Microscopy imaging device with advanced imaging properties

What is claimed is: 1. An epifluorescence microscopy system, the system comprising: an optical excitation arrangement comprising an objective lens configured to direct light over an area encompassed within a field of view containing an imaging target; an imaging circuit including an optical sensor array configured to generate image data from fluorescence caused by an interaction between the directed light and the imaging target, wherein a distance between a surface of the objective lens and the optical sensor array is at most 1 inch to increase a resolution of the generated image data; a synchronization circuit in communication with the imaging circuit and configured to interface with an external optical-data processing system that provides visual feedback of the image data; and an optical arrangement configured to direct the fluorescence from the area through the objective lens and to the optical sensor array with sufficient intensity and focus for the image data to reach cellular level brain imaging with a working distance of at most about 250 μm. 2. The epifluorescence microscopy system of claim 1 , wherein the optical arrangement is configured to direct the fluorescence with sufficient intensity and focus for the image data to reach at least 2.5 μm resolution. 3. The epifluorescence microscopy system of claim 1 , wherein the working distance is a distance from a surface of the objective lens to the imaging target. 4. The epifluorescence microscopy system of claim 1 , wherein the objective lens is a GRIN lens. 5. The epifluorescence microscopy system of claim 1 , wherein the epifluorescence microscopy system has a dimension parallel to a focal plane of the optical arrangement that is at most 1 inch. 6. The epifluorescence microscopy system of claim 1 , wherein the field of view is at least 0.1369 mm2. 7. The epifluorescence microscopy system of claim 1 , wherein the imaging circuit includes a CMOS sensor. 8. The epifluorescence microscopy system of claim 1 , wherein the optical excitation arrangement receives the light from a light source external to the epifluorescence microscopy system. 9. The epifluorescence microscopy system of claim 8 , wherein the light source is in optical communication with the optical excitation arrangement through a fiber optic cable. 10. The epifluorescence microscopy system of claim 1 , wherein the image data of the field of view includes multiple individual capillary blood vessels with sufficient resolution to distinguish individual capillary blood vessels from one another. 11. The epifluorescence microscopy system of claim 1 , wherein the epifluorescence microscopy system observes the imaging target in an awake freely behaving animal. 12. The epifluorescence microscopy system of claim 11 , wherein the epifluorescence microscopy system observes the imaging target in the animal while the animal is engaging in locomotor activity.