In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies

Lorenzo Cortese; Pablo Fernández Esteberena; Marta Zanoletti; Giuseppe Lo Presti; Gloria Aranda Velazquez; Sabina Ruiz Janer; Mauro Buttafava; Marco Renna; Laura Di Sieno; Alberto Tosi; Alberto Dalla Mora; Stanislaw Wojtkiewicz; Hamid Dehghani; Sixte de Fraguier; An Nguyen-Dinh; Bogdan Rosinski; Udo M. Weigel; Jaume Mesquida; Mattia Squarcia; Felicia A. Hanzu; Davide Contini; Mireia Mora Porta; Turgut Durduran

doi:10.1088/1361-6579/ad133a

In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies

Lorenzo Cortese^*, Pablo Fernández Esteberena, Marta Zanoletti, Giuseppe Lo Presti, Gloria Aranda Velazquez, Sabina Ruiz Janer, Mauro Buttafava, Marco Renna, Laura Di Sieno, Alberto Tosi, Alberto Dalla Mora, Stanislaw Wojtkiewicz, Hamid Dehghani, Sixte de Fraguier, An Nguyen-Dinh, Bogdan Rosinski, Udo M. Weigel, Jaume Mesquida, Mattia Squarcia, Felicia A. HanzuDavide Contini, Mireia Mora Porta, Turgut Durduran

^*Corresponding author for this work

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Abstract

Objective. In this paper, we present a detailed in vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle (SCM), obtained through ultrasound-guided near-infrared time-domain and diffuse correlation spectroscopies. Approach. A total of sixty-five subjects (forty-nine females, sixteen males) among healthy volunteers and thyroid nodule patients have been recruited for the study. Their SCM hemodynamic (oxy-, deoxy- and total hemoglobin concentrations, blood flow, blood oxygen saturation and metabolic rate of oxygen extraction) and optical properties (wavelength dependent absorption and reduced scattering coefficients) have been measured by the use of a novel hybrid device combining in a single unit time-domain near-infrared spectroscopy, diffuse correlation spectroscopy and simultaneous ultrasound imaging. Main results. We provide detailed tables of the results related to SCM baseline (i.e. muscle at rest) properties, and reveal significant differences on the measured parameters due to variables such as side of the neck, sex, age, body mass index, depth and thickness of the muscle, allowing future clinical studies to take into account such dependencies. Significance. The non-invasive monitoring of the hemodynamics and metabolism of the sternocleidomastoid muscle during respiration became a topic of increased interest partially due to the increased use of mechanical ventilation during the COVID-19 pandemic. Near-infrared diffuse optical spectroscopies were proposed as potential practical monitors of increased recruitment of SCM during respiratory distress. They can provide clinically relevant information on the degree of the patient's respiratory effort that is needed to maintain an optimal minute ventilation, with potential clinical application ranging from evaluating chronic pulmonary diseases to more acute settings, such as acute respiratory failure, or to determine the readiness to wean from invasive mechanical ventilation.

Original language	English
Article number	ad133a
Number of pages	25
Journal	Physiological Measurement
Volume	44
Issue number	12
DOIs	https://doi.org/10.1088/1361-6579/ad133a
Publication status	Published - 26 Dec 2023

Bibliographical note

Funding Information:
This work has received funding from: the European Union’s Horizon 2020 research and innovation programme under grant agreements No. 688303 (LUCA), No. 101016087 (VASCOVID), No. 101017113 (TINYBRAINS), No. 675332 (BITMAP), No. 871124 (LASERLAB-EUROPE V), Fundació CELLEX Barcelona, Fundació Mir-Puig, Agencia Estatal de Investigación (PHOTOMETABO, PID2019-106481RB-C31/10.13039/501100011033), the ‘Severo Ochoa’ Programme for Centres of Excellence in R&D (CEX2019-000910-S), LUX4MED special program, the Obra social ‘la Caixa’ Foundation (LlumMedBcn), Generalitat de Catalunya (CERCA, AGAUR-2022-SGR-01457, RIS3CAT-001-P-001682 CECH). Additionally, this project has received funding from the Secretaria d’Universitats i Recerca del Departament d’Empresa i Coneixement de la Generalitat de Catalunya, as well as the European Social Fund (L’FSE inverteix en el teu futur)FEDER. The author’s have confirmed that any identifiable participants in this study have given their consent for publication. Finally, we sincerely thank the subjects involved in this study for their enthusiastic participation.

