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144 results on '"Roman, Jessica"'

1. Machine Learning Model for Complete Reconstruction of Diagnostic Polarimetric Images from partial Mueller polarimetry data

Author

Chae, Sooyong, Huang, Tongyu, Rodrıguez-Nunez, Omar, Lucas, Théotim, Vanel, Jean-Charles, Vizet, Jérémy, Pierangelo, Angelo, Piavchenko, Gennadii, Genova, Tsanislava, Ajmal, Ajmal, Ramella-Roman, Jessica C., Doronin, Alexander, Ma, Hui, and Novikova, Tatiana

Subjects
Physics - Optics, Physics - Medical Physics
Abstract

The translation of imaging Mueller polarimetry to clinical practice is often hindered by large footprint and relatively slow acquisition speed of the existing instruments. Using polarization-sensitive camera as a detector may reduce instrument dimensions and allow data streaming at video rate. However, only the first three rows of a complete 4x4 Mueller matrix can be measured. To overcome this hurdle we developed a machine learning approach using sequential neural network algorithm for the reconstruction of missing elements of a Mueller matrix from the measured elements of the first three rows. The algorithm was trained and tested on the dataset of polarimetric images of various excised human tissues (uterine cervix, colon, skin, brain) acquired with two different imaging Mueller polarimeters operating in either reflection (wide-field imaging system) or transmission (microscope) configurations at different wavelengths of 550 nm and 385 nm, respectively. The reconstruction performance was evaluated using various error metrics, all of which confirmed low error values. The execution time of the trained neural network algorithm was about 300 microseconds for a single image pixel. It suggests that a machine learning approach with parallel processing of all image pixels combined with the partial Mueller polarimeter operating at video rate can effectively substitute for the complete Mueller polarimeter and produce accurate maps of depolarization, linear retardance and orientation of the optical axis of biological tissues, which can be used for medical diagnosis in clinical settings.

Published
2024

2. An insertable glucose sensor using a compact and cost-effective phosphorescence lifetime imager and machine learning

Author

Goncharov, Artem, Gorocs, Zoltan, Pradhan, Ridhi, Ko, Brian, Ajmal, Ajmal, Rodriguez, Andres, Baum, David, Veszpremi, Marcell, Yang, Xilin, Pindrys, Maxime, Zheng, Tianle, Wang, Oliver, Ramella-Roman, Jessica C., McShane, Michael J., and Ozcan, Aydogan

Subjects
Physics - Medical Physics, Computer Science - Machine Learning, Physics - Applied Physics, Physics - Biological Physics
Abstract

Optical continuous glucose monitoring (CGM) systems are emerging for personalized glucose management owing to their lower cost and prolonged durability compared to conventional electrochemical CGMs. Here, we report a computational CGM system, which integrates a biocompatible phosphorescence-based insertable biosensor and a custom-designed phosphorescence lifetime imager (PLI). This compact and cost-effective PLI is designed to capture phosphorescence lifetime images of an insertable sensor through the skin, where the lifetime of the emitted phosphorescence signal is modulated by the local concentration of glucose. Because this phosphorescence signal has a very long lifetime compared to tissue autofluorescence or excitation leakage processes, it completely bypasses these noise sources by measuring the sensor emission over several tens of microseconds after the excitation light is turned off. The lifetime images acquired through the skin are processed by neural network-based models for misalignment-tolerant inference of glucose levels, accurately revealing normal, low (hypoglycemia) and high (hyperglycemia) concentration ranges. Using a 1-mm thick skin phantom mimicking the optical properties of human skin, we performed in vitro testing of the PLI using glucose-spiked samples, yielding 88.8% inference accuracy, also showing resilience to random and unknown misalignments within a lateral distance of ~4.7 mm with respect to the position of the insertable sensor underneath the skin phantom. Furthermore, the PLI accurately identified larger lateral misalignments beyond 5 mm, prompting user intervention for re-alignment. The misalignment-resilient glucose concentration inference capability of this compact and cost-effective phosphorescence lifetime imager makes it an appealing wearable diagnostics tool for real-time tracking of glucose and other biomarkers., Comment: 24 Pages, 4 Figures

Published
2024
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3. Time-efficient filtering of polarimetric data by checking physical realizability of experimental Mueller matrices

Author

Novikova, Tatiana, Ovchinnikov, Alexey, Pogudin, Gleb, and Ramella-Roman, Jessica C.

