Patents by Inventor John T. Sorensen
John T. Sorensen 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: 20150297400Abstract: Methods and devices for cutting strips of tissue from masses of tissue inside or outside of the bodies of human or animal subjects. The device generally comprises a) an elongate cutting tube that has a distal end and a lumen that opens through an opening in the distal end and b) first and second cutting edges formed on generally opposite edges of the distal end of the cutting tube and separated by a distance D. The device is advanced through tissue to cut a strip of tissue of approximate width W. Width W is approximately equal to distance D.Type: ApplicationFiled: July 1, 2015Publication date: October 22, 2015Inventors: John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Patent number: 9107729Abstract: Methods and devices for cutting strips of tissue from masses of tissue inside or outside of the bodies of human or animal subjects. The device generally comprises a) an elongate cutting tube that has a distal end and a lumen that opens through an opening in the distal end and b) first and second cutting edges formed on generally opposite edges of the distal end of the cutting tube and separated by a distance D. The device is advanced through tissue to cut a strip of tissue of approximate width W. Width W is approximaely equal to distance D.Type: GrantFiled: September 9, 2014Date of Patent: August 18, 2015Assignee: NeoMedix CorporationInventors: John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Publication number: 20140379015Abstract: Methods and devices for cutting strips of tissue from masses of tissue inside or outside of the bodies of human or animal subjects. The device generally comprises a) an elongate cutting tube that has a distal end and a lumen that opens through an opening in the distal end and b) first and second cutting edges formed on generally opposite edges of the distal end of the cutting tube and separated by a distance D. The device is advanced through tissue to cut a strip of tissue of approximate width W. Width W is approximaely equal to distance D.Type: ApplicationFiled: September 9, 2014Publication date: December 25, 2014Inventors: John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Publication number: 20120071908Abstract: Methods and devices for cutting strips of tissue from masses of tissue inside or outside of the bodies of human or animal subjects. The device generally comprises a) an elongate cutting tube that has a distal end and a lumen that opens through an opening in the distal end and b) first and second cutting edges formed on generally opposite edges of the distal end of the cutting tube and separated by a distance D. The device is advanced through tissue to cut a strip of tissue of approximate width W. Width W is approximately equal to distance D.Type: ApplicationFiled: June 13, 2011Publication date: March 22, 2012Applicant: NEOMEDIX CORPORATIONInventors: John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Patent number: 7959641Abstract: Methods and devices for cutting strips of tissue from masses of tissue inside or outside of the bodies of human or animal subjects. The device generally comprises a) an elongate cutting tube that has a distal end and a lumen that opens through an opening in the distal end and b) first and second cutting edges formed on generally opposite edges of the distal end of the cutting tube and separated by a distance D. The device is advanced through tissue to cut a strip of tissue of approximate width W. Width W is approximately equal to distance D.Type: GrantFiled: June 10, 2004Date of Patent: June 14, 2011Assignee: Neomedix CorporationInventors: John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Patent number: 7842034Abstract: Methods and devices for cutting or coagulating. A device comprises a) an elongate member having a distal end, b) at least one foot member extending from the distal end of the elongate member, said foot member having a upper surface and a lower surface, c) an electrically and thermally insulating covering formed on at least the lower surface of the foot member and d) at least one electrode on the upper surface of the foot member. In operation, the at least one electrode is energized so as to cause cutting or coagulation of tissue located above the upper surface(s) of the foot member(s) while not causing substantial damage to tissue located below the lower surface(s) of the foot member(s).Type: GrantFiled: June 10, 2004Date of Patent: November 30, 2010Assignee: Neomedix CorporationInventors: Michael Mittelstein, John T. Sorensen, Soheila Mirhashemi, James B. Gerg
