초록 ▼

An optical source illuminates a portion of an animal nail, and an optical sensor receives light from the illuminated portion. A processor generates a signal level, and differentiates between a "quick" signal level range (arising from illuminated living tissue in the nail) and a "nail" signal level r

An optical source illuminates a portion of an animal nail, and an optical sensor receives light from the illuminated portion. A processor generates a signal level, and differentiates between a "quick" signal level range (arising from illuminated living tissue in the nail) and a "nail" signal level range (arising from illuminating a nail portion with no living tissue). An indicator informs a user when the signal level is in the quick or nail range, determining the location of living tissue within the nail. Source(s) and sensor(s) may be mounted on an animal nail clipper, with illumination by the source and collection of light for receiving by the sensor occurring at a position relative to a blade so that when the signal level is within the nail range and the clipper is actuated to cut the nail, cutting of the living-tissue-containing portion of the animal nail is avoided.

대표청구항 ▼

What is claimed is: 1. A method, comprising: a) selectively illuminating a portion of an animal nail with an optical source; b) collecting light from the selectively-illuminated portion of the animal nail and transmitting at least a portion of the collected light to an optical sensor, thereby gener

What is claimed is: 1. A method, comprising: a) selectively illuminating a portion of an animal nail with an optical source; b) collecting light from the selectively-illuminated portion of the animal nail and transmitting at least a portion of the collected light to an optical sensor, thereby generating an optical signal level; c) comparing the generated optical signal level to a quick-signal-level range and to a nail-signal-level range, a generated optical signal level in the quick-signal-level range arising from a selectively-illuminated living-tissue-containing portion of the animal nail, a generated optical signal level in the nail-signal-level range arising from a selectively-illuminated portion of the nail substantially devoid of living tissue; and d) indicating to a user whether the generated optical signal level is within the quick-signal-level range or within the nail-signal-level range, wherein the optical source and the optical sensor are operatively coupled to an animal nail clipper and positioned so that when the generated optical signal level is within the nail-signal-level range and the clipper is actuated to cut the nail, cutting of the living-tissue-containing portion of the animal nail is substantially avoided. 2. The method of claim 1, further comprising actuating the nail clipper to cut the nail when the generated optical signal level is within the nail-signal-level range. 3. The method of claim 1, wherein the generated optical signal level arises from wavelength-selective illumination of the animal nail. 4. The method of claim 3, wherein the optical source comprises at least one light-emitting diode. 5. The method of claim 3, wherein the optical source comprises at least one laser source. 6. The method of claim 3, wherein the optical source comprises a broadband optical source and at least one wavelength-selective optical component. 7. The method of claim 1, wherein the optical sensor includes at least one wavelength-selective optical component. 8. The method of claim 1, wherein the generated signal level arises from multiple-wavelength illumination of the animal nail. 9. The method of claim 8, wherein: the optical source comprises at least one broadband optical source; and the optical sensor comprises multiple optical sensors and at least one wavelength-selective optical component. 10. The method of claim 8, wherein: the optical source comprises multiple narrowband optical sources; and the optical sensor comprises multiple optical sensors. 11. The method of claim 10, wherein the multiple optical sensors include at least one wavelength-selective optical component. 12. The method of claim 8, wherein: the optical source comprises multiple narrowband optical sources; and the optical sensor receives collected light at multiple wavelengths from the illuminated portion of the animal nail. 13. The method of claim 1, wherein the optical source and the optical sensor are positioned and aligned relative to the nail clipper so that when the generated signal level is within the nail-signal-level range and the clipper is actuated to cut the nail, cutting of the living-tissue-containing portion of the animal nail is substantially avoided. 14. The method of claim 1, wherein: the optical source includes a corresponding source optical fiber segment having a proximal end for receiving light from the optical source and a distal end for emitting light from the optical source and selectively illuminating a portion of the animal nail; the optical sensor includes a corresponding sensor optical fiber segment having a distal end for collecting light from the selectively illuminated portion of the animal nail and a proximal end for transmitting at least a portion of the collected light to the optical sensor; and the corresponding distal ends of the source optical fiber segment and the sensor optical fiber segment are positioned and aligned relative to the to the nail clipper so that when the generated optical signal level is within the nail-signal-level range and the nail clipper is actuated to cut the nail, cutting of the living-tissue-containing portion of the animal nail is substantially avoided. 15. The method of claim 1, wherein: the optical source includes at least one corresponding source optical component for directing light from the optical source for selectively illuminating the portion of the animal nail; the optical sensor includes at least one corresponding sensor optical component for collecting light from the selectively illuminated portion of the animal nail and transmitting the collected light to the optical sensor; and the source optical component and the sensor optical component are positioned and aligned relative to the to the nail clipper so that when the generated signal level is within the nail-signal-level range and the clipper is actuated to cut the nail, cutting of the living-tissue-containing portion of the animal nail is substantially avoided. 16. The method of claim 1, wherein: the optical source is a pulsed optical source; and the generated optical signal is processed by gated detection, the gated detection and the pulsed optical source being commonly triggered. 17. The method of claim 1, wherein: the optical source is a modulated optical source, generated optical signal is processed by phase-sensitive detection, the modulated optical source and the phase sensitive detection being commonly synchronized. 18. The method of claim 1, wherein a generated optical signal level in the nail-signal-level range is indicated by a first indication of a binary indicator, and a generated optical signal level in the quick-signal-level range is indicated by a second indication of the binary indicator. 19. The method of claim 1, wherein a level indicator indicates which of multiple indicator signal levels most closely approximates the generated optical signal level, the multiple indicator signal levels spanning a signal level range including at least a portion of the quick-signal-level range and at least a portion of the nail-signal-level range. 20. The method of claim 1, further comprising: repeating steps a) through d) at multiple locations along the nail, thereby substantially determining the location of a distal end of the living tissue within the animal nail.