtome-quality knife. In one example, tissue samples are mounted to a substrate that is rotated such that thin tissue sections are acquired via lathing. Collection of thin tissue sections may be facilitated by a conveyor belt. Thin tissue sections may be mounted to a thin substrate (e.g., by adhering thin tissue sections to a thin substrate via a roller mechanism) that may be imaged, for example, by an electron beam (e.g., in an electron microscope). This tissue sections may be strengthened before cutting via a blockface thinfilm deposition technique and/or a blockface taping technique. An automated reel-to-reel imaging technique may be employed for collected/mounted tissue sections to facilitate random-access imaging of tissue sections and maintaining a comprehensive library including a large volume of samples.Type: ApplicationFiled: January 28, 2010Publication date: December 23, 2010Applicant: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Amy Au Hayworth
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Patent number: 7677289Abstract: An automatic taping lathe-microtome that produces a continuous ribbon of tissue by lathing an extremely thin strip off the surface of a cylindrical block containing a multitude of embedded tissue samples. Mechanisms are included for sandwiching this fragile ribbon of tissue between a pair of support tapes. Viewing holes are cut in the support tapes above and below each tissue slice such that the tapes act as slot grids allowing for direct viewing of each tissue slice in a transmission electron microscope (TEM). The resulting tissue-tape is placed on a spooling mechanism and fed into the beam of a TEM much like the film in a movie projector. This allows for random-access imaging of any section on the tape without requiring the TEM's vacuum be broken. This system is intended to give neuroscientists a tool to ultrastructure image large volumes of neural tissue and to trace multi-scale synaptic circuits.Type: GrantFiled: July 8, 2004Date of Patent: March 16, 2010Assignee: President and Fellows of Harvard CollegeInventors: Kenneth Jeffrey Hayworth, Amy Au Hayworth