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1. Polyphenol-stabilized coacervates for enzyme-triggered drug delivery.

Author

Yim, Wonjun, Jin, Zhicheng, Chang, Yu-Ci, Brambila, Carlos, Creyer, Matthew, Ling, Chuxuan, He, Tengyu, Li, Yi, Retout, Maurice, Penny, William, Zhou, Jiajing, and Jokerst, Jesse

Subjects
Polyphenols, Thrombin, Drug Delivery Systems, Humans, Tannins, Heparin, Drug Liberation, Peptides, Proteolysis
Abstract

Stability issues in membrane-free coacervates have been addressed with coating strategies, but these approaches often compromise the permeability of the coacervate. Here we report a facile approach to maintain both stability and permeability using tannic acid and then demonstrate the value of this approach in enzyme-triggered drug release. First, we develop size-tunable coacervates via self-assembly of heparin glycosaminoglycan with tyrosine and arginine-based peptides. A thrombin-recognition site within the peptide building block results in heparin release upon thrombin proteolysis. Notably, polyphenols are integrated within the nano-coacervates to improve stability in biofluids. Phenolic crosslinking at the liquid-liquid interface enables nano-coacervates to maintain exceptional structural integrity across various environments. We discover a pivotal polyphenol threshold for preserving enzymatic activity alongside enhanced stability. The disassembly rate of the nano-coacervates increases as a function of thrombin activity, thus preventing a coagulation cascade. This polyphenol-based approach not only improves stability but also opens the way for applications in biomedicine, protease sensing, and bio-responsive drug delivery.

Published
2024

2. Risk-anticipatory autonomous driving strategies considering vehicles' weights, based on hierarchical deep reinforcement learning

Author

Chen, Di, Li, Hao, Jin, Zhicheng, Tu, Huizhao, and Zhu, Meixin

Subjects
Computer Science - Robotics, Computer Science - Machine Learning
Abstract

Autonomous vehicles (AVs) have the potential to prevent accidents caused by drivers errors and reduce road traffic risks. Due to the nature of heavy vehicles, whose collisions cause more serious crashes, the weights of vehicles need to be considered when making driving strategies aimed at reducing the potential risks and their consequences in the context of autonomous driving. This study develops an autonomous driving strategy based on risk anticipation, considering the weights of surrounding vehicles and using hierarchical deep reinforcement learning. A risk indicator integrating surrounding vehicles weights, based on the risk field theory, is proposed and incorporated into autonomous driving decisions. A hybrid action space is designed to allow for left lane changes, right lane changes and car-following, which enables AVs to act more freely and realistically whenever possible. To solve the above hybrid decision-making problem, a hierarchical proximal policy optimization (HPPO) algorithm with an attention mechanism (AT-HPPO) is developed, providing great advantages in maintaining stable performance with high robustness and generalization. An indicator, potential collision energy in conflicts (PCEC), is newly proposed to evaluate the performance of the developed AV driving strategy from the perspective of the consequences of potential accidents. The performance evaluation results in simulation and dataset demonstrate that our model provides driving strategies that reduce both the likelihood and consequences of potential accidents, at the same time maintaining driving efficiency. The developed method is especially meaningful for AVs driving on highways, where heavy vehicles make up a high proportion of the traffic., Comment: 14 pages, 5 figures, 6 tables

Published
2023

3. Next-Generation Vitrimers Design through Theoretical Understanding and Computational Simulations.

Author

Li, Ke, Tran, Nam, Pan, Yuqing, Wang, Sheng, Jin, Zhicheng, Chen, Guoliang, Li, Shuzhou, Zheng, Jianwei, Loh, Xian, and Li, Zibiao

Subjects
Monte Carlo simulations, bond exchange reactions, density functional theory, molecular dynamics simulations, vitrimers
Abstract

Vitrimers are an innovative class of polymers that boast a remarkable fusion of mechanical and dynamic features, complemented by the added benefit of end-of-life recyclability. This extraordinary blend of properties makes them highly attractive for a variety of applications, such as the automotive sector, soft robotics, and the aerospace industry. At their core, vitrimer materials consist of crosslinked covalent networks that have the ability to dynamically reorganize in response to external factors, including temperature changes, pressure variations, or shifts in pH levels. In this review, the aim is to delve into the latest advancements in the theoretical understanding and computational design of vitrimers. The review begins by offering an overview of the fundamental principles that underlie the behavior of these materials, encompassing their structures, dynamic behavior, and reaction mechanisms. Subsequently, recent progress in the computational design of vitrimers is explored, with a focus on the employment of molecular dynamics (MD)/Monte Carlo (MC) simulations and density functional theory (DFT) calculations. Last, the existing challenges and prospective directions for this field are critically analyzed, emphasizing the necessity for additional theoretical and computational advancements, coupled with experimental validation.

