Sergio Fantini
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Explore the profile of Sergio Fantini including associated specialties, affiliations and a list of published articles.
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98
Citations
1463
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Recent Articles
1.
Sassaroli A, Blaney G, Martelli F, Fantini S
Sci Rep
. 2024 Dec;
14(1):31266.
PMID: 39732813
We propose an overview of the Rytov approximation in diffuse optics of biological tissues, for the inverse and forward problems. First, we show a physical interpretation of the Rytov approximation...
2.
Kilic A, Blaney G, Tavakoli F, Frias J, Sassaroli A, Fantini S, et al.
Rev Sci Instrum
. 2024 Nov;
95(11).
PMID: 39527001
Real-time and non-invasive measurements of tissue concentrations of oxyhemoglobin (HbO2) and deoxyhemoglobin (HbR) are invaluable for research and clinical use. Frequency-domain near-infrared spectroscopy (FD-NIRS) enables non-invasive measurement of these chromophore...
3.
Blaney G, Frias J, Tavakoli F, Sassaroli A, Fantini S
J Biomed Opt
. 2024 Oct;
29(Suppl 3):S33311.
PMID: 39398358
Significance: Pulsatile blood oxygen saturation ( ) via pulse oximetry is a valuable clinical metric for assessing oxygen delivery. Individual anatomical features, including skin tone, may affect current optical pulse...
4.
Blaney G, Sassaroli A, Fantini S
J Innov Opt Health Sci
. 2024 Sep;
17(4).
PMID: 39267952
This compendium review focuses on the spatial distribution of sensitivity to localized absorption changes in optically diffuse media, particularly for measurements relevant to near-infrared spectroscopy. The three temporal domains, continuous-wave,...
5.
Fernandez C, Blaney G, Frias J, Tavakoli F, Sassaroli A, Fantini S
J Biomed Opt
. 2023 Dec;
28(12):125004.
PMID: 38098980
Significance: Non-invasive optical measurements of deep tissue (e.g., muscle) need to take into account confounding contributions from baseline and dynamic optical properties of superficial tissue (adipose tissue). Aim: Discriminate superficial...
6.
Blaney G, Sassaroli A, Fantini S
Appl Sci (Basel)
. 2023 Oct;
12(21).
PMID: 37811485
Many applications seek to measure a sample's absorption coefficient spectrum to retrieve the chemical makeup. Many real-world samples are optically turbid, causing scattering confounds which many commercial spectrometers cannot address....
7.
Blaney G, Ivich F, Sassaroli A, Niedre M, Fantini S
J Biomed Opt
. 2023 Jul;
28(7):077001.
PMID: 37484977
Significance: Diffuse flow cytometry (DiFC) is an emerging fluorescence sensing method to non-invasively detect labeled circulating cells . However, due to signal-to-noise ratio (SNR) constraints largely attributed to background tissue...
8.
Scheutz M, Aeron S, Aygun A, de Ruiter J, Fantini S, Fernandez C, et al.
Top Cogn Sci
. 2023 Jun;
16(3):485-526.
PMID: 37389823
As human-machine teams are being considered for a variety of mixed-initiative tasks, detecting and being responsive to human cognitive states, in particular systematic cognitive states, is among the most critical...
9.
Blaney G, Ivich F, Sassarolia A, Niedre M, Fantini S
ArXiv
. 2023 Jun;
PMID: 37292468
Significance: Diffuse in-vivo Flow Cytometry (DiFC) is an emerging fluorescence sensing method to non-invasively detect labeled circulating cells in-vivo. However, due to Signal-to-Noise Ratio (SNR) constraints largely attributed to background...
10.
Fantini S
IEEE Open J Eng Med Biol
. 2023 Jun;
4:77-78.
PMID: 37287929
This special section collects four articles on the application of diffuse optics to measure cerebral hemodynamics and oxygenation. The possibility of using near-infrared light to collect cerebral hemodynamic and metabolic...