Publisher Copyright:
© 2023 Institute of Physics Publishing. All rights reserved.

Keywords

diffuse correlation spectroscopy
mechanical ventilation
multi-modal imaging
near-infrared spectroscopy
sternocleidomastoid muscle
time-domain near-infrared diffuse optical spectroscopy
ultrasound-guided hemodynamic monitoring

ASJC Scopus subject areas

Biophysics
Physiology
Biomedical Engineering
Physiology (medical)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/1361-6579/ad133aLicence: Creative Commons: Attribution (CC BY)

CorteseL2023CharacterizationFinal published version, 3.06 MBLicence: Creative Commons: Attribution (CC BY)

H2020_COLLAB_LUCA
Dehghani, H.
European Commission
1/02/16 → 31/05/21
Project: EU
H2020_ITN_BITMAP (CO-ORDINATOR)
Styles, I. & Dehghani, H.
European Commission - Management Costs, European Commission
1/01/16 → 31/12/19
Project: Research

Cite this

Cortese, L., Esteberena, P. F., Zanoletti, M., Presti, G. L., Velazquez, G. A., Janer, S. R., Buttafava, M., Renna, M., Sieno, L. D., Tosi, A., Mora, A. D., Wojtkiewicz, S., Dehghani, H., Fraguier, S. D., Nguyen-Dinh, A., Rosinski, B., Weigel, U. M., Mesquida, J., Squarcia, M., ... Durduran, T. (2023). In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies. Physiological Measurement, 44(12), Article ad133a. https://doi.org/10.1088/1361-6579/ad133a

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title = "In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies",

abstract = "Objective. In this paper, we present a detailed in vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle (SCM), obtained through ultrasound-guided near-infrared time-domain and diffuse correlation spectroscopies. Approach. A total of sixty-five subjects (forty-nine females, sixteen males) among healthy volunteers and thyroid nodule patients have been recruited for the study. Their SCM hemodynamic (oxy-, deoxy- and total hemoglobin concentrations, blood flow, blood oxygen saturation and metabolic rate of oxygen extraction) and optical properties (wavelength dependent absorption and reduced scattering coefficients) have been measured by the use of a novel hybrid device combining in a single unit time-domain near-infrared spectroscopy, diffuse correlation spectroscopy and simultaneous ultrasound imaging. Main results. We provide detailed tables of the results related to SCM baseline (i.e. muscle at rest) properties, and reveal significant differences on the measured parameters due to variables such as side of the neck, sex, age, body mass index, depth and thickness of the muscle, allowing future clinical studies to take into account such dependencies. Significance. The non-invasive monitoring of the hemodynamics and metabolism of the sternocleidomastoid muscle during respiration became a topic of increased interest partially due to the increased use of mechanical ventilation during the COVID-19 pandemic. Near-infrared diffuse optical spectroscopies were proposed as potential practical monitors of increased recruitment of SCM during respiratory distress. They can provide clinically relevant information on the degree of the patient's respiratory effort that is needed to maintain an optimal minute ventilation, with potential clinical application ranging from evaluating chronic pulmonary diseases to more acute settings, such as acute respiratory failure, or to determine the readiness to wean from invasive mechanical ventilation.",

keywords = "diffuse correlation spectroscopy, mechanical ventilation, multi-modal imaging, near-infrared spectroscopy, sternocleidomastoid muscle, time-domain near-infrared diffuse optical spectroscopy, ultrasound-guided hemodynamic monitoring",

author = "Lorenzo Cortese and Esteberena, {Pablo Fern{\'a}ndez} and Marta Zanoletti and Presti, {Giuseppe Lo} and Velazquez, {Gloria Aranda} and Janer, {Sabina Ruiz} and Mauro Buttafava and Marco Renna and Sieno, {Laura Di} and Alberto Tosi and Mora, {Alberto Dalla} and Stanislaw Wojtkiewicz and Hamid Dehghani and Fraguier, {Sixte de} and An Nguyen-Dinh and Bogdan Rosinski and Weigel, {Udo M.} and Jaume Mesquida and Mattia Squarcia and Hanzu, {Felicia A.} and Davide Contini and Porta, {Mireia Mora} and Turgut Durduran",

