Dermal camera attachment

What is claimed is: 1. A camera attachment apparatus for attaching to a mobile computing device having an integrated camera, the camera attachment apparatus comprising: a housing having a shape to mount on the mobile computing device; a slide plate disposed within the housing and moveable between a stowed position and a deployed position; a light shield mechanically engageable with the slide plate; an aperture disposed in the slide plate; and an illumination system mounted to the slide plate, wherein the slide plate is configured to align the aperture over the integrated camera when moved to the deployed position and remove the aperture from view of the integrated camera when moved to the stowed position while the housing is mounted to the mobile computing device. 2. The camera attachment apparatus of claim 1 , wherein the light shield blocks ambient light from interfering with near field images and provides a fixed offset from the integrated camera when deployed for acquiring the near field images and prevents obstruction of far field images when stowed for acquiring the far field images. 3. The camera attachment apparatus of claim 2 , wherein the light shield comprises a telescoping light shield that collapses when stowed and extends when deployed. 4. The camera attachment apparatus of claim 3 , wherein the light shield is mechanically engaged with the slide plate such that a rotation of the light shield drives the slide plate to the deployed position and extends the light shield. 5. The camera attachment apparatus of claim 3 , further comprising: static plates disposed on either side of the slide plate; a track disposed in sides of the static plates and the slide plate along which the slide plate moves relative to the static plates; a rack gear mounted to the slide plate; and a pinion gear that engages the light shield and the rack gear, wherein a rotation of the light shield rotates the pinion gear, which drives the slide plate linearly along the track between the deployed position and the stowed position. 6. The camera attachment apparatus of claim 2 , wherein the light shield comprises a disposable fixed length light shield that is stowed by removal and deployed by attaching onto the slide plate, wherein the light shield operates as a handle upon which a force applied by a user causes the slide plate to move between the deployed position and the stowed position. 7. The camera attachment apparatus of claim 1 , wherein the illumination system comprises a light emitting diode (“LED”) light ring including a plurality of LED sources surrounding the aperture. 8. The camera attachment apparatus of claim 7 , wherein a first portion of the LED sources are white light LEDs for acquiring near field color images and a second portion of the LED sources are infrared (“IR”) LEDs for acquiring near field IR images. 9. The camera attachment apparatus of claim 1 , further comprising: a magnification lens mounted to the slide plate and disposed within the aperture of the slide plate, wherein the magnification lens overlays the integrated camera when the slide plate is moved to the deployed position and does not overlay the integrated camera when the slide plate is moved to the stowed position. 10. The camera attachment apparatus of claim 1 , further comprising: a circuit board mounted to the slide plate and having a cutout that surrounds the aperture, wherein the illumination system is disposed on the circuit board; and a controller disposed on the circuit board and coupled to drive and control the illumination system. 11. A dermal camera system, comprising: a mobile computing device having an integrated camera; a dermal camera attachment that mounts onto the mobile computing device, wherein the dermal camera attachment includes: a housing having a shape to mount on the mobile computing device; a slide plate disposed within the housing and having a stowed position and a deployed position; a light shield mechanically engageable with the slide plate; an aperture disposed in the slide plate; and an illumination system mounted to the slide plate, wherein the slide plate is configured to align the aperture over the integrated camera when moved to the deployed position for acquiring near field images and remove the aperture from view of the integrated camera when moved to the stowed position while the housing is mounted to the mobile computing device. 12. The dermal camera system of claim 11 , wherein the light shield comprises: a telescoping light shield that extends to block ambient light from interfering with the near field images and provides a fixed offset from the integrated camera when deployed for acquiring the near field images and prevents obstruction of the far field images when collapsed and stowed for acquiring the far field images. 13. The dermal camera system of claim 12 , further comprising: static plates disposed on either side of the slide plate; a track disposed in sides of the static plates and the slide plate along which the slide plate moves relative to the static plates; a rack gear mounted to the slide plate; and a pinion gear that engages the telescoping light shield and the rack gear, wherein a rotation of the telescoping light shield rotates the pinion gear, which drives the slide plate linearly along the track between the deployed position and the stowed position. 14. The dermal camera system of claim 11 , wherein the illumination system comprises a light emitting diode (“LED”) light ring including a plurality of LED sources surrounding the aperture. 15. The dermal camera system of claim 14 , wherein a first portion of the LED sources are white light LEDs for acquiring near field color images and a second portion of the LED sources are infrared (“IR”) LEDs for acquiring near field IR images. 16. The dermal camera system of claim 14 , further comprising: a tangible machine readable storage medium disposed within the mobile computing device and storing a dermal camera application including instructions that, when executed by the mobile computing device, cause the dermal camera system to perform operations comprising: illuminating selected ones of the plurality of LED sources according to an illumination sequence; acquiring a plurality of different near field images each corresponding to a different illumination setting in the illumination sequence; and generating a composite image based upon the plurality of different near field images. 17. The dermal camera system of claim 16 , wherein the illumination sequence illuminates the LED sources to cast shadows on a region of interest from different directions for each of the different near field images and wherein the composite image is a three dimensional (“3D”) topographical image. 18. The dermal camera system of claim 14 , further comprising a tangible machine readable storage medium disposed within the mobile computing device and storing a dermal camera application including instructions that, when executed by the mobile computing device, will cause the dermal camera system to perform operations comprising: acquiring a current near field image of a region of interest (“ROI”) including a lesion; analyzing the current near field image to identify the lesion; comparing the lesion identified in the current near field image of the ROI to the lesion in one or more previous near field images of the ROI; generating a lesion analysis based at least in part on the comparing of the current near field image with the one or more previous near field images; and di