Abstract
Spectrally encoded confocal microscopy (SECM) is a form of reflectance confocal microscopy that can achieve high imaging speeds using relatively simple probe optics. Previously, the feasibility of conducting large-area SECM imaging of the esophagus in bench top setups has been demonstrated. Challenges remain, however, in translating SECM into a clinically-useable device; the tissue imaging performance should be improved, and the probe size needs to be significantly reduced so that it can fit into luminal organs of interest. In this paper, we report the development of new SECM endoscopic probe optics that addresses these challenges. A custom water-immersion aspheric singlet (NA = 0.5) was developed and used as the objective lens. The water-immersion condition was used to reduce the spherical aberrations and specular reflection from the tissue surface, which enables cellular imaging of the tissue deep below the surface. A custom collimation lens and a small-size grating were used along with the custom aspheric singlet to reduce the probe size. A dual-clad fiber was used to provide both the single- and multi- mode detection modes. The SECM probe optics was made to be 5.85 mm in diameter and 30 mm in length, which is small enough for safe and comfortable endoscopic imaging of the gastrointestinal tract. The lateral resolution was 1.8 and 2.3 µm for the single- and multi- mode detection modes, respectively, and the axial resolution 11 and 17 µm. SECM images of the swine esophageal tissue demonstrated the capability of this device to enable the visualization of characteristic cellular structural features, including basal cell nuclei and papillae, down to the imaging depth of 260 µm. These results suggest that the new SECM endoscopic probe optics will be useful for imaging large areas of the esophagus at the cellular scale in vivo.
Highlights
Encoded confocal microscopy (SECM) is a form of reflectance confocal microscopy that can achieve very high imaging speeds [1]
In this paper, we have reported the development of new Spectrally encoded confocal microscopy (SECM) endoscopic probe optics
The SECM probe optics was 5.85 mm in diameter, which is sufficiently small to be safe and comfortable for imaging the esophagus, considering the diameter of a typical video endoscope is larger than 10 mm
Summary
Encoded confocal microscopy (SECM) is a form of reflectance confocal microscopy that can achieve very high imaging speeds [1]. In SECM, light with a broad spectral bandwidth is delivered by an optical fiber to the distal optics. The light is first collimated and incident on a diffraction grating. Light reflected by the sample is coupled back to the optical fiber and delivered to the proximal detection optics. The detection optics rapidly acquires the spectrum of the reflected light, which is the line image of the sample. Since SECM can acquire line confocal microscopy images of the sample using only a stationary optical element, the diffraction grating, it can acquire images at a very high imaging rate [2, 3] and is well suited for being implemented in a small diameter endoscopic probe
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