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1. Research on Argo Data Anomaly Detection Based on Improved DBSCAN Algorithm

Author

Jiang, YongGuo, Kang, Ce, Shen, Yan, Huang, TingTing, Zhai, GuangDa, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Ma, Huadong, editor, Wang, Xue, editor, Cheng, Lianglun, editor, Cui, Li, editor, Liu, Liang, editor, and Zeng, An, editor

Published
2022
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2. Whole genome sequencing for the genetic diagnosis of heterogenous dystonia phenotypes

Author

Kumar, Kishore R., Davis, Ryan L., Tchan, Michel C., Wali, G.M., Mahant, Neil, Ng, Karl, Kotschet, Katya, Siow, Sue-Faye, Gu, Jason, Walls, Zachary, Kang, Ce, Wali, Gautam, Levy, Stan, Phua, Chung Sen, Yiannikas, Con, Darveniza, Paul, Chang, Florence C.F., Morales-Briceño, Hugo, Rowe, Dominic B., Drew, Alex, Gayevskiy, Velimir, Cowley, Mark J., Minoche, Andre E., Tisch, Stephen, Hayes, Michael, Kummerfeld, Sarah, Fung, Victor S.C., and Sue, Carolyn M.

Published
2019
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7. Dynamic risk assessment of gas pipeline operation process by fusing visual and olfactory monitoring

Author

Denglong Ma, Weigao Mao, Guangsen Zhang, Chaoyi Liu, Yi Han, Xiaoming Zhang, Hansheng Wang, Kang Cen, Wan Lu, Denghui Li, and Hanyue Zhang

Subjects
Gas pipeline maintenance, Dynamic risk assessment, Visual-olfactory fusion, Risk matrix, Risk quantification model, Risk in industry. Risk management, HD61
Abstract

With the rapid increase in urban gas consumption, the frequency of maintenance and repair of gas pipelines has escalated, leading to a rise in safety accidents during these processes. The traditional manual supervision model presents challenges such as inaccurate monitoring results, incomplete risk factor analysis, and a lack of quantitative risk assessment. This research focuses on developing a dynamic risk assessment technology for gas emergency repair operations by integrating the monitoring outcomes of artificial olfactory for gas leakage information and video object recognition for visual safety factor monitoring data. To quantitatively evaluate the risk of the operation process, a three-dimensional risk assessment model combining gas leakage with risk-correlated sensitivity was established as well as a separate three-dimensional risk assessment model integrating visual risk factors with predictable risk disposition. Furthermore, a visual risk quantification expression mode based on the risk matrix-radar map method was introduced. Additionally, a risk quantification model based on the fusion of visual and olfactory results was formulated. The verification results of simulation scenarios based on field data indicate that the visual-olfactory fusion risk assessment method can more accurately reflect the dynamic risk level of the operation process compared to simple visual safety factor monitoring. The outcomes of this research can contribute to the identification of safety status and early warning of risks related to personnel, equipment, and environmental factors in emergency repair operations. Moreover, these results can be extended to other operational scenarios, such as oil and gas production stations and long-distance pipeline operations.

Published
2024
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8. Investigating the Genetic Basis of the Spastic-Ataxias using Next Generation Sequencing and a Mutation Database

Author

Kang, Ce

Subjects
ataxia, genetic, mutation, heterogeneity, spastic, hereditary
Abstract

Introduction: “Spastic-ataxias” are a group of conditions that are characterised by spasticity as well as ataxia. They are usually hereditary in nature, and demonstrate widespread genetic heterogeneity and phenotypical variance. In this thesis, I seek to draw meaningful genotype-phenotype relationship in two disorders – Hereditary Cerebellar Ataxia (HCA) and Hereditary Spastic Paraplegia (HSP). Method: We undertook separate studies for each disorder. The first study is a retrospective review of HCA cases referred to the Neurogenetics Clinic at Royal North Shore Hospital over a 15-year period. Here, the patient’s signs and symptoms are analysed with their mode of genetic investigation. The second study is a systemic review of all published HSP cases in the PubMed database until April 2018. For this study, the cases of HSP are limited to patients with mutations in ATL1, SPAST, and REEP1, the most common autosomal dominant variants of HSP. The signs and symptoms of these cases were analysed along with the genetic and mutational data. Results: For the HCA study, we reviewed 87 cases, and found routine repeat expansion panels have a detection rate of 13.8%, with next-generation sequencing (NGS) yielded a further 34.4% (11/32). NGS and whole genome sequencing together improve the overall diagnostic rate to 28.8%, and detected several novel variants. For the HSP study, we reviewed 1642 cases, and found several key phenotypic differences amongst the three variants. We found loss-of-function variants to be more frequent in SPAST and REEP1, and is associated with more severe disease in SPAST. Discussion: Our studies highlight the genetic and phenotypic heterogeneity of HCA and HSP. In HCA, we support the use of NGS approaches for individuals who were negative on repeat expansion testing. In HSP, we found several key differences amongst the variants to have implication for clinical diagnosis. These studies have contributed key findings to the literature of “spastic-ataxia”.

