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| 20090044977 | SYSTEM AND METHOD FOR CONTROLLING A DRILLING SYSTEM FOR DRILLING A BOREHOLE IN AN EARTH FORMATION - This disclosure relates in general to a method and system for controlling a drilling system for drilling a borehole in an earth formation. More specifically, but not by way of limitation, embodiments of the present invention provide systems and methods for controlling dynamic interactions between the drilling system for drilling the borehole and an inner surface of the borehole being drilled to steer the drilling system to directionally drill the borehole. In another embodiment of the present invention, data regarding the functioning of the drilling system as it drills the borehole may be sensed and interactions between the drilling system for drilling the borehole and an inner surface of the borehole may be controlled in response to the sensed data to control the drilling system as the borehole is being drilled. | 02-19-2009 |
| 20090188720 | System and method for drilling - This disclosure relates in general to a method and system for controlling a drilling system for drilling a borehole in an earth formation. More specifically, but not by way of limitation, embodiments of the present invention provide systems and methods for controlling dynamic interactions between the drilling system for drilling the borehole and an inner surface of the borehole being drilled to steer the drilling system to directionally drill the borehole. In another embodiment of the present invention, data regarding the functioning of the drilling system as it drills the borehole may be sensed and interactions between the drilling system for drilling the borehole and an inner surface of the borehole may be controlled in response to the sensed data to control the drilling system as the borehole is being drilled. | 07-30-2009 |
| 20090194334 | System and method for drilling - This disclosure relates in general to a method and system for controlling a drilling system for drilling a borehole in an earth formation. More specifically, but not by way of limitation, embodiments of the present invention provide systems and methods for controlling dynamic interactions between the drilling system for drilling the borehole and an inner surface of the borehole being drilled to steer the drilling system to directionally drill the borehole. In another embodiment of the present invention, data regarding the functioning of the drilling system as it drills the borehole may be sensed and interactions between the drilling system for drilling the borehole and an inner surface of the borehole may be controlled in response to the sensed data to control the drilling system as the borehole is being drilled. | 08-06-2009 |
| 20100101864 | ANTI-WHIRL DRILL BITS, WELLSITE SYSTEMS, AND METHODS OF USING THE SAME - A wellsite system includes a drill string suspended within a borehole, anti-whirl drill bits for use in the system, and methods of drilling a curved borehole in a subsurface formation. The drill bit can have an interior cavity in fluid communication with the drill string and a first gauge pad located on the exterior of the drill bit. The first gauge pad includes a first orifice in fluid communication with the interior cavity, where the first orifice is arranged at an angle relative to cutters fixed to the drill bit. The drill bit is configured such that a fluid continuously flows from the first orifice. | 04-29-2010 |
| 20100101867 | SELF-STABILIZED AND ANTI-WHIRL DRILL BITS AND BOTTOM-HOLE ASSEMBLIES AND SYSTEMS FOR USING THE SAME - A wellsite system includes a drill string suspended within a borehole, and a bottom hole assembly with a drill bit at its lower end, where the drill bit is a self stabilized and anti-whirl drill bit. The drill bit includes an interior cavity in fluid communication with the drill string, and a plurality of gauge pads located on the exterior of the drill bit. One or more of the gauge pads include an orifice in communication with the interior cavity, where the orifice is arranged at an angle relative to cutters fixed to the drill bit. The drill bit is configured such that a fluid continuously flows from each of the orifices. | 04-29-2010 |
| 20100139983 | ROTARY STEERABLE DEVICES AND METHODS OF USE - The invention provides rotary steerable devices and methods for use of rotary steerable devices. One aspect of the invention provides a rotary steerable device including: a cylinder configured for rotation in a wellbore, the cylinder having a slot and a gauge; and at least one cam received in the slot. The cam is configured for selective actuation between a first position, wherein the cam lies within the gauge of the cylinder, and a second position, wherein the cam is displaced out of the gauge of the cylinder. | 06-10-2010 |
