Patents by Inventor Alexey Salamini
Alexey Salamini 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: 20230019979Abstract: Methods, apparatuses and systems are provided for non-invasive delivery of microwave therapy. Microwave energy may be applied to epidermal, dermal and subdermal tissue of a patient to achieve various therapeutic and/or aesthetic results. In one embodiment, the microwave energy is applied to a target tissue via an energy delivery applicator connected to an energy generator. The energy delivery applicator may comprise one or more antennas, including monopole, dipole, slot and/or waveguide antennas (among others) that are used to direct the microwave energy to the target tissue. The energy delivery applicator may also comprise a cooling element for avoiding thermal destruction to non-target tissue and/or a suction device to localize thermal treatment at specific portions of a skin fold.Type: ApplicationFiled: July 13, 2022Publication date: January 19, 2023Inventors: Mark E. Deem, Daniel E. Francis, Jessi Ernest Johnson, Steven W. Kim, Alexey Salamini
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Publication number: 20220361920Abstract: Components, systems and kits for capturing and removing tissue from mammalian bodies include a tissue container that may be introduced into a body cavity and within which a tissue specimen may be placed, cut and removed from the body cavity. Methods of using these components, systems and kits are also described.Type: ApplicationFiled: July 21, 2022Publication date: November 17, 2022Inventors: Steven W. KIM, Joseph N. JONES, Alexey SALAMINI
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Patent number: 11452546Abstract: Components, systems and kits for capturing and removing tissue from mammalian bodies include a tissue container that may be introduced into a body cavity and within which a tissue specimen may be placed, cut and removed from the body cavity. Methods of using these components, systems and kits are also described.Type: GrantFiled: May 22, 2020Date of Patent: September 27, 2022Assignee: CLARIA MEDICAL, INC.Inventors: Steven W. Kim, Joseph N. Jones, Alexey Salamini
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Publication number: 20220273327Abstract: Components, systems and kits for capturing and removing tissue from mammalian bodies include a tissue container that may be introduced into a body cavity and within which a tissue specimen may be placed, cut and removed from the body cavity. Methods of using these components, systems and kits are also described.Type: ApplicationFiled: August 13, 2020Publication date: September 1, 2022Inventors: Joseph N. JONES, Daniel E. FRANCIS, Kevin LE, Alexey SALAMINI, Steven W. KIM, Scott ANDERSON, Ronald G. FRENCH
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Patent number: 11419678Abstract: Methods, apparatuses and systems are provided for non-invasive delivery of microwave therapy. Microwave energy may be applied to epidermal, dermal and subdermal tissue of a patient to achieve various therapeutic and/or aesthetic results. In one embodiment, the microwave energy is applied to a target tissue via an energy delivery applicator connected to an energy generator. The energy delivery applicator may comprise one or more antennas, including monopole, dipole, slot and/or waveguide antennas (among others) that are used to direct the microwave energy to the target tissue. The energy delivery applicator may also comprise a cooling element for avoiding thermal destruction to non-target tissue and/or a suction device to localize thermal treatment at specific portions of a skin fold.Type: GrantFiled: November 4, 2019Date of Patent: August 23, 2022Assignee: MiraDry, Inc.Inventors: Mark E. Deem, Daniel E. Francis, Jessi Ernest Johnson, Steven W. Kim, Alexey Salamini
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Publication number: 20210321901Abstract: Devices and methods for vascular navigation, assessment and/or diagnosis are described which determine the location of the tip of a vascular catheter using the introduction of a medium with a measurable parameter (e.g., temperature, light reflection, sound reflection, etc.) and sensing and measuring the measurable parameter as the catheter is advanced. Measurements of the parameter are tracked over time, recorded and analyzed. The value of the parameter and/or the shape of the parameter value vs. time curve may be used in the analysis. For example, curve amplitude, variability, standard deviation, slope, etc. may be used in the analysis of catheter location.Type: ApplicationFiled: May 18, 2021Publication date: October 21, 2021Applicant: Piccolo Medical, Inc.Inventors: Alexey SALAMINI, Eric YU, Daniel R. BURNETT
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Patent number: 10779887Abstract: Systems, methods and devices for creating an effect using microwave energy to specified tissue are disclosed herein. A system for the application of microwave energy to a tissue can include, in some embodiments, a signal generator adapted to generate a microwave signal having predetermined characteristics, an applicator connected to the generator and adapted to apply microwave energy to tissue, the applicator comprising one or more microwave antennas and a tissue interface, a vacuum source connected to the tissue interface, a cooling source connected to said tissue interface, and a controller adapted to control the signal generator, the vacuum source, and the coolant source. The tissue may include a first layer and a second layer, the second layer below the first layer, and the controller is configured such that the system delivers energy such that a peak power loss density profile is created in the second layer.Type: GrantFiled: December 31, 2018Date of Patent: September 22, 2020Assignee: MIRADRY, INC.Inventors: Mark E. Deem, Daniel E. Francis, Jessi Ernest Johnson, Ted Y. Su, Steven W. Kim, Alexey Salamini, Peter Smith, Daniel Hallock