Published
2024

4. Inter-coat protein loading of active ingredients into Tobacco mild green mosaic virus through partial dissociation and reassembly of the virion

Author

González-Gamboa, Ivonne, Caparco, Adam A, McCaskill, Justin, Fuenlabrada-Velázquez, Paulina, Hays, Samuel S, Jin, Zhicheng, Jokerst, Jesse V, Pokorski, Jonathan K, and Steinmetz, Nicole F

Subjects
Agricultural, Veterinary and Food Sciences, Chemical Sciences, Horticultural Production, Bioengineering, Nanotechnology, Good Health and Well Being, Tobacco Mosaic Virus, Ecosystem, Tobamovirus, Pesticides, Soil, Virion, Plant virus, Tobacco mild green mosaic virus, Pesticide nanocarriers, Drug delivery, Precision agriculture
Abstract

Chemical pesticide delivery is a fundamental aspect of agriculture. However, the extensive use of pesticides severely endangers the ecosystem because they accumulate on crops, in soil, as well as in drinking and groundwater. New frontiers in nano-engineering have opened the door for precision agriculture. We introduced Tobacco mild green mosaic virus (TMGMV) as a viable delivery platform with a high aspect ratio and favorable soil mobility. In this work, we assess the use of TMGMV as a chemical nanocarrier for agriculturally relevant cargo. While plant viruses are usually portrayed as rigid/solid structures, these are "dynamic materials," and they "breathe" in solution in response to careful adjustment of pH or bathing media [e.g., addition of solvent such as dimethyl sulfoxide (DMSO)]. Through this process, coat proteins (CPs) partially dissociate leading to swelling of the nucleoprotein complexes-allowing for the infusion of active ingredients (AI), such as pesticides [e.g., fluopyram (FLP), clothianidin (CTD), rifampicin (RIF), and ivermectin (IVM)] into the macromolecular structure. We developed a "breathing" method that facilitates inter-coat protein cargo loading, resulting in up to  ~ 1000 AIs per virion. This is of significance since in the agricultural setting, there is a need to develop nanoparticle delivery strategies where the AI is not chemically altered, consequently avoiding the need for regulatory and registration processes of new compounds. This work highlights the potential of TMGMV as a pesticide nanocarrier in precision farming applications; the developed methods likely would be applicable to other protein-based nanoparticle systems.

Published
2024

5. Self-Assembled Homopolymeric Spherulites from Small Molecules in Solution

Author

Song, Qiantao, Li, Yi, Jin, Zhicheng, Liu, Hai, Creyer, Matthew N, Yim, Wonjun, Huang, Yanping, Hu, Xiaobing, He, Tengyu, Li, Yajuan, Kelley, Shana O, Shi, Lingyan, Zhou, Jiajing, and Jokerst, Jesse V

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Bioengineering, Nanotechnology, Crystallization, Polymers, Freezing, Nanoparticles, General Chemistry, Chemical sciences, Engineering
Abstract

Polymeric spherulites are typically formed by melt crystallization: spherulitic growth in solution is rare and requires complex polymers and dilute solutions. Here, we report the mild and unique formation of luminescent spherulites at room temperature via the simple molecule benzene-1,4-dithiol (BDT). Specifically, BDT polymerized into oligomers (PBDT) via disulfide bonds and assembled into uniform supramolecular nanoparticles in aqueous buffer; these nanoparticles were then dissolved back into PBDT in a good solvent (i.e., dimethylformamide) and underwent chain elongation to form spherulites (rPBDT) in 10 min. The spherulite geometry was modulated by changing the PBDT concentration and reaction time. Due to the step-growth polymerization and reorganization of PBDT, these spherulites not only exhibited robust structure but also showed broad clusterization-triggered emission. The biocompatibility and efficient cellular uptake of the spherulites further underscore their value as traceable drug carriers. This system provides a new pathway for designing versatile superstructures with value for hierarchical assembly of small molecules into a complicated biological system.

