Search

Your search keyword '"Yin, Ziying"' showing total 127 results
Start Over Author "Yin, Ziying"
127 results on '"Yin, Ziying"'

1. SWENet: a physics-informed deep neural network (PINN) for shear wave elastography

Author

Yin, Ziying, Li, Guo-Yang, Zhang, Zhaoyi, Zheng, Yang, and Cao, Yanping

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics, Physics - Medical Physics
Abstract

Shear wave elastography (SWE) enables the measurement of elastic properties of soft materials, including soft tissues, in a non-invasive manner and finds broad applications in a variety of disciplines. The state-of-the-art SWE methods commercialized in various instruments rely on the measurement of shear wave velocities to infer material parameters and have relatively low resolution and accuracy for inhomogeneous soft materials due to the complexity of wave fields. In the present study, we overcome this challenge by proposing a physics-informed neural network (PINN)-based SWE (SWENet) method considering the merits of PINN in solving an inverse problem. The spatial variation of elastic properties of inhomogeneous materials has been defined in governing equations, which are encoded in PINN as loss functions. Snapshots of wave motion inside a local region have been used to train the neural networks, and during this course, the spatial distribution of elastic properties is inferred simultaneously. Both finite element simulations and tissue-mimicking phantom experiments have been performed to validate the method. Our results show that the shear moduli of soft composites consisting of matrix and inclusions of several millimeters in cross-section dimensions with either regular or irregular geometries can be identified with good accuracy. The advantages of the SWENet over conventional SWE methods consist of using more features of the wave motion in inhomogeneous soft materials and enabling seamless integration of multi-source data in the inverse analysis. Given the advantages of the reported method, it may find applications including but not limited to mechanical characterization of artificial soft biomaterials, imaging elastic properties of nerves in vivo, and differentiating small malignant tumors from benign ones by quantitatively measuring their distinct stiffnesses.

Published
2022

9. MR elastography–based slip interface imaging (SII) for functional assessment of myofascial interfaces: A feasibility study.

Author

Hojo, Emi, Sui, Yi, Shan, Xiang, Zheng, Keni, Rossman, Phillip, Manduca, Armando, Powell, Garret M., An, Kai‐Nan, Zhao, Kristin D., Bauer, Brent A., Ehman, Richard L., and Yin, Ziying

Subjects
QUADRICEPS muscle, VASTUS lateralis, VASTUS medialis, RECTUS femoris muscles, MYOFASCIAL pain syndromes
Abstract

Purpose: Abnormal adherence at functional myofascial interfaces is hypothesized as an important phenomenon in myofascial pain syndrome. This study aimed to investigate the feasibility of MR elastography (MRE)–based slip interface imaging (SII) to visualize and assess myofascial mobility in healthy volunteers. Methods: SII was used to assess local shear strain at functional myofascial interfaces in the flexor digitorum profundus (FDP) and thighs. In the FDP, MRE was performed at 90 Hz vibration to each index, middle, ring, and little finger. Two thigh MRE scans were performed at 40 Hz with knees flexed and extended. The normalized octahedral shear strain (NOSS) maps were calculated to visualize myofascial slip interfaces. The entropy of the probability distribution of the gradient NOSS was computed for the two knee positions at the intermuscular interface between vastus lateralis and vastus intermedius, around rectus femoris, and between vastus intermedius and vastus medialis. Results: NOSS map depicted distinct functional slip interfaces in the FDP for each finger. Compared to knee flexion, clearer slip interfaces and larger gradient NOSS entropy at the vastus lateralis–vastus intermedius interface were observed during knee extension, where the quadriceps are not passively stretched. This suggests the optimal position for using SII to visualize myofascial slip interface in skeletal muscles is when muscles are not subjected to any additional force. Conclusion: The study demonstrated that MRE‐based SII can visualize and assess myofascial interface mobility in extremities. The results provide a foundation for investigating the hypothesis that myofascial pain syndrome is characterized by changes in the mobility of myofascial interfaces. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

