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Journal Abstract Search

169 related items for PubMed ID: 33680541

  • 1. Sensitivity of frequency-domain optical measurements to brain hemodynamics: simulations and human study of cerebral blood flow during hypercapnia.
    Pham T, Blaney G, Sassaroli A, Fernandez C, Fantini S.
    Biomed Opt Express; 2021 Feb 01; 12(2):766-789. PubMed ID: 33680541
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  • 4. Dual-slope imaging of cerebral hemodynamics with frequency-domain near-infrared spectroscopy.
    Blaney G, Fernandez C, Sassaroli A, Fantini S.
    Neurophotonics; 2023 Jan 01; 10(1):013508. PubMed ID: 36601543
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  • 5. Noninvasive Optical Measurements of Dynamic Cerebral Autoregulation by Inducing Oscillatory Cerebral Hemodynamics.
    Pham T, Fernandez C, Blaney G, Tgavalekos K, Sassaroli A, Cai X, Bibu S, Kornbluth J, Fantini S.
    Front Neurol; 2021 Jan 01; 12():745987. PubMed ID: 34867729
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  • 6. Frequency-Domain Techniques for Cerebral and Functional Near-Infrared Spectroscopy.
    Fantini S, Sassaroli A.
    Front Neurosci; 2020 Jan 01; 14():300. PubMed ID: 32317921
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  • 7. Multi-distance frequency-domain optical measurements of coherent cerebral hemodynamics.
    Blaney G, Sassaroli A, Pham T, Krishnamurthy N, Fantini S.
    Photonics; 2019 Jan 01; 6(3):. PubMed ID: 34079837
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  • 9. Sensitivity of near-infrared spectroscopy and diffuse correlation spectroscopy to brain hemodynamics: simulations and experimental findings during hypercapnia.
    Selb J, Boas DA, Chan ST, Evans KC, Buckley EM, Carp SA.
    Neurophotonics; 2014 Jul 01; 1(1):. PubMed ID: 25453036
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  • 12. Dual-slope imaging in highly scattering media with frequency-domain near-infrared spectroscopy.
    Blaney G, Sassaroli A, Fantini S.
    Opt Lett; 2020 Aug 15; 45(16):4464-4467. PubMed ID: 32796984
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  • 14. Characterizing dynamic cerebral vascular reactivity using a hybrid system combining time-resolved near-infrared and diffuse correlation spectroscopy.
    Milej D, Shahid M, Abdalmalak A, Rajaram A, Diop M, St Lawrence K.
    Biomed Opt Express; 2020 Aug 01; 11(8):4571-4585. PubMed ID: 32923065
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  • 15. Quantitative measurements of cerebral blood flow with near-infrared spectroscopy.
    Pham T, Tgavalekos K, Sassaroli A, Blaney G, Fantini S.
    Biomed Opt Express; 2019 Apr 01; 10(4):2117-2134. PubMed ID: 31061774
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  • 16. Practical steps for applying a new dynamic model to near-infrared spectroscopy measurements of hemodynamic oscillations and transient changes: implications for cerebrovascular and functional brain studies.
    Kainerstorfer JM, Sassaroli A, Hallacoglu B, Pierro ML, Fantini S.
    Acad Radiol; 2014 Feb 01; 21(2):185-96. PubMed ID: 24439332
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  • 17. Comparison of time-resolved and continuous-wave near-infrared techniques for measuring cerebral blood flow in piglets.
    Diop M, Tichauer KM, Elliott JT, Migueis M, Lee TY, St Lawrence K.
    J Biomed Opt; 2010 Feb 01; 15(5):057004. PubMed ID: 21054120
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  • 20. Using depth-enhanced diffuse correlation spectroscopy and near-infrared spectroscopy to isolate cerebral hemodynamics during transient hypotension.
    Shoemaker LN, Milej D, Mistry J, St Lawrence K.
    Neurophotonics; 2023 Apr 01; 10(2):025013. PubMed ID: 37284246
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