Published
2023

6. Goldilocks Energy Minimum: Peptide-Based Reversible Aggregation and Biosensing

Author

Yim, Wonjun, Retout, Maurice, Chen, Amanda A, Ling, Chuxuan, Amer, Lubna, Jin, Zhicheng, Chang, Yu-Ci, Chavez, Saul, Barrios, Karen, Lam, Benjamin, Li, Zhi, Zhou, Jiajing, Shi, Lingyan, Pascal, Tod A, and Jokerst, Jesse V

Subjects
Analytical Chemistry, Engineering, Chemical Sciences, Nanotechnology, Bioengineering, Humans, Gold, COVID-19, Metal Nanoparticles, Peptides, Peptide Hydrolases, colorimetric biosensor, DLVO theory, reversibleaggregation, dissociation peptide, matrix-insensitive, SARS-CoV-19, reversible aggregation, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences
Abstract

Colorimetric biosensors based on gold nanoparticle (AuNP) aggregation are often challenged by matrix interference in biofluids, poor specificity, and limited utility with clinical samples. Here, we propose a peptide-driven nanoscale disassembly approach, where AuNP aggregates induced by electrostatic attractions are dissociated in response to proteolytic cleavage. Initially, citrate-coated AuNPs were assembled via a short cationic peptide (RRK) and characterized by experiments and simulations. The dissociation peptides were then used to reversibly dissociate the AuNP aggregates as a function of target protease detection, i.e., main protease (Mpro), a biomarker for severe acute respiratory syndrome coronavirus 2. The dissociation propensity depends on peptide length, hydrophilicity, charge, and ligand architecture. Finally, our dissociation strategy provides a rapid and distinct optical signal through Mpro cleavage with a detection limit of 12.3 nM in saliva. Our dissociation peptide effectively dissociates plasmonic assemblies in diverse matrices including 100% human saliva, urine, plasma, and seawater, as well as other types of plasmonic nanoparticles such as silver. Our peptide-enabled dissociation platform provides a simple, matrix-insensitive, and versatile method for protease sensing.

Published
2023

7. An approach to zwitterionic peptide design for colorimetric detection of the Southampton norovirus SV3CP protease.

Author

Yeung, Justin, Jin, Zhicheng, Ling, Chuxuan, Retout, Maurice, Barbosa da Silva, Elany, Damani, Manan, Chang, Yu-Ci, Yim, Wonjun, ODonoghue, Anthony, and Jokerst, Jesse

Subjects
Humans, Peptide Hydrolases, Norovirus, Gold, Colorimetry, Metal Nanoparticles, Peptides, Endopeptidases, Feces, Caliciviridae Infections, Reverse Transcriptase Polymerase Chain Reaction
Abstract

Noroviruses are highly contagious and are one of the leading causes of acute gastroenteritis worldwide. Due to a lack of effective antiviral therapies, there is a need to diagnose and surveil norovirus infections to implement quarantine protocols and prevent large outbreaks. Currently, the gold standard of diagnosis uses reverse transcription polymerase chain reaction (RT-PCR), but PCR can have limited availability. Here, we propose a combination of a tunable peptide substrate and gold nanoparticles (AuNPs) to colorimetrically detect the Southampton norovirus 3C-like protease (SV3CP), a key protease in viral replication. Careful design of the substrate employs a zwitterionic peptide with opposite charged moieties on the C- and N- termini to induce a rapid color change visible to the naked eye; thus, this color change is indicative of SV3CP activity. This work expands on existing zwitterionic peptide strategies for protease detection by systematically evaluating the effects of lysine and arginine on nanoparticle charge screening. We also determine a limit of detection for SV3CP of 28.0 nM with comparable results in external breath condensate, urine, and fecal matter for 100 nM of SV3CP. The key advantage of this system is its simplicity and accessibility, thus making it an attractive tool for qualitative point-of-care diagnostics.

