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1. Multi-V2X: A Large Scale Multi-modal Multi-penetration-rate Dataset for Cooperative Perception

Author

Li, Rongsong and Pei, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Cooperative perception through vehicle-to-everything (V2X) has garnered significant attention in recent years due to its potential to overcome occlusions and enhance long-distance perception. Great achievements have been made in both datasets and algorithms. However, existing real-world datasets are limited by the presence of few communicable agents, while synthetic datasets typically cover only vehicles. More importantly, the penetration rate of connected and autonomous vehicles (CAVs) , a critical factor for the deployment of cooperative perception technologies, has not been adequately addressed. To tackle these issues, we introduce Multi-V2X, a large-scale, multi-modal, multi-penetration-rate dataset for V2X perception. By co-simulating SUMO and CARLA, we equip a substantial number of cars and roadside units (RSUs) in simulated towns with sensor suites, and collect comprehensive sensing data. Datasets with specified CAV penetration rates can be obtained by masking some equipped cars as normal vehicles. In total, our Multi-V2X dataset comprises 549k RGB frames, 146k LiDAR frames, and 4,219k annotated 3D bounding boxes across six categories. The highest possible CAV penetration rate reaches 86.21%, with up to 31 agents in communication range, posing new challenges in selecting agents to collaborate with. We provide comprehensive benchmarks for cooperative 3D object detection tasks. Our data and code are available at https://github.com/RadetzkyLi/Multi-V2X ., Comment: 9 pages, 4 figures, 5 tables

Published
2024

2. Unify Change Point Detection and Segment Classification in a Regression Task for Transportation Mode Identification

Author

Li, Rongsong and Pei, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Identifying travelers' transportation modes is important in transportation science and location-based services. It's appealing for researchers to leverage GPS trajectory data to infer transportation modes with the popularity of GPS-enabled devices, e.g., smart phones. Existing studies frame this problem as classification task. The dominant two-stage studies divide the trip into single-one mode segments first and then categorize these segments. The over segmentation strategy and inevitable error propagation bring difficulties to classification stage and make optimizing the whole system hard. The recent one-stage works throw out trajectory segmentation entirely to avoid these by directly conducting point-wise classification for the trip, whereas leaving predictions dis-continuous. To solve above-mentioned problems, inspired by YOLO and SSD in object detection, we propose to reframe change point detection and segment classification as a unified regression task instead of the existing classification task. We directly regress coordinates of change points and classify associated segments. In this way, our method divides the trip into segments under a supervised manner and leverage more contextual information, obtaining predictions with high accuracy and continuity. Two frameworks, TrajYOLO and TrajSSD, are proposed to solve the regression task and various feature extraction backbones are exploited. Exhaustive experiments on GeoLife dataset show that the proposed method has competitive overall identification accuracy of 0.853 when distinguishing five modes: walk, bike, bus, car, train. As for change point detection, our method increases precision at the cost of drop in recall. All codes are available at https://github.com/RadetzkyLi/TrajYOLO-SSD.

Published
2023

3. Exercise mitigates flow recirculation and activates metabolic transducer SCD1 to catalyze vascular protective metabolites.

Author

Cavallero, Susana, Roustaei, Mehrdad, Satta, Sandro, Cho, Jae, Phan, Henry, Baek, Kyung, Blázquez-Medela, Ana, Gonzalez-Ramos, Sheila, Vu, Khoa, Park, Seul-Ki, Yokota, Tomohiro, Mack, Julia, Sigmund, Curt, Reddy, Srinivasa, Li, Rongsong, Hsiai, Tzung, and Sumner, Jennifer

Subjects
Animals, Mice, Aorta, Diet, High-Fat, Endothelium, Vascular, Motor Activity, Stearoyl-CoA Desaturase
Abstract

Exercise promotes pulsatile shear stress in the arterial circulation and ameliorates cardiometabolic diseases. However, exercise-mediated metabolic transducers for vascular protection remain under-investigated. Untargeted metabolomic analysis demonstrated that wild-type mice undergoing voluntary wheel running exercise expressed increased endothelial stearoyl-CoA desaturase 1 (SCD1) that catalyzes anti-inflammatory lipid metabolites, namely, oleic (OA) and palmitoleic acids (PA), to mitigate NF-κB-mediated inflammatory responses. In silico analysis revealed that exercise augmented time-averaged wall shear stress but mitigated flow recirculation and oscillatory shear index in the lesser curvature of the mouse aortic arch. Following exercise, endothelial Scd1-deleted mice (Ldlr-/- Scd1EC-/-) on high-fat diet developed persistent VCAM1-positive endothelium in the lesser curvature and the descending aorta, whereas SCD1 overexpression via adenovirus transfection mitigated endoplasmic reticulum stress and inflammatory biomarkers. Single-cell transcriptomics of the aorta identified Scd1-positive and Vcam1-negative endothelial subclusters interacting with other candidate genes. Thus, exercise mitigates flow recirculation and activates endothelial SCD1 to catalyze OA and PA for vascular endothelial protection.