10. Improved quantification of tumor adhesion in meningiomas using MR elastography-based slip interface imaging.

Author

Zheng, Keni, Murphy, Matthew C., Camerucci, Emanuele, Plitt, Aaron R., Shan, Xiang, Sui, Yi, Manduca, Armando, Van Gompel, Jamie J., Ehman, Richard L., Huston III, John, and Yin, Ziying

Subjects
PATTERN recognition systems, INTRACRANIAL tumors, BENIGN tumors, SHEAR strain, TUMORS, FEMORAL epiphysis, CEREBRAL angiography
Abstract

Meningiomas, the most prevalent primary benign intracranial tumors, often exhibit complicated levels of adhesion to adjacent normal tissues, significantly influencing resection and causing postoperative complications. Surgery remains the primary therapeutic approach, and when combined with adjuvant radiotherapy, it effectively controls residual tumors and reduces tumor recurrence when complete removal may cause a neurologic deficit. Previous studies have indicated that slip interface imaging (SII) techniques based on MR elastography (MRE) have promise as a method for sensitively determining the presence of tumor-brain adhesion. In this study, we developed and tested an improved algorithm for assessing tumor-brain adhesion, based on recognition of patterns in MRE-derived normalized octahedral shear strain (NOSS) images. The primary goal was to quantify the tumor interfaces at higher risk for adhesion, offering a precise and objective method to assess meningioma adhesions in 52 meningioma patients. We also investigated the predictive value of MRE-assessed tumor adhesion in meningioma recurrence. Our findings highlight the effectiveness of the improved SII technique in distinguishing the adhesion degrees, particularly complete adhesion. Statistical analysis revealed significant differences in adhesion percentages between complete and partial adherent tumors (p = 0.005), and complete and non-adherent tumors (p<0.001). The improved technique demonstrated superior discriminatory ability in identifying tumor adhesion patterns compared to the previously described algorithm, with an AUC of 0.86 vs. 0.72 for distinguishing complete adhesion from others (p = 0.037), and an AUC of 0.72 vs. 0.67 for non-adherent and others. Aggressive tumors exhibiting atypical features showed significantly higher adhesion percentages in recurrence group compared to non-recurrence group (p = 0.042). This study validates the efficacy of the improved SII technique in quantifying meningioma adhesions and demonstrates its potential to affect clinical decision-making. The reliability of the technique, coupled with potential to help predict meningioma recurrence, particularly in aggressive tumor subsets, highlights its promise in guiding treatment strategies. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

11. Wavelet MRE: Imaging propagating broadband acoustic waves with wavelet‐based motion‐encoding gradients.

Author

Le, Yuan, Chen, Jun, Rossman, Phillip J., Bolster, Bradley, Kannengiesser, Stephan, Manduca, Armando, Glaser, Kevin J., Sui, Yi, Huston, John, Yin, Ziying, and Ehman, Richard L.

Subjects
SOUND waves, BRAIN injuries
Abstract

Purpose: To demonstrate a novel MR elastography (MRE) technique, termed here wavelet MRE. With this technique, broadband motion sensitivity is achievable. Moreover, the true tissue displacement can be reconstructed with a simple inverse transform. Methods: A wavelet MRE sequence was developed with motion‐encoding gradients based on Haar wavelets. From the phase images' displacement was estimated using an inverse transform. Simulations were performed using a frequency sweep and a transient as ground‐truth motions. A PVC phantom was scanned using wavelet MRE and standard MRE with both transient (one and 10 cycles of 90‐Hz motion) and steady‐state dual‐frequency motion (30 and 60 Hz) for comparison. The technique was tested in a human brain, and motion trajectories were estimated for each voxel. Results: In simulation, the displacement information estimated from wavelet MRE closely matched the true motion. In the phantom test, the MRE phase data generated from the displacement information derived from wavelet MRE agreed well with standard MRE data. Testing of wavelet MRE to assess transient motion waveforms in the brain was successful, and the tissue motion observed was consistent with a previous study. Conclusion: The uniform and broadband frequency response of wavelet MRE makes it a promising method for imaging transient, multifrequency motion, or motion with unknown frequency content. One potential application is measuring the response of brain tissue undergoing low‐amplitude, transient vibrations as a model for the study of traumatic brain injury. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

12. Effects of Temperature on the Quality of Vacuum Concentrated Pear Juice and Construction of Quality Evaluation Model.