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Publication number: 20200281503Abstract: Devices and methods for vascular navigation, assessment and/or diagnosis are disclosed where a location detection system generally includes an elongate body defining a lumen at least partially along a length of the elongate body. One or more sensors are positioned near or at a distal tip of the elongate body and one or more openings are defined along the elongate body in proximity to the one or more sensors. The one or more openings are configured to control a boundary distance between the one or more sensors and a fluid with a parameter of a known initial value when emitted from the one or more openings. A controller is in communication with the one or more sensors and is configured to track a change in the parameter relating to concentration over the one or more sensors and determine a position of the one or more sensors within a body.Type: ApplicationFiled: February 13, 2020Publication date: September 10, 2020Applicant: Piccolo Medical, Inc.Inventors: Alexey SALAMINI, Jonathan SILBERSTEIN, John MCKENZIE, Daniel R. BURNETT, Eric Yu
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Publication number: 20200281627Abstract: Components, systems and kits for capturing and removing tissue from mammalian bodies include a tissue container that may be introduced into a body cavity and within which a tissue specimen may be placed, cut and removed from the body cavity. Methods of using these components, systems and kits are also described.Type: ApplicationFiled: May 22, 2020Publication date: September 10, 2020Inventors: Steven W. KIM, Joseph N. JONES, Alexey SALAMINI
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Publication number: 20200253639Abstract: Components, systems and kits for capturing and removing tissue from mammalian bodies include a tissue container that may be introduced into a body cavity and within which a tissue specimen may be placed, cut and removed from the body cavity. Methods of using these components, systems and kits are also described.Type: ApplicationFiled: October 22, 2018Publication date: August 13, 2020Inventors: Steven W. KIM, Joseph N. JONES, Alexey SALAMINI, Scott ANDERSON, Ronald G. French
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Patent number: 10695091Abstract: Components, systems and kits for capturing and removing tissue from mammalian bodies include a tissue container that may be introduced into a body cavity and within which a tissue specimen may be placed, cut and removed from the body cavity. Methods of using these components, systems and kits are also described.Type: GrantFiled: October 24, 2018Date of Patent: June 30, 2020Assignee: CLARIA MEDICAL, INC.Inventors: Steven W. Kim, Joseph N. Marchesani, Alexey Salamini
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Publication number: 20200129236Abstract: Methods, apparatuses and systems are provided for non-invasive delivery of microwave therapy. Microwave energy may be applied to epidermal, dermal and subdermal tissue of a patient to achieve various therapeutic and/or aesthetic results. In one embodiment, the microwave energy is applied to a target tissue via an energy delivery applicator connected to an energy generator. The energy delivery applicator may comprise one or more antennas, including monopole, dipole, slot and/or waveguide antennas (among others) that are used to direct the microwave energy to the target tissue. The energy delivery applicator may also comprise a cooling element for avoiding thermal destruction to non-target tissue and/or a suction device to localize thermal treatment at specific portions of a skin fold.Type: ApplicationFiled: November 4, 2019Publication date: April 30, 2020Inventors: Mark E. DEEM, Daniel E. FRANCIS, Jessi Ernest JOHNSON, Steven W. KIM, Alexey SALAMINI
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Patent number: 10624696Abstract: Systems, methods and devices for creating an effect using microwave energy to specified tissue are disclosed herein. A system for the application of microwave energy to a tissue can include, in some embodiments, a signal generator adapted to generate a microwave signal having predetermined characteristics, an applicator connected to the generator and adapted to apply microwave energy to tissue, the applicator comprising one or more microwave antennas and a tissue interface, a vacuum source connected to the tissue interface, a cooling source connected to said tissue interface, and a controller adapted to control the signal generator, the vacuum source, and the coolant source. The tissue may include a first layer and a second layer, the second layer below the first layer, and the controller is configured such that the system delivers energy such that a peak power loss density profile is created in the second layer.Type: GrantFiled: January 13, 2017Date of Patent: April 21, 2020Assignee: MIRADRY, INC.Inventors: Mark E. Deem, Daniel Francis, Jessi E. Johnson, Steven Kim, Alexey Salamini, Ted Su, Peter Smith, Dan Hallock
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Patent number: 10463429Abstract: Methods, apparatuses and systems are provided for non-invasive delivery of microwave therapy. Microwave energy may be applied to epidermal, dermal and subdermal tissue of a patient to achieve various therapeutic and/or aesthetic results. In one embodiment, the microwave energy is applied to a target tissue via an energy delivery applicator connected to an energy generator. The energy delivery applicator may comprise one or more antennas, including monopole, dipole, slot and/or waveguide antennas (among others) that are used to direct the microwave energy to the target tissue. The energy delivery applicator may also comprise a cooling element for avoiding thermal destruction to non-target tissue and/or a suction device to localize thermal treatment at specific portions of a skin fold.Type: GrantFiled: October 7, 2016Date of Patent: November 5, 2019Assignee: MIRADRY, INC.Inventors: Mark E. Deem, Daniel E. Francis, Jessi Ernest Johnson, Steven W. Kim, Alexey Salamini