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Patent number: 7445436Abstract: A peristaltic pump 10 for use in ophthalmic surgery includes a housing 12, a pump head 14 having plurality of rollers 16 held within the housing 12, and a backing plate 18 attached to the housing 12. The pump head 14 moves relative to the housing 12 and backing plate 18.Type: GrantFiled: September 29, 2003Date of Patent: November 4, 2008Assignee: Bausch & Lomb IncorporatedInventors: Michael Mittelstein, John T. Sorensen, Soheila Mirhashemi, James Gerg, Robert Schauer
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Patent number: 6852289Abstract: Methods and apparatus for qualitatively or quantitatively determining one or more analytes in matrices such as foods, biological fluids, etc. An embodiment for determination of a single analyte comprises a sample receiving vessel, a first membrane and a reagent-containing well. The prepared sample passes through the first membrane whereby extraneous matter is removed, and a filtrate enters the reagent-containing well to provide a filtrate-reagent admixture from which the analyte may be determined. An embodiment for determination for multiple analytes includes one or more additional membranes in series with the first membrane, each such additional membrane being operative to capture one or more analytes. Each of the additional analytes may then be eluted from the membrane upon which it has been captured, into a separate reagent-containing well to provide eluant-reagent admixture from which each desired analyte may be determined. Formulations for preparation additives are also included.Type: GrantFiled: March 26, 2001Date of Patent: February 8, 2005Assignee: Saftest, Inc.Inventors: Virginia C. Gordon, Bennett W. Root, Jr., Barbara J. Peasley, John F. Elias, John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Patent number: 6820490Abstract: Methods and systems for measuring the pressure of a fluid. A flexible barrier separates the fluid from the pressure receiving surface of a pressure sensing device. The pressure of the fluid is transferred through the flexible barrier to the pressure receiving surface. The flexible barrier may be in abutting juxtaposition with or may be spaced apart from the pressure sensing surface. In either case, the flexible barrier is coupled or held in defined relationship to the pressure sensing surface such that the pressure receiving surface will receive the substantially actual pressure of the fluid even when the pressure of the fluid is less than the ambient atmospheric pressure. Coupling of the flexible barrier to the pressure receiving surface may be achieved by any suitable means, including adhesive or the application of a full or partial vacuum between the flexible barrier and the pressure receiving surface.Type: GrantFiled: October 16, 2002Date of Patent: November 23, 2004Assignee: Neomedix CorporationInventors: Michael Mittelstein, John T. Sorensen, James B. Gerg, Soheila Mirhashemi
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Publication number: 20040197235Abstract: Methods and apparatus for qualitatively or quantitatively determining one or more analytes in matrices such as foods, biological fluids, etc. An embodiment for determination of a single analyte comprises a sample receiving vessel, a first membrane and a reagent-containing well. The prepared sample passes through the first membrane whereby extraneous matter is removed, and a filtrate enters the reagent-containing well to provide a filtrate-reagent admixture from which the analyte may be determined. An embodiment for determination for multiple analytes includes one or more additional membranes in series with the first membrane, each such additional membrane being operative to capture one or more analytes. Each of the additional analytes may then be eluted from the membrane upon which it has been captured, into a separate reagent-containing well to provide eluant-reagent admixture from which each desired analyte may be determined. Formulations for preparation additives are also included.Type: ApplicationFiled: February 27, 2004Publication date: October 7, 2004Applicant: Safety Associates, Inc.Inventors: John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi, Virginia C. Gordon, Bennett W. Root, Barbara J. Peasley, John F. Elias
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Patent number: 6655934Abstract: Inverted peristaltic pumps and related apparatus/methods wherein one or more compressible pump tubes are formed or mounted on a core member and one or more tube compressing members move about the core member so as to compress the tube(s) and propel a fluid through the tube(s). The core member may be removable and the pump tube(s) may be pre-mounted on the core member to form a disposable or reusable tubing cartridge. The core member or tubing cartridge may be easily inserted into and removed from the pump. In some embodiments troughs or grooves may be formed on the core member and the tube(s) may be disposed in such troughs or grooves.Type: GrantFiled: March 20, 2002Date of Patent: December 2, 2003Assignee: Innovent, L.L.C.Inventors: Michael Mittelstein, John T. Sorensen, Soheila Mirhashemi
