Multi-wavelength optical sensor for jaundice detection via absorbance difference spectroscopy

Doaa Bahbry; Sara AlSafran; Marwah Alotaibi; Wala'a Almuraikhi; Wael Yafooz; Mohammed Al-Hariri; Gameel Saleh

doi:10.1364/AO.575790

Multi-wavelength optical sensor for jaundice detection via absorbance difference spectroscopy

Doaa Bahbry
, Sara AlSafran
, Marwah Alotaibi
, Wala'a Almuraikhi
, Wael Yafooz
, Mohammed Al-Hariri
, Gameel Saleh^*

^*Corresponding author for this work

Imam Abdulrahman Bin Faisal University
Taibah University

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

Abstract

We demonstrate a low-cost optical sensor for neonatal jaundice detection using 470 nm (bilirubin-sensitive) and 560 nm (hemoglobin isosbestic) LEDs. The system applies absorbance difference spectroscopy to isolate bilirubin signals in skin-mimicking phantoms, achieving 387 mV/mg · dL⁻¹ sensitivity and 13.5% error versus spectrophotometry. Optical characterization confirms 470 nm penetration depth (≈ 0.65 mm) in neonatal dermis. A machine learning classifier predicts risk severity with 99.5% accuracy. Comparative analysis shows a superior cost-performance trade-off versus reflectance-based devices. This work enables accessible hyperbilirubinemia monitoring through optimized wavelength selection and transmission-mode detection.

Original language	English
Pages (from-to)	1242-1252
Number of pages	11
Journal	Applied Optics
Volume	65
Issue number	4
DOIs	https://doi.org/10.1364/AO.575790
State	Published - 1 Feb 2026

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title = "Multi-wavelength optical sensor for jaundice detection via absorbance difference spectroscopy",

abstract = "We demonstrate a low-cost optical sensor for neonatal jaundice detection using 470 nm (bilirubin-sensitive) and 560 nm (hemoglobin isosbestic) LEDs. The system applies absorbance difference spectroscopy to isolate bilirubin signals in skin-mimicking phantoms, achieving 387 mV/mg · dL−1 sensitivity and 13.5\% error versus spectrophotometry. Optical characterization confirms 470 nm penetration depth (≈ 0.65 mm) in neonatal dermis. A machine learning classifier predicts risk severity with 99.5\% accuracy. Comparative analysis shows a superior cost-performance trade-off versus reflectance-based devices. This work enables accessible hyperbilirubinemia monitoring through optimized wavelength selection and transmission-mode detection.",

author = "Doaa Bahbry and Sara AlSafran and Marwah Alotaibi and Wala'a Almuraikhi and Wael Yafooz and Mohammed Al-Hariri and Gameel Saleh",

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AU - Bahbry, Doaa

AU - AlSafran, Sara

AU - Alotaibi, Marwah

AU - Almuraikhi, Wala'a

AU - Yafooz, Wael

AU - Al-Hariri, Mohammed

AU - Saleh, Gameel

PY - 2026/2/1

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N2 - We demonstrate a low-cost optical sensor for neonatal jaundice detection using 470 nm (bilirubin-sensitive) and 560 nm (hemoglobin isosbestic) LEDs. The system applies absorbance difference spectroscopy to isolate bilirubin signals in skin-mimicking phantoms, achieving 387 mV/mg · dL−1 sensitivity and 13.5% error versus spectrophotometry. Optical characterization confirms 470 nm penetration depth (≈ 0.65 mm) in neonatal dermis. A machine learning classifier predicts risk severity with 99.5% accuracy. Comparative analysis shows a superior cost-performance trade-off versus reflectance-based devices. This work enables accessible hyperbilirubinemia monitoring through optimized wavelength selection and transmission-mode detection.

AB - We demonstrate a low-cost optical sensor for neonatal jaundice detection using 470 nm (bilirubin-sensitive) and 560 nm (hemoglobin isosbestic) LEDs. The system applies absorbance difference spectroscopy to isolate bilirubin signals in skin-mimicking phantoms, achieving 387 mV/mg · dL−1 sensitivity and 13.5% error versus spectrophotometry. Optical characterization confirms 470 nm penetration depth (≈ 0.65 mm) in neonatal dermis. A machine learning classifier predicts risk severity with 99.5% accuracy. Comparative analysis shows a superior cost-performance trade-off versus reflectance-based devices. This work enables accessible hyperbilirubinemia monitoring through optimized wavelength selection and transmission-mode detection.

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JF - Applied Optics

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Multi-wavelength optical sensor for jaundice detection via absorbance difference spectroscopy

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