Source: http://www.google.es/patents/US7676273?hl=es&dq=flatulence
Timestamp: 2013-05-19 08:52:07
Document Index: 74816288

Matched Legal Cases: ['Application No. 07', 'Application No. 07', 'Application No. 07', 'Application No. 07', 'Application No. 07', 'Application No. 07', 'Application No. 07', 'Application No. 07']

Patente US7676273 - Stimulation templates for programming a stimulation lead with complex ... - Google PatentesB�squeda Im�genes Maps Play YouTube Noticias Gmail Drive M�s » B�squeda avanzada de patentes | Historial web | Iniciar sesi�n B�squeda avanzada de patentesPatentesThe disclosure is directed to programming implantable stimulators to deliver stimulation energy via one or more implantable leads having complex electrode array geometries. A user interface of a programmer allows a user to define stimulation therapy by interacting with one or more representations of...http://www.google.es/patents/US7676273?utm_source=gb-gplus-sharePatente US7676273 - Stimulation templates for programming a stimulation lead with complex electrode array geometry N�mero de publicaci�nUS7676273 B2Tipo de publicaci�nConcesi�n N�mero de solicitud11/591,189 Fecha de publicaci�n9 Mar 2010 Fecha de presentaci�n31 Oct 2006 Fecha de prioridad24 Feb 2006Tambi�n publicado comoEP2004286A1US20070203542WO2007097873A1 InventoresSteven M. GoetzRichard T. StoneWarren W. BallCarl D. Wahlstrand Cesionario originalMedtronic, Inc. Clasificaci�n de EE.UU.607/62 Clasificaci�n internacionalA61N1/00 Clasificaci�n cooperativaA61N1/0534A61N1/0531A61N1/36185A61N1/0553A61N1/37247A61N1/0529A61N1/36082 Clasificaci�n europeaA61N1/05K1CA61N1/05K1A61N1/05K1DA61N1/05L2A61N1/36ZA61N1/36Z5P3AA61N1/36A61N1/372D4UReferenciasCitas de patentes (98)Otras citas (58) Citada por (9)Enlaces externosUSPTO Cesi�n de USPTO EspacenetStimulation templates for programming a stimulation lead with complex electrode array geometryUS 7676273 B2 Resumen The disclosure is directed to programming implantable stimulators to deliver stimulation energy via one or more implantable leads having complex electrode array geometries. A user interface of a programmer allows a user to define stimulation therapy by interacting with one or more representations of the lead that delivers the therapy. The disclosure also contemplates selecting stimulation parameters to satisfy a user defined stimulation field by selecting one or more volumetric stimulation templates that best fit the stimulation field. The user interface may display the stimulation templates in relation to different perspectives of a lead and the stimulation field. Use of stimulation templates may simplify the determination of stimulation parameters in response to any of a variety of types of user definition of a stimulation field.
presenting on a display at least one view of a representation of an implantable lead having a complex electrode array geometry;
receiving user input defining a stimulation field on the representation of the lead;
selecting at least one predefined volumetric stimulation template from a memory based on the stimulation field, wherein the at least one volumetric stimulation template is stored in the memory prior to receiving user input defining the stimulation field; and
selecting an electrical stimulation parameter set associated with the selected volumetric stimulation template in the memory.
2. The method of claim 1, further comprising communicating the electrical stimulation parameter set to an electrical stimulator.
generating at least one volumetric stimulation template for each electrode of an electrical stimulation lead based upon at least one of modeled data and experimental data; and
storing the generated volumetric stimulation templates in the memory for selection based on the stimulation field.
5. The method of claim 1, wherein selecting at least one volumetric stimulation template comprises selecting the volumetric stimulation template based on a comparison of at least one of the volumes and shapes of the volumetric stimulation template and the user-defined stimulation field.
presenting a representation of the stimulation field on the representation of the lead; and
receiving user input modifying the representation of the stimulation field.
14. The method of claim 1, further comprising adjusting the at least one volumetric stimulation template based on the stimulation field.
a memory that stores a plurality of predefined volumetric stimulation templates prior to the user interface receiving user input defining the at least one stimulation field; and
a processor that selects at least one of the plurality of predefined volumetric stimulation templates based on the at least one user-defined stimulation field, and selects an electrical stimulation parameter set associated with the selected volumetric stimulation template in the memory.
28. The system of claim 15, further comprising a programmer that comprises the user interface, the memory, and the processor.
present on a display at least one view of a representation of an implantable lead having a complex electrode array geometry;
receive user input defining a stimulation field on the representation of the lead;
select at least one predefined volumetric stimulation template from a memory based on the stimulation field, wherein the at least one volumetric stimulation template is stored in the memory prior to receiving user input defining the stimulation field; and
select an electrical stimulation parameter set associated with the selected volumetric stimulation template in the memory.
30. The computer-readable medium of claim 29, wherein the instructions that cause a processor to select at least one volumetric stimulation template comprise instructions that cause a processor to select the volumetric stimulation template based on a comparison of at least one of the volumes and shapes of the volumetric stimulation template and the user-defined stimulation field.
31. The computer-readable medium of claim 29, wherein the instructions that cause a processor to select at least one volumetric stimulation template comprise instructions that cause a processor to select a volumetric stimulation template that fills at least a portion of the stimulation field without covering any portion of the anatomical region not included in the stimulation field.