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Publication number: 20030115965Abstract: Methods and systems for measuring the pressure of a fluid. A flexible barrier separates the fluid from the pressure receiving surface of a pressure sensing device. The pressure of the fluid is transferred through the flexible barrier to the pressure receiving surface. The flexible barrier may be in abutting juxtaposition with or may be spaced apart from the pressure sensing surface. In either case, the flexible barrier is coupled or held in defined relationship to the pressure sensing surface such that the pressure receiving surface will receive the substantially actual pressure of the fluid even when the pressure of the fluid is less than the ambient atmospheric pressure. Coupling of the flexible barrier to the pressure receiving surface may be achieved by any suitable means, including adhesive or the application of a full or partial vacuum between the flexible barrier and the pressure receiving surface.Type: ApplicationFiled: October 16, 2002Publication date: June 26, 2003Applicant: Innovent, L.L.C.Inventors: Michael Mittelstein, John T. Sorensen, James B. Gerg, Soheila Mirhashemi
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Publication number: 20030064423Abstract: Methods and apparatus for qualitatively or quantitatively determining one or more analytes in matrices such as foods, biological fluids, etc. An embodiment for determination of a single analyte comprises a sample receiving vessel, a first membrane and a reagent-containing well. The prepared sample passes through the first membrane whereby extraneous matter is removed, and a filtrate enters the reagent-containing well to provide a filtrate-reagent admixture from which the analyte may be determined. An embodiment for determination for multiple analytes includes one or more additional membranes in series with the first membrane, each such additional membrane being operative to capture one or more analytes. Each of the additional analytes may then be eluted from the membrane upon which it has been captured, into a separate reagent-containing well to provide eluant-reagent admixture from which each desired analyte may be determined. Formulations for preparation additives are also included.Type: ApplicationFiled: March 26, 2001Publication date: April 3, 2003Applicant: Safety Associates, Inc.Inventors: Virginia C. Gordon, Bennett W. Root, Barbara J. Peasley, John F. Elias, John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Patent number: 6506176Abstract: A system for removing the lens from an eye of a mammal, including a lens-removal device having a probe for penetrating the lens capsule. The probe includes a sheath that shields a rotating impeller at all times, with the impeller being pneumatically actuated to advance to a lens removal position within the sheath. The impeller is pneumatically rotated using a turbine mechanism within a handle for the probe. Irrigation and aspiration are provided to facilitate removal of the lens tissue. The turbine is driven with pulsed air to prevent stiction. A purge/protection cap helps remove air bubbles from the system prior to use and protects the delicate impeller during transport. An operating system is also provided with a foot pedal actuator.Type: GrantFiled: February 16, 2000Date of Patent: January 14, 2003Assignee: Bausch & Lomb IncorporatedInventors: Michael Mittelstein, John T. Sorensen, Soheila Mirhashemi, James B. Gerg, John I. Muri, Roger F. Etherington, John A. Ripley
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Patent number: 6489132Abstract: Methods and apparatus for qualitatively or quantitatively determining one or more analytes in matrices such as foods, biological fluids, etc. An embodiment for determination of a single analyte comprises a sample receiving vessel, a first membrane and a reagent-containing well. The prepared sample passes through the first membrane whereby extraneous matter is removed, and a filtrate enters the reagent-containing well to provide a filtrate-reagent admixture from which the analyte may be determined. An embodiment for determination for multiple analytes includes one or more additional membranes in series with the first membrane, each such additional membrane being operative to capture one or more analytes. Each of the additional analytes may then be eluted from the membrane upon which it has been captured, into a separate reagent-containing well to provide eluant-reagent admixture from which each desired analyte may be determined. Formulations for preparation additives are also included.Type: GrantFiled: September 2, 1999Date of Patent: December 3, 2002Assignee: Safety Associates, Inc.Inventors: Virginia C. Gordon, John T. Sorensen, Soheila Mirhashemi, Michael Mittelstein, John F. Elias
