Hrdlicka
Greg Hrdlicka, Plymouth, MN US
Patent application number | Description | Published |
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20100137926 | Technique for Adjusting the Locus of Excitation of Electrically Excitable Tissue - The locus of electrically excitable tissue where action potentials are induced can be controlled using the physiological principle of electrotonus. In one embodiment, first and second pulses are applied to first and second electrodes, respectively, to generate first and second subthreshold potential areas, respectively, within the tissue. The locus within the tissue where action potentials are induced is determined by a superposition of the first and second subthreshold areas according to the physiological principle of electrotonus. In another embodiment, a two-dimensional array of electrodes are formed. The cathode may be positioned near the center of the two-dimensional array or may be left out. The first and second subthreshold areas may thereby be steered. An array of anodal rings may be used to contain the field of excitation. | 06-03-2010 |
Gregory A. Hrdlicka, Plymouth, MN US
Patent application number | Description | Published |
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20110071599 | LEAD ELECTRODE FOR USE IN AN MRI-SAFE IMPLANTABLE MEDICAL DEVICE - A medical lead is configured to be implanted into a patient's body and comprises a lead body, and an electrode coupled to the lead body. The electrode comprises a first section configured to contact the patient's body, and a second section capacitively coupled to the first section and configured to be electrically coupled to the patient's body. | 03-24-2011 |
20110071604 | MRI-Safe Implantable Lead - A stimulation lead is configured to be implanted into a patient's body and includes at least one distal stimulation electrode and at least one conductive filer electrically coupled to the distal stimulation electrode. A jacket is provided for housing the conductive filer and providing a path distributed along at least a portion of the length of the lead for conducting induced RF energy from the filer to the patient's body. | 03-24-2011 |
20110071605 | MRI-Safe Implantable Medical Device - A medical lead is provided for use in a pulse stimulation system of the type which includes a pulse generator for producing electrical stimulation therapy. The lead comprises an elongate insulating body and at least one electrical conductor within the insulating body. The conductor has a proximal end configured to be electrically coupled to the pulse generator and has a DC resistance in the range of 375-2000 ohms. At least one distal electrode is coupled to the conductor. | 03-24-2011 |
20110112615 | Lead Electrode for Use in an MRI-Safe Implantable Medical Device - A neurostimulation lead is configured to be implanted into a patient's body and has at least one distal electrode. The lead comprises at least one conductive filer electrically coupled to the distal electrode, a jacket for housing the conductive filer and a shield surrounding at least a portion of the filer for reducing electromagnetic coupling to the filer. | 05-12-2011 |
20120010689 | LEAD ELECTRODE FOR USE IN AN MRI-SAFE IMPLANTABLE MEDICAL DEVICE - A medical lead is configured to be implanted into a patients body and comprises a lead body, and an electrode coupled to the lead body. The electrode comprises a first section configured to contact the patient's body, and a second section electrically coupled to the first section and configured to be capacitively coupled to the patient's body. | 01-12-2012 |
20130204337 | MRI-Safe Implantable Medical Device - A medical lead is provided for use in a pulse stimulation system of the type which includes a pulse generator for producing electrical stimulation therapy. The lead comprises an elongate insulating body and at least one electrical conductor within the insulating body. The conductor has a proximal end configured to be electrically coupled to the pulse generator and has a DC resistance in the range of 375-2000 ohms. At least one distal electrode is coupled to the conductor. | 08-08-2013 |
20130324838 | Lead Electrode for Use in an MRI-Safe Implantable Medical Device - A medical lead is configured to be implanted into a patient's body and comprises a lead body, and an electrode coupled to the lead body. The electrode comprises a first section configured to contact the patient's body, and a second section electrically coupled to the first section and configured to be capacitively coupled to the patient's body. | 12-05-2013 |
20140107743 | MRI-Safe Implantable Medical Device - A medical lead is provided for use in a pulse stimulation system of the type which includes a pulse generator for producing electrical stimulation therapy. The lead comprises an elongate insulating body and at least one electrical conductor within the insulating body. The conductor has a proximal end configured to be electrically coupled to the pulse generator and has a DC resistance in the range of 375-2000 ohms. At least one distal electrode is coupled to the conductor. | 04-17-2014 |