Published
2024

4. Serum Acylglycerols Inversely Associate with Muscle Oxidative Capacity in Severe COPD

Author

LI, RONGSONG, ADAMI, ALESSANDRA, CHANG, CHIH-CHIANG, TSENG, CHI-HONG, HSIAI, TZUNG K, and ROSSITER, HARRY B

Subjects
Medical Biochemistry and Metabolomics, Biomedical and Clinical Sciences, Health Sciences, Prevention, Chronic Obstructive Pulmonary Disease, Lung, Respiratory, Aged, Aged, 80 and over, Fatty Acids, Female, Forced Expiratory Volume, Glycerides, Humans, Male, Middle Aged, Mitochondria, Muscle, Muscle, Skeletal, Oxygen Consumption, Pulmonary Disease, Chronic Obstructive, Sex Characteristics, Sphingomyelins, METABOLOMICS, MITOCHONDRIA, PHYSICAL ACTIVITY, SPHINGOMYELIN, FATTY ACID, Human Movement and Sports Sciences, Medical Physiology, Public Health and Health Services, Sport Sciences, Clinical sciences, Medical physiology, Sports science and exercise
Abstract

PurposeChronic obstructive pulmonary disease (COPD) is associated with altered metabolism and body composition that accompany poor outcomes. We aimed to determine whether metabolic derangements in COPD are associated with skeletal muscle deconditioning and/or physical inactivity, independent of pulmonary obstruction.MethodsWe characterized serum metabolites associated with muscle oxidative capacity or physical activity in 44 COPD patients (forced expiratory volume in 1 s [FEV1] = 61% ± 4% predicted) and 63 current and former smokers with normal spirometry (CON) (FEV1 = 93% ± 2% predicted). Medial gastrocnemius oxidative capacity was assessed at rest from the recovery rate constant (k) of muscle oxygen consumption using near-infrared spectroscopy. Step counts and physical activity (average vector magnitude units [VMU] per minute) were measured over 5-7 d using triaxial accelerometry. Untargeted prime and lipid metabolites were measured using liquid chromatography and mass spectrometry.ResultsMuscle k (1.12 ± 0.05 vs 1.68 ± 0.06 min, P < 0.0001, d = 1.58) and VMU per minute (170 ± 26 vs 450 ± 50 VMU per minute, P = 0.004, d = 1.04) were lower in severe COPD (FEV1 < 50% predicted, n = 14-16) compared with CON (n = 56-60). A total of 129 prime metabolites and 470 lipids with known identity were quantified. Using sex as a covariate, lipidomics revealed 24 differentially expressed lipids (19 sphingomyelins) in COPD, consequent to a diminished sex difference of sphingomyelins in COPD (false discovery rate [FDR] < 0.05, n = 44). Total, and some individual, fatty acid concentrations were greater in severe COPD than CON (FDR < 0.05, n = 16, d = 0.56-1.02). After adjusting for FEV1% predicted, we observed that grouped diacylglycerides (ρ = -0.745, FDR = 0.03) and triacylglycerides (ρ = -0.811, FDR = 0.01) were negatively associated with muscle oxidative capacity, but not physical activity, in severe COPD (n = 14).ConclusionStrong negative associations relate impaired mitochondrial function to the accumulation of serum aclyglycerides in severe COPD.