| 20100140329 | METHOD AND SYSTEM FOR BRAZING - This invention provides methods and systems for brazing. One aspect of the invention provides a method of brazing cutter teeth. The method includes providing a bit body, pressing at least one cutter against the bit body with a spring device, placing the bit body and the at least one cutter in an inert gas filled chamber with about 10% H | 06-10-2010 |
| 20110139508 | GAUGE PADS, CUTTERS, ROTARY COMPONENTS, AND METHODS FOR DIRECTIONAL DRILLING - The present invention recites a method, system and apparatus, wherein said method, system and apparatus comprises a gauge pad for a rotary component received within a borehole, the gauge pad comprising an exterior surface dimensioned for rotation in close proximity to the borehole, a pocket extending through the exterior surface, the pocket in fluid communication with a pressurized fluid source, and wherein the exterior surface is dimensioned such that when a pressurized fluid is discharged through the pocket, the velocity of the fluid through a gap between the exterior surface and borehole creates a pressure drop sufficient to pull the rotary component toward the gauge pad. | 06-16-2011 |
| 20110139512 | ACTUATORS, ACTUATABLE JOINTS, AND METHODS OF DIRECTIONAL DRILLING - The present invention recites a method and apparatus, wherein said methods and apparatus comprises an actuator comprising a first plate, a pocket extending through the first plate, the pocket in fluid communication with a pressurized fluid source and a second plate coupled to a component that is to be actuated, wherein the first plate, the second plate, and the pocket are dimensioned such that when a pressurized fluid is discharged through the pocket, the velocity of the fluid through a gap between the first plate and the second plate creates a pressure drop sufficient to pull the second plate toward the first plate. | 06-16-2011 |
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| 20080304780 | Bearing Device - The present invention relates to a bearing device in which an inner ring is sealed from an outer ring by seals and together with the outer ring forms a closed bearing unit with a built-in circulation circuit for a lubricating oil mist. Rolling elements and rolling tracks disposed in the circulation circuit and lubricated by the oil mist. Means are adapted to forming an oil mist of lubricating oil from a reservoir, and means are adapted to causing the oil mist to flow in the circulation circuit. The invention also relates to an application of the bearing device for rotatably supporting a rotor in a centrifugal separator and to a method for supporting a centrifugal separator rotor for rotation about an axis of rotation. | 12-11-2008 |
| 20100099545 | COMPRESSIBLE UNIT FOR A CENTRIFUGAL SEPARATOR - In a compressible unit a plurality of separating discs are provided and adapted to being capable, in a compressed state, of being mounted in and removed from a centrifugal separator rotor, which rotor during operation is rotatable about an axis of rotation. The unit includes a support, a pressure surface, between which the separating discs are disposed abutting against one another. Guide surfaces abut against the separating discs and control radial and polar position. At least one compression mechanism is adapted during compression of the unit to press the support and pressure surface towards one another so that the discs are compressed. During compression, the guide surfaces allow relative movement between the support and pressure surface and the separating discs, and are of at least sufficient extent in the compression direction for the position-controlling abutment between the guide surfaces and the separating discs to be maintained throughout the relative movement during the compression. | 04-22-2010 |
| 20100260447 | BEARING ARRANGEMENT - The invention relates to a bearing arrangement ( | 10-14-2010 |
| 20110195832 | SEPARATION DISK FOR A CENTRIFUGE ROTOR, AND A DISK PACKAGE - A separating disk for a disk package of a centrifuge rotor has a tapering shape and extends around an axis (x) of rotation, and along a rotary symmetric surface. The separating disk is configured in such a way that it creates an interspace between the separating disk and an adjacent separating disk in the disk package, and comprises first protrusions extending outwardly from the rotary symmetric surface and second protrusions extending inwardly from the rotary symmetric surface. Each first and second protrusion defines a contact zone adapted to abut the adjacent separating disk. The contact zone of the first protrusions is displaced in relation to the contact zone of the second protrusions. The first and second protrusions are provided after each other in the peripheral direction of the separating disk. The tapering shape and the protrusions of the separating disks have been provided though pressing of a blank of a material against a tool part having a shape corresponding to the tapering shape of the protrusions of the pressed separating disk. | 08-11-2011 |