Author

YIN Ziying, ZHAO Jiangli, LIU Jinlong, ZHAO Guoqun, and GUAN Junfeng

Subjects
PEARS, VACUUM packaging, TEMPERATURE effect, FUMARATES, QUINIC acid, MALIC acid
Abstract

Objective: To compare the quality of vacuum concentrated pear juice at different temperatures and construct a quality evaluation method for concentrated pear juice. Method: Fresh pear juice was concentrated under decompression condition (vacuum degree 0.005 MPa) at concentration temperatures of 50, 60, 70 and 80 °C, respectively. The evaluation model of concentrated pear juice was constructed based on the browning degree, pH, total phenolic content, total flavonoid content, Fe3+ reducing power, soluble sugar, organic acid and volatile components of the concentrated pear juice. Results: The content of tartaric acid, fumaric acid and pH decreased significantly with the increasing temperature, while the browning degree, total phenolic content, total flavonoid content, Fe3+ reducing power, quinic acid, malic acid, citric acid increased significantly. The content of alcohols was the highest in concentrated pear juice of 50 °C (4.753 μg/mL), the esters was the highest in concentrated pear juice of 70 °C (2.808 μg/mL), the aldehydes and ketones were the highest in concentrated pear juice of 70 °C (12.478 μg/mL). This study obtained a model for evaluating the quality of concentrated pear juice and found that 70 °C was best vacuum concentration temperature for pear juice. Conclusion: The vacuum concentration temperature could affect the quality of concentrated pear juice, which could be well distinguished by the quality evaluation model. This study would provide references for the quality control of vacuum concentrated pear juice. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

19. The Safety and Efficacy of Low-Dose Naltrexone in Patients with Fibromyalgia: A Systematic Review

Author

Yang,Juan, Shin,Kyung-Min, Do,Alex, Bierle,Dennis M, Abu Dabrh,Abd Moain, Yin,Ziying, Bauer,Brent A, Mohabbat,Arya B, Yang,Juan, Shin,Kyung-Min, Do,Alex, Bierle,Dennis M, Abu Dabrh,Abd Moain, Yin,Ziying, Bauer,Brent A, and Mohabbat,Arya B

Abstract

Juan Yang,1 Kyung-Min Shin,2 Alex Do,1 Dennis M Bierle,1 Abd Moain Abu Dabrh,3 Ziying Yin,4 Brent A Bauer,1 Arya B Mohabbat1 1Division of General Internal Medicine, Mayo Clinic, Rochester, MN, 55905, USA; 2KM Science Research Division, Korea Institute of Oriental Medicine, Daejeon, 34054, South Korea; 3Division of General Internal Medicine, Mayo Clinic, Jacksonville, FL, 32224, USA; 4Department of Radiology, Mayo Clinic, Rochester, MN, 55905, USACorrespondence: Arya B Mohabbat, Division of General Internal Medicine, Mayo Clinic, 200 First Street SW, RO_GO_17_102GIM, Rochester, MN, 55905, USA, Tel +1-507-284-2511, Email Mohabbat.Arya@mayo.eduAbstract: Fibromyalgia (FM) is a chronic pain sensitivity syndrome characterized by diffuse musculoskeletal pain and many other systemic manifestations. Low-dose naltrexone (LDN) has been increasingly used as an off-label treatment option in FM. However, current evidence on the safety and efficacy of LDN in patients with FM is not well known. To systematically assess the current evidence on the safety and efficacy of LDN use in the treatment of FM. A comprehensive bibliographic search was conducted on EBM Reviews – Cochrane Central Register of Controlled Trials, EBM Reviews – Cochrane Database of Systematic, Embase, Ovid MEDLINE(R) and Epub Ahead of Print, In-Process, In-Data-Review & Other Non-Indexed Citations, Daily and Versions and Scopus databases in September 2022. Inclusion criteria were articles that were published in English, focusing on clinical trials involving LDN for the treatment of FM. Two reviewers independently screened and extracted the data. A qualitative analysis was used due to the high methodological heterogeneity between studies. The electronic search produced 805 articles. After applying the inclusion criteria, 9 articles (one RCT, two case reports, two case series, and four pilot trials) were selected for evaluation. LDN intervention protocols, study designs, and follow-up periods were different a