Published
2021

6. Spatial and temporal variations in hemodynamic forces initiate cardiac trabeculation

Author

Lee, Juhyun, Vedula, Vijay, Baek, Kyung In, Chen, Junjie, Hsu, Jeffrey J, Ding, Yichen, Chang, Chih-Chiang, Kang, Hanul, Small, Adam, Fei, Peng, Chuong, Cheng-ming, Li, Rongsong, Demer, Linda, Packard, René R Sevag, Marsden, Alison L, and Hsiai, Tzung K

Subjects
Heart Disease, Cardiovascular, Algorithms, Animals, Animals, Genetically Modified, Cell Proliferation, Embryonic Development, GATA1 Transcription Factor, Gene Expression Regulation, Genes, erbB-2, Heart Failure, Heart Ventricles, Hemodynamics, Molecular Dynamics Simulation, Myocytes, Cardiac, Organogenesis, RNA, Messenger, Receptor, Notch1, Receptors, Notch, Signal Transduction, Stress, Mechanical, Zebrafish, Zebrafish Proteins, Cardiology, Development, Embryonic development, Heart failure
Abstract

Hemodynamic shear force has been implicated as modulating Notch signaling-mediated cardiac trabeculation. Whether the spatiotemporal variations in wall shear stress (WSS) coordinate the initiation of trabeculation to influence ventricular contractile function remains unknown. Using light-sheet fluorescent microscopy, we reconstructed the 4D moving domain and applied computational fluid dynamics to quantify 4D WSS along the trabecular ridges and in the groves. In WT zebrafish, pulsatile shear stress developed along the trabecular ridges, with prominent endocardial Notch activity at 3 days after fertilization (dpf), and oscillatory shear stress developed in the trabecular grooves, with epicardial Notch activity at 4 dpf. Genetic manipulations were performed to reduce hematopoiesis and inhibit atrial contraction to lower WSS in synchrony with attenuation of oscillatory shear index (OSI) during ventricular development. γ-Secretase inhibitor of Notch intracellular domain (NICD) abrogated endocardial and epicardial Notch activity. Rescue with NICD mRNA restored Notch activity sequentially from the endocardium to trabecular grooves, which was corroborated by observed Notch-mediated cardiomyocyte proliferations on WT zebrafish trabeculae. We also demonstrated in vitro that a high OSI value correlated with upregulated endothelial Notch-related mRNA expression. In silico computation of energy dissipation further supports the role of trabeculation to preserve ventricular structure and contractile function. Thus, spatiotemporal variations in WSS coordinate trabecular organization for ventricular contractile function.

Published
2018

7. Ultrafine Particle Exposure Reveals the Importance of FOXO1/Notch Activation Complex for Vascular Regeneration.

Author

Baek, Kyung In, Packard, René R Sevag, Hsu, Jeffrey J, Saffari, Arian, Ma, Zhao, Luu, Anh Phuong, Pietersen, Andrew, Yen, Hilary, Ren, Bin, Ding, Yichen, Sioutas, Constantinos, Li, Rongsong, and Hsiai, Tzung K

Subjects
Cells, Cultured, Endothelial Cells, Animals, Zebrafish, Zebrafish Proteins, RNA, Messenger, Regeneration, Oxidation-Reduction, Receptors, Notch, Particulate Matter, Forkhead Box Protein O1, FOXO1, Notch signaling, UFP, tail amputation, ultrafine particles, vascular repair, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Cardiovascular, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Pharmacology and Pharmaceutical Sciences, Biochemistry & Molecular Biology
Abstract

AimsRedox active ultrafine particles (UFP, d

Published
2018

8. Non-Invasive Electrical Impedance Tomography for Multi-Scale Detection of Liver Fat Content

Author

Luo, Yuan, Abiri, Parinaz, Zhang, Shell, Chang, Chih-Chiang, Kaboodrangi, Amir H., Li, Rongsong, Sahib, Ashish K., Bui, Alex, Kumar, Rajesh, Woo, Mary, Li, Zhaoping, Packard, René Sevag, Tai, Yu-Chong, and Hsiai, Tzung K.

Subjects
Fatty Liver, Nonalcoholic Fatty Liver Disease, Electrical Impedance Tomography, Fat Volume Fraction
Abstract