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Image and Video Processing, Physics - Medical Physics
Abstract

Imaging Mueller polarimetry has already proved its potential for metrology, remote sensing and biomedicine. The real-time applications of this modality require both video rate image acquisition and fast data post-processing algorithms. First, one must check the physical realizability of the experimental Mueller matrices in order to filter out non-physical data, i.e. to test the positive semi-definiteness of the 4x4 Hermitian coherency matrix calculated from the elements of the corresponding Mueller matrix pixel-wise. For this purpose, we compared the execution time for the calculations of i) eigenvalues, ii) Cholesky decomposition, iii) Sylvester's criterion, and iv) coefficients of the characteristic polynomial of the Hermitian coherency matrix using two different approaches, all calculated for the experimental Mueller matrix images (600 pixels x 700 pixels) of mouse uterine cervix. The calculations were performed using C++ and Julia programming languages. Our results showed the superiority of the algorithm iv), in particular, the version based on the simplification via Pauli matrices, in terms of execution time for our dataset, over other algorithms. The sequential implementation of the latter algorithm on a single core already satisfies the requirements of real-time polarimetric imaging in various domains. This can be further amplified by the proposed parallelization (for example, we achieve a 5-fold speed up on 6 cores).

Published
2024

7. Polarized Light

Author

Novikova, Tatiana, Ramella-Roman, Jessica C., Ramella-Roman, Jessica C., editor, and Novikova, Tatiana, editor

Published
2023
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19. Time-efficient filtering of imaging polarimetric data by checking physical realizability of experimental Mueller matrices.

Author

Novikova, Tatiana, Ovchinnikov, Alexey, Pogudin, Gleb, and Ramella-Roman, Jessica C

Subjects
C++, MATRICES (Mathematics), MUELLER calculus, CERVIX uteri, PAULI matrices
Abstract

Motivation Imaging Mueller polarimetry has already proved its potential for biomedicine, remote sensing, and metrology. The real-time applications of this modality require both video rate image acquisition and fast data post-processing algorithms. First, one must check the physical realizability of the experimental Mueller matrices in order to filter out non-physical data, i.e. to test the positive semi-definiteness of the 4 × 4 Hermitian coherency matrix calculated from the elements of corresponding Mueller matrix pixel-wise. For this purpose, we compared the execution time for the calculations of (i) eigenvalues, (ii) Cholesky decomposition, (iii) Sylvester's criterion, and (iv) coefficients of the characteristic polynomial (two different approaches) of the Hermitian coherency matrix, all calculated for the experimental Mueller matrix images (600 pixels × 700 pixels) of mouse uterine cervix. The calculations were performed using C++ and Julia programming languages. Results Our results showed the superiority of the algorithm (iv) based on the simplification via Pauli matrices over other algorithms for our dataset. The sequential implementation of latter algorithm on a single core already satisfies the requirements of real-time polarimetric imaging. This can be further amplified by the proposed parallelization (e.g. we achieve a 5-fold speed up on six cores). Availability and implementation The source codes of the algorithms and experimental data are available at https://github.com/pogudingleb/mueller_matrices. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Speculum-free portable preterm imaging system.

Author

Boonya-ananta, Tananant, Gonzalez, Mariacarla, Ajmal, Ajmal, Vinh Nguyen Du Le, DeHoog, Edward, Paidas, Michael J., Jayakumar, Arumugam, and Ramella-Roman, Jessica C.

Subjects
PREMATURE labor, IMAGING systems, IMAGE analysis, CERVIX uteri, INFANT mortality, MATERNAL mortality
Abstract

