Apparatus and method for photonic physiological and neurological stimulation

The invention claimed is: 1. An apparatus for photonic physiological stimulation of at least one target point on a subject, the apparatus comprising: a housing adapted to be positioned over the at least one target point; at least one light source selected from the group consisting of laser, light-emitting diode, and combinations thereof, the at least one light source positioned on the housing whereby light from the light source is focusable onto the at least one target point; at least one sensor, the at least one sensor in sensory communication with the subject, the sensor adapted to sense at least one physiological or neurological status of the subject, the sensor further adapted to output the at least one physiological or neurological status; a driver, the driver operably connected to the at least one light source, the driver capable of powering and controlling the at least one light source; and a command module, the command module operably connected to the driver and operably connected to the sensor, the command module adapted to: (a) control at least one performance variable of the at least one light source, the at least one performance variable selected from the group consisting of light wavelength, power, power density, voltage, current, pulse pattern, pulse frequency, beam spot diameter, angle of incidence, and combinations thereof; (b) receive at least one status output from the sensor; (c) adjust at least one performance variable of at least one laser light; (d) subsequent to adjusting at least one performance variable (c), evaluate any change in the status output; (e) subsequent to evaluating any change in the status output (d), determine if the status output is optimized; and (f) adjust at least one performance variable of at least one laser light (c) if the status output is not optimized. 2. The apparatus of claim 1 , further comprising a further housing, wherein each housing is cup-shaped, each housing adapted to fit the concave portion of the housing over an ear of the subject. 3. The apparatus of claim 1 , wherein at least one of the at least one light sources is a laser. 4. The apparatus of claim 3 , wherein the laser is capable of emitting light having a wavelength of between about 390 nm and about 700 nm. 5. The apparatus of claim 1 , wherein the at least one physiological or neurological status is selected from the group consisting of blood pressure, blood flow, pulse, heart rate variability, blood oxygen saturation, electromyocardiographic response, respiration rate, respiration pattern, galvanic skin response, pupil dilation, trabecular-ciliary process distance, magnetic resonance imaging, brain waves, physical movements, muscle tension, self reporting, and combinations thereof. 6. The apparatus of claim 1 , wherein the at least one performance variable is selected from the group consisting of light wavelength, power, power density, voltage, current, pulse pattern, pulse frequency, beam spot diameter, angle of incidence, and combinations thereof. 7. A method for the photonic physiological stimulation of at least one target point on a subject, comprising the steps of: (a) placing a housing over at least one target point, the housing comprising at least one light source selected from the group consisting of laser, light-emitting diode, and combinations thereof, the light source positioned on the housing whereby light from the light source is focusable onto the target point; (b) placing at least one sensor in sensory communication with the subject, the sensor adapted to sense at least one physiological or neurological status of the subject, the sensor further adapted to output the status; (c) energizing the light source at the target point at minimum power and beam spot; (d) noting the sensor output; (e) modifying at least one performance variable of the light source; (f) noting the sensor output; (g) comparing the sensor output noted in Step (e) with the sensor output noted in Step (f); (h) returning to Step (e) if the sensor output noted in Step (f) has not reached an optimum. 8. The method of claim 7 , wherein the physiological or neurological status is selected from the group consisting of blood pressure, blood flow, pulse, heart rate variability, blood oxygen saturation, electromyocardiographic response, respiration rate, respiration pattern, galvanic skin response, pupil dilation, trabecular-ciliary process distance, magnetic resonance imaging, brain waves, physical movements, muscle tension, self reporting, and combinations thereof. 9. The method of claim 7 , wherein the at least one performance variable is selected from the group consisting of light wavelength, power, power density, voltage, current, pulse pattern, pulse frequency, beam spot diameter, angle of incidence, and combinations thereof. 10. A method of physiologically and neurologically stimulating target points on the outer ear of a subject, the method comprising the steps of: (a) mounting the concave portion of a cup-shaped housing over each ear of the subject, each housing comprising: a plurality of laser lights positioned at least partially within the concave portion, each laser light mounted to be aimed and focused on a target point on the outer ear, each laser light in operable communication with a driver; and a video camera positioned at least partially within the concave portion, each video camera mounted to view the outer ear and a beam spot produced by each laser light, the video camera in operable communication with the driver and in operable communication with a command module; (b) placing at least one sensor in sensory communication with the subject, the sensor in operable communication with the command module, the sensor adapted to sense at least one physiological or neurological status of the subject, the sensor further adapted to output the at least one physiological or neurological status to the command module; (c) initiating the command module to energize the laser lights at minimum power and beam spot onto the surface of the outer ear; (d) initiating the command module to adjust laser targeting onto initial target points; (e) initiating the command module to adjust at least one performance variable of at least one laser light; (f) initiating the command module to compare a sensor output from before Step (e) to the sensor output from after Step (e); and (g) initiating the command module to determine if an optimum level of sensor output has been achieved.