Introduction: Obesity is associated with an increased risk of nonalcoholic fatty liver disease (NAFLD). While Magnetic Resonance Imaging (MRI) is a non-invasive gold standard to detect fatty liver, we demonstrate a low-cost and portable electrical impedance tomography (EIT) approach with circumferential abdominal electrodes for liver conductivity measurements.Methods and Results: A finite element model (FEM) was established to simulate decremental liver conductivity in response to incremental liver lipid content. To validate the FEM simulation, we performed EIT imaging on an ex vivo porcine liver in a non-conductive tank with 32 circumferentially-embedded electrodes, demonstrating a high-resolution output given a priori information on location and geometry. To further examine EIT capacity in fatty liver detection, we performed EIT measurements in age- and gender-matched New Zealand White rabbits (3 on normal, 3 on high-fat diets). Liver conductivity values were significantly distinct following the high-fat diet (p = 0.003 vs. normal diet, n=3), accompanied by histopathological evidence of hepatic fat accumulation. We further assessed EIT imaging in human subjects with MRI quantification for fat volume fraction based on Dixon procedures, demonstrating average liver conductivity of 0.331 S/m for subjects with low Body-Mass Index (BMI < 25 kg/m²) and 0.286 S/m for high BMI (> 25 kg/m²).Conclusion: We provide both the theoretical and experimental framework for a multi-scale EIT strategy to detect liver lipid content. Our preliminary studies pave the way to enhance the spatial resolution of EIT as a marker for fatty liver disease and metabolic syndrome.

Published
2018

9. Flow-Responsive Vascular Endothelial Growth Factor Receptor-Protein Kinase C Isoform Epsilon Signaling Mediates Glycolytic Metabolites for Vascular Repair.

Author

Baek, Kyung In, Li, Rongsong, Jen, Nelson, Choi, Howard, Kaboodrangi, Amir, Ping, Peipei, Liem, David, Beebe, Tyler, and Hsiai, Tzung K

Subjects
Cells, Cultured, Endothelial Cells, Animals, Zebrafish, Humans, Mice, Phosphofructokinase-2, Receptors, Vascular Endothelial Growth Factor, RNA, Messenger, Signal Transduction, Glycolysis, Regional Blood Flow, Neovascularization, Physiologic, Stress, Mechanical, Protein Kinase C-epsilon, PFKFB3, PKCɛ, dihydroxyacetone, metabolites, shear stress, vascular repair, Regenerative Medicine, Cardiovascular, PKC, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Pharmacology and Pharmaceutical Sciences, Biochemistry & Molecular Biology
Abstract

AimsHemodynamic shear stress participates in maintaining vascular redox status. Elucidating flow-mediated endothelial metabolites enables us to discover metabolic biomarkers and therapeutic targets. We posited that flow-responsive vascular endothelial growth factor receptor (VEGFR)-protein kinase C isoform epsilon (PKCɛ)-6-phosphofructo-2-kinase/fructose-2,6-biphosphatase 3 (PFKFB3) signaling modulates glycolytic metabolites for vascular repair.ResultsBidirectional oscillatory flow (oscillatory shear stress [OSS]: 0.1 ± 3 dyne·cm-2 at 1 Hz) upregulated VEGFR-dependent PKCɛ expression to a greater degree than did unidirectional pulsatile flow (pulsatile shear stress [PSS]: 23 ± 8 dyne·cm-2 at 1 Hz) in human aortic endothelial cells (p

Published
2018

11. Ambient Ultrafine Particle Ingestion Alters Gut Microbiota in Association with Increased Atherogenic Lipid Metabolites.

Author

Li, Rongsong, Yang, Jieping, Saffari, Arian, Jacobs, Jonathan, Baek, Kyung In, Hough, Greg, Larauche, Muriel H, Ma, Jianguo, Jen, Nelson, Moussaoui, Nabila, Zhou, Bill, Kang, Hanul, Reddy, Srinivasa, Henning, Susanne M, Campen, Matthew J, Pisegna, Joseph, Li, Zhaoping, Fogelman, Alan M, Sioutas, Constantinos, Navab, Mohamad, and Hsiai, Tzung K

Subjects
Cecum, Macrophages, Animals, Mice, Knockout, Mice, Bacteria, Cholestanol, Cholesterol, Lysophospholipids, Lysophosphatidylcholines, Receptors, LDL, RNA, Ribosomal, 16S, Cytokines, Principal Component Analysis, Lipid Metabolism, Particulate Matter, Diet, High-Fat, Gastrointestinal Microbiome, Knockout, Receptors, LDL, RNA, Ribosomal, 16S, Diet, High-Fat
Abstract

Ambient particulate matter (PM) exposure is associated with atherosclerosis and inflammatory bowel disease. Ultrafine particles (UFP, dp

Published
2017

13. Ultrasonic transducer-guided electrochemical impedance spectroscopy to assess lipid-laden plaques

Author

Ma, Jianguo, Luo, Yuan, Packard, René R Sevag, Ma, Teng, Ding, Yichen, Abiri, Parinaz, Tai, Yu-Chong, Zhou, Qifa, Shung, Kirk K, Li, Rongsong, and Hsiai, Tzung