note = "Funding Information: This work has received funding from: the European Union{\textquoteright}s Horizon 2020 research and innovation programme under grant agreements No. 688303 (LUCA), No. 101016087 (VASCOVID), No. 101017113 (TINYBRAINS), No. 675332 (BITMAP), No. 871124 (LASERLAB-EUROPE V), Fundaci{\'o} CELLEX Barcelona, Fundaci{\'o} Mir-Puig, Agencia Estatal de Investigaci{\'o}n (PHOTOMETABO, PID2019-106481RB-C31/10.13039/501100011033), the {\textquoteleft}Severo Ochoa{\textquoteright} Programme for Centres of Excellence in R&D (CEX2019-000910-S), LUX4MED special program, the Obra social {\textquoteleft}la Caixa{\textquoteright} Foundation (LlumMedBcn), Generalitat de Catalunya (CERCA, AGAUR-2022-SGR-01457, RIS3CAT-001-P-001682 CECH). Additionally, this project has received funding from the Secretaria d{\textquoteright}Universitats i Recerca del Departament d{\textquoteright}Empresa i Coneixement de la Generalitat de Catalunya, as well as the European Social Fund (L{\textquoteright}FSE inverteix en el teu futur)FEDER. The author{\textquoteright}s have confirmed that any identifiable participants in this study have given their consent for publication. Finally, we sincerely thank the subjects involved in this study for their enthusiastic participation. Publisher Copyright: {\textcopyright} 2023 Institute of Physics Publishing. All rights reserved.",

year = "2023",

month = dec,

day = "26",

doi = "10.1088/1361-6579/ad133a",

language = "English",

volume = "44",

journal = "Physiological Measurement",

issn = "0967-3334",

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Cortese, L, Esteberena, PF, Zanoletti, M, Presti, GL, Velazquez, GA, Janer, SR, Buttafava, M, Renna, M, Sieno, LD, Tosi, A, Mora, AD, Wojtkiewicz, S, Dehghani, H, Fraguier, SD, Nguyen-Dinh, A, Rosinski, B, Weigel, UM, Mesquida, J, Squarcia, M, Hanzu, FA, Contini, D, Porta, MM & Durduran, T 2023, 'In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies', Physiological Measurement, vol. 44, no. 12, ad133a. https://doi.org/10.1088/1361-6579/ad133a

In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies. / Cortese, Lorenzo; Esteberena, Pablo Fernández; Zanoletti, Marta et al.
In: Physiological Measurement, Vol. 44, No. 12, ad133a, 26.12.2023.

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

TY - JOUR

T1 - In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies

AU - Cortese, Lorenzo

AU - Esteberena, Pablo Fernández

AU - Zanoletti, Marta

AU - Presti, Giuseppe Lo

AU - Velazquez, Gloria Aranda

AU - Janer, Sabina Ruiz

AU - Buttafava, Mauro

AU - Renna, Marco

AU - Sieno, Laura Di

AU - Tosi, Alberto

AU - Mora, Alberto Dalla

AU - Wojtkiewicz, Stanislaw

AU - Dehghani, Hamid

AU - Fraguier, Sixte de

AU - Nguyen-Dinh, An

AU - Rosinski, Bogdan

AU - Weigel, Udo M.

AU - Mesquida, Jaume

AU - Squarcia, Mattia

AU - Hanzu, Felicia A.

AU - Contini, Davide

AU - Porta, Mireia Mora

AU - Durduran, Turgut

N1 - Funding Information: This work has received funding from: the European Union’s Horizon 2020 research and innovation programme under grant agreements No. 688303 (LUCA), No. 101016087 (VASCOVID), No. 101017113 (TINYBRAINS), No. 675332 (BITMAP), No. 871124 (LASERLAB-EUROPE V), Fundació CELLEX Barcelona, Fundació Mir-Puig, Agencia Estatal de Investigación (PHOTOMETABO, PID2019-106481RB-C31/10.13039/501100011033), the ‘Severo Ochoa’ Programme for Centres of Excellence in R&D (CEX2019-000910-S), LUX4MED special program, the Obra social ‘la Caixa’ Foundation (LlumMedBcn), Generalitat de Catalunya (CERCA, AGAUR-2022-SGR-01457, RIS3CAT-001-P-001682 CECH). Additionally, this project has received funding from the Secretaria d’Universitats i Recerca del Departament d’Empresa i Coneixement de la Generalitat de Catalunya, as well as the European Social Fund (L’FSE inverteix en el teu futur)FEDER. The author’s have confirmed that any identifiable participants in this study have given their consent for publication. Finally, we sincerely thank the subjects involved in this study for their enthusiastic participation. Publisher Copyright: © 2023 Institute of Physics Publishing. All rights reserved.