Published
2023

11. Weakly Supervised Object Localization Based on Implicit Spatial Constraints

Author

Li, Hanxin, Jia, Ke, Jin, Zhicheng, Xu, Changyuan, Zhou, Ji, Wang, Wenrun, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Huang, De-Shuang, editor, Si, Zhanjun, editor, and Guo, Jiayang, editor

Published
2024
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12. Peptide valence-induced breaks in plasmonic coupling

Author

Chang, Yu-Ci, Jin, Zhicheng, Li, Ke, Zhou, Jiajing, Yim, Wonjun, Yeung, Justin, Cheng, Yong, Retout, Maurice, Creyer, Matthew N, Fajtová, Pavla, He, Tengyu, Chen, Xi, O’Donoghue, Anthony J, and Jokerst, Jesse V

Subjects
Chemical Sciences
Abstract

Electrostatic interactions are a key driving force that mediates colloidal assembly. The Schulze-Hardy rule states that nanoparticles have a higher tendency to coagulate in the presence of counterions with high charge valence. However, it is unclear how the Schulze-Hardy rule works when the simple electrolytes are replaced with more sophisticated charge carriers. Here, we designed cationic peptides of varying valencies and demonstrate that their charge screening behaviors on anionic gold nanoparticles (AuNPs) follow the six-power relationship in the Schulze-Hardy rule. This finding further inspires a simple yet effective strategy for measuring SARS-CoV-2 main protease (Mpro) via naked eyes. This work provides a unique avenue for fundamental NP disassembly based on the Schulze-Hardy rule and can help design versatile substrates for colorimetric sensing of other proteases.

Published
2023

13. Protease-Responsive Potential-Tunable AIEgens for Cell Selective Imaging of TMPRSS2 and Accurate Inhibitor Screening.

Author

Cheng, Yong, Clark, Alex, Yim, Wonjun, Borum, Raina, Chang, Yu-Ci, Jin, Zhicheng, He, Tengyu, Carlin, Aaron, and Jokerst, Jesse

Subjects
Humans, Peptide Hydrolases, COVID-19, SARS-CoV-2, Cell Membrane, Protease Inhibitors, Virus Internalization, Serine Endopeptidases
Abstract

Transmembrane protease serine 2 (TMPRSS2) is a plasma membrane protease that activates both spike protein of coronaviruses for cell entry and oncogenic signaling pathways for tumor progression. TMPRSS2 inhibition can reduce cancer invasion and metastasis and partially prevent the entry of SARS-CoV-2 into host cells. Thus, there is an urgent need for both TMPRSS2-selective imaging and precise screening of TMPRSS2 inhibitors. Here, we report a TMPRSS2-responsive surface-potential-tunable peptide-conjugated probe (EGTP) with aggregation-induced emission (AIE) features for TMPRSS2 selective imaging and accurate inhibitor screening. The amphiphilic EGTP was constructed with tunable surface potential and responsive efficiency with TMPRSS2 and its inhibitor. The rational construction of AIE luminogens (AIEgens) with modular peptides indicated that the cleavage of EGTP led to a gradual aggregation with bright fluorescence in high TMPRSS2-expressing cells. This strategy may have value for selective detection of cancer cells, SARS-CoV-2-target cells, and screening of protease inhibitors.

Published
2023

14. Peptide Amphiphile Mediated Co‐assembly for Nanoplasmonic Sensing

Author

Jin, Zhicheng, Li, Yi, Li, Ke, Zhou, Jiajing, Yeung, Justin, Ling, Chuxuan, Yim, Wonjun, He, Tengyu, Cheng, Yong, Xu, Ming, Creyer, Matthew N, Chang, Yu‐Ci, Fajtová, Pavla, Retout, Maurice, Qi, Baiyan, Li, Shuzhou, O'Donoghue, Anthony J, and Jokerst, Jesse V

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Humans, COVID-19, SARS-CoV-2, Peptides, Peptide Hydrolases, Surface-Active Agents, Endopeptidases, Gold, Aromatic Interactions, Colorimetric Test, Main Protease, Peptide Amphiphile, Saliva, Organic Chemistry, Chemical sciences
Abstract

Aromatic interactions are commonly involved in the assembly of naturally occurring building blocks, and these interactions can be replicated in an artificial setting to produce functional materials. Here we describe a colorimetric biosensor using co-assembly experiments with plasmonic gold and surfactant-like peptides (SLPs) spanning a wide range of aromatic residues, polar stretches, and interfacial affinities. The SLPs programmed in DDD-(ZZ)x -FFPC self-assemble into higher-order structures in response to a protease and subsequently modulate the colloidal dispersity of gold leading to a colorimetric readout. Results show the strong aggregation propensity of the FFPC tail without polar DDD head. The SLPs were specific to the target protease, i.e., Mpro , a biomarker for SARS-CoV-2. This system is a simple and visual tool that senses Mpro in phosphate buffer, exhaled breath condensate, and saliva with detection limits of 15.7, 20.8, and 26.1 nM, respectively. These results may have value in designing other protease testing methods.