Subjects
Fluid Mechanics and Thermal Engineering, Engineering, Biomedical Engineering, Bioengineering, Biomedical Imaging, Atherosclerosis, Heart Disease, Cardiovascular, Ultrasonic transducers, Flexible 2-point electrode, Electrochemical impedance spectroscopy, Dual sensor-based intravascular catheter, Plaque assessment, Electrochemical Impedance Spectroscopy, Optical Physics, Analytical Chemistry, Materials Engineering, Analytical chemistry, Chemical engineering, Materials engineering
Abstract

Plaque rupture causes acute coronary syndromes and stroke. Intraplaque oxidized low density lipoprotein (oxLDL) is metabolically unstable and prone to induce rupture. We designed an intravascular ultrasound (IVUS)-guided electrochemical impedance spectroscopy (EIS) sensor to enhance the detection reproducibility of oxLDL-laden plaques. The flexible 2-point micro-electrode array for EIS was affixed to an inflatable balloon anchored onto a co-axial double layer catheter (outer diameter = 2 mm). The mechanically scanning-driven IVUS transducer (45 MHz) was deployed through the inner catheter (diameter = 1.3 mm) to the acoustic impedance matched-imaging window. Water filled the inner catheter to match acoustic impedance and air was pumped between the inner and outer catheters to inflate the balloon. The integrated EIS and IVUS sensor was deployed into the ex vivo aortas dissected from the fat-fed New Zealand White (NZW) rabbits (n=3 for fat-fed, n= 5 normal diet). IVUS imaging was able to guide the 2-point electrode to align with the plaque for EIS measurement upon balloon inflation. IVUS-guided EIS signal demonstrated reduced variability and increased reproducibility (p < 0.0001 for magnitude, p < 0.05 for phase at < 15 kHz) as compared to EIS sensor alone (p < 0.07 for impedance, p < 0.4 for phase at < 15 kHz). Thus, we enhanced topographic and EIS detection of oxLDL-laden plaques via a catheter-based integrated sensor design to enhance clinical assessment for unstable plaque.

Published
2016

14. Two-Point Stretchable Electrode Array for Endoluminal Electrochemical Impedance Spectroscopy Measurements of Lipid-Laden Atherosclerotic Plaques.

Author

Packard, René R Sevag, Zhang, XiaoXiao, Luo, Yuan, Ma, Teng, Jen, Nelson, Ma, Jianguo, Demer, Linda L, Zhou, Qifa, Sayre, James W, Li, Rongsong, Tai, Yu-Chong, and Hsiai, Tzung K

Subjects
Aorta, Pericardium, Animals, Rabbits, Disease Models, Animal, Dietary Fats, Lipoproteins, LDL, Electrodes, Hyperlipidemias, Plaque, Atherosclerotic, Dielectric Spectroscopy, Atherosclerosis, Electrochemical impedance spectroscopy, Flexible electronics, Lipid-rich plaque, Bioengineering, Cardiovascular, Engineering, Medical and Health Sciences, Biomedical Engineering
Abstract

Four-point electrode systems are commonly used for electric impedance measurements of biomaterials and tissues. We introduce a 2-point system to reduce electrode polarization for heterogeneous measurements of vascular wall. Presence of endoluminal oxidized low density lipoprotein (oxLDL) and lipids alters the electrochemical impedance that can be measured by electrochemical impedance spectroscopy (EIS). We developed a catheter-based 2-point micro-electrode configuration for intravascular deployment in New Zealand White rabbits. An array of 2 flexible round electrodes, 240 µm in diameter and separated by 400 µm was microfabricated and mounted on an inflatable balloon catheter for EIS measurement of the oxLDL-rich lesions developed as a result of high-fat diet-induced hyperlipidemia. Upon balloon inflation, the 2-point electrode array conformed to the arterial wall to allow deep intraplaque penetration via alternating current (AC). The frequency sweep from 10 to 300 kHz generated an increase in capacitance, providing distinct changes in both impedance (Ω) and phase (ϕ) in relation to varying degrees of intraplaque lipid burden in the aorta. Aortic endoluminal EIS measurements were compared with epicardial fat tissue and validated by intravascular ultrasound and immunohistochemistry for plaque lipids and foam cells. Thus, we demonstrate a new approach to quantify endoluminal EIS via a 2-point stretchable electrode strategy.

