Micro vein enhancer for hands-free imaging for a venipuncture procedure

We claim: 1. A vein-image-enhancing system, for mobile use in imaging the subcutaneous veins of a target area of a patient by a practitioner, said vein-image-enhancing system comprising: a miniature vein enhancer comprising: a first laser configured to emit a beam of light, at a first wavelength; a scanner configured to transmit said beam of light from said first laser onto a target area; a photodetector configured to receive an image of the veins formed by differential absorption of said selective wavelength of light by the veins and the surrounding tissue; said photodetector further configured to output a signal representing said image; a second laser configured to receive said signal from said photodetector and to use said signal to emit a beam of light at a second wavelength, said scanner further configured to scan said beam of light at said second wavelength from said second, laser to project said received image onto the target area; and a housing configured to house said first laser, said second laser, said photodetector, and said scanner, said housing comprising an exit opening for said scanned laser light; said housing comprising a mounting orifice; and a mounting bracket, said mounting, bracket comprising a mast, a first end of said mast comprising a cylindrical portion, with said cylindrical portion at said first end of said mast received in said mounting orifice of said housing to releasably mount said miniature vein enhancer to said mast; said mounting bracket comprising a ring proximate to a second end of said mast, said ring configured to mount said mounting bracket to a corresponding cylindrical surface of a vial holder to support said miniature vein enhancer in an upright position during a venipuncture procedure for hands-free imaging, of the target area being without direct contact with said vein-image-enhancing system by the user's hand. 2. The vein-image-enhancing system according to claim 1 further comprising a combiner configured to combine said beams of light from said first and second lasers to form a single coaxial beam of laser light. 3. The vein-image-enhancing system according to claim 2 wherein said, scanner is configured to scan said coaxial beam of laser light onto the target area in a pattern being a pattern from the, group of patterns consisting of: a raster pattern; a Lissajous pattern; an ellipse pattern; a circle pattern; and a spiral pattern. 4. The vein-image-enhancing system according to claim 3 wherein said scanner is a scanner from the group of scanner consisting of: MEMS scanner; a single mirror configured to oscillate about two axes to produce said pattern; and a first mirror configured to oscillate about a first axis, said first mirror being selectively angled to reflect said coaxial beam of laser light to a second mirror, said second mirror configured to oscillate about a second axis, said coaxial beam of light being reflected from said second mirror toward the target area to produce said pattern. 5. The vein-image-enhancing system according to claim 4 wherein said first wavelength of light is in the range of 620 nm to 1400 nm; and wherein said second wavelength of light is in the range of 380 nm to 750 nm. 6. The vein-image-enhancing system according to claim 1 wherein said housing comprises a hand-holdable housing. 7. The vein-image-enhancing system according to claim 6 wherein said housing comprises a compartment configured to house a battery. 8. The vein-image-enhancing system according to claim 1 , wherein said ring of said mounting bracket is configured to snap onto the corresponding cylindrical surface of the vial holder. 9. The vein-image-enhancing system according to claim 1 , wherein said ring of said mounting bracket is configured to be received onto the corresponding cylindrical surface of the vial holder in a friction fit. 10. The vein-image-enhancing system according to claim 1 , wherein said mounting bracket comprises a living hinge. 11. The vein-image-enhancing system according to claim 1 , wherein said mast is configured to flex with respect to said ring. 12. A vein-image-enhancing system, for mobile use in imaging the subcutaneous veins of a target area of a patient by a practitioner, said vein-image-enhancing system comprising: a miniature vein enhancer comprising: a first laser configured to emit a beam of light at a first wavelength; a scanner configured to transmit said beam of light from said first laser onto a target area; means for receiving an image of the veins formed by differential absorption of said selective wavelength of light by the veins and the surrounding tissue, and for outputting a signal representing said image; a second laser configured to receive said signal from said means for receiving and outputting and to use said signal to emit a beam of light at a second wavelength, said scanner further configured to scan said beam of light at said second wavelength from said second laser to project said received image onto the target area; and a housing configured to house said first laser, said second laser, said means for receiving and outputting, and said scanner, said housing comprising an exit opening for said scanned laser light; and a mounting bracket, said mounting bracket comprising: a mast; means for coupling said housing of said miniature vein enhancer to said mast; and means for releasably mounting said miniature vein enhancer to a vial holder for supporting said housing of said miniature vein, enhancer in an upright position for hands-free imaging of the target area being without direct contact of the user's hand with said vein-image-enhancing system. 13. The vein-image-enhancing system according to claim 12 further comprising a combiner configured to combine said beams of light from said first and second lasers to form a single coaxial beam of laser light to be to be scanned by said scanner. 14. The vein-image-enhancing system according to claim 13 wherein said scanner is configured to scan said coaxial beam of laser light onto the target area in a pattern being a pattern from the group of patterns consisting of: a raster pattern; a Lissajous pattern; an ellipse pattern: a circle pattern; and a spiral pattern. 15. The vein-image-enhancing system according to claim 14 wherein said scanner is a scanner from the group of scanners consisting, of: a MEMS scanner; a single mirror configured to oscillate about two axes o produce said pattern; and a first mirror, configured to oscillate about a first axis, said first mirror being selectively angled to reflect said coaxial beam of laser light to a second mirror, said second mirror configured to oscillate about a second axis, said coaxial beam of light being reflected from said second, mirror toward the target area to produce said pattern. 16. The vein-image-enhancing system according to claim 15 wherein said first wavelength of light is in the range of 620 nm to 1400 nm; and wherein said second wavelength of light is in the range of 380 nm to 750 nm. 17. The vein-image-enhancing system according to claim 12 wherein said housing comprises a hand-holdable housing. 18. The vein-image-enhancing system according to claim 17 wherein said housing comprises a compartment configured to house a battery. 19. A vein-image-enhancing system, for mobile use in imaging the subcutaneous veins of a target area of a patient by a practitioner, said vein-image-enhancing system comprising: a miniature vein enhancer comprising: a first laser configured to emit a beam of light at a first wavelength;