Optical tomography is a non‐invasive imaging modality that utilises near-infrared light to probe the internal optical properties of biological tissues. By harnessing the principles of radiative ...

Optical clearing techniques have emerged as pivotal methods in biomedical imaging by reducing the inherent light scattering in biological tissues. By modulating the optical properties of tissue – ...

Laparoscopy, a minimally invasive surgical technique, has become the standard of care for many procedures such as prostatectomies and appendectomies due to its benefits, including faster recovery ...

Tissue optical clearing is a fundamental technique that enhances light penetration deep into biological samples by reducing light scattering through refractive index homogenization. This process ...

Optical Coherence Tomography (OCT) is a leading-edge imaging technology that is transforming medical diagnostics and research. It provides high-resolution cross-sectional images of biological tissues, ...

A University of Arizona research team is set to receive $2.7 million from the NIH's Common Fund Venture Program to advance next-generation imaging technologies that allow deeper, clearer views inside ...

A compact side-viewing fibre probe for endoscopic optical coherence tomography has achieved micrometre-scale resolution across an unprecedented imaging depth, addressing a long-standing trade-off ...

Researchers at the University of California, San Diego have found an unusual ally in the quest to make cancer diagnosis faster, more accurate and more accessible worldwide: the Morpho butterfly. Known ...

Until today, skin, brain, and all tissues of the human body were difficult to observe in detail with an optical microscope, since the contrast in the image was hindered by the high density of their ...

In parallel, the group is heavily involved in the development of optical probes that can be used for in-depth, non-invasive tissue analysis. These probes are designed to interact with biological ...

Genoa (Italy), July 24, 2025 – Until today, skin, brain, and all tissues of the human body were difficult to observe in detail with an optical microscope, since the contrast in the image was hindered ...

Researchers have reported a chip-scale microoptical system that enables continuous, real-time fluorescence monitoring of three-dimensional living microtissues, addressing a longstanding barrier ...