9 November 2021 Endocavity ultrasound and photoacoustic system for fetal and maternal imaging: design, implementation, and ex-vivo validation
Yan Yan, Edgar Hernandez-Andrade, Maryam Basij, Suhail S. Alshahrani, Sirisha Kondle, Barrington O. Brown, Juri Gelovani, Sonia Hassan, Chaur-Dong Hsu, Mohammad Mehrmohammadi
Author Affiliations +
Abstract

Purpose: Transvaginal ultrasound (TVUS) is a widely used real-time and non-invasive imaging technique for fetal and maternal care. It can provide structural and functional measurements about the fetal brain, such as blood vessel diameter and blood flow. However, it lacks certain biochemical estimations, such as hemoglobin oxygen saturation (SO2), which limits its ability to indicate a fetus at risk of birth asphyxia. Photoacoustic (PA) imaging has been steadily growing in recognition as a complement to ultrasound (US). Studies have shown PA imaging is capable of providing such biochemical estimations as SO2 at relatively high penetration depth (up to 30 mm).

Approach: In this study, we have designed and developed a multi-modal (US, PA, and Doppler) endocavity imaging system (ECUSPA) around a commercialized TVUS probe (Philips ATL C9-5).

Results: The integrated system was evaluated through a set of in-vitro, ex-vivo, and in-vivo studies. Imaging of excised sheep brain tissue demonstrated the system’s utility and penetration depth in transfontanelle imaging conditions. The accuracy of using the spectroscopic PA imaging (sPA) method to estimate SO2 was validated by comparing sPA oximetry results with the gold standard measurements indicated by a blood gas analyzer. The ability of US and Doppler to measure moving blood volume was evaluated in-vivo. Spectral unmixing capabilities were tested using fluorophores within sheep brains.

Conclusion: The developed system is a high resolution (about 200  μm at 30 mm depth), real-time (at 30 Hz), and quantitative (SO2 estimation error <10  %  ) imaging tool with a total diameter less than 30 mm, making it suitable for intrapartum applications such as fetal and maternal diagnostics.

© 2021 Society of Photo-Optical Instrumentation Engineers (SPIE) 2329-4302/2021/$28.00 © 2021 SPIE
Yan Yan, Edgar Hernandez-Andrade, Maryam Basij, Suhail S. Alshahrani, Sirisha Kondle, Barrington O. Brown, Juri Gelovani, Sonia Hassan, Chaur-Dong Hsu, and Mohammad Mehrmohammadi "Endocavity ultrasound and photoacoustic system for fetal and maternal imaging: design, implementation, and ex-vivo validation," Journal of Medical Imaging 8(6), 066001 (9 November 2021). https://doi.org/10.1117/1.JMI.8.6.066001
Received: 22 April 2021; Accepted: 22 October 2021; Published: 9 November 2021
Lens.org Logo
CITATIONS
Cited by 4 scholarly publications.
Advertisement
Advertisement
RIGHTS & PERMISSIONS
Get copyright permission  Get copyright permission on Copyright Marketplace
KEYWORDS
Imaging systems

Fetus

Brain

Blood

Ultrasonography

Neuroimaging

Photoacoustic spectroscopy

Back to Top