Patents Assigned to Biophan Technologies, Inc.
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Patent number: 7123013Abstract: A voltage compensation unit reduces the effects of induced voltages upon a device having a single wire line. The single wire line has balanced characteristic impedance. The voltage compensation unit includes a tunable compensation circuit connected to the wire line. The tunable compensation circuit applies supplemental impedance to the wire line. The supplemental impedance causes the characteristic impedance of the wire line to become unbalanced, thereby reducing the effects of induced voltages caused by changing magnetic fields.Type: GrantFiled: July 8, 2004Date of Patent: October 17, 2006Assignee: Biophan Technologies, Inc.Inventor: Robert W. Gray
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Patent number: 7054686Abstract: A process for stimulating tissue such as cardiac tissue, nerve tissue, and brain tissue. In one step of the process, there is delivered an electrical stimulating signal to the tissue that contains from about 10 to about 1,000 individual pulses. Each individual pulse has a duration of from about one microsecond to about 100 microseconds and is discontinuous, with a spacing between adjacent pulses of at least from about 1 microsecond to about 100 microseconds. The individual pulses have a voltage of from about 10 millivolts to about 100 volts.Type: GrantFiled: September 13, 2002Date of Patent: May 30, 2006Assignee: Biophan Technologies, Inc.Inventor: Stuart G. MacDonald
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Patent number: 7047074Abstract: An electromagnetic immune tissue invasive system includes a primary device housing. The primary device housing having a control circuit therein. A shielding is formed around the primary device housing to shield the primary device housing and any circuits therein from electromagnetic interference. A lead system transmits and receives signals between the primary device housing. The lead system is either a fiber optic system or an electrically shielded electrical lead system.Type: GrantFiled: February 19, 2002Date of Patent: May 16, 2006Assignee: Biophan Technologies, Inc.Inventors: Patrick R. Connelly, Michael L. Weiner, Stuart G. MacDonald, Thomas H. Foster, Wilson Greatbatch, Victor Miller
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Patent number: 7020517Abstract: A cardiac assist device senses conditions of a heart and controls the generation of various electrical stimuli in response to sense conditions of the heart. The cardiac assist device generates a electrical pulse so as to defibrillate a fibrillated heart when the cardiac assist device determines from the sensed conditions a state of fibrillation. The cardiac assist device generates a chaos control electrical signal so as to bring a pre-fibrillated heart condition back into a normal beating condition when the cardiac assist device determines from the sensed conditions a pre-state of fibrillation. Lastly, the cardiac assist device generates an electrical enhancement signal that causes a threshold of pacing cells in the heart to be exceeded in response to a subthreshold stimulus when the cardiac assist device determines from the sensed conditions a subthreshold pacing signal.Type: GrantFiled: February 20, 2004Date of Patent: March 28, 2006Assignee: Biophan Technologies, Inc.Inventor: Michael L. Weiner
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Patent number: 7015393Abstract: An electromagnetic shield has a first patterned or apertured layer having non-conductive materials and conductive material and a second patterned or apertured layer having non-conductive materials and conductive material. The conductive material may be a metal, a carbon composite, or a polymer composite. The non-conductive materials in the first patterned or apertured layer may be randomly located or located in a predetermined segmented pattern such that the non-conductive materials in the first patterned or apertured layer are located in a predetermined segmented pattern with respect to locations of the non-conductive materials in the second patterned or apertured layer.Type: GrantFiled: March 8, 2004Date of Patent: March 21, 2006Assignee: Biophan Technologies, Inc.Inventors: Michael L. Weiner, Victor R. Miller, Patrick R. Connelly, Jeffrey L. Helfer
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Patent number: 7013174Abstract: An electromagnetic immune tissue invasive system includes a primary device housing. The primary device housing having a control circuit therein. A shielding is formed around the primary device housing to shield the primary device housing and any circuits therein from electromagnetic interference. A lead system transmits and receives signals between the primary device housing. The lead system is either a fiber optic system or an electrically shielded electrical lead system.Type: GrantFiled: February 19, 2002Date of Patent: March 14, 2006Assignee: Biophan Technologies, Inc.Inventors: Patrick R. Connelly, Michael L. Weiner, Jeffrey L. Helfer, Stuart G. MacDonald, Victor Miller
