This paper discusses the progress of remote focussing microscopy from a novel imaging technique to a reliable tool in the life sciences. Specifically, we describe recent efforts to achieve the accurate calibration of both distance and orientation within the imaging volume. Using a laser machined fluorescent specimen it is possible to identify, with high sensitivity, small (<1%) depth-dependent magnification changes which are a linear function of axial misalignment of the imaging objective. The sensitivity of the calibration procedure limits distortion to <1 μm over the entire imaging volume. This work finds direct application in identifying the microscopic effects of chronic disease in the living heart. |
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Calibration
Tissues
Microscopy
Microscopes
Heart
Mirrors
3D image processing