20140200643 | MRI-Safe Implantable Lead - A stimulation lead is configured to be implanted into a patient's body and includes at least one distal stimulation electrode and at least one conductive filer electrically coupled to the distal stimulation electrode. A jacket is provided for housing the conductive filer and providing a path distributed along at least a portion of the length of the lead for conducting induced RF energy from the filer to the patient's body. | 07-17-2014 |
20140336736 | MRI-SAFE IMPLANTABLE MEDICAL DEVICE - A medical lead is provided for use in a pulse stimulation system of the type which includes a pulse generator for producing electrical stimulation therapy. The lead comprises an elongate insulating body and at least one electrical conductor within the insulating body. The conductor has a proximal end configured to be electrically coupled to the pulse generator and has a DC resistance in the range of 375-2000 ohms. At least one distal electrode is coupled to the conductor. | 11-13-2014 |
20140336737 | MRI-SAFE IMPLANTABLE MEDICAL DEVICE - A medical lead is provided for use in a pulse stimulation system of the type which includes a pulse generator for producing electrical stimulation therapy. The lead comprises an elongate insulating body and at least one electrical conductor within the insulating body. The conductor has a proximal end configured to be electrically coupled to the pulse generator and has a DC resistance in the range of 375-2000 ohms. At least one distal electrode is coupled to the conductor. | 11-13-2014 |
20140336738 | MRI-SAFE IMPLANTABLE MEDICAL DEVICE - A medical lead is provided for use in a pulse stimulation system of the type which includes a pulse generator for producing electrical stimulation therapy. The lead comprises an elongate insulating body and at least one electrical conductor within the insulating body. The conductor has a proximal end configured to be electrically coupled to the pulse generator and has a DC resistance in the range of 375-2000 ohms. At least one distal electrode is coupled to the conductor. | 11-13-2014 |
20150018899 | LEAD ELECTRODE FOR USE IN AN MRI-SAFE IMPLANTABLE MEDICAL DEVICE - A medical lead is configured to be implanted into a patient's body and comprises a lead body, and an electrode coupled to the lead body. The electrode comprises a first section configured to contact the patient's body, and a second section capacitively coupled to the first section and configured to be electrically coupled to the patient's body. | 01-15-2015 |
20150039064 | LEAD ELECTRODE FOR USE IN AN MRI-SAFE IMPLANTABLE MEDICAL DEVICE - A medical lead is configured to be implanted into a patient's body and comprises a lead body, and an electrode coupled to the lead body. The electrode comprises a first section configured to contact the patient's body, and a second section electrically coupled to the first section and configured to be capacitively coupled to the patient's body. | 02-05-2015 |
Kaitlyn Hrdlicka, Erie, PA US
Patent application number | Description | Published |
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20120259486 | SYSTEM AND METHOD FOR DETERMINING A MISMATCH BETWEEN A MODEL FOR A POWERED SYSTEM AND THE ACTUAL BEHAVIOR OF THE POWERED SYSTEM - A system is provided for determining a mismatch between a model for a powered system and the actual behavior of the powered system. The system includes a coupler positioned between adjacent cars of the powered system. The coupler is positioned in a stretched slack state or a bunched slack state based upon the separation of the adjacent cars. The system further includes a controller positioned within the powered system. The controller is configured to determine a mismatch of the model. A method is also provided for determining a mismatch between a model for a powered system and the actual behavior of the powered system. | 10-11-2012 |
Kaitlyn Hrdlicka, Lawrence Park, PA US
Patent application number | Description | Published |
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20120136514 | COMMUNICATION SYSTEM FOR A RAIL VEHICLE CONSIST AND METHOD FOR COMMUNICATING WITH A RAIL VEHICLE CONSIST - A communication system for a rail vehicle consist includes antenna modules, routing modules, and an arbitration module. The antenna modules are disposed at spaced apart locations along the consist and receive network data from an off-board device. The routing modules are communicatively coupled with the antenna modules and receive the network data from the antenna modules. The routing modules are communicatively coupled with a network connection extending along the rail vehicle consist. The arbitration module is communicatively coupled with the network connection. The arbitration module forms a message represented by the network data. One or more of the routing modules transmits the network data received from the off-board device to the arbitration module over the network connection. The arbitration module receives the network data to form the message and transmits the message to one or more powered units of the rail vehicle consist through the network connection. | 05-31-2012 |