Published
2021

9. CD30 (Ki-1)-positive large-cell cutaneous T-cell lymphoma with secondary xanthomatous changes after radiation therapy

Author

Chung <ce:sup loc='post">a</ce:sup>, Han Gil, Chung <ce:sup loc='post">a</ce:sup>, Yae Lee, Kang <ce:sup loc='post">a</ce:sup>, Jin Moon, Yang <ce:sup loc='post">b</ce:sup>, Woo Ick, Suh <ce:sup loc='post">c</ce:sup>, Chang Ok, Hahn <ce:sup loc='post">d</ce:sup>, Jee Sook, and Leea <ce:sup loc='post">a,b,c,d</ce:sup>, Min-Geol

Published
2003
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10. High Degree of Genetic Heterogeneity for Hereditary Cerebellar Ataxias in Australia

Author

Kang, Ce, primary, Liang, Christina, additional, Ahmad, Kate E., additional, Gu, Yufan, additional, Siow, Sue-Faye, additional, Colebatch, James G., additional, Whyte, Scott, additional, Ng, Karl, additional, Cremer, Philip D., additional, Corbett, Alastair J., additional, Davis, Ryan L., additional, Roscioli, Tony, additional, Cowley, Mark J., additional, Park, Jin-Sung, additional, Sue, Carolyn M., additional, and Kumar, Kishore R., additional

Published
2018
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16. Prevalence and riks factors of overactive Bladder in 6–13 year old korean Children: Nationwide Multicenter Study

Author

LEE, Sang Don, CHUNG <ce:sup loc='post">∗</ce:sup>, Jae Min, KIM <ce:sup loc='post">†</ce:sup>, Su Yung, PARK <ce:sup loc='post">‡</ce:sup>, Yong Hoon, WON YEOL <ce:sup loc='post">¶</ce:sup>, Won Yeol, PARK <ce:sup loc='post">§</ce:sup>, Kwan Hyun, BAE <ce:sup loc='post">ƒ</ce:sup>, Kee Su, KIM <ce:sup loc='post">#</ce:sup>, Kun Suk, HAN <ce:sup loc='post">¤</ce:sup>, Sang Won, LEE <ce:sup loc='post">+</ce:sup>, Jung Won, KANG <ce:sup loc='post">±</ce:sup>, Dong Il, SUH <ce:sup loc='post">»</ce:sup>, Suh, MOON <ce:sup loc='post">μ</ce:sup>, Du Geon, KIM <ce:sup loc='post">¢</ce:sup>, Hang Gwun, KWON, Dong Deuk, and NAMGUNG, Mi Gyeong

Published
2008
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17. Antimicrobial effect of combined preservatives using chestnut inner shell, cinnamon, and ε-poly-lysine against food-poisoning bacteria Staphylococcus aureus .

Author

Lee NK, Park YJ, Kang CE, Kim JH, Shin D, Lee DH, and Paik HD

Abstract

Chestnut inner shell, cinnamon, and ε-poly-lysine (ε-PL) have been used for natural preservative of food grade, and combined preservatives (CP) has been formulated previously. This study examined whether Staphylococcus aureus growth could be controlled using CP in tryptic soy broth (TSB). CP inhibited S. aureus growth by about 5 log CFU/mL in TSB. The cell surface hydrophobicity, autoaggregation, and motility of S. aureus were slightly reduced by CP treatment. The expression of adhesion- and toxin-related genes in S. aureus treated with CP was reduced than that in the control treated with TSB. In addition, the inhibitory activity of the CP was visible through the SEM images. Therefore, the CP consisted of chestnut inner shell extract, cinnamon extract, and ε-PL had appropriate antibacterial effect against S. aureus and could be applied as antibacterial agents., Competing Interests: Conflict of interestAll authors declared that they do not have any conflict of interest in this manuscript., (© The Korean Society of Food Science and Technology 2024. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published
2024
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18. Heat-Killed Lactilactobacillus sakei WB2305 and Lactiplantibacillus plantarum WB2324 Inhibited LPS-Induced Inflammation in Human Airway Epithelial Cells.