PY - 2023/12/26

Y1 - 2023/12/26

N2 - Objective. In this paper, we present a detailed in vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle (SCM), obtained through ultrasound-guided near-infrared time-domain and diffuse correlation spectroscopies. Approach. A total of sixty-five subjects (forty-nine females, sixteen males) among healthy volunteers and thyroid nodule patients have been recruited for the study. Their SCM hemodynamic (oxy-, deoxy- and total hemoglobin concentrations, blood flow, blood oxygen saturation and metabolic rate of oxygen extraction) and optical properties (wavelength dependent absorption and reduced scattering coefficients) have been measured by the use of a novel hybrid device combining in a single unit time-domain near-infrared spectroscopy, diffuse correlation spectroscopy and simultaneous ultrasound imaging. Main results. We provide detailed tables of the results related to SCM baseline (i.e. muscle at rest) properties, and reveal significant differences on the measured parameters due to variables such as side of the neck, sex, age, body mass index, depth and thickness of the muscle, allowing future clinical studies to take into account such dependencies. Significance. The non-invasive monitoring of the hemodynamics and metabolism of the sternocleidomastoid muscle during respiration became a topic of increased interest partially due to the increased use of mechanical ventilation during the COVID-19 pandemic. Near-infrared diffuse optical spectroscopies were proposed as potential practical monitors of increased recruitment of SCM during respiratory distress. They can provide clinically relevant information on the degree of the patient's respiratory effort that is needed to maintain an optimal minute ventilation, with potential clinical application ranging from evaluating chronic pulmonary diseases to more acute settings, such as acute respiratory failure, or to determine the readiness to wean from invasive mechanical ventilation.

AB - Objective. In this paper, we present a detailed in vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle (SCM), obtained through ultrasound-guided near-infrared time-domain and diffuse correlation spectroscopies. Approach. A total of sixty-five subjects (forty-nine females, sixteen males) among healthy volunteers and thyroid nodule patients have been recruited for the study. Their SCM hemodynamic (oxy-, deoxy- and total hemoglobin concentrations, blood flow, blood oxygen saturation and metabolic rate of oxygen extraction) and optical properties (wavelength dependent absorption and reduced scattering coefficients) have been measured by the use of a novel hybrid device combining in a single unit time-domain near-infrared spectroscopy, diffuse correlation spectroscopy and simultaneous ultrasound imaging. Main results. We provide detailed tables of the results related to SCM baseline (i.e. muscle at rest) properties, and reveal significant differences on the measured parameters due to variables such as side of the neck, sex, age, body mass index, depth and thickness of the muscle, allowing future clinical studies to take into account such dependencies. Significance. The non-invasive monitoring of the hemodynamics and metabolism of the sternocleidomastoid muscle during respiration became a topic of increased interest partially due to the increased use of mechanical ventilation during the COVID-19 pandemic. Near-infrared diffuse optical spectroscopies were proposed as potential practical monitors of increased recruitment of SCM during respiratory distress. They can provide clinically relevant information on the degree of the patient's respiratory effort that is needed to maintain an optimal minute ventilation, with potential clinical application ranging from evaluating chronic pulmonary diseases to more acute settings, such as acute respiratory failure, or to determine the readiness to wean from invasive mechanical ventilation.

KW - diffuse correlation spectroscopy

KW - mechanical ventilation

KW - multi-modal imaging

KW - near-infrared spectroscopy

KW - sternocleidomastoid muscle

KW - time-domain near-infrared diffuse optical spectroscopy

KW - ultrasound-guided hemodynamic monitoring

UR - http://www.scopus.com/inward/record.url?scp=85181177432&partnerID=8YFLogxK

U2 - 10.1088/1361-6579/ad133a

DO - 10.1088/1361-6579/ad133a

M3 - Article

C2 - 38061053

AN - SCOPUS:85181177432

SN - 0967-3334

VL - 44

JO - Physiological Measurement

JF - Physiological Measurement

IS - 12

M1 - ad133a

ER -

In vivo characterization of the optical and hemodynamic properties of the human sternocleidomastoid muscle through ultrasound-guided hybrid near-infrared spectroscopies

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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Projects

H2020_COLLAB_LUCA

H2020_ITN_BITMAP (CO-ORDINATOR)

Cite this