| 20110212820 | CENTRIFUGAL SEPARATOR - In a centrifugal separator having a stationary part, a non-rotating part, is elastically connected to the stationery part, and a rotating part, rotates around an axis of rotation and comprises a centrifuge rotor and a rotating bearing-receiving element. The centrifuge rotor comprises a disk package with a plurality of separating disks. The rotating part is journalled in the non-rotating part so that the rotating part and the non-rotating part are commonly pivotable relative to the stationary part. A drive arrangement drives the rotating part about the axis of rotation within a range of revolutions. An inlet channel extends into the inner separation space for feeding of a medium to be separated. An outlet channel extends out from the inner separation space for discharge of a separated product. The bearing-receiving element is tubular. At least one of the inlet channel and the outlet channel extends through the bearing-receiving element. | 09-01-2011 |
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| 20100010555 | SYSTEM AND METHOD FOR CONTROLLING A HEART STIMULATOR - In a system and method for controlling an implantable stimulator capable of producing pacing pulses to be delivered to cardiac tissue, as well as vagal stimulation pulses to be delivered to vagus nerve sites, upon detection of a premature cardiac event, such as a premature ventricular or atrial contraction, a simulated heart rate turbulence (HRT) procedure is applied if the intrinsic heart rate turbulence is weakened or absent. The simulated HRT includes a first phase in which the heart rate is increased, from the existing level, for a number of heart beats, a second phase in which the heart rate is decreased for a number of heart beats, and an optional third phase in which the heart rate is returned to said existing level. | 01-14-2010 |
| 20100113961 | MEDICAL DEVICE FOR DETERMINING THE POSTURE OF PATIENT - The present invention relates to a method for determining the posture of a patient. The method comprises the steps of: initiating ( | 05-06-2010 |
| 20100121398 | IMPLANTABLE MEDICAL DEVICE AND METHOD FOR MONITORING VALVE MOVEMENTS OF A HEART - An implantable medical device for monitoring the movements of the valve planes of the heart to determine at least one hemodynamic measure reflecting a mechanical functioning of a heart of a patient, includes an impedance measuring circuit that measures impedance between at least electrode pairs including at least one electrode placed substantially at the level of the valve plane. The measured impedances reflect valve plane movements. A hemodynamic parameter determining circuit determines at least one hemodynamic parameter based on the impedances reflecting the mechanical functioning of the heart. | 05-13-2010 |
| 20100121400 | IMPLANTABLE CARDIAC DEVICE AND METHOD FOR MONITORING THE STATUS OF A CARDIOVASCULAR DISEASE - An implantable cardiac device has a heart stimulator for electrically stimulating the heart of a patient, detector that measures a physiologic parameter that is affected by the status of a cardiovascular disease associated with sympathetic activation, a signal processor that determines at least one of a low frequency, LF, and a very low frequency, VLF, Mayer wave component in the measured parameter, and analyzer that automatically analyzes the determined Mayer wave component in relation to a predetermined reference value to determine the status of the cardiovascular disease. The detector is a cardio-mechanical parameter detector that measures, as said physiologic parameter, a mechanical change in at least one of the four chambers of the heart. In a corresponding method for monitoring the status of a cardiovascular disease associated with sympathetic activation of a patient having an implantable electric heart stimulator a physiologic parameter affected by the cardiac disease is measured. At least one of a low frequency, LF, and a very low frequency, VLF, Mayer wave component in the parameter is determined, and the wave component is analyzed in relation to a predetermined reference value to determine the status of the cardiovascular disease. A mechanical change in at least one of the four chambers of the heart is measured as the physiologic parameter. | 05-13-2010 |
| 20100185252 | DEVICE AND METHOD OF A MEDICAL IMPLANT FOR MONITORING PROGRESSION OF HEART FAILURE IN A HUMAN HEART - In a device and method for a medical implant for monitoring progression of heart failure in a human heart, an activity sensor provides information related to the activity level of a patient and an oxygen sensor provides information related to the level of oxygen content in venous blood. A determined level of venous oxygen content at a determined activity level is obtained, and that level of venous oxygen content is compared to stored values at a corresponding activity level. The result of the comparison is used as a basis for determining a degree of heart failure. | 07-22-2010 |
