AI Article Synopsis
- Reflectance confocal microscopy (RCM) allows for noninvasive imaging of human skin, and this study presents a new high-speed technique called spectrally encoded confocal microscopy (SECM), which enhances imaging speed significantly compared to existing devices.
- SECM utilizes a diffraction grating and a wavelength-swept source to achieve a frame rate over 10 times faster than standard RCM, with high lateral and axial resolution suitable for detailed skin imaging.
- Results show that the SECM probe can capture high-quality images of skin features in vivo at a rapid pace, successfully acquiring volumetric data in just 2 seconds, indicating the potential for improved diagnostics.
Article Abstract
Objectives: Reflectance confocal microscopy (RCM) is an imaging method that can noninvasively visualize microscopic features of the human skin. The utility of RCM can be further improved by increasing imaging speed. In this paper, we report high-speed RCM imaging of human skin with a frame rate that is over 10 times faster and an area imaging rate that is 6-9 times faster than those of commercially available RCM devices.
Methods: The higher imaging speed was achieved using a high-speed RCM technique, termed spectrally encoded confocal microscopy (SECM). SECM uses a diffraction grating and a high-speed, wavelength-swept source to conduct confocal imaging at a very high rate. We developed a handheld SECM probe using a scanned-grating approach. The SECM probe was used in conjunction with a wavelength-swept source with a spectral band of 1251-1342 nm.
Results: The SECM probe achieved high lateral resolution of 1.3-1.6 µm and an axial resolution of 3.5 µm. SECM images of the human skin (image size = 439 × 439 µm ) obtained at 100 frames/s clearly show previously reported RCM features of the human skin in vivo with adequate image quality. The fast imaging speed allowed for the rapid acquisiton of volumetric SECM image data (200 frames covering a depth range of 200 µm) within 2 s. The use of 1251-1342 nm provided sufficient signal level and contrast required to visualize key cellular morphologic features.
Conclusions: These preliminary results demonstrate that high-speed SECM imaging of the human skin at 1251-1342 nm is feasible.
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