IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0015032
(2013-08-30)
|
등록번호 |
US-8761897
(2014-06-24)
|
발명자
/ 주소 |
- Kaula, Norbert
- Iyassu, Yohannes
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
34 인용 특허 :
127 |
초록
▼
The present disclosure involves a method of providing graphical representations of medical devices and connections between the medical devices. A graphical representation of a lead is displayed. The lead is configured to deliver electrical stimulation to a patient via one or more of a plurality of e
The present disclosure involves a method of providing graphical representations of medical devices and connections between the medical devices. A graphical representation of a lead is displayed. The lead is configured to deliver electrical stimulation to a patient via one or more of a plurality of electrode contacts. A graphical representation of one of: an implantable pulse generator (IPG) or a lead connector block is displayed. The IPG and the lead connector block are each configured for coupling with the lead. In response to a user input, a graphical representation of a connection is generated. The connection is between the lead and one of: the IPG or the lead connector block. An actual connection between the lead and one of: the IPG or the lead connector block is monitored. A status of the actual connection between the lead and one of: the IPG or the connector block is then reported.
대표청구항
▼
1. An electronic device configured to provide graphical representations of medical devices and connections between the medical devices, the electronic device comprising: a touch-sensitive display configured to receive input from a user and display an output to the user;a memory storage component con
1. An electronic device configured to provide graphical representations of medical devices and connections between the medical devices, the electronic device comprising: a touch-sensitive display configured to receive input from a user and display an output to the user;a memory storage component configured to store programming code; anda computer processor configured to execute the programming code to perform the following tasks: displaying, via the touch-sensitive display, a graphical representation of a lead, the lead being configured to deliver electrical stimulation to a patient via one or more of a plurality of electrode contacts located on the lead;displaying, via the touch-sensitive display, a graphical representation of one of: an implantable pulse generator (IPG) or a lead connector block, wherein the IPG and the lead connector block are each configured for coupling with the lead;generating, in response to a user input, a graphical representation of a connection between the lead and one of: the IPG or the lead connector block;monitoring an actual connection between the lead and one of: the IPG or the lead connector block; andreporting a status of the actual connection between the lead and one of: the IPG or the connector block. 2. The electronic device of claim 1, wherein the tasks further comprise: before the monitoring, establishing a communications link between the electronic device and one of: the IPG or the lead connector block. 3. The electronic device of claim 1, wherein the monitoring of the connection comprises performing an impedance check for each of the electrode contacts on the lead. 4. The electronic device of claim 1, the reporting of the status comprises visually indicating electrode contacts that are problematic. 5. The electronic device of claim 1, wherein the generating comprises: indicating, for the IPG or the lead connector block, a plurality of ports available for connection with the lead;prompting the user to select one of the available ports for connection with the lead; andestablishing the graphical representation of the connection between the selected port and the lead. 6. The electronic device of claim 1, wherein the generating comprises displaying an animation sequence that shows a graphical representation of a lead wire of the lead being inserted into a port of one of: the IPG or the lead connector block. 7. The electronic device of claim 6, wherein the tasks further comprise: providing a feedback to the user when the graphical representation of the lead wire has been successfully inserted into the port, wherein the feedback is one of: an audible feedback, a visual feedback, and a tactile feedback. 8. The electronic device of claim 6, wherein the displaying the animation sequence comprises preventing the graphical representation of the lead wire from being inserted into the port until after the actual connection is made between the lead and the one of: the IPG or the lead connector block. 9. The electronic device of claim 1, wherein the displaying of the graphical representation of the lead comprises displaying the graphical representation of the lead over a graphical representation of a human spinal cord. 10. The electronic device of claim 1, wherein the electronic device comprises a clinician programmer or a tablet computer. 11. A medical system, comprising: a pulse generator configured to generate pulses as part of an electrical stimulation therapy for a patient;a lead having a plurality of electrode contacts, the lead being configured for coupling with the pulse generator and for delivering the pulses to the patient via one or more of the electrode contacts; anda clinician programmer configured to provide a graphical representation of the pulse generator, the lead, and connections therebetween, wherein the clinician programmer includes one or more processors and a non-transitory, tangible machine-readable storage medium storing a computer application, wherein the computer application contains machine-readable instructions that when executed electronically by the one or more processors, perform the following actions: displaying, via a touch-sensitive graphical user interface of the clinician programmer, a graphical representation of the pulse generator, a graphical representation of the lead;generating, in response to a user input, a graphical representation of a connection between the lead and the pulse generator;monitoring an actual connection between the lead and the pulse generator; andreporting a status of the actual connection between the lead and the pulse generator. 12. The medical system of claim 11, wherein the actions further comprise: before the monitoring, establishing a communications link between the portable electronic device and the pulse generator. 13. The medical system of claim 11, wherein the monitoring of the connection comprises performing an impedance check for each of the electrode contacts on the lead. 14. The medical system of claim 11, the reporting of the status comprises visually indicating electrode contacts that are problematic. 15. The medical system of claim 11, wherein the generating comprises: indicating, for the pulse generator, a plurality of ports available for connection with the lead;prompting the user to select one of the available ports for connection with the lead; andestablishing the graphical representation of the connection between the selected port and the lead. 16. The medical system of claim 11, wherein the generating comprises displaying an animation sequence that shows a graphical representation of a lead wire of the lead being inserted into a port of the pulse generator. 