20120136515 | COMMUNICATION SYSTEM FOR A RAIL VEHICLE CONSIST AND METHOD FOR COMMUNICATING WITH A RAIL VEHICLE CONSIST - A communication system for a rail vehicle consist includes antenna modules, routing modules, and an arbitration module. The antenna modules are disposed at spaced apart locations and receive a trip profile from an off-board device. The trip profile is related to tractive and/or braking effort supplied by one or more powered units of the rail vehicle consist. The routing modules are disposed on the powered units and are communicatively coupled with the antenna modules. The routing modules are communicatively coupled with a network connection extending along the rail vehicle consist between the powered units. The arbitration module is communicatively coupled with the routing modules by the network connection. The routing modules transmit the received trip profile to the arbitration module. The arbitration module reconstitutes the trip profile into a message that is transmitted to a propulsion subsystem of one or more of the powered units. | 05-31-2012 |
Martin Hrdlicka, Montgomery, IL US
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20120235451 | Seat Cargo Spacer - A car seat storage providing an area of space for storage of loose items within a vehicle. The car seat storage system has a bottom panel connected to two side panels and a front panel. A tuck strip is an extension of the bottom panel, and is used to secure the bottom panel to space between the seat back and the seat bottom. Additional straps and hooks are used to secure the storage system to the seat. The front panel overhangs the front edge of the seat. The front panel is a padded or reinforced panel which presses against the front of the seat edge in the event of an abrupt stopping of the vehicle. The force exerted against the front panel in response assists in maintaining the front panel in an upright position. The seat storage system is configurable to join two seat storage systems in a expanded configuration. | 09-20-2012 |
Ondrej Hrdlicka, Bratislava SK
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20100002784 | Method for Reducing Peak-To-Average Power Ratio in an Ofdm Transmission System - The Peak-to-Average Power Ratio in an OFDM transmission system is reduced based on a complementary parity coding in which the coding rules are derived from an appropriate auto-correlation property of transmitted symbol sequences. | 01-07-2010 |
Patrick Hrdlicka, Shawano, WI US
Patrick J. Hrdlicka, Moscow, ID US
Patent application number | Description | Published |
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20120295862 | NUCLEOBASE-FUNCTIONALIZED CONFORMATIONALLY RESTRICTED NUCLEOTIDES AND OLIGONUCLEOTIDES FOR TARGETING OF NUCLEIC ACIDS - Embodiments are disclosed herein that involve C5-functionalized nucleic acids, which can be used for detecting a target in a nucleic acid. Particular embodiments disclose methods for making these compounds, wherein the compounds can be formed by coupling of an intermediate with a linker. Certain embodiments disclose the use of these compounds for detecting single nucleotide polymorphisms, and for increasing the thermal affinity of nucleic acid complements as compared to unmodified nucleic acid complements. In addition, the disclosed compounds can decrease enzymatic degradation of nucleic acids. | 11-22-2012 |
Patrick Jerzy Hrdlicka, Moscow, ID US
Patent application number | Description | Published |
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20130337581 | NUCLEOBASE-FUNCTIONALIZED CONFORMATIONALLY RESTRICTED NUCLEOTIDES AND OLIGONUCLEOTIDES FOR TARGETING NUCLEIC ACIDS - Embodiments are disclosed herein that involve C5-functionalized nucleic acids, which can be used for detecting a target in a nucleic acid. Particular embodiments disclose methods for making these compounds, wherein the compounds can be formed by coupling of an intermediate with a linker. Certain embodiments disclose the use of these compounds for detecting single nucleotide polymorphisms, and for increasing the thermal affinity of nucleic acid complements as compared to unmodified nucleic acid complements. In addition, the disclosed compounds can decrease enzymatic degradation of nucleic acids. | 12-19-2013 |
20140220573 | EMBODIMENTS OF A PROBE AND METHOD FOR TARGETING NUCLEIC ACIDS - Disclosed embodiments concern a probe comprising one or more pairs of monomers capable of targeting a nucleic acid target. The pair of monomers may be arranged in a manner that promotes thermoinstability of the probe complex, thus producing a probe capable of locating and/or detecting a target. The probe also may comprise one or more natural or non-natural nucleotides capable of Watson-Crick base pairing with an isosequential nucleic acid target. Particular disclosed embodiments concern a method of using the disclosed probe to target nucleic acids. In particular disclosed embodiments, the probe may be incubated with a target nucleic acid and then be detected. | 08-07-2014 |