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Patent number: 7010357Abstract: An electromagnetic immune tissue invasive system includes a primary device housing. The primary device housing having a control circuit therein. A shielding is formed around the primary device housing to shield the primary device housing and any circuits therein from electromagnetic interference. A lead system transmits and receives signals between the primary device housing. The lead system is either a fiber optic system or an electrically shielded electrical lead system.Type: GrantFiled: February 19, 2002Date of Patent: March 7, 2006Assignee: Biophan Technologies, Inc.Inventors: Jeffrey L. Helfer, Patrick R. Connelly, Stuart G. MacDonald, Victor Miller, Frank G. Shellock
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Publication number: 20060041294Abstract: A wire form includes a conductor having a distal end and a proximal end. The conductor is coiled and has a predetermined spacing between adjacent coils. The predetermined spacing provides a parasitic capacitance and an inductance. The parasitic capacitance and inductance have a resonance frequency tuned to about an excitation signal's frequency of a magnetic-resonance imaging scanner.Type: ApplicationFiled: August 19, 2005Publication date: February 23, 2006Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20060030774Abstract: A medical assembly includes a multi-wire lead having a plurality of coiling loops. The multi-wire lead has a gap region and a non-gap region. The gap region has adjacent coiling loops of the multi-wire lead with gaps therebetween so as to form different impedance in the gap region than impedance in the non-gap region. The non-gap region has adjacent coiling loops of the multi-wire lead with no gaps therebetween. The gaps may provide inter-loop capacitance. The multi-wire lead may have a plurality of gap regions, each gap region having a non-gap region therebetween.Type: ApplicationFiled: October 12, 2005Publication date: February 9, 2006Applicant: Biophan Technologies, Inc.Inventors: Robert Gray, Jeffrey Helfer
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Patent number: 6993387Abstract: An electromagnetic immune tissue invasive system includes a primary device housing. The primary device housing having a control circuit therein. A shielding is formed around the primary device housing to shield the primary device housing and any circuits therein from electromagnetic interference. A lead system transmits and receives signals between the primary device housing. The lead system is either a fiber optic system or an electrically shielded electrical lead system.Type: GrantFiled: February 19, 2002Date of Patent: January 31, 2006Assignee: Biophan Technologies, Inc.Inventors: Patrick R. Connelly, Stuart G. MacDonald
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Patent number: 6988001Abstract: A hermetic component housing for use with a photonic catheter connected to a photonic pacemaker or other medical system designed for compatibility with Magnetic Resonance Imaging (MRI) procedures. The hermetic housing includes a housing body having a proximal end and a distal end. The body is formed with a hermetically sealed interior for carrying one or more electrical and/or optical components therein. The proximal end of the body is adapted to mount to a distal end of a photonic catheter carrying a fiber optic element or bundle. A hermetic terminal is provided to allow the fiber optic element or bundle to communicate with the body interior. The body can be adapted to mount (or function as) one or more electrodes designed for delivering or sensing electrical signals to body tissue, or it may be adapted to mount no electrodes. The component housing may be implemented by itself at the distal end of the photonic catheter, or it may be used in conjunction with other housings of like or different construction.Type: GrantFiled: October 30, 2002Date of Patent: January 17, 2006Assignee: Biophan Technologies, Inc.Inventors: Wilson Greatbatch, Michael L. Weiner
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Publication number: 20050288754Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050288751Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050288750Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050288752Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050288756Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050288753Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050288755Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050288757Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 29, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray
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Publication number: 20050283214Abstract: A lead includes a conductor having a distal end and a proximal end and a resonant circuit connected to the conductor. The resonant circuit has a resonance frequency approximately equal to an excitation signal's frequency of a magnetic resonance imaging scanner or a resonance frequency not tuned to an excitation signal's frequency of a magnetic resonance imaging scanner so as to reduce the current flow through a tissue area, thereby reducing tissue damage. The resonant circuit may be included in an adapter that provides an electrical bridge between a lead a medical device such as an electrode, sensor, or signal generator. The resonant circuit may also be included directly in the housing of a medical device.Type: ApplicationFiled: August 30, 2005Publication date: December 22, 2005Applicant: Biophan Technologies, Inc.Inventor: Robert Gray