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Publication number: 20190133684Abstract: Systems, methods and devices for creating an effect using microwave energy to specified tissue are disclosed herein. A system for the application of microwave energy to a tissue can include, in some embodiments, a signal generator adapted to generate a microwave signal having predetermined characteristics, an applicator connected to the generator and adapted to apply microwave energy to tissue, the applicator comprising one or more microwave antennas and a tissue interface, a vacuum source connected to the tissue interface, a cooling source connected to said tissue interface, and a controller adapted to control the signal generator, the vacuum source, and the coolant source. The tissue may include a first layer and a second layer, the second layer below the first layer, and the controller is configured such that the system delivers energy such that a peak power loss density profile is created in the second layer.Type: ApplicationFiled: December 31, 2018Publication date: May 9, 2019Applicant: MIRADRY, INC.Inventors: Mark E. DEEM, Daniel E. FRANCIS, Jessi Ernest JOHNSON, Ted Y. SU, Steven W. KIM, Alexey SALAMINI, Peter SMITH, Daniel HALLOCK
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Publication number: 20190059948Abstract: Components, systems and kits for capturing and removing tissue from mammalian bodies include a tissue container that may be introduced into a body cavity and within which a tissue specimen may be placed, cut and removed from the body cavity. Methods of using these components, systems and kits are also described.Type: ApplicationFiled: October 24, 2018Publication date: February 28, 2019Applicant: CLARIA MEDICAL, INC.Inventors: Steven W. KIM, Joseph N. MARCHESANI, Alexey SALAMINI
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Patent number: 10166072Abstract: Systems, methods and devices for creating an effect using microwave energy to specified tissue are disclosed herein. A system for the application of microwave energy to a tissue can include, in some embodiments, a signal generator adapted to generate a microwave signal having predetermined characteristics, an applicator connected to the generator and adapted to apply microwave energy to tissue, the applicator comprising one or more microwave antennas and a tissue interface, a vacuum source connected to the tissue interface, a cooling source connected to said tissue interface, and a controller adapted to control the signal generator, the vacuum source, and the coolant source. The tissue may include a first layer and a second layer, the second layer below the first layer, and the controller is configured such that the system delivers energy such that a peak power loss density profile is created in the second layer.Type: GrantFiled: August 30, 2016Date of Patent: January 1, 2019Assignee: MIRADRY, INC.Inventors: Mark E. Deem, Daniel E. Francis, Jessi Ernest Johnson, Ted Y. Su, Steven W. Kim, Alexey Salamini, Peter Smith, Daniel Hallock
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Publication number: 20180344205Abstract: Devices and methods for vascular navigation, assessment and/or diagnosis are described which determine the location of the tip of a vascular catheter using the introduction of a medium with a measurable parameter (e.g., temperature, light reflection, sound reflection, etc.) and sensing and measuring the measurable parameter as the catheter is advanced. Measurements of the parameter are tracked over time, recorded and analyzed. The value of the parameter and/or the shape of the parameter value vs. time curve may be used in the analysis. For example, curve amplitude, variability, standard deviation, slope, etc. may be used in the analysis of catheter location.Type: ApplicationFiled: August 8, 2018Publication date: December 6, 2018Applicant: Piccolo Medical, Inc.Inventors: Alexey SALAMINI, Eric YU, Daniel R. BURNETT
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Patent number: 10092215Abstract: Devices and methods for vascular navigation, assessment and/or diagnosis are described which determine the location of the tip of a vascular catheter using the introduction of a medium with a measurable parameter (e.g., temperature, light reflection, sound reflection, etc.) and sensing and measuring the measurable parameter as the catheter is advanced. Measurements of the parameter are tracked over time, recorded and analyzed. The value of the parameter and/or the shape of the parameter value vs. time curve may be used in the analysis. For example, curve amplitude, variability, standard deviation, slope, etc. may be used in the analysis of catheter location.Type: GrantFiled: March 12, 2018Date of Patent: October 9, 2018Assignee: Piccolo Medical Inc.Inventors: Alexey Salamini, Eric Yu, Daniel R. Burnett
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Publication number: 20180220931Abstract: Devices and methods for vascular navigation, assessment and/or diagnosis are described which determine the location of the tip of a vascular catheter using the introduction of a medium with a measurable parameter (e.g., temperature, light reflection, sound reflection, etc.) and sensing and measuring the measurable parameter as the catheter is advanced. Measurements of the parameter are tracked over time, recorded and analyzed. The value of the parameter and/or the shape of the parameter value vs. time curve may be used in the analysis. For example, curve amplitude, variability, standard deviation, slope, etc. may be used in the analysis of catheter location.Type: ApplicationFiled: March 12, 2018Publication date: August 9, 2018Applicant: Piccolo Medical, Inc.Inventors: Alexey SALAMINI, Eric YU, Daniel R. BURNETT