초록 ▼

Aspects for treating spinal cord injuries are disclosed. In a particular aspect, a method includes identifying a neurological level of a spinal cord injury, and activating neurons via laser therapy in which a laser beam is applied to an area proximate to the neurological level. In another aspect, a

Aspects for treating spinal cord injuries are disclosed. In a particular aspect, a method includes identifying a neurological level of a spinal cord injury, and activating neurons via laser therapy in which a laser beam is applied to an area proximate to the neurological level. In another aspect, a computer-readable storage medium includes computer-readable instructions for performing various acts. Such acts comprise ascertaining a neurological level of a spinal cord injury, and receiving data corresponding to a severity of the spinal cord injury. The acts further comprise outputting a laser calibration according to the neurological level and the severity. A medical device apparatus is also provided, which includes various computer executable components. The computer executable components include an assessment component configured to receive parameters corresponding to a spinal cord injury, and a calibration component configured to ascertain a laser calibration according to the at least one parameter.

대표청구항 ▼

1. A method that facilitates treating spinal cord injuries, comprising: identifying a neurological level of a spinal cord injury;activating neurons via laser therapy, wherein a laser beam is applied to an area proximate to the neurological level; anddetermining an application angle of the laser beam

1. A method that facilitates treating spinal cord injuries, comprising: identifying a neurological level of a spinal cord injury;activating neurons via laser therapy, wherein a laser beam is applied to an area proximate to the neurological level; anddetermining an application angle of the laser beam, wherein the application angle is determined according to a desired neuron type to be activated more than a different neuron type, the application angle being an anterior angle when the desired neuron type is a motor neuron, and the application angle being a posterior angle when the desired neuron type is a sensory neuron. 2. The method according to claim 1, further comprising performing a deliberate tactile stimulation on a dermatome corresponding to the neurological level of the spinal cord injury. 3. The method according to claim 2, wherein the deliberate tactile stimulation is at least one of a deliberate pain stimulation, a deliberate vibration stimulation, a deliberate temperature stimulation, or a deliberate light touch stimulation. 4. The method according to claim 2, wherein the performing comprises performing the deliberate tactile stimulation concurrently with the activating of the neurons. 5. The method according to claim 1, further comprising calibrating the laser beam according to at least one of the neurological level of the spinal cord injury or a severity of the spinal cord injury. 6. A non-transitory computer-readable storage medium that facilitates treating spinal cord injuries, comprising: computer-readable instructions stored on the non-transitory computer readable storage medium, the computer-readable instructions including instructions for causing at least one processor to perform the following acts:identifying a neurological level of a spinal cord injury;activating neurons via laser therapy applied to an area proximate to the neurological level; anddetermining an application angle of the laser beam, wherein the application angle is determined according to a desired neuron type to be activated more than a different neuron type, the application angle being an anterior angle when the desired neuron type is a motor neuron, and the application angle being a posterior angle when the desired neuron type is a sensory neuron. 7. The non-transitory computer-readable storage medium of claim 6, wherein the computer-readable instructions further include instructions for causing the at least one processor to calibrate the laser therapy according to at least one of the neurological level of the spinal cord injury or a severity of the spinal cord injury. 8. The non-transitory computer-readable storage medium of claim 7, wherein a laser calibration of the laser therapy includes at least one of a pulsed frequency calibration, a power calibration, or a wavelength calibration. 9. The non-transitory computer-readable storage medium of claim 8, wherein the computer-readable instructions further include instructions for causing the at least one processor to retrieve the laser calibration from a lookup table. 10. A medical device apparatus, comprising: a memory having computer executable instructions stored thereon; anda processor communicatively coupled to the memory, the processor configured to execute the computer executable instructions, the computer executable instructions comprising assessment instructions and calibration instructions, and when executed perform the following acts:assessing a neurological level of a spinal cord injury;calibrating a laser to facilitate activating neurons via laser therapy applied to an area proximate to the neurological level, including determining an application angle of the laser beam, wherein the application angle is determined according to a desired neuron type to be activated more than a different neuron type, the application angle being an anterior angle when the desired neuron type is a motor neuron, and the application angle being a posterior angle when the desired neuron type is a sensory neuron. 11. The medical device apparatus according to claim 10, wherein the calibration instructions further comprise retrieving a laser calibration of the laser from a look up table. 12. The medical device apparatus according to claim 11, wherein the calibration instructions further comprise providing at least one of a pulsed frequency calibration, a power calibration, or a wavelength calibration.