Topics
triageElection
dyeChemical compound
gelatinFood
PhantomMean of transportation
titanium dioxideChemical substance
poly(dimethylsiloxane)Chemical substance
Tissue simulating phantoms provide a valuable platform for quantitative evaluation of the performance of diffuse optical devices. In this paper we report the development of a poly(dimethylsiloxane) (PDMS) tissue phantom that mimics the spectral characteristics of tissue water. We have developed these phantoms to mimic different water fractions in tissue for testing new devices within the context of clinical applications such as burn wound triage. Compared to liquid phantoms, PDMS phantoms are easier to transport and use, and have a longer usable life than gelatin based phantoms. The pthalocyanine dye 9606 was used to provide an absorption feature of in the vicinity of 970 nm. Scattering properties were independently determined by adding tit...
Extensive research in the area of optical sensing for medical diagnostics requires development of ti...
A novel methodology is presented to mimic diffuse reflectance spectra of arbitrary biological tissue...
We demonstrate how to construct calibrated, stable, and inexpensive tissue-like phantoms for near-in...
Tissue simulating phantoms provide a valuable platform for quantitative evaluation of the performanc...
Tissue simulating phantoms can provide a valuable platform for quantitative evaluation of the perfor...
We present a fabrication process for Polydimethylsiloxane (PDMS) tissue simulating phantoms with tun...
We present a fabrication process for Polydimethylsiloxane (PDMS) tissue simulating phantoms with tun...
The design and characterization of optical phantoms which have the same absorption and scattering ch...
AbstractThe objective of this paper is to present fabrication methods of phantoms that simulate opti...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
(dimethylsiloxane)-based tissue-simulating phantoms with tunable reduced scattering and absorption c...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
(dimethylsiloxane)-based tissue-simulating phantoms with tunable reduced scattering and absorption c...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
Extensive research in the area of optical sensing for medical diagnostics requires development of ti...
A novel methodology is presented to mimic diffuse reflectance spectra of arbitrary biological tissue...
We demonstrate how to construct calibrated, stable, and inexpensive tissue-like phantoms for near-in...
Tissue simulating phantoms provide a valuable platform for quantitative evaluation of the performanc...
Tissue simulating phantoms can provide a valuable platform for quantitative evaluation of the perfor...
We present a fabrication process for Polydimethylsiloxane (PDMS) tissue simulating phantoms with tun...
We present a fabrication process for Polydimethylsiloxane (PDMS) tissue simulating phantoms with tun...
The design and characterization of optical phantoms which have the same absorption and scattering ch...
AbstractThe objective of this paper is to present fabrication methods of phantoms that simulate opti...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
(dimethylsiloxane)-based tissue-simulating phantoms with tunable reduced scattering and absorption c...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
(dimethylsiloxane)-based tissue-simulating phantoms with tunable reduced scattering and absorption c...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
We present a method for low-cost fabrication of polydimethylsiloxane (PDMS) tissue simulating phanto...
Extensive research in the area of optical sensing for medical diagnostics requires development of ti...
A novel methodology is presented to mimic diffuse reflectance spectra of arbitrary biological tissue...
We demonstrate how to construct calibrated, stable, and inexpensive tissue-like phantoms for near-in...
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