Author

Kim JH, Kang CE, Lee NK, and Paik HD

Abstract

Asthma is characterized by inflammation of the airways, including the inflammatory and airway structural cells. Probiotics, which have diverse effects, even within the same species, are being studied to prevent and mitigate the severity of asthma. Lactilactobacillus sakei WB2305 and Lactiplantibacillus plantarum WB2324 were isolated from kimchi. These strains have acceptable probiotic properties and are safe. In addition, the anti-inflammatory potential of the heat-killed isolates against lipopolysaccharide (LPS)-induced inflammation in the human pulmonary epithelial cell line (A549) was investigated. The heat-killed Lact. sakei WB2305 and Lact. plantarum WB2324 reduced the chemokine and cytokines mRNA expression levels, as shown by the results of using real-time polymerase chain reaction. Western blotting results showed that the nuclear factor-kappa B (NF-κB) activation and mitogen-activated protein kinases (MAPK) signaling pathways were suppressed by treatment with the heat-killed strains. The production amounts of eotaxin, tumor necrosis factor-ɑ (TNF-α), and interleukin-6 (IL-6) were lower than those in LPS-only treated cells. Additionally, 2',7'-dichlorofluorescein diacetate (DCFH-DA) staining confirmed decreased reactive oxygen species (ROS) production in A549 cells. Therefore, the results of present study demonstrate the anti-inflammatory and anti-asthmatic activities of heat-killed Lact. sakei WB2305 and Lact. plantarum WB2324 in human airway epithelial cells., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
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19. Probiotic Weissella cibaria displays antibacterial and anti-biofilm effect against cavity-causing Streptococcus mutans.

Author

Kang CE, Park YJ, Kim JH, Lee NK, and Paik HD

Subjects
Humans, Streptococcus mutans, Anti-Bacterial Agents pharmacology, Biofilms, Dental Caries prevention & control, Probiotics pharmacology
Abstract

Streptococcus mutans is a significant contributor to dental caries and causes functional and aesthetic discomfort. Weissella cibaria strains were isolated from kimchi, and their functional properties were determined. In this study, the antibacterial and antibiofilm effects of four W. cibaria strains (D29, D30, D31, and B22) were evaluated against three S. mutans strains using culture fluid and cell-free supernatants. The results showed that W. cibaria reduced the exopolysaccharides production and auto-aggregation, increased co-aggregation, and downregulated virulence factors, leading to the inhibition of bacterial growth and biofilm formation. These findings were confirmed using scanning electron microscopy and confocal laser scanning microscopy. These results indicate that oral health can be potentially improved by W. cibaria., Competing Interests: Declaration of competing interest The authors declare no conflicts of interest regarding the work described in this manuscript., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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20. Antibody-dependent cellular cytotoxicity-null effector developed using mammalian and plant GlycoDelete platform.

Author

Kang CE, Lee S, Ahn T, Seo DH, Ko BJ, Jung M, Lee J, Kim JY, and Kim WT

Subjects
Cricetinae, Animals, Cricetulus, Programmed Cell Death 1 Receptor, Immune Checkpoint Inhibitors, Antibody-Dependent Cell Cytotoxicity, Immunoglobulin G, Polysaccharides metabolism, Receptors, IgG metabolism, Immunoglobulin Fc Fragments metabolism, Nivolumab
Abstract

Cancer therapy using immune checkpoint inhibitor antibodies has markedly shifted the paradigm of cancer treatment. However, methods completely eliminating the effector function of these signal-regulating antibodies is urgently required. The heterogeneity of glycan chains in antibodies limits their use as therapeutic agents due to their variability; thus, the development of uniform glycan chains is necessary. Here, we subjected the anti-programmed cell death protein (PD)-1 antibody nivolumab, a representative immune checkpoint inhibitor, to GlycoDelete (GD) engineering to remove the antibody-dependent cellular cytotoxicity (ADCC) of the antibody, leaving only one glycan in the Fc. Glyco-engineered CHO cells were prepared by overexpressing endo-β-N-acetyl-glucosaminidase (Endo T) in CHO cells, in which N-acetyl-glucosaminyl-transferase I was knocked out using Cas9. GD IgG1 nivolumab and GD IgG4 nivolumab were produced using GD CHO cells, and glycan removal was confirmed using mass spectrometry. Target binding and PD-1 inhibition was not altered; however, ADCC decreased. Furthermore, the IgG4 form, determined to be the most suitable form of GD nivolumab, was produced in a plant GD system. The plant GD nivolumab also reduced ADCC without affecting PD-1 inhibitory function. Thus, CHO and plant GD platforms can be used to improve signal-regulating antibodies by reducing their effector function., (© 2022. The Author(s).)

