Add to ORKGBecause of their compatibility and precise results bio-optical methods based on measurements of the optical tissue properties gain importance in non-invasive medical therapy and diagnostic. For development and standardization of medical devices optical phantoms are suitable. The present report handles the creation and evaluation of solid tissue phantoms, made up of Agar, Vasolipid and ink utilizing different mixture ratios. After cutting the models in slices of 0.2 to 1.1 mm thickness the absorption- and scattering coefficient were measured using a collimated laser beam setup. As result of the study a formula for the preparation of solid optical tissue phantoms with desired optical properties was found, that is valid for models containing 1...
AbstractThe objective of this paper is to present fabrication methods of phantoms that simulate opti...
Tissue simulating phantoms can provide a valuable platform for quantitative evaluation of the perfor...
Since the precise and accurate determination of the optical properties of materials is very importan...
The design and characterization of optical phantoms which have the same absorption and scattering ch...
We present a tissue mimicking optical phantom recipe to create robust well tested solid phantoms. Th...
We present a tissue mimicking optical phantom recipe to create robust well tested solid phantoms. Th...
Knowledge of optical properties (absorption coefficients, scattering coefficients, and anisotropy) i...
In diagnostic and therapeutic applications of light in medicine, it is vital to evaluate the optical...
A well-characterized broadband (600-1100 nm) phantom recipe was presented to manufacture tissue-mimi...
The study of tissue optics is relevant for developing innovative non-invasive diagnostic and therape...
We present the optical measurement techniques used in human skin phantom studies. Their accuracy and...
Optical tissue phantoms (OTPs) have been extensively applied to the evaluation of imaging systems an...
531-535Optical characteristics of freshly isolated tissues depend on their color and composition. ...
This paper describes the construction of a system for the quasi-spectral determination of absorption...
AbstractThe objective of this paper is to present fabrication methods of phantoms that simulate opti...
Tissue simulating phantoms can provide a valuable platform for quantitative evaluation of the perfor...
Since the precise and accurate determination of the optical properties of materials is very importan...
The design and characterization of optical phantoms which have the same absorption and scattering ch...
We present a tissue mimicking optical phantom recipe to create robust well tested solid phantoms. Th...
We present a tissue mimicking optical phantom recipe to create robust well tested solid phantoms. Th...
Knowledge of optical properties (absorption coefficients, scattering coefficients, and anisotropy) i...
In diagnostic and therapeutic applications of light in medicine, it is vital to evaluate the optical...
A well-characterized broadband (600-1100 nm) phantom recipe was presented to manufacture tissue-mimi...
The study of tissue optics is relevant for developing innovative non-invasive diagnostic and therape...
We present the optical measurement techniques used in human skin phantom studies. Their accuracy and...
Optical tissue phantoms (OTPs) have been extensively applied to the evaluation of imaging systems an...
531-535Optical characteristics of freshly isolated tissues depend on their color and composition. ...
This paper describes the construction of a system for the quasi-spectral determination of absorption...
AbstractThe objective of this paper is to present fabrication methods of phantoms that simulate opti...
Tissue simulating phantoms can provide a valuable platform for quantitative evaluation of the perfor...
Since the precise and accurate determination of the optical properties of materials is very importan...