17. The medical system of claim 16, wherein the actions further comprise: providing a feedback to the user when the graphical representation of the lead wire has been successfully inserted into the port, wherein the feedback is one of: an audible feedback, a visual feedback, and a tactile feedback. 18. The medical system of claim 16, wherein the displaying the animation sequence comprises preventing the graphical representation of the lead wire from being inserted into the port until after the actual connection is made between the lead and the pulse generator. 19. The medical system of claim 11, wherein the displaying the graphical representation of the lead comprises displaying the graphical representation of the lead over a graphical representation of a human spinal cord. 20. The medical system of claim 11, wherein the pulse generator includes one of: an implantable pulse generator (IPG) or an external pulse generator (EPG). 21. The medical system of claim 11, wherein: the pulse generator is the EPG;the EPG includes a lead connector block;the displaying comprises displaying a graphical representation of the lead connector block as the representation of the EPG; andthe generating comprises generating a graphical representation of a connection between the lead and the lead connector block. 22. A method of providing graphical representations of medical devices and connections between the medical devices, the method comprising: displaying, via a touch-sensitive graphical user interface of a portable electronic device, a graphical representation of a lead, the lead being configured to deliver electrical stimulation to a patient via one or more of a plurality of electrode contacts located on the lead;displaying, via the graphical user interface, a graphical representation of one of: an implantable pulse generator (IPG) or a lead connector block, wherein the IPG and the lead connector block are each configured for coupling with the lead;generating, in response to a user input, a graphical representation of a connection between the lead and one of: the IPG or the lead connector block;monitoring an actual connection between the lead and one of: the IPG or the lead connector block; andreporting a status of the actual connection between the lead and one of: the IPG or the connector block. 23. The method of claim 22, further comprising: before the monitoring, establishing a communications link between the portable electronic device and one of: the IPG or the lead connector block. 24. The method of claim 22, wherein the monitoring of the connection comprises performing an impedance check for each of the electrode contacts on the lead. 25. The method of claim 22, the reporting of the status comprises visually indicating electrode contacts that are problematic. 26. The method of claim 22, wherein the generating comprises: indicating, for the IPG or the lead connector block, a plurality of ports available for connection with the lead;prompting the user to select one of the available ports for connection with the lead; andestablishing the graphical representation of the connection between the selected port and the lead. 27. The method of claim 22, wherein the generating comprises displaying an animation sequence that shows a graphical representation of a lead wire of the lead being inserted into a port of one of: the IPG or the lead connector block. 28. The method of claim 27, further comprising: providing a feedback to the user when the graphical representation of the lead wire has been successfully inserted into the port, wherein the feedback is one of: an audible feedback, a visual feedback, and a tactile feedback. 29. The method of claim 27, wherein the displaying the animation sequence comprises preventing the graphical representation of the lead wire from being inserted into the port until after the actual connection is made between the lead and the one of: the IPG or the lead connector block. 30. The method of claim 22, wherein the displaying the graphical representation of the lead comprises displaying the graphical representation of the lead over a graphical representation of a human spinal cord. 31. The method of claim 22, wherein the portable electronic device comprises a clinician programmer or a tablet computer. 32. An electronic apparatus for providing graphical representations of medical devices and connections between the medical devices, the electronic apparatus comprising: user interface means for communicating with a user;memory storage means for storing executable instructions; andcomputer processor means for executing the instructions to perform: displaying, via the user interface means, a graphical representation of a lead over a graphical representation of a human spinal cord, the lead being configured to deliver electrical stimulation to a patient via one or more of a plurality of electrode contacts located on the lead;displaying, via the user interface means, a graphical representation of one of: an implantable pulse generator (IPG) or a lead connector block, wherein the IPG and the lead connector block are each configured for coupling with the lead;generating, in response to a user input, a graphical representation of a connection between the lead and one of: the IPG or the lead connector block;establishing a communications link with one of: the IPG or the lead connector block;monitoring an actual connection between the lead and one of: the IPG or the lead connector block, wherein the monitoring comprises performing an impedance check for each of the electrode contacts on the lead; andreporting a status of the actual connection between the lead and one of: the IPG or the connector block, wherein the reporting comprises visually indicating electrode contacts that are problematic. 33. The electronic apparatus of claim 32, wherein the generating comprises: indicating, for the IPG or the lead connector block, a plurality of ports available for connection with the lead;prompting the user to select one of the available ports for connection with the lead; andestablishing the graphical representation of the connection between the selected port and the lead. 34. The electronic apparatus of claim 32, wherein the generating comprises displaying an animation sequence that shows a graphical representation of a lead wire of the lead being inserted into a port of one of: the IPG or the lead connector block. 35. The electronic apparatus of claim 34, further comprising: providing a feedback to the user when the graphical representation of the lead wire has been successfully inserted into the port, wherein the feedback is one of: an audible feedback, a visual feedback, and a tactile feedback. 36. The electronic apparatus of claim 34, wherein the displaying the animation sequence comprises preventing the graphical representation of the lead wire from being inserted into the port until after the actual connection is made between the lead and the one of: the IPG or the lead connector block.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.