Published
2016

15. 4-Dimensional light-sheet microscopy to elucidate shear stress modulation of cardiac trabeculation

Author

Lee, Juhyun, Fei, Peng, Packard, René R Sevag, Kang, Hanul, Xu, Hao, Baek, Kyung In, Jen, Nelson, Chen, Junjie, Yen, Hilary, Kuo, C-C Jay, Chi, Neil C, Ho, Chih-Ming, Li, Rongsong, and Hsiai, Tzung K

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Heart Disease, Cardiovascular, Aetiology, 2.1 Biological and endogenous factors, Animals, Animals, Genetically Modified, Heart Atria, Microscopy, Fluorescence, Myocardial Contraction, Myocardium, Neuregulin-1, Organogenesis, Receptors, Notch, Shear Strength, Signal Transduction, Troponin T, Zebrafish, Zebrafish Proteins, Medical and Health Sciences, Immunology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Hemodynamic shear forces are intimately linked with cardiac development, during which trabeculae form a network of branching outgrowths from the myocardium. Mutations that alter Notch signaling also result in trabeculation defects. Here, we assessed whether shear stress modulates trabeculation to influence contractile function. Specifically, we acquired 4D (3D + time) images with light sheets by selective plane illumination microscopy (SPIM) for rapid scanning and deep axial penetration during zebrafish morphogenesis. Reduction of blood viscosity via gata1a morpholino oligonucleotides (MO) reduced shear stress, resulting in downregulation of Notch signaling and attenuation of trabeculation. Arrest of cardiomyocyte contraction either by troponin T type 2a (tnnt2a) MO or in weak atriumm58 (wea) mutants resulted in reduced shear stress and downregulation of Notch signaling and trabeculation. Integrating 4D SPIM imaging with synchronization algorithm demonstrated that coinjection of neuregulin1 mRNA with gata1 MO rescued trabeculation to restore contractile function in association with upregulation of Notch-related genes. Crossbreeding of Tg(flk:mCherry) fish, which allows visualization of the vascular system with the Tg(tp1:gfp) Notch reporter line, revealed that shear stress-mediated Notch activation localizes to the endocardium. Deleting endocardium via the clochesk4 mutants downregulated Notch signaling, resulting in nontrabeculated ventricle. Subjecting endothelial cells to pulsatile flow in the presence of the ADAM10 inhibitor corroborated shear stress-activated Notch signaling to modulate trabeculation.

Published
2016

18. Shear stress-activated Wnt-angiopoietin-2 signaling recapitulates vascular repair in zebrafish embryos.

Author

Li, Rongsong, Beebe, Tyler, Jen, Nelson, Yu, Fei, Takabe, Wakako, Harrison, Michael, Cao, Hung, Lee, Juhyun, Yang, Hongbo, Han, Peidong, Wang, Kevin, Shimizu, Hirohito, Chen, Jaunian, Lien, Ching-Ling, Chi, Neil C, and Hsiai, Tzung K

Subjects
Cells, Cultured, Animals, Animals, Genetically Modified, Zebrafish, Humans, Intercellular Signaling Peptides and Proteins, Angiopoietin-2, Zebrafish Proteins, Green Fluorescent Proteins, RNA, Messenger, Transfection, Mechanotransduction, Cellular, Cell Proliferation, Cell Movement, Gene Expression Regulation, Developmental, RNA Interference, Neovascularization, Physiologic, Genes, Reporter, Time Factors, Stress, Physiological, Human Umbilical Vein Endothelial Cells, Wnt3A Protein, Axin Protein, Wnt Signaling Pathway, DKK-1/dickkopfs-1, Wnt signaling, angiopoietin-2, endothelial repairs, human aortic endothelial cells, vasculogenesis, zebrafish, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Cardiovascular System & Hematology
Abstract