Published
2022
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21. Synergistic antimicrobial activity of ε-polylysine, chestnut extract, and cinnamon extract against Staphylococcus aureus .

Author

Lee DU, Park YJ, Kang CE, Cui CH, Lee DH, Lee NK, and Paik HD

Abstract

A mixed natural preservative composed of ε-polylysine (ε-PL), chestnut 70% ethanol extract (NE), and cinnamon hydrothermal extract (CW), was investigated for the reduction of Staphylococcus aureus . The minimum inhibitory concentration (MIC) and minimum bacterial concentration (MBC) of seven natural extracts were investigated against a cocktail of three strains of S. aureus (ATCC 25923, ATCC 33591, and ATCC 33594). Three important factors (ε-PL, NE, and CW) were selected by using the Plackett-Burman (PB) design for the response surface model ( P  < 0.001). Following a central composite design, S. aureus were treated with mixtures of natural preservatives that included ε-PL, NE, and CW. The MIC and MBC of ε-PL and the natural extracts and ranged from 1 to 16 mg/mL (R 2  = 0.9857). The mixed natural preservative presented a synergistic antibacterial effect, at the optimum point. These results suggest that mixed natural preservatives of ε-PL, NE, and CW can lower the economic cost of food processing., Competing Interests: Conflict of interest The authors confirm that they have no conflicts of interest., (© The Korean Society of Food Science and Technology 2022.)

Published
2022
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22. Comparison of CD20 Binding Affinities of Rituximab Produced in Nicotiana benthamiana Leaves and Arabidopsis thaliana Callus.

Author

Kang CE, Lee S, Seo DH, Heo W, Kwon SH, Kim J, Lee J, Ko BJ, Koiwa H, Kim WT, and Kim JY

Subjects
Animals, Antibody Affinity, Antigens, CD20 chemistry, Antineoplastic Agents, Immunological isolation & purification, Antineoplastic Agents, Immunological metabolism, Arabidopsis genetics, Cricetinae, Humans, Plant Leaves metabolism, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Recombinant Proteins isolation & purification, Rituximab biosynthesis, Rituximab genetics, Rituximab isolation & purification, Nicotiana genetics, Antigens, CD20 metabolism, Arabidopsis metabolism, Plant Leaves chemistry, Rituximab metabolism, Nicotiana metabolism
Abstract

Plants are promising drug-production platforms with high economic efficiency, stability, and convenience in mass production. However, studies comparing the equivalency between the original antibodies and those produced in plants are limited. Amino acid sequences that constitute the Fab region of an antibody are diverse, and the post-transcriptional modifications that occur according to these sequences in animals and plants are also highly variable. In this study, rituximab, a blockbuster antibody drug used in the treatment of non-Hodgkin's lymphoma, was produced in Nicotiana benthamiana leaves and Arabidopsis thaliana callus, and was compared to the original rituximab produced in CHO cells. Interestingly, the epitope recognition and antigen-binding abilities of rituximab from N. benthamiana leaves were almost lost. In the case of rituximab produced in A. thaliana callus, the specific binding ability and CD20 capping activity were maintained, but the binding affinity was less than 50% of that of original rituximab from CHO cells. These results suggest that different plant species exhibit different binding affinities. Accordingly, in addition to the differences in PTMs between mammals and plants, the differences between the species must also be considered in the process of producing antibodies in plants., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2021
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23. Publisher Correction: Stimulation of entorhinal cortex-dentate gyrus circuitry is antidepressive.

