Method and apparatus for optical stimulation of nerves and other animal tissue
First Claim
1. A method comprising:
- obtaining, from a first solid-state laser, a first laser beam having a first wavelength that is capable of directly optically stimulating an action potential in a neural tissue of an animal;
transmitting the first laser beam in an optical-fiber structure, wherein the first solid-state laser is a laser diode, and wherein the first laser diode and the optical-fiber structure are operatively coupled to a non-magnetic surgical-instrument handpiece;
applying the first laser beam from the optical-fiber structure onto a location on the tissue for stimulation of the tissue;
obtaining manual user input and when the input is received and based on the user input, controlling the first laser beam to start a series of one or more optical pulses to stimulate an action potential in the neural tissue;
obtaining a second high-power laser beam from a second solid-state laser operatively coupled to the surgical-instrument handpiece; and
performing a cutting operation at the tissue location using the second high-power laser beam.
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Abstract
A nerve-stimulation device and method using light to provide a source of precise stimulation on one or more nerve fibers. In some embodiments, this simulation is provided through a device and method wherein a laser- or LED-light-generating source is operatively coupled to an optical fiber, which in turn is coupled to a plug in the end of a holder in a sheath. Light is then passed from the light source through the optical fiber to the holder and out a selected optical tip on the sheath to provide an efficacious amount of light to simulate nerves. In some embodiments, the device is constructed from non-magnetic material such as glass, plastic or ceramics. In some embodiments, the light emanating from the optical tip can be controlled manually or automatically. Some embodiments omit the fiber and use light directly from the laser diode.
205 Citations
21 Claims
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1. A method comprising:
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obtaining, from a first solid-state laser, a first laser beam having a first wavelength that is capable of directly optically stimulating an action potential in a neural tissue of an animal; transmitting the first laser beam in an optical-fiber structure, wherein the first solid-state laser is a laser diode, and wherein the first laser diode and the optical-fiber structure are operatively coupled to a non-magnetic surgical-instrument handpiece; applying the first laser beam from the optical-fiber structure onto a location on the tissue for stimulation of the tissue; obtaining manual user input and when the input is received and based on the user input, controlling the first laser beam to start a series of one or more optical pulses to stimulate an action potential in the neural tissue; obtaining a second high-power laser beam from a second solid-state laser operatively coupled to the surgical-instrument handpiece; and performing a cutting operation at the tissue location using the second high-power laser beam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method comprising:
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obtaining, from a first solid-state laser, a first laser beam having a first wavelength that is capable of directly optically stimulating an action potential in a neural tissue of an animal, wherein the first laser beam has an infra-red (IR) wavelength; transmitting the first laser beam in an optical-fiber structure; applying the first laser beam from the optical-fiber structure onto a location on the tissue for stimulation of the tissue; obtaining user input and based on the user input, controlling the first laser beam to stimulate an action potential in the neural tissue; obtaining a second laser beam having a second wavelength that is capable of directly stimulating neural tissue, wherein the second wavelength is different than the first wavelength and has a different penetration depth into a given tissue; transmitting the second laser beam in the optical-fiber structure; applying light at the first wavelength to achieve a first tissue-penetration depth; and applying light at the second wavelength to achieve a second tissue-penetration depth.
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14. A method comprising:
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obtaining, from a first solid-state laser, a first laser beam having a first wavelength that is capable of directly optically stimulating an action potential in a neural tissue of an animal, wherein the first laser beam has an infra-red (IR) wavelength; transmitting the first laser beam in an optical-fiber structure; applying the first laser beam from the optical-fiber structure onto a location on the tissue for stimulation of the tissue; obtaining user input and based on the user input, controlling the first laser beam to stimulate an action potential in the neural tissue; obtaining a second laser beam having a second wavelength that is capable of directly stimulating neural tissue, wherein the second wavelength is different than the first wavelength and has a different penetration depth into a given tissue; transmitting the second laser beam in the optical-fiber structure; and applying variable amounts of the first and second different wavelengths simultaneously to achieve a tissue-penetration depth that is variable based on the intensities of the first and second wavelengths of light.
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15. A method comprising:
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obtaining, from a first solid-state laser, a first laser beam having a first wavelength that is capable of directly optically stimulating an action potential in a neural tissue of an animal, wherein the first laser beam has an infra-red (IR) wavelength; transmitting the first laser beam in an optical-fiber structure; applying the first laser beam from the optical-fiber structure onto a location on the tissue for stimulation of the tissue; obtaining manual user input and when the input is received and based on the user input, controlling the first laser beam to start a series of one or more optical pulses to stimulate an action potential in the neural tissue; obtaining a second light beam having a visible-light wavelength; transmitting the second light beam in the optical-fiber structure; and imaging the second light beam from the optical-fiber structure as an indication of where the first laser beam is directed. - View Dependent Claims (16, 17, 18, 19, 20)
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21. A method comprising:
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obtaining, from a first solid-state laser, a first laser beam having a first wavelength that is capable of directly optically stimulating an action potential in a neural tissue of an animal; transmitting the first laser beam in an optical-fiber structure; applying the first laser beam from the optical-fiber structure onto a location on the tissue for stimulation of the tissue; obtaining manual user input and when the input is received and based on the user input, controlling the first laser beam to start a series of one or more optical pulses to stimulate an action potential in the neural tissue, wherein the obtaining of user input further includes obtaining user input that specifies a user-specified spatial extent of a surgical operation, and wherein the applying of the first laser beam results in a spatial pattern at the tissue location based on the obtained user-specified spatial extent; providing a light-delivery unit for directing the first laser beam to the tissue location, wherein the light-delivery unit includes a frame configured to be affixed to the subject, and a moveable light-delivery head connected to the frame; and positioning the light-delivery head to deliver light to one of a plurality of locations on the subject.
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Specification