| 20100324432 | METHOD AND DEVICE TO DETECT EATING, TO CONTROL ARTIFICIAL GASTRIC STIMULATION - In a method and device for detecting the intake of food in a subject at least one parameter related to the blood flow and/or perfusion of a blood vessel and/or an organ in the digestive system of a patient is monitored by a sensor attached to, or in, a blood vessel or organ of the digestive system. The value of each monitored parameter is analyzed and may be used to control the activity of a gastric stimulator. | 12-23-2010 |
| 20100331719 | METHOD AND IMPLANTABLE MEDICAL DEVICE (IMD) FOR MONITORING PERMEABILITY STATUS OF CELL MEMBRANES - An implantable medical device comprises a signal generator for generating a current signal having a frequency in a frequency window slightly less than the β-dispersion frequency of a tissue and applying the signal over the tissue. A signal measurer measures the resulting voltage signal and an impedance parameter is calculated from the applied and measured signal by a parameter determiner. A status monitor monitors the permeability status of cell membranes in the tissue based on this impedance parameter. | 12-30-2010 |
| 20110054560 | PACING, SENSING AND OTHER PARAMETER MAPS BASED ON LOCALIZATION SYSTEM DATA - An exemplary method generates a map of a pacing parameter, a sensing parameter or one or more other parameters based in part on location information acquired using a localization system configured to locate electrodes in vivo (i.e., within a patient's body). Various examples map capture thresholds, qualification criteria for algorithms, undesirable conditions and sensing capabilities. Various other methods, devices, systems, etc., are also disclosed. | 03-03-2011 |
| 20110066201 | ELECTRODE AND LEAD STABILITY INDEXES AND STABILITY MAPS BASED ON LOCALIZATION SYSTEM DATA - A method includes selecting an electrode located in a patient; acquiring position information with respect to time for the electrode where the acquiring uses the electrode for repeatedly measuring electrical potentials in an electrical localization field established in the patient; calculating a stability metric for the electrode based on the acquired position information with respect to time; and deciding if the selected electrode, as located in the patient, has a stable location for sensing biological electrical activity, for delivering electrical energy or for sensing biological electrical activity and delivering electrical energy. Position information may be acquired during one or both of intrinsic or paced activation of a heart and respective stability indexes calculated for each activation type. | 03-17-2011 |
| 20110066202 | ELECTRODE AND LEAD STABILITY INDEXES AND STABILITY MAPS BASED ON LOCALIZATION SYSTEM DATA - A method includes selecting an electrode located in a patient wherein the electrode comprises a lead-based electrode; acquiring position information with respect to time for the electrode, during both loaded and unloaded conditions of the lead, where the acquiring uses the electrode for repeatedly measuring electrical potentials in an electrical localization field established in the patient; calculating a both loaded and unloaded stability metrics for the electrode based on the acquired position information with respect to time; and comparing the unloaded and loaded stability metrics to decide whether the electrode, as located in the patient, comprises a stable location for delivery of therapy. | 03-17-2011 |
| 20110092809 | CARDIAC COORDINATE SYSTEM FOR MOTION ANALYSIS - An exemplary method includes accessing cardiac information acquired via a catheter located at various positions in a venous network of a heart of a patient wherein the cardiac information comprises position information with respect to time for one or more electrodes of the catheter; performing a principal component analysis on at least some of the position information; and selecting at least one component of the principal component analysis to represent an axis of a cardiac coordinate system. Various other methods, devices, systems, etc., are also disclosed. | 04-21-2011 |
| 20110118803 | Cardiac Resynchronization Therapy Optimization Using Vector Measurements Obtained From Realtime Electrode Position Tracking - An exemplary method includes selecting a first pair of electrodes to define a first vector and selecting a second pair of electrodes to define a second vector; acquiring position information during one or more cardiac cycles for the first and second pairs of electrodes wherein the acquiring comprises using each of the electrodes for measuring one or more electrical potentials in an electrical localization field established in the patient; and determining a dyssynchrony index by applying a cross-covariance technique to the position information for the first and the second vectors. Another method includes determining a phase shift based on the acquired position information for the first and the second vectors; and determining an interventricular delay based at least in part on the phase shift. | 05-19-2011 |
