WASHINGTON -- Researchers have demonstrated a new endoscope that uniquely combines photoacoustic and fluorescent imaging in a device about the thickness of a human hair. The device could one day provide new insights into the brain by enabling blood dynamics to be measured at the same time as neuronal activity.
"Combining these imaging modalities could improve our understanding of the brain's structure and behavior in specific conditions such as after treatment with a targeted drug," said research team leader Emmanuel Bossy from the CNRS/ Université Grenobe Alpes Laboratoire Interdisciplinaire de Physique. "The endoscope's small size helps minimize damage to tissue when inserting it into the brains of small animals for imaging."
In The Optical Society (OSA) journal Biomedical Optics Express, Bossy's research team, in collaboration with Paul C. Beard's team from University College London, describe their new multi-modality endoscope and show that it can acquire photoacoustic and fluorescent images of red blood cells and fluorescent beads.
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Two images are better than one
Acquiring fluorescence and photoacoustic images with the same device provides automatically co-registered images with complementary information. Fluorescent signals, which are created when a fluorescent marker absorbs light and re-emits it with a different wavelength, are most useful for labeling specific regions of tissue. On the other hand, photoacoustic images, which capture an acoustic wave generated after the absorption of light, do not require labels and thus can be used to image blood dynamics, for example.
The new endoscope uses a technique called optical wavefront shaping to create a focused spot of light at the imaging tip of a very small multi-mode optical fiber. "Light propagating into a multi-mode fiber is scrambled, making it impossible to see through the fiber," said Bossy. "However, this type of fiber is advantageous for endoscopy because it is extremely small compared to the bundles of imaging fibers used for many medical endoscopic devices."
To see through the multi-mode optical fiber, the researchers used the spatial light modulator to send specific light patterns through the fiber and create a focus spot at the imaging end. When the focus spot hits the sample, it creates a signal that can be used to build up an image point by point by raster scanning the spot over the sample. Although other researchers have used multimode fibers for fluorescence endoscopy, the new work represents the first time that photoacoustic imaging has been incorporated into this type of endoscope design.