Significance: Preterm birth is defined as a birth before 37 weeks of gestation and is one of the leading contributors to infant mortality rates globally. Premature birth can lead to life-long developmental impairment for the child. Unfortunately, there is a significant lack of tools to diagnose preterm birth risk, which limits patient care and the development of new therapies. Aim: To develop a speculum-free, portable preterm imaging system (PPRIM) for cervical imaging; testing of the PPRIM system to resolve polarization properties of birefringent samples; and testing of the PPRIM under an IRB on healthy, nonpregnant volunteers for visualization and polarization analysis of cervical images. Approach: The PPRIM can perform 4 x 3 Mueller-matrix imaging to characterize the remodeling of the uterine cervix during pregnancy. The PPRIM is built with a polarized imaging probe and a flexible insertable sheath made with a compatible flexible rubber-like material to maximize comfort and ease of use. Results: The PPRIM device is developed to meet specific design specifications as a speculum-free, portable, and comfortable imaging system with polarized imaging capabilities. This system comprises a main imaging component and a flexible silicone inserter. The inserter is designed to maximize comfort and usability for the patient. The PPRIM shows high-resolution imaging capabilities at the 20 mm working distance and 25 mm circular field of view. The PPRIM demonstrates the ability to resolve birefringent sample orientation and full field capture of a healthy, nonpregnant cervix. Conclusion: The development of the PPRIM aims to improve access to the standard of care for women's reproductive health using polarized Mueller-matrix imaging of the cervix and reduce infant and maternal mortality rates and better quality of life. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Complete Mueller polarimetry: do we need it for biological tissues diagnosis?

Author

Novikova, Tatiana, primary, Ramella-Roman, Jessica C., additional, Felger, Leonard, additional, Gros, Romain, additional, Hewer, Ekkehard, additional, Maragkou, Theoni, additional, McKinley, Richard I., additional, Moriconi, Stefano, additional, Murek, Michael, additional, Pierangelo, Angelo, additional, Rodriguez-Nunez, Omar, additional, Zubak, Irena, additional, and Schucht, Philippe, additional

Published
2023
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27. Partial Mueller polarimetry for the complete optical diagnosis of biological tissue

Author

Novikova, Tatiana, primary, Ramella-Roman, Jessica C., additional, Felger, Leonard, additional, Gros, Romain, additional, Hewer, Ekkehard, additional, Maragkou, Theoni, additional, McKinley, Richard, additional, Moriconi, Stefano, additional, Murek, Michael, additional, Pierangelo, Angelo, additional, Rodrıguez-Nunez, Omar, additional, Zubak, Irena, additional, and Schucht, Philippe, additional

Published
2023
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28. The 2023 wearable photoplethysmography roadmap

Author

Charlton, Peter H, primary, Allen, John, additional, Bailon, Raquel, additional, Baker, Stephanie, additional, Behar, Joachim A, additional, Chen, Fei, additional, Clifford, Gari D, additional, Clifton, David A, additional, Davies, Harry J, additional, Ding, Cheng, additional, Ding, Xiaorong, additional, Dunn, Jessilyn, additional, Elgendi, Mohamed, additional, Ferdoushi, Munia, additional, Franklin, Daniel, additional, Gil, Eduardo, additional, Hassan, Md Farhad, additional, Hernesniemi, Jussi, additional, Hu, Xiao, additional, Ji, Nan, additional, Khan, Yasser, additional, Kontaxis, Spyridon, additional, Korhonen, Ilkka, additional, Kyriacou, Panayiotis A, additional, Laguna, Pablo, additional, Lazaro, Jesus, additional, Lee, Chungkeun, additional, Levy, Jeremy, additional, Li, Yumin, additional, Liu, Chengyu, additional, Liu, Jing, additional, Lu, Lei, additional, Mandic, Danilo P, additional, Marozas, Vaidotas, additional, Mejía-Mejía, Elisa, additional, Mukkamala, Ramakrishna, additional, Nitzan, Meir, additional, Pereira, Tânia, additional, Poon, Carmen C Y, additional, Ramella-Roman, Jessica C, additional, Saarinen, Harri, additional, Shandhi, Md Mobashir Hasan, additional, Shin, Hangsik, additional, Stansby, Gerard, additional, Tamura, Toshiyo, additional, Vehkaoja, Antti, additional, Wang, Will Ke, additional, Zhang, Yuan-Ting, additional, Zhao, Ni, additional, Zheng, Dingchang, additional, and Zhu, Tingting, additional

Published
2023
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39. Special Section Guest Editorial: Polarimetry in Biomedical Optics.