Published
2023

15. 3D‐Bioprinted Phantom with Human Skin Phototypes for Biomedical Optics

Author

Yim, Wonjun, Zhou, Jiajing, Sasi, Lekshmi, Zhao, Jiayu, Yeung, Justin, Cheng, Yong, Jin, Zhicheng, Johnson, Wade, Xu, Ming, Palma‐Chavez, Jorge, Fu, Lei, Qi, Baiyan, Retout, Maurice, Shah, Nisarg J, Bae, Jinhye, and Jokerst, Jesse V

Subjects
Engineering, Chemical Sciences, Physical Sciences, Nanotechnology, Bioengineering, Cancer, Generic health relevance, Humans, Melanins, Skin, Phantoms, Imaging, Optics and Photonics, Optical Imaging, 3D bioprinting, artificial skins, bioinspired materials, biophotonic devices, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences
Abstract

3D-bioprinted skin-mimicking phantoms with skin colors ranging across the Fitzpatrick scale are reported. These tools can help understand the impact of skin phototypes on biomedical optics. Synthetic melanin nanoparticles of different sizes (70-500 nm) and clusters are fabricated to mimic the optical behavior of melanosome. The absorption coefficient and reduced scattering coefficient of the phantoms are comparable to real human skin. Further the melanin content and distribution in the phantoms versus real human skins are validated via photoacoustic (PA) imaging. The PA signal of the phantom can be improved by: 1) increasing melanin size (3-450-fold), 2) increasing clustering (2-10.5-fold), and 3) increasing concentration (1.3-8-fold). Then, multiple biomedical optics tools (e.g., PA, fluorescence imaging, and photothermal therapy) are used to understand the impact of skin tone on these modalities. These well-defined 3D-bioprinted phantoms may have value in translating biomedical optics and reducing racial bias.

Published
2023

18. A Self-Immolative Fluorescent Probe for Selective Detection of SARS-CoV‑2 Main Protease

Author

Xu, Ming, Zhou, Jiajing, Cheng, Yong, Jin, Zhicheng, Clark, Alex E, He, Tengyu, Yim, Wonjun, Li, Yi, Chang, Yu-Ci, Wu, Zhuohong, Fajtová, Pavla, O’Donoghue, Anthony J, Carlin, Aaron F, Todd, Michael D, and Jokerst, Jesse V

Subjects
Vaccine Related, Prevention, Pneumonia, Emerging Infectious Diseases, Biodefense, Lung, COVID-19, Coronavirus 3C Proteases, Fluorescent Dyes, Humans, SARS-CoV-2, Analytical Chemistry, Other Chemical Sciences
Abstract

Existing tools to detect and visualize severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) suffer from low selectivity, poor cell permeability, and high cytotoxicity. Here we report a novel self-immolative fluorescent probe (MP590) for the highly selective and sensitive detection of the SARS-CoV-2 main protease (Mpro). This fluorescent probe was prepared by connecting a Mpro-cleavable peptide (N-acetyl-Abu-Tle-Leu-Gln) with a fluorophore (i.e., resorufin) via a self-immolative aromatic linker. Fluorescent titration results show that MP590 can detect Mpro with a limit of detection (LoD) of 35 nM and is selective over interferents such as hemoglobin, bovine serum albumin (BSA), thrombin, amylase, SARS-CoV-2 papain-like protease (PLpro), and trypsin. The cell imaging data indicate that this probe can report Mpro in HEK 293T cells transfected with a Mpro expression plasmid as well as in TMPRSS2-VeroE6 cells infected with SARS-CoV-2. Our results suggest that MP590 can both measure and monitor Mpro activity and quantitatively evaluate Mpro inhibition in infected cells, making it an important tool for diagnostic and therapeutic research on SARS-CoV-2.

Published
2022

19. Protease-Responsive Peptide-Conjugated Mitochondrial-Targeting AIEgens for Selective Imaging and Inhibition of SARS-CoV-2-Infected Cells.