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Publication number: 20020146338Abstract: Inverted peristaltic pumps and related apparatus/methods wherein one or more compressible pump tubes are formed or mounted on a core member and one or more tube compressing members move about the core member so as to compress the tube(s) and propel a fluid through the tube(s). The core member may be removable and the pump tube(s) may be pre-mounted on the core member to form a disposable or reusable tubing cartridge. The core member or tubing cartridge may be easily inserted into and removed from the pump. In some embodiments troughs or grooves may be formed on the core member and the tube(s) may be disposed in such troughs or grooves.Type: ApplicationFiled: March 20, 2002Publication date: October 10, 2002Applicant: Innovent, L.L.C.Inventors: Michael Mittelstein, John T. Sorensen, Soheila Mirhashemi
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Patent number: 6142996Abstract: A device and system for creating small (e.g., less than 3 mm and preferably about 1 mm in cross dimension) openings in the anterior lens capsule of a mammalian eye to facilitate insertion of lens reduction/removal device(s) and/or cannulae for injecting flowable lens replacement materials into the lens capsule. The device generally comprises a handpiece having an electrosurgical probe extending forwardly therefrom. The electrosurgical probe incorporates an annular tip electrode which is positionable in contact with the lens capsule, to create the desired less than 3 mm opening therein. The annular electrode tip may be either monopolar or bipolar in design.Type: GrantFiled: July 9, 1999Date of Patent: November 7, 2000Assignee: Optex Ophthalmologics, Inc.Inventors: Soheila Mirhashemi, Michael Mittelstein, John T. Sorensen
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Patent number: 6117149Abstract: A system and method for reducing and removing and ophthalmic lens of a mammalian eye. The system includes a rotary lens-reducing probe device of either straight or curved configuration, the probe device comprising a tubular outer sheath through which a rotatable drive shaft extends. A rotating lens-reducing head member is positioned on the distal end of the drive shaft. The head member is configured and constructed to draw a flow of fluid and lens matter into contact therewith, thereby facilitating complete reduction of the entire lens without requiring significant axial (i.e., longitudinal) movement of the probe within the lens capsule. The distal portion of the tubular sheath is preferably configured to shield a portion of the lens-reducing head, during operation, to avoid inadvertent damage to lens capsule. Also, the distal portion of the sheath may be aimed or positioned to direct the flow of fluid and lens matter created by the rotating head in a preferred flow path within the lens capsule.Type: GrantFiled: February 11, 1999Date of Patent: September 12, 2000Assignee: Optex Ophthalmologics, Inc.Inventors: John T. Sorensen, Michael Mittelstein, Soheila Mirhashemi
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Patent number: 5958714Abstract: Methods and apparatus for qualitatively or quantitatively determining one or more analytes in matrices such as foods, biological fluids, etc. An embodiment for determination of a single analyte comprises a sample receiving vessel, a first membrane and a reagent-containing well. The prepared sample passes through the first membrane whereby extraneous matter is removed, and a filtrate enters the reagent-containing well to provide a filtrate-reagent admixture from which the analyte may be determined. An embodiment for determination for multiple analytes includes one or more additional membranes in series with the first membrane, each such additional membrane being operative to capture one or more analytes. Each of the additional analytes may then be eluted from the membrane upon which it has been captured, into a separate reagent-containing well to provide eluant-reagent admixture from which each desired analyte may be determined. Formulations for preparation additives are also included.Type: GrantFiled: October 2, 1996Date of Patent: September 28, 1999Assignee: Safety Associates, Inc.Inventors: Virginia C. Gordon, John T. Sorensen, Soheila Mirhashemi, Michael Mittelstein, John F. Elias
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Patent number: D434149Type: GrantFiled: February 17, 1999Date of Patent: November 21, 2000Assignee: Optex Ophthalmologics, Inc.Inventors: Soheila Mirhashemi, Michael Mittelstein, John T. Sorensen