Author

Yun S, Reynolds RP, Petrof I, White A, Rivera PD, Segev A, Gibson AD, Suarez M, DeSalle MJ, Ito N, Mukherjee S, Richardson DR, Kang CE, Ahrens-Nicklas RC, Soler I, Chetkovich DM, Kourrich S, Coulter DA, and Eisch AJ

Abstract

In the version of this article originally published, a URL provided in the Methods section was incorrect. The URL had a solidus at the end but should have appeared as http://www.nature.com/authors/policies/image.html. The error has been corrected in the PDF and HTML versions of this article.

Published
2018
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24. Stimulation of entorhinal cortex-dentate gyrus circuitry is antidepressive.

Author

Yun S, Reynolds RP, Petrof I, White A, Rivera PD, Segev A, Gibson AD, Suarez M, DeSalle MJ, Ito N, Mukherjee S, Richardson DR, Kang CE, Ahrens-Nicklas RC, Soler I, Chetkovich DM, Kourrich S, Coulter DA, and Eisch AJ

Subjects
Animals, Behavior, Animal, Chronic Disease, Dendrites pathology, Glutamates metabolism, HEK293 Cells, Humans, Membrane Proteins deficiency, Membrane Proteins metabolism, Mice, Inbred C57BL, Mice, Knockout, Nerve Net metabolism, Nerve Net pathology, Neurogenesis, Peroxins deficiency, Peroxins metabolism, Stress, Psychological complications, Antidepressive Agents therapeutic use, Dentate Gyrus pathology, Entorhinal Cortex pathology
Abstract

Major depressive disorder (MDD) is considered a 'circuitopathy', and brain stimulation therapies hold promise for ameliorating MDD symptoms, including hippocampal dysfunction. It is unknown whether stimulation of upstream hippocampal circuitry, such as the entorhinal cortex (Ent), is antidepressive, although Ent stimulation improves learning and memory in mice and humans. Here we show that molecular targeting (Ent-specific knockdown of a psychosocial stress-induced protein) and chemogenetic stimulation of Ent neurons induce antidepressive-like effects in mice. Mechanistically, we show that Ent-stimulation-induced antidepressive-like behavior relies on the generation of new hippocampal neurons. Thus, controlled stimulation of Ent hippocampal afferents is antidepressive via increased hippocampal neurogenesis. These findings emphasize the power and potential of Ent glutamatergic afferent stimulation-previously well-known for its ability to influence learning and memory-for MDD treatment.

Published
2018
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25. Localized and sustained delivery of fibroblast growth factor-2 from a nanoparticle-hydrogel composite for treatment of spinal cord injury.

Author

Kang CE, Baumann MD, Tator CH, and Shoichet MS

Subjects
Animals, Female, Fibroblast Growth Factor 2 chemistry, Humans, Hydrogel, Polyethylene Glycol Dimethacrylate chemistry, Immunohistochemistry, Lactic Acid administration & dosage, Lactic Acid chemistry, Nanoparticles chemistry, Polyglycolic Acid administration & dosage, Polyglycolic Acid chemistry, Polylactic Acid-Polyglycolic Acid Copolymer, Rats, Rats, Sprague-Dawley, Recombinant Proteins administration & dosage, Recombinant Proteins chemistry, Spinal Cord Injuries pathology, Fibroblast Growth Factor 2 administration & dosage, Hydrogel, Polyethylene Glycol Dimethacrylate administration & dosage, Nanoparticles administration & dosage, Spinal Cord Injuries drug therapy
Abstract

After traumatic spinal cord injury, grossly injured blood vessels leak blood and fluid into the parenchyma, leading to a large cystic cavity. Fibroblast growth factor-2 (FGF2) can reduce immediate vasoconstriction of vessels in the tissue surrounding the primary injury and promote angiogenesis. A localized delivery system would both achieve restricted delivery of FGF2 to the spinal cord and limit possible systemic effects such as mitogenesis. To enhance the endogenous angiogenic response after spinal cord injury, FGF2 was encapsulated in poly(lactide-co-glycolide) (PLGA) nanoparticles which were embedded in a biopolymer blend of hyaluronan and methylcellulose (HAMC) and then injected into the intrathecal space. Treatment began immediately after a 26 g clip compression spinal cord injury in rats and consisted of intrathecal delivery of FGF2 from the HAMC/PLGA/FGF2 composite. Control animals received intrathecal HAMC loaded with blank nanoparticles, intrathecal HAMC alone or intrathecal artificial cerebrospinal fluid alone. Sustained and localized delivery of FGF2 from composite HAMC/PLGA/FGF2 achieved higher blood vessel density in the dorsal horns 28 days post-injury, due to either greater angiogenesis near the epicenter of the injury or vasoprotection acutely after spinal cord injury. Importantly, delivery of FGF2 from composite HAMC/PLGA/FGF2 did not produce proliferative lesions that had been previously reported for FGF2 delivered locally using a minipump/catheter. These results suggest that localized and sustained delivery with composite HAMC/PLGA/FGF2 is an excellent system to deliver biomolecules directly to the spinal cord, thereby circumventing the blood spinal cord barrier and avoiding systemic side effects., (Copyright © 2012 S. Karger AG, Basel.)