Author

Cheng, Yong, Clark, Alex, Zhou, Jiajing, He, Tengyu, Li, Yi, Borum, Raina, Creyer, Matthew, Xu, Ming, Jin, Zhicheng, Zhou, Jingcheng, Yim, Wonjun, Wu, Zhuohong, Fajtová, Pavla, ODonoghue, Anthony, Carlin, Aaron, and Jokerst, Jesse

Subjects
SARS-CoV-2, main protease, mitochondrial targeting, peptide-conjugated AIEgen, virus theranostics, Humans, Antiviral Agents, Coronavirus 3C Proteases, COVID-19, Peptides, SARS-CoV-2
Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a serious threat to human health and lacks an effective treatment. There is an urgent need for both real-time tracking and precise treatment of the SARS-CoV-2-infected cells to mitigate and ultimately prevent viral transmission. However, selective triggering and tracking of the therapeutic process in the infected cells remains challenging. Here, we report a main protease (Mpro)-responsive, mitochondrial-targeting, and modular-peptide-conjugated probe (PSGMR) for selective imaging and inhibition of SARS-CoV-2-infected cells via enzyme-instructed self-assembly and aggregation-induced emission (AIE) effect. The amphiphilic PSGMR was constructed with tunable structure and responsive efficiency and validated with recombinant proteins, cells transfected with Mpro plasmid or infected by SARS-CoV-2, and a Mpro inhibitor. By rational construction of AIE luminogen (AIEgen) with modular peptides and Mpro, we verified that the cleavage of PSGMR yielded gradual aggregation with bright fluorescence and enhanced cytotoxicity to induce mitochondrial interference of the infected cells. This strategy may have value for selective detection and treatment of SARS-CoV-2-infected cells.

Published
2022

20. Synchronization of RF Data in Ultrasound Open Platforms (UOPs) for High-Accuracy and High-Resolution Photoacoustic Tomography Using the Scissors Programming Method.

Author

Yim, Wonjun, Wu, Zhuohong, He, Tengyu, Jokerst, Jesse, Fu, Lei, Jin, Zhicheng, and Qi, Baiyan

Subjects
Humans, Lasers, Phantoms, Imaging, Photoacoustic Techniques, Spectrum Analysis, Tomography, X-Ray Computed, Transducers, Ultrasonography
Abstract

Synchronization is important for photoacoustic (PA) tomography, but some fixed delays between the data acquisition (DAQ) and the light pulse are a common problem degrading imaging quality. Here, we present a simple yet versatile method named Scissors to help synchronize ultrasound open platforms (UOPs) for PA imaging. Scissors is a programed function that can cut or add a fixed delay to radio frequency (RF) data and, thus, synchronize it before reconstruction. Scissors applies the programmable metric of UOPs and has several advantages. It is compatible with many setups regardless of the synchronization methods, light sources, transducers, and delays. The synchronization is adjustable in steps reciprocal to the UOPs sampling rate (20-ns step with a 50-MHz sampling rate). Scissors works in real-time PA imaging, and no extra hardware is needed. We programed Scissors in Vantage UOP (Verasonics, Inc., Kirkland, WA, USA) and then imaged two 30- [Formula: see text] nichrome wires with a 20.2-MHz central frequency transducer. The PA image was severely distorted by an 828-ns delay; over 90% delay was caused by our Q -switch laser. The axial and lateral resolutions are 112 and [Formula: see text], respectively, after using Scissors. We imaged a human finger in vivo, and the imaging quality is tremendously improved after solving the 828-ns delay by using Scissors.

Published
2022

26. Photoacoustic imaging of posterior periodontal pocket using a commercial hockey-stick transducer.

Author

Fu, Lei, Ling, Chen, Jin, Zhicheng, Luo, Jessica, Palma-Chavez, Jorge, Wu, Zhuohong, Zhou, Jingcheng, Zhou, Jiajing, Donovan, Brian, Mishra, Aditya, He, Tengyu, Jokerst, Jesse, and Qi, Baiyan

Subjects
clinical attachment loss, optoacoustics, oral health, periodontitis, photoacoustic imaging, Animals, Hockey, Periodontal Pocket, Photoacoustic Techniques, Reproducibility of Results, Swine, Transducers
Abstract

SIGNIFICANCE: Photoacoustic imaging has shown advantages over the periodontal probing method in measuring the periodontal probing depth, but the large size of conventional photoacoustic transducers prevents imaging of the more posterior teeth. AIM: Our aim is to develop a photoacoustic imaging system to image the more posterior periodontal pocket. APPROACH: We report a clinical hockey-stick-style transducer integrated with fibers for periodontal photoacoustic imaging. Cuttlefish ink labeled the periodontal pocket as the photoacoustic contrast agent. RESULTS: We characterized the imaging system and then measured the pocket depth of 35 swine teeth. Three raters evaluated the performance of the hockey-stick transducer. The measurements between the Williams probing (gold standard) and the photoacoustic methods were blinded but highly correlated. We showed a bias of ∼0.3  mm for the imaging-based technique versus Williams probing. The minimum inter-reliability was over 0.60 for three different raters of varying experience, suggesting that this approach to measure the periodontal pocket is reproducible. Finally, we imaged three pre-molars of a human subject. We could access more upper and posterior teeth than conventional linear transducers. CONCLUSIONS: The unique angle shape of the hockey-stick transducer allows it to image more posterior teeth than regular linear transducers. This study demonstrated the ability of a hockey-stick transducer to measure the periodontal pocket via photoacoustic imaging.