ObjectiveFluid shear stress intimately regulates vasculogenesis and endothelial homeostasis. The canonical Wnt/β-catenin signaling pathways play an important role in differentiation and proliferation. In this study, we investigated whether shear stress activated angiopoietin-2 (Ang-2) via the canonical Wnt signaling pathway with an implication in vascular endothelial repair.Approach and resultsOscillatory shear stress upregulated both TOPflash Wnt reporter activities and the expression of Ang-2 mRNA and protein in human aortic endothelial cells accompanied by an increase in nuclear β-catenin intensity. Oscillatory shear stress-induced Ang-2 and Axin-2 mRNA expression was downregulated in the presence of a Wnt inhibitor, IWR-1, but was upregulated in the presence of a Wnt agonist, LiCl. Ang-2 expression was further downregulated in response to a Wnt signaling inhibitor, DKK-1, but was upregulated by Wnt agonist Wnt3a. Both DKK-1 and Ang-2 siRNA inhibited endothelial cell migration and tube formation, which were rescued by human recombinant Ang-2. Both Ang-2 and Axin-2 mRNA downregulation was recapitulated in the heat-shock-inducible transgenic Tg(hsp70l:dkk1-GFP) zebrafish embryos at 72 hours post fertilization. Ang-2 morpholino injection of Tg (kdrl:GFP) fish impaired subintestinal vessel formation at 72 hours post fertilization, which was rescued by zebrafish Ang-2 mRNA coinjection. Inhibition of Wnt signaling with IWR-1 also downregulated Ang-2 and Axin-2 expression and impaired vascular repair after tail amputation, which was rescued by zebrafish Ang-2 mRNA injection.ConclusionsShear stress activated Ang-2 via canonical Wnt signaling in vascular endothelial cells, and Wnt-Ang-2 signaling is recapitulated in zebrafish embryos with a translational implication in vascular development and repair.

Published
2014

19. Stretchable electrochemical impedance sensors for intravascular detection of lipid-rich lesions in New Zealand White rabbits

Author

Cao, Hung, Yu, Fei, Zhao, Yu, Scianmarello, Nick, Lee, Juhyun, Dai, Wangde, Jen, Nelson, Beebe, Tyler, Li, Rongsong, Ebrahimi, Ramin, Chang, Donald S, Mody, Freny V, Pacella, John, Tai, Yu-Chong, and Hsiai, Tzung

Subjects
Nutrition, Bioengineering, Atherosclerosis, Cardiovascular, Animals, Aorta, Biosensing Techniques, Dielectric Spectroscopy, Electric Impedance, Equipment Design, Lipids, Lipoproteins, LDL, Male, Plaque, Atherosclerotic, Rabbits, Stretchable micro-sensor, Electrochemical impedance spectroscopy, Balloon inflation, Atherosclerotic lesions, New Zealand White rabbits, Analytical Chemistry, Biomedical Engineering, Nanotechnology, Bioinformatics
Abstract

Flexible electronics have enabled catheter-based intravascular sensing. However, real-time interrogation of unstable plaque remains an unmet clinical challenge. Here, we demonstrate the feasibility of stretchable electrochemical impedance spectroscopy (EIS) sensors for endoluminal investigations in New Zealand White (NZW) rabbits on diet-induced hyperlipidemia. A parylene C (PAC)-based EIS sensor mounted on the surface of an inflatable silicone balloon affixed to the tip of an interrogating catheter was deployed (1) on the explants of NZW rabbit aorta for detection of lipid-rich atherosclerotic lesions, and (2) on live animals for demonstration of balloon inflation and EIS measurements. An input peak-to-peak AC voltage of 10 mV and sweeping-frequency from 300 kHz to 100 Hz were delivered to the endoluminal sites. Balloon inflation allowed EIS sensors to be in contact with endoluminal surface. In the oxidized low-density-lipoprotein (oxLDL)-rich lesions from explants of fat-fed rabbits, impedance magnitude increased significantly by 1.5-fold across the entire frequency band, and phase shifted ~5° at frequencies below 10 kHz. In the lesion-free sites of the normal diet-fed rabbits, impedance magnitude increased by 1.2-fold and phase shifted ~5° at frequencies above 30 kHz. Thus, we demonstrate the feasibility of stretchable intravascular EIS sensors for identification of lipid rich lesions, with a translational implication for detecting unstable lesions.