| 20110144510 | METHODS TO IDENTIFY DAMAGED OR SCARRED TISSUE BASED ON POSITION INFORMATION AND PHYSIOLOGICAL INFORMATION - An exemplary system includes one or more processors; memory; and control logic, of one or more modules operable in conjunction with the one or more processors and the memory, to acquire myocardial potential data associated with position information, acquire myocardial electrical activation data associated with position information, acquire myocardial position data with respect to time, generate isopotential contours based on the potential data, generate isochronal contours based on the electrical activation data, generate isomotion contours based on the position data with respect to time, and overlay the generated isopotential contours, isochronal contours and isomotion contours on a display to indicate a region of myocardial damage or myocardial scarring with respect to a map that comprises anatomical markers. Various other methods, devices, systems, etc., are also disclosed. | 06-16-2011 |
| 20110213260 | CRT LEAD PLACEMENT BASED ON OPTIMAL BRANCH SELECTION AND OPTIMAL SITE SELECTION - An exemplary method includes accessing cardiac information acquired via a catheter located at various positions in a coronary sinus of a patient where the cardiac information includes electrical information and mechanical information; calculating scores based on the cardiac information where each of the scores corresponds to the coronary sinus or a tributary of the coronary sinus; and based on the scores, selecting a tributary of the coronary sinus as an optimal candidate for placement of a left ventricular lead. Accordingly, the selected tributary may be relied on during an implant procedure for the left ventricular lead. Various other methods, devices, systems, etc., are also disclosed. | 09-01-2011 |
| 20110295137 | CARDIAC RESYNCHRONIZATION THERAPY OPTIMIZATION USING ELECTROMECHANICAL DELAY FROM REALTIME ELECTRODE MOTION TRACKING - An exemplary method includes providing a mechanical activation time (MA time) for a myocardial location, the location defined at least in part by an electrode and the mechanical activation time determined at least in part by movement of the electrode; providing an electrical activation time (EA time) for the myocardial location; and determining an electromechanical delay (EMD) for the myocardial location based on the difference between the mechanical activation time (MA time) and the electrical activation time (EA time). | 12-01-2011 |
| 20110313302 | BLOOD PRESSURE MEASUREMENT WITH IMPLANTABLE MEDICAL DEVICE - An implantable medical device is connected to a cardiomechanic sensor implanted in or in connection with a cardiac ventricle. The sensor generates a deformation signal representative of the myocardial deformation. The implantable medical device processes the deformation signal by calculating the derivative thereof to generate a deformation rate signal representative of the rate of myocardial deformation. The deformation rate signal is filtered and respective maximum deformation rate values are identified for multiple cardiac cycles in the filtered deformation rate signal. A value representative of the systemic blood pressure is calculated based on a combination of the respective maximum deformation rate values. | 12-22-2011 |
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| 20080213283 | USE OF CERTAIN DRUGS FOR TREATING NERVE ROOT INJURY - The present invention relates to a method for treating nerve disorders in a mammal or a vertebrate by administering a TNF-alpha inhibitor. The invention also relates to the use of a TNF-alpha inhibitor in the preparation of pharmaceutical compositions for the treatment of nerve root injury and other nerve disorder. | 09-04-2008 |
| 20090149379 | NOVEL USE OF CYTOKINE INHIBITORS - The present invention relates to a method for prevention or reduction of scar tissue and/or adhesion formation wherein a therapeutically effective amount of a substance that inhibits a pro-inflammatory cytokine is administered to a patient in need of said treatment. | 06-11-2009 |
| 20100150922 | Use of TNF-alpha Inhibitors for Treating a Nerve Disorder Mediated by Nucleus Pulposus - The present invention relates to a method and a pharmaceutical composition for treatment of nerve disorders comprising administration of a therapeutically effective dosage of at least two substances selected from the group consisting of TNF inhibitors, IL-1 inhibitors, IL-6 inhibitors, IL-8 inhibitors, FAS inhibitors, FAS ligand inhibitors, and IFN-gamma inhibitors. Preferably, at least one of the substances is a TNF inhibitor. | 06-17-2010 |
| 20100305048 | NOVEL USE OF CYTOKINE INHIBITORS - The use of substance that inhibits a pro-inflammatory cytokine, such as TNF or IL-1, for the production of a pharmaceutical composition for improving wound healing is disclosed. Also, a method for improving wound healing wherein a therapeutically effective amount of a substance that inhibits a pro-inflammatory cytokine is administered to a patient in need of said treatment is disclosed. | 12-02-2010 |
