Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants: a research agenda

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Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants : a research agenda. / Greisen, Gorm.

In: Journal of Biomedical Optics, Vol. 27, No. 7, 074703, 2022.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Greisen, G 2022, 'Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants: a research agenda', Journal of Biomedical Optics, vol. 27, no. 7, 074703. https://doi.org/10.1117/1.JBO.27.7.074703

APA

Greisen, G. (2022). Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants: a research agenda. Journal of Biomedical Optics, 27(7), [074703]. https://doi.org/10.1117/1.JBO.27.7.074703

Vancouver

Greisen G. Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants: a research agenda. Journal of Biomedical Optics. 2022;27(7). 074703. https://doi.org/10.1117/1.JBO.27.7.074703

Author

Greisen, Gorm. / Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants : a research agenda. In: Journal of Biomedical Optics. 2022 ; Vol. 27, No. 7.

Bibtex

@article{cdf7bae2a00445cb9b4ccb2ee6a52d57,
title = "Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants: a research agenda",
abstract = "SIGNIFICANCE: Cerebral tissue oximetry is imprecise and confounded by an uncertain and variable arteriovenous volume ratio. Venous saturation is better grounded in physiology. The superior sagittal sinus (SSS) is relatively large and placed under the open fontanel on the top of the head in newborn infants. AIM: To enable the development of a dedicated near-infrared-spectroscopy-based cerebral oximeter with sufficient claims on accuracy to be tested for benefit of clinical use. APPROACH: To set up a research agenda based on the combination of dedicated, high-fidelity digital and physical phantoms. RESULTS: A seven-step path is outlined to identify an optode geometry with high sensitivity to variation in hemoglobin-oxygen saturation in the SSS, with little confounding by changes in the optical properties of the skin and scalp or brain tissue, or in the width of the subarachnoidal space, and that is robust to variations in the placement of the optode. CONCLUSION: If an oximeter that is designed after exploration of digital phantoms can produce measurements in physical phantoms with good agreement with predictions, it will contribute credibility that cannot be achieved by direct gold-standard validation in newborn human infants.",
keywords = "accuracy, newborn, oximetry, phantom",
author = "Gorm Greisen",
year = "2022",
doi = "10.1117/1.JBO.27.7.074703",
language = "English",
volume = "27",
journal = "Journal of Biomedical Optics",
issn = "1083-3668",
publisher = "S P I E - International Society for Optical Engineering",
number = "7",

}

RIS

TY - JOUR

T1 - Dedicated near-infrared oximeter to monitor oxygenation in the superior sagittal sinus in newborn infants

T2 - a research agenda

AU - Greisen, Gorm

PY - 2022

Y1 - 2022

N2 - SIGNIFICANCE: Cerebral tissue oximetry is imprecise and confounded by an uncertain and variable arteriovenous volume ratio. Venous saturation is better grounded in physiology. The superior sagittal sinus (SSS) is relatively large and placed under the open fontanel on the top of the head in newborn infants. AIM: To enable the development of a dedicated near-infrared-spectroscopy-based cerebral oximeter with sufficient claims on accuracy to be tested for benefit of clinical use. APPROACH: To set up a research agenda based on the combination of dedicated, high-fidelity digital and physical phantoms. RESULTS: A seven-step path is outlined to identify an optode geometry with high sensitivity to variation in hemoglobin-oxygen saturation in the SSS, with little confounding by changes in the optical properties of the skin and scalp or brain tissue, or in the width of the subarachnoidal space, and that is robust to variations in the placement of the optode. CONCLUSION: If an oximeter that is designed after exploration of digital phantoms can produce measurements in physical phantoms with good agreement with predictions, it will contribute credibility that cannot be achieved by direct gold-standard validation in newborn human infants.

AB - SIGNIFICANCE: Cerebral tissue oximetry is imprecise and confounded by an uncertain and variable arteriovenous volume ratio. Venous saturation is better grounded in physiology. The superior sagittal sinus (SSS) is relatively large and placed under the open fontanel on the top of the head in newborn infants. AIM: To enable the development of a dedicated near-infrared-spectroscopy-based cerebral oximeter with sufficient claims on accuracy to be tested for benefit of clinical use. APPROACH: To set up a research agenda based on the combination of dedicated, high-fidelity digital and physical phantoms. RESULTS: A seven-step path is outlined to identify an optode geometry with high sensitivity to variation in hemoglobin-oxygen saturation in the SSS, with little confounding by changes in the optical properties of the skin and scalp or brain tissue, or in the width of the subarachnoidal space, and that is robust to variations in the placement of the optode. CONCLUSION: If an oximeter that is designed after exploration of digital phantoms can produce measurements in physical phantoms with good agreement with predictions, it will contribute credibility that cannot be achieved by direct gold-standard validation in newborn human infants.

KW - accuracy

KW - newborn

KW - oximetry

KW - phantom

U2 - 10.1117/1.JBO.27.7.074703

DO - 10.1117/1.JBO.27.7.074703

M3 - Journal article

C2 - 35238187

AN - SCOPUS:85125614603

VL - 27

JO - Journal of Biomedical Optics

JF - Journal of Biomedical Optics

SN - 1083-3668

IS - 7

M1 - 074703

ER -

ID: 310419745