Published
2022

27. Accounting for BEV Users' Risk Attitudes and Charging Inertia in En Route Charging Choice Behavior

Author

Jin, Zhicheng, Li, Hao, Chen, Di, Yu, Lu, and Tu, Huizhao

Subjects
Travel -- United Kingdom -- China, Electric vehicles, Battery chargers, Energy consumption
Abstract

This paper innovatively explores BEV (battery electric vehicle) users' risk attitudes and charging inertia, examining their effects on en route charging and charging route choice behavior. An attitudinal survey was conducted to explore the two latent variables of risk attitudes and charging inertia in relation to socioeconomic and travel-related characteristics. ICLV (Integrated choice and latent variable) models are adopted to estimate the latent variables and the charging choice behavior simultaneously. Specifically, uncertainty in energy consumption is first considered in the ICLV model, which is represented by the available range (AR) uncertainty. Multinomial logit (MNL) models directly incorporating socioeconomic attributes are employed as a reference for comparison with ICLV models. Results illustrate that risk attitudes and charging inertia both play significant roles in modeling en route charging choice behavior. Risk-averse users and users having charging inertia value AR uncertainty more. Battery range, charging frequency, and income emerge as the most crucial factors influencing users' intention to charge en route. The results show significant heterogeneity of BEV users in attitudes and charging choice behavior, underscoring the importance of accounting for the heterogeneity in en route charging demand estimation and deployment optimization of public charging stations, particularly for medium-to long-distance trips., Author(s): Zhicheng Jin [1,2]; Hao Li [1]; Di Chen [2]; Lu Yu [3]; Huizhao Tu (corresponding author) [1] 1. Introduction Due to fewer greenhouse gas emissions, less dependence on petroleum, [...]

Published
2024
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28. A fiber optic photoacoustic sensor for real-time heparin monitoring

Author

Zhou, Jingcheng, Yim, Wonjun, Zhou, Jiajing, Jin, Zhicheng, Xu, Ming, Mantri, Yash, He, Tengyu, Cheng, Yong, Fu, Lei, Wu, Zhuohong, Hancock, Tiffany, Penny, William, and Jokerst, Jesse V

Subjects
Analytical Chemistry, Chemical Sciences, Engineering, Biomedical Engineering, Nanotechnology, Clinical Research, Anticoagulants, Biosensing Techniques, Heparin, Humans, Partial Thromboplastin Time, Fiber optic sensor, Heparin monitoring, Photoacoustic imaging, Anticoagulation therapy, Bioinformatics, Analytical chemistry, Biomedical engineering
Abstract

Heparin is a common anticoagulant, but heparin overdose is a common intensive care unit (ICU) medication error due to the narrow therapeutic window of heparin. Conventional methods to monitoring heparin suffer from long turnaround time, the need for skilled personnel, and low frequency of sampling. To overcome these issues, we describe here a fiber optic photoacoustic (PA) sensor for real-time heparin monitoring. The proposed sensor was validated with in vitro testing and in a simulated in vivo model using the following samples: (1) phosphate-buffered saline (PBS), (2) spiked human plasma, (3) spiked whole human blood, and (4) clinical samples from patients treated with heparin. Samples were validated by comparing the PA signal to the activated partial thromboplastin time (aPTT) as well as the activated clotting time (ACT). Importantly, the proposed sensor has a short turnaround time (3 min) and a limit of detection of 0.18 U/ml in whole human blood. The PA signal is linear with heparin dose and correlates with the aPTT value (Pearson's r = 0.99). The PA signal from 32 clinical samples collected from eight patients linearly correlated with ACT values (Pearson's r = 0.89, in vitro; Pearson's r = 0.93, simulated in vivo). The PA signal was also validated against the cumulative heparin dose (Pearson's r = 0.94, in vitro; Pearson's r = 0.96, simulated in vivo). This approach could have applications in both in vitro and real-time in vivo heparin monitoring.