32. The computer-readable medium of claim 29, wherein the instructions that cause a processor to select at least one volumetric stimulation template comprise instructions that cause a processor to select a volumetric stimulation template that fills at least the entire stimulation field.
33. The computer-readable medium of claim 29, further comprising instructions that cause a processor to present a message to the user when the stimulation template set fails to match the stimulation field by an error that is greater than a predetermined error threshold.
34. The computer-readable medium of claim 29, further comprising instructions that cause the processor to adjust the at least one volumetric stimulation template based on the stimulation field. Descripci�n
The disclosure contemplates selecting electrode combinations according to a user defined stimulation field by selecting one or more stimulation templates that best fit the stimulation field. The user interface may display the stimulation templates set in relation to different perspectives of a lead and the stimulation field. Use of stimulation templates may simplify the determination of stimulation parameters in response to any of a variety of types of user definition of a stimulation field, such as drawing a representation of a stimulation field or modifying a previously displayed representation of a stimulation field.
A user may also be able to select electrode combinations within a complex electrode array geometry, in accordance with this disclosure, a user interface permits a user to view electrodes from different perspectives relative to the lead. For example, the user interface may provide an axial perspective of a lead and a cross-sectional perspective of the lead. In addition, the user interface may include an axial control medium to select and/or view electrodes at different positions along the length of a lead from the axial perspective, and a rotational control medium to select and/or view electrodes at different angular positions around a circumference of the lead from the cross-sectional perspective.
In one embodiment, the disclosure provides a method that includes-presenting on a display at least one view of a representation of an implantable lead having a complex electrode array geometry, receiving user input defining a stimulation field on the representation of the lead, selecting at least one volumetric stimulation template from a memory based on the stimulation field, and selecting an electrical stimulation parameter set associated with the selected volumetric stimulation template in the memory.
In another embodiment, the disclosure provides a system that includes a programmer having a user interface that displays at least one view of a representation of an implantable lead having a complex electrode array geometry, and receives user input defining at least one stimulation field on the representation of the lead, a memory that stores a plurality of volumetric stimulation templates, and a processor that selects at least one of the plurality of stimulation templates based on the at least one user-defined stimulation field and selects an electrical stimulation parameter set associated with the selected volumetric stimulation template in the memory.
In an additional embodiment, the disclosure provides a computer-readable medium including instructions to cause a processor to present on a display at least one view of a representation of an implantable lead having a complex electrode array geometry, receive user input defining a stimulation field on the representation of the lead, select at least one volumetric stimulation template from a memory based on the stimulation field, and select an electrical stimulation parameter set associated with the selected volumetric stimulation template in the memory.
The disclosure may provide one or more advantages. For example, the programmer may more quickly select the best one or more stimulation templates that fit a user-defined stimulation field instead of generating stimulation parameters every time the user changes the desired field. In addition, the user interface may present the stimulation template set to the user with respect to the represented lead and the defined stimulation field. In this manner, the user may easily review the effect of parameters that will be used to deliver therapy and change them if necessary. The user interface represents the complex electrode array geometry with multiple views that allow the user to view the lead in a two-dimensional display.
In some embodiments, the user may select electrode combinations with stylus 118 by clicking on individual electrodes in the side view 1116. In some embodiments, the user also may select electrodes with stylus 118 by clicking on electrodes in the cross-sectional view. Hence, the user may rely on side view 116 or cross-sectional view 120 to select individual electrodes for inclusion in an electrode combination. To specify whether the electrode is to serve as an anode or cathode, the user may click multiple times on a given electrode. For example, the user may click once to select an electrode, twice to make the electrode an anode, three times to make the electrode a cathode, and four times to deselect the electrode.
FIG. 13 illustrates selection of the grow/shrink feature by the user. User interface 199 is an embodiment of user interface 98, similar to other user interfaces herein, and is provided by a programmer 200. In the example of FIG. 13, the user expands the representation of stimulation field 204A by clicking and dragging on the field perimeter after selecting grow/shrink button 214. In particular, the user expands the stimulation field from stimulation field 204A to stimulation field 204B. User interface 199 shows the expansion of the stimulation field in side view 202 as well as in cross-sectional views 206C, 206D that include electrodes in the electrode combination that produces the stimulation field. As shown in FIG. 13, the shape of stimulation field 204B in the cross-sectional views 206C, 206D is somewhat different as stimulation field 204A-B may be sized differently at different electrode levels of the lead.
Then, programmer 19 fine-tunes the electrode combination by �orbiting� around it. In the example of FIGS. 28A-28F, the 2C+ electrode serves as an anchor point, while the − electrodes are rotated around it. In particular, programmer 19 shifts from the initial combination (2B−, 2C+ and 3C−) to combinations of 2C+, 3B−, 3B− (FIG. 28B), 2C+, 2D−, 3C− (FIG. 28C), 1C−, 2C+, 2D+ (FIG. 28D), and 1C−, 2B−, 2C+ (FIG. 28E). In the example of FIG. 28F, upon orbiting around all positions of the electrode combination centered at 2C+, programmer 19 moves the anchor point to 3C+ and starts with 3B− and 4C− as the next initial electrode combination for the orbit process. While an anode is used as an example, a cathode may also be used as the anchor point in a similar manner.
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