Published
2023

22. SWENet: A Physics-Informed Deep Neural Network (PINN) for Shear Wave Elastography

Author

Yin, Ziying, Li, Guo-Yang, Zhang, Zhaoyi, Zheng, Yang, and Cao, Yanping

Abstract

Shear wave elastography (SWE) enables the measurement of elastic properties of soft materials in a non-invasive manner and finds broad applications in various disciplines. The state-of-the-art SWE methods rely on the measurement of local shear wave speeds to infer material parameters and suffer from wave diffraction when applied to soft materials with strong heterogeneity. In the present study, we overcome this challenge by proposing a physics-informed neural network (PINN)-based SWE (SWENet) method. The spatial variation of elastic properties of inhomogeneous materials has been introduced in the governing equations, which are encoded in SWENet as loss functions. Snapshots of wave motions have been used to train neural networks, and during this course, the elastic properties within a region of interest illuminated by shear waves are inferred simultaneously. We performed finite element simulations, tissue-mimicking phantom experiments, and ex vivo experiments to validate the method. Our results show that the shear moduli of soft composites consisting of matrix and inclusions of several millimeters in cross-section dimensions with either regular or irregular geometries can be identified with excellent accuracy. The advantages of the SWENet over conventional SWE methods consist of using more features of the wave motions and enabling seamless integration of multi-source data in the inverse analysis. Given the advantages of SWENet, it may find broad applications where full wave fields get involved to infer heterogeneous mechanical properties, such as identifying small solid tumors with ultrasound SWE, and differentiating gray and white matters of the brain with magnetic resonance elastography.

Published
2024
Full Text
View/download PDF

30. Multiparametric magnetic resonance imaging/magnetic resonance elastography assesses progression and regression of steatosis, inflammation, and fibrosis in alcohol‐associated liver disease

Author

Chen, Jingbiao, primary, Martin‐Mateos, Rosa, additional, Li, Jiahui, additional, Yin, Ziying, additional, Chen, Jie, additional, Lu, Xin, additional, Glaser, Kevin J., additional, Mounajjed, Taofic, additional, Yashiro, Hiroaki, additional, Siegelman, Jenifer, additional, Winkelmann, Christopher T., additional, Wang, Jin, additional, Ehman, Richard L., additional, Shah, Vijay H., additional, and Yin, Meng, additional

Published
2021
Full Text
View/download PDF

33. Characterization of Cellular Sources and Circulating Levels of Extracellular Vesicles in a Dietary Murine Model of Nonalcoholic Steatohepatitis

Author

Li, Jiahui, primary, Liu, Huimin, additional, Mauer, Amy S., additional, Lucien, Fabrice, additional, Raiter, Abagail, additional, Bandla, Harikrishna, additional, Mounajjed, Taofic, additional, Yin, Ziying, additional, Glaser, Kevin J., additional, Yin, Meng, additional, and Malhi, Harmeet, additional

Published
2019
Full Text
View/download PDF

34. Stiffness and Beyond

Author

Yin, Ziying, primary, Romano, Anthony J., additional, Manduca, Armando, additional, Ehman, Richard L., additional, and Huston, John, additional

Published
2018
Full Text
View/download PDF

41. Assessment of glenoid chondral healing: comparison of microfracture to autologous matrix-induced chondrogenesis in a novel rabbit shoulder model

Author

Wang, Vincent M., primary, Karas, Vasili, additional, Lee, Andrew S., additional, Yin, Ziying, additional, Van Thiel, Geoffrey S., additional, Hussey, Kristen, additional, Sumner, D. Rick, additional, Chubinskaya, Susan, additional, Magin, Richard L., additional, Verma, Nikhil N., additional, Romeo, Anthony A., additional, and Cole, Brian J., additional

Published
2015
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results