Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow

Marco Pagliazzi; Lorenzo Colombo; Ernesto E. Vidal-Rosas; Tanja Dragojevic; Veronika Parfentyeva; Joseph P. Culver; Sanathana Konugolu Venkata Sekar; Laura Di Sieno; Davide Contini; Alessandro Torricelli; Antonio Pifferi; Alberto Dalla Mora; Turgut Durduran

doi:10.1364/BOE.418882

Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow

Marco Pagliazzi
, Lorenzo Colombo
, Ernesto E. Vidal-Rosas
, Tanja Dragojevic
, Veronika Parfentyeva
, Joseph P. Culver
, Sanathana Konugolu Venkata Sekar
, Laura Di Sieno
, Davide Contini
, Alessandro Torricelli
, Antonio Pifferi
, Alberto Dalla Mora
, Turgut Durduran

Research output: Contribution to journal › Article › peer-review

Abstract

Time (or path length) resolved speckle contrast optical spectroscopy (TD-SCOS) at quasi-null (2.85 mm) source-detector separation was developed and demonstrated. The method was illustrated by in vivo studies on the forearm muscle of an adult subject. The results have shown that selecting longer photon path lengths results in higher hyperemic blood flow change and a faster return to baseline by a factor of two after arterial cuff occlusion when compared to SCOS without time resolution. This indicates higher sensitivity to the deeper muscle tissue. In the long run, this approach may allow the use of simpler and cheaper detector arrays compared to time resolved diffuse correlation spectroscopy that are based on readily available technologies. Hence, TD-SCOS may increase the performance and decrease cost of devices for continuous non-invasive, deep tissue blood flow monitoring.

Original language	English
Pages (from-to)	1499-1511
Number of pages	13
Journal	Biomedical Optics Express
Volume	12
Issue number	3
DOIs	https://doi.org/10.1364/BOE.418882
Publication status	Published - 1 Mar 2021
Externally published	Yes

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Pagliazzi, M., Colombo, L., Vidal-Rosas, E. E., Dragojevic, T., Parfentyeva, V., Culver, J. P., Sekar, S. K. V., Di Sieno, L., Contini, D., Torricelli, A., Pifferi, A., Mora, A. D., & Durduran, T. (2021). Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow. Biomedical Optics Express, 12(3), 1499-1511. https://doi.org/10.1364/BOE.418882

@article{43c8c08cec5f4719bae464dc64f349f0,

title = "Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow",

abstract = "Time (or path length) resolved speckle contrast optical spectroscopy (TD-SCOS) at quasi-null (2.85 mm) source-detector separation was developed and demonstrated. The method was illustrated by in vivo studies on the forearm muscle of an adult subject. The results have shown that selecting longer photon path lengths results in higher hyperemic blood flow change and a faster return to baseline by a factor of two after arterial cuff occlusion when compared to SCOS without time resolution. This indicates higher sensitivity to the deeper muscle tissue. In the long run, this approach may allow the use of simpler and cheaper detector arrays compared to time resolved diffuse correlation spectroscopy that are based on readily available technologies. Hence, TD-SCOS may increase the performance and decrease cost of devices for continuous non-invasive, deep tissue blood flow monitoring.",

author = "Marco Pagliazzi and Lorenzo Colombo and Vidal-Rosas, \{Ernesto E.\} and Tanja Dragojevic and Veronika Parfentyeva and Culver, \{Joseph P.\} and Sekar, \{Sanathana Konugolu Venkata\} and \{Di Sieno\}, Laura and Davide Contini and Alessandro Torricelli and Antonio Pifferi and Mora, \{Alberto Dalla\} and Turgut Durduran",

note = "Publisher Copyright: {\textcopyright} 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.",

year = "2021",

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doi = "10.1364/BOE.418882",

language = "English",

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Pagliazzi, M, Colombo, L, Vidal-Rosas, EE, Dragojevic, T, Parfentyeva, V, Culver, JP, Sekar, SKV, Di Sieno, L, Contini, D, Torricelli, A, Pifferi, A, Mora, AD & Durduran, T 2021, 'Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow', Biomedical Optics Express, vol. 12, no. 3, pp. 1499-1511. https://doi.org/10.1364/BOE.418882

TY - JOUR

T1 - Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow

AU - Pagliazzi, Marco

AU - Colombo, Lorenzo

AU - Vidal-Rosas, Ernesto E.

AU - Dragojevic, Tanja

AU - Parfentyeva, Veronika

AU - Culver, Joseph P.

AU - Sekar, Sanathana Konugolu Venkata

AU - Di Sieno, Laura

AU - Contini, Davide

AU - Torricelli, Alessandro

AU - Pifferi, Antonio

AU - Mora, Alberto Dalla

AU - Durduran, Turgut

PY - 2021/3/1

Y1 - 2021/3/1

N2 - Time (or path length) resolved speckle contrast optical spectroscopy (TD-SCOS) at quasi-null (2.85 mm) source-detector separation was developed and demonstrated. The method was illustrated by in vivo studies on the forearm muscle of an adult subject. The results have shown that selecting longer photon path lengths results in higher hyperemic blood flow change and a faster return to baseline by a factor of two after arterial cuff occlusion when compared to SCOS without time resolution. This indicates higher sensitivity to the deeper muscle tissue. In the long run, this approach may allow the use of simpler and cheaper detector arrays compared to time resolved diffuse correlation spectroscopy that are based on readily available technologies. Hence, TD-SCOS may increase the performance and decrease cost of devices for continuous non-invasive, deep tissue blood flow monitoring.

AB - Time (or path length) resolved speckle contrast optical spectroscopy (TD-SCOS) at quasi-null (2.85 mm) source-detector separation was developed and demonstrated. The method was illustrated by in vivo studies on the forearm muscle of an adult subject. The results have shown that selecting longer photon path lengths results in higher hyperemic blood flow change and a faster return to baseline by a factor of two after arterial cuff occlusion when compared to SCOS without time resolution. This indicates higher sensitivity to the deeper muscle tissue. In the long run, this approach may allow the use of simpler and cheaper detector arrays compared to time resolved diffuse correlation spectroscopy that are based on readily available technologies. Hence, TD-SCOS may increase the performance and decrease cost of devices for continuous non-invasive, deep tissue blood flow monitoring.

UR - https://www.scopus.com/pages/publications/85101411481

U2 - 10.1364/BOE.418882

DO - 10.1364/BOE.418882

M3 - Article

AN - SCOPUS:85101411481

SN - 2156-7085

VL - 12

SP - 1499

EP - 1511

JO - Biomedical Optics Express

JF - Biomedical Optics Express

IS - 3

ER -

Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow

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