Published
2014

20. Exercise Mitigates Flow Recirculation and Activates Mechanosensitive Transcriptome to Uncover Endothelial SCD1-Catalyzed Anti-Inflammatory Metabolites

Author

Cavallero, Susana, primary, Roustaei, Mehrdad, additional, Satta, Sandro, additional, Cho, Jae Min, additional, Phan, Henry, additional, Baek, Kyung In, additional, Blázquez-Medela, Ana M., additional, Gonzalez-Ramos, Sheila, additional, Vu, Khoa, additional, Park, Seul-Ki, additional, Yokota, Tomohiro, additional, Sumner, Jennifer A, additional, Mack, Julia, additional, Sigmund, Curt D., additional, Reddy, Srinivasa, additional, Li, Rongsong, additional, and Hsiai, Tzung K., additional

Published
2023
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43. Shear stress influences spatial variations in vascular Mn-SOD expression: implication for LDL nitration

Author

Ai, Lisong, Rouhanizadeh, Mahsa, Wu, Joseph C., Takabe, Wakako, Yu, Hongyu, Alavi, Mohammad, Li, Rongsong, Chu, Yi, Miller, Jordan, Heistad, Donald D., and Hsiai, Tzung K.

Subjects
Stress (Physiology) -- Influence, Superoxide dismutase -- Properties, Gene expression -- Research, Nitric oxide -- Health aspects, Low density lipoproteins -- Properties, Biological sciences
Abstract

Fluid shear stress modulates vascular production of endothelial superoxide anion ([[O.sub.2].sup.-]) and nitric oxide (NO). Whether the characteristics of shear stress influence the spatial variations in mitochondrial manganese superoxide dismutase (Mn-SOD) expression in vasculatures is not well defined. We constructed a three-dimensional computational fluid dynamics model simulating spatial variations in shear stress at the arterial bifurcation. In parallel, explants of arterial bifurcations were sectioned from the human left main coronary bifurcation and right coronary arteries for immunohistolocalization of Mn-SOD expression. We demonstrated that Mn-SOD staining was prominent in the pulsatile shear stress (PSS)-exposed and atheroprotective regions, but it was nearly absent in the oscillatory shear stress (OSS)-exposed regions and lateral wall of arterial bifurcation. In cultured bovine aortic endothelial cells, PSS at mean shear stress ([[tau].sub.ave]) of 23 dyn/[cm.sup.2] upregulated Mn-SOD mRNA expression at a higher level than did OSS at [[tau].sub.ave] = 0.02 dyn/[cm.sup.2] [+ or -] 3.0 dyn x [cm.sup.-2] x [s.sup.-1] and at 1 Hz (PSS by 11.3 [+ or -] 0.4-fold vs. OSS by 5.0 [+ or -] 0.5-fold vs. static condition; P < 0.05, n = 4). By liquid chromatography and tandem mass spectrometry, it was found that PSS decreased the extent of low-density lipoprotein (LDL) nitration, whereas OSS increased nitration (P < 0.05, n = 4). In the presence of LDL, treatment with Mn-SOD small interfering RNA increased intracellular nitrotyrosine level (P < 0.5, n = 4), a fingerprint for nitrotyrosine formation. Our findings indicate that shear stress in the atheroprone versus atheroprotective regions regulates spatial variations in mitochondrial Mn-SOD expression with an implication for modulating LDL nitration. superoxide dismutase; superoxide anion; nitric oxide; nitrotyrosine; low-density lipoprotein

Published
2008

50. Molecular detections of coronavirus: current and emerging methodologies.

Author

Diao, Mingkun, Lang, Lang, Feng, Juan, and Li, Rongsong

Abstract

Seven coronavirus species have been identified that can infect humans. While human coronavirus infections had been historically associated with only mild respiratory symptoms similar to the common cold, three coronaviruses identified since 2003, Severe Acute Respiratory Syndrome Coronavirus (SARS-CoV), Middle East Respiratory Syndrome Coronavirus (MERS-CoV), and SARS-CoV-2, cause life-threatening severe respiratory syndromes. The coronavirus disease 2019 (COVID-19) caused by the highly transmissible SARS-CoV-2 has triggered a worldwide health emergency. Due to the lack of effective drugs and vaccination, rapid and reliable detection is of vital importance to control coronavirus epidemics/pandemics. A literature search was performed in Pubmed covering the detections and diagnostics of SARS, MERS and SARS-CoV-2. This review summarized the current knowledge of established and emerging methods for coronavirus detection. The characteristics of different diagnostic approaches were described, and the strengths and weaknesses of each method were analyzed and compared. In addition, future trends in the field of coronavirus detection were also discussed. Nucleic acid–based RT-PCR is the current golden-standard of coronavirus detection, while immunoassays provide history of coronavirus infection besides diagnostic information. Integrated high-throughput system holds the great potential and is the trend of future detection and diagnosis of virus infection. [ABSTRACT FROM AUTHOR]

Published
2022
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