Published
2013
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26. The effects of intrathecal injection of a hyaluronan-based hydrogel on inflammation, scarring and neurobehavioural outcomes in a rat model of severe spinal cord injury associated with arachnoiditis.

Author

Austin JW, Kang CE, Baumann MD, DiDiodato L, Satkunendrarajah K, Wilson JR, Stanisz GJ, Shoichet MS, and Fehlings MG

Subjects
Animals, Arachnoiditis immunology, Electrophysiology, Enzyme-Linked Immunosorbent Assay, Female, Fibrosis drug therapy, Immunohistochemistry, Injections, Spinal, Magnetic Resonance Imaging, Rats, Rats, Wistar, Spinal Cord Injuries immunology, Arachnoiditis drug therapy, Hyaluronic Acid therapeutic use, Hydrogel, Polyethylene Glycol Dimethacrylate administration & dosage, Hydrogel, Polyethylene Glycol Dimethacrylate therapeutic use, Inflammation drug therapy, Spinal Cord Injuries drug therapy
Abstract

Traumatic spinal cord injury (SCI) comprises a heterogeneous condition caused by a complex array of mechanical forces that damage the spinal cord - making each case somewhat unique. In addition to parenchymal injury, a subset of patients experience severe inflammation in the subarachnoid space or arachnoiditis, which can lead to the development of fluid-filled cavities/syringes, a condition called post-traumatic syringomyelia (PTS). Currently, there are no therapeutic means to address this devastating complication in patients and furthermore once PTS is diagnosed, treatment is often prone to failure. We hypothesized that reducing subarachnoid inflammation using a novel bioengineered strategy would improve outcome in a rodent model of PTS. A hydrogel of hyaluronan and methyl cellulose (HAMC) was injected into the subarachnoid space 24 h post PTS injury in rats. Intrathecal injection of HAMC reduced the extent of fibrosis and inflammation in the subarachnoid space. Furthermore, HAMC promoted improved neurobehavioural recovery, enhanced axonal conduction and reduced the extent of the lesion as assessed by MRI and histomorphometric assessment. These findings were additionally associated with a reduction in the post-traumatic parenchymal fibrous scar formation as evidenced by reduced CSPG deposition and reduced IL-1α cytokine levels. Our data suggest that HAMC is capable of modulating inflammation and scarring events, leading to improved functional recovery following severe SCI associated with arachnoiditis., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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27. Deletion of the hyperpolarization-activated cyclic nucleotide-gated channel auxiliary subunit TRIP8b impairs hippocampal Ih localization and function and promotes antidepressant behavior in mice.

Author

Lewis AS, Vaidya SP, Blaiss CA, Liu Z, Stoub TR, Brager DH, Chen X, Bender RA, Estep CM, Popov AB, Kang CE, Van Veldhoven PP, Bayliss DA, Nicholson DA, Powell CM, Johnston D, and Chetkovich DM

Subjects
Animals, Cyclic Nucleotide-Gated Cation Channels genetics, Depression psychology, Depression therapy, Genetic Therapy methods, Hippocampus chemistry, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels, Membrane Proteins physiology, Mice, Mice, Inbred C57BL, Mice, Knockout, Peroxins, Potassium Channels genetics, Protein Subunits deficiency, Protein Subunits physiology, Protein Transport genetics, Cyclic Nucleotide-Gated Cation Channels deficiency, Cyclic Nucleotide-Gated Cation Channels metabolism, Depression genetics, Gene Deletion, Hippocampus physiology, Membrane Proteins deficiency, Membrane Proteins metabolism, Potassium Channels deficiency, Potassium Channels metabolism, Protein Subunits metabolism
Abstract

