Gold nanorods based diffusion reflection measurements: current status and perspectives for clinical applications
R Ankri, D Fixler - Nanophotonics, 2017 - degruyter.com
Optical imaging is a powerful tool for investigating the structure and function of tissues.
Tissue optical imaging technologies are generally discussed under two broad regimes …
Tissue optical imaging technologies are generally discussed under two broad regimes …
Experimental system for measuring the full scattering profile of circular phantoms
Optical methods for monitoring physiological tissue state are important and useful because
they are non-invasive and sensitive. Experimental measurements of the full scattering profile …
they are non-invasive and sensitive. Experimental measurements of the full scattering profile …
Experimentally testing the role of blood vessels in the full scattering profile: solid phantom measurements
Optical methods for biomedical purposes mostly use reflected light, while few of them use
the transmitted light. The blood vessels pose a challenge to these methods due to their high …
the transmitted light. The blood vessels pose a challenge to these methods due to their high …
Detecting Contaminants in Water Based on Full Scattering Profiles within the Single Scattering Regime
Clean water is essential for maintaining human health. To ensure clean water, it is important
to use sensitive detection methods that can identify contaminants in real time. Most …
to use sensitive detection methods that can identify contaminants in real time. Most …
Detecting nanoparticles in tissue using an optical iterative technique
Determining the physical penetration depth of nanoparticles (NPs) into tissues is a
challenge that many researchers have been facing in recent years. This paper presents a …
challenge that many researchers have been facing in recent years. This paper presents a …
Experimental results of full scattering profile from finger tissue-like phantom
Human tissue is one of the most complex optical media since it is turbid and
nonhomogeneous. We suggest a new optical method for sensing physiological tissue state …
nonhomogeneous. We suggest a new optical method for sensing physiological tissue state …
Self-calibration phenomenon for near-infrared clinical measurements: theory, simulation, and experiments
An irradiated turbid medium scatters the light in accordance to its optical properties. Near-
infrared (NIR) clinical methods, which are based on spectral-dependent absorption, suffer …
infrared (NIR) clinical methods, which are based on spectral-dependent absorption, suffer …
Porous phantoms mimicking tissues—investigation of optical parameters stability over time
Optical phantoms are used to validate optical measurement methods. The stability of their
optical parameters over time allows them to be used and stored over long-term periods …
optical parameters over time allows them to be used and stored over long-term periods …
New optical sensing technique of tissue viability and blood flow based on nanophotonic iterative multi-plane reflectance measurements
Physiological substances pose a challenge for researchers since their optical properties
change constantly according to their physiological state. Examination of those substances …
change constantly according to their physiological state. Examination of those substances …
Near‐infrared human finger measurements based on self‐calibration point: Simulation and in vivo experiments
Near‐infrared light allows measuring tissue oxygenation. These measurements relay on
oxygenation‐dependent absorption spectral changes. However, the tissue scattering, which …
oxygenation‐dependent absorption spectral changes. However, the tissue scattering, which …