Author

Vitkin, Alex, Ramella-Roman, Jessica C., and Ghosh, Nirmalya

Subjects
*OPTICS, *POLARIMETRY, *OPTICAL polarization, *SPACE sciences, *COHERENCE (Optics), *SCIENCE education
Abstract

This document is a guest editorial from the Journal of Biomedical Optics, introducing a special section on polarimetry in biomedical optics. The special section is split into two issues, covering topics such as mathematical and statistical characterization of polarimetric signals, development of novel instrumentation, integration of AI and machine learning in analyzing polarization-sensitive data, and diverse medical applications. The editorial highlights several research papers that demonstrate the potential of polarimetric microscopy enhancements in various biomedical applications. It also mentions upcoming conferences and resources related to polarized light and optical momentum for biomedical applications. The authors acknowledge funding support and provide brief biographies of the guest editors. [Extracted from the article]

Published
2024
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42. Schéma de segmentation par apprentissage profond sur des images de microscopie de Mueller pour la quantification du collagène et de l’élastine du col de l’utérus

Author

Gary, Nelson, Nguyen Du Le, Vinh, Wojak, Julien, Adel, Mouloud, Fade, Julien, Ramella-Roman, Jessica, da Silva, Anabela, DiMABio (DiMABio), Institut FRESNEL (FRESNEL), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS)-Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), Florida International University [Miami] (FIU), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), and GSM (GSM)

Subjects
[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics], Imagerie de Polarisation, Imagerie de Mueller, Intelligence artificielle, Deep Learning
Abstract

International audience; Nous présentons une approche de segmentation efficace basée sur l'apprentissage profond permettant de discriminer le collagène des fibres d'élastine à partir d'images de microscopie de Mueller du col de l'utérus de souris. L'utilisation d'un système de micro/mésoscopie de Mueller auto-validant (Self-Validating Mueller matrix Micro-Mesoscope), permet d'acquérir sur le même échantillon des images en microscopie de Mueller et en microscopie nonlinéaire (génération de second harmonique et bi-photon). Ces dernières sont utilisées comme vérité terrain pour la segmentation quantitative, combinant un perceptron multicouche et deux réseaux de convolution U-net. Les métriques de précision et de qualité d'image montrent des résultats de segmentation d'excellente qualité.

Published
2022

44. In-vivo human study of skin optical properties in individuals with obesity

Author

Rodriguez, Andres J., Alzamora, Michael, Ajmal, Ajmal, Boonya-Ananta, Tananant, Vinh Nguyen, Du Le, Fredriksson, Ingemar, Strömberg, Tomas, Ramella-Roman, Jessica C., Rodriguez, Andres J., Alzamora, Michael, Ajmal, Ajmal, Boonya-Ananta, Tananant, Vinh Nguyen, Du Le, Fredriksson, Ingemar, Strömberg, Tomas, and Ramella-Roman, Jessica C.

Abstract

Obesity is a widespread chronic illness which affects over 40% of the US adult population and its world-wide prevalence has increased over the years impacting both low and high-income countries. Obesity has been linked to higher risk of non-communicable diseases such as cardiovascular disease, type-2 diabetes, dyslipidemia, hypertension, among others. Currently the mostly prescribed regimes to combat chronic illness associated with obesity are efforts to change diet, behavior, and physical activity. Wearable devices have the potential of helping users reduce their obesity levels as these devices can easily acquire and communicate biometric data with users and clinicians. However, these technologies depend on optical sensors that are sensitive to molecular skin composition. We hypothesize that individuals with high BMI levels will present changes in skin optical properties when compared to their non-obese counterparts. Our objective is to capture skin optical properties at the wrist among a diverse cohort using a commercial optical system for research use. To meet an appropriate power, the human study, composed of males and females, is conducted with 100 adult participants. Statistical methods, including linear regression and t-tests, are used to determine interactions between measured data and participant demographics. We believe these results can improve design of optical wearables for the obese., Funding Agencies|National Science Foundation Engineering Research Center for Precise Advanced Technologies and Health Systems for Underserved Populations (PATHS-UP) [1648451]

Published
2022
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49. A speculum free portable preterm imaging system

Author

Boonya-Ananta, Tananant, primary, Gonzalez, Mariacarla, additional, Le, Vinh Nguyen Du, additional, DeHoog, Edward, additional, Paidas, Michael J., additional, Jayakumar, Arumugam, additional, and Ramella-Roman, Jessica C., additional

Published
2022
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