Published
2022

33. Cyberbullying Detection with Side Information: A Real-World Application of COVID-19 News Comment in Chinese Language

Author

Xing, Jian, Zhang, Xiaoyu, Chen, Lin, Ding, Yu, Zhang, Yaru, Hu, Wei, Jin, Zhicheng, Wang, Jingya, Chen, Yaowei, Hong, Yi, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Groen, Derek, editor, de Mulatier, Clélia, editor, Paszynski, Maciej, editor, Krzhizhanovskaya, Valeria V., editor, Dongarra, Jack J., editor, and Sloot, Peter M. A., editor

Published
2022
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46. Colorimetric sensing for translational applications: from colorants to mechanisms.

Author

Jin, Zhicheng, Yim, Wonjun, Retout, Maurice, Housel, Emily, Zhong, Wenbin, Zhou, Jiajing, Strano, Michael S., and Jokerst, Jesse V.

Subjects
*HIGH throughput screening (Drug development), *SAMPLING (Process), *MATERIALS science, *MICROFLUIDICS, *BIOMARKERS, *DIGITAL technology
Abstract

Colorimetric sensing offers instant reporting via visible signals. Versus labor-intensive and instrument-dependent detection methods, colorimetric sensors present advantages including short acquisition time, high throughput screening, low cost, portability, and a user-friendly approach. These advantages have driven substantial growth in colorimetric sensors, particularly in point-of-care (POC) diagnostics. Rapid progress in nanotechnology, materials science, microfluidics technology, biomarker discovery, digital technology, and signal pattern analysis has led to a variety of colorimetric reagents and detection mechanisms, which are fundamental to advance colorimetric sensing applications. This review first summarizes the basic components (e.g., color reagents, recognition interactions, and sampling procedures) in the design of a colorimetric sensing system. It then presents the rationale design and typical examples of POC devices, e.g., lateral flow devices, microfluidic paper-based analytical devices, and wearable sensing devices. Two highlighted colorimetric formats are discussed: combinational and activatable systems based on the sensor-array and lock-and-key mechanisms, respectively. Case discussions in colorimetric assays are organized by the analyte identities. Finally, the review presents challenges and perspectives for the design and development of colorimetric detection schemes as well as applications. The goal of this review is to provide a foundational resource for developing colorimetric systems and underscoring the colorants and mechanisms that facilitate the continuing evolution of POC sensors. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Performance Analysis of Existing SIMD Architectures

Author

Cui, Chao, Zhang, Xian, Jin, Zhicheng, Barbosa, Simone Diniz Junqueira, Editorial Board Member, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Kotenko, Igor, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Xu, Weixia, editor, Xiao, Liquan, editor, Li, Jinwen, editor, and Zhu, Zhenzhen, editor

Published
2019
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48. Pathology Trainee Redeployment and Education During the COVID-19 Pandemic: An Institutional Experience

Author

Monroig-Bosque, Paloma del C., Hsu, Jim W., Lin, Michelle S., Shehabeldin, Ahmed N., Rogers, John T., Kim, Charlotte F., Kalsekar, Ayaz G., Jin, Zhicheng, Cara, Lukas R., Barbieri, Andreia N., El-Zaatari, Ziad, Eskandari, Ghazaleh, Sheu, Tiffany G., Tomsula, Jessica A., Long, Scott W., Zieske, Arthur W., Leveque, Christopher M., Salazar, Eric, Mody, Dina R., Schwartz, Mary R., Cykowski, Matthew D., Yi, Xin, Powell, Suzanne Z., and Thomas, Jessica S.

Published
2020
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50. Peptide‐Driven Proton Sponge Nano‐Assembly for Imaging and Triggering Lysosome‐Regulated Immunogenic Cancer Cell Death

Author

He, Tengyu, primary, Wen, Jing, additional, Wang, Wenjian, additional, Hu, Zeliang, additional, Ling, Chuxuan, additional, Zhao, Zhongchao, additional, Cheng, Yong, additional, Chang, Yu‐Ci, additional, Xu, Ming, additional, Jin, Zhicheng, additional, Amer, Lubna, additional, Sasi, Lekshmi, additional, Fu, Lei, additional, Steinmetz, Nicole F., additional, Rana, Tariq M., additional, Wu, Peng, additional, and Jokerst, Jesse V., additional

Published
2024
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