Output properties of neurons are greatly shaped by voltage-gated ion channels, whose biophysical properties and localization within axodendritic compartments serve to significantly transform the original input. The hyperpolarization-activated current, I(h), is mediated by hyperpolarization-activated cyclic nucleotide-gated (HCN) channels and plays a fundamental role in influencing neuronal excitability by regulating both membrane potential and input resistance. In neurons such as cortical and hippocampal pyramidal neurons, the subcellular localization of HCN channels plays a critical functional role, yet mechanisms controlling HCN channel trafficking are not fully understood. Because ion channel function and localization are often influenced by interacting proteins, we generated a knock-out mouse lacking the HCN channel auxiliary subunit, tetratricopeptide repeat-containing Rab8b-interacting protein (TRIP8b). Eliminating expression of TRIP8b dramatically reduced I(h) expression in hippocampal pyramidal neurons. Loss of I(h)-dependent membrane voltage properties was attributable to reduction of HCN channels on the neuronal surface, and there was a striking disruption of the normal expression pattern of HCN channels in pyramidal neuron dendrites. In heterologous cells and neurons, absence of TRIP8b increased HCN subunit targeting to and degradation by lysosomes. Mice lacking TRIP8b demonstrated motor learning deficits and enhanced resistance to multiple tasks of behavioral despair with high predictive validity for antidepressant efficacy. We observed similar resistance to behavioral despair in distinct mutant mice lacking HCN1 or HCN2. These data demonstrate that interaction with the auxiliary subunit TRIP8b is a major mechanism underlying proper expression of HCN channels and I(h) in vivo, and suggest that targeting I(h) may provide a novel approach to treatment of depression.

Published
2011
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28. Spinal cord blood flow and blood vessel permeability measured by dynamic computed tomography imaging in rats after localized delivery of fibroblast growth factor.

Author

Kang CE, Clarkson R, Tator CH, Yeung IW, and Shoichet MS

Subjects
Animals, Blood Gas Analysis, Data Interpretation, Statistical, Excipients, Fibroblast Growth Factors administration & dosage, Gels, Hyaluronic Acid, Image Processing, Computer-Assisted, Immunohistochemistry, Methylcellulose, Rats, Rats, Sprague-Dawley, Regional Blood Flow drug effects, Regional Blood Flow physiology, Spinal Cord Injuries pathology, Tomography, X-Ray Computed, Capillary Permeability drug effects, Fibroblast Growth Factors pharmacology, Spinal Cord blood supply, Spinal Cord drug effects
Abstract

Following spinal cord injury, profound vascular changes lead to ischemia and hypoxia of spinal cord tissue. Since fibroblast growth factor 2 (FGF2) has angiogenic effects, its delivery to the injured spinal cord may attenuate the tissue damage associated with ischemia. To limit systemic mitogenic effects, FGF2 was delivered to the spinal cord via a gel of hyaluronan and methylcellulose (HAMC) injected into the intrathecal space, and compared to controls receiving HAMC alone and artificial cerebrospinal fluid (aCSF) alone. Dynamic perfusion computed tomography (CT) was employed for the first time in small animals to serially measure blood flow and permeability in the injured and uninjured spinal cord. Spinal cord blood flow (SCBF) and permeability-surface area (PS) measurements were obtained near the injury epicenter, and at two regions rostral to the epicenter in animals that received a 26-g clip compression injury. As predicted, SCBF measurements decreased and PS increased after injury. FGF2 delivered via HAMC after injury restored SCBF towards pre-injury values in all regions, and increased blood flow rates at 7 days post-injury compared to pre-injury measurements. PS was stabilized at regions rostral to the epicenter of injury when FGF2 was delivered with HAMC, with significantly lower values than aCSF controls at 7 days in the region farthest from the epicenter. Laminin staining for blood vessels showed a qualitative increase in vessel density after 7 days when FGF2 was locally delivered. Additionally, permeability stains showed that FGF2 moderately decreased permeability at 7 days post-injury. These data demonstrate that localized delivery of FGF2 improves spinal cord hemodynamics following injury, and that perfusion CT is an important technique to serially measure these parameters in small animal models of spinal cord injury.

Published
2010
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29. Intrathecal delivery of a polymeric nanocomposite hydrogel after spinal cord injury.

Author

Baumann MD, Kang CE, Tator CH, and Shoichet MS

Subjects
Animals, Behavior, Animal, Biocompatible Materials chemistry, Biocompatible Materials therapeutic use, Drug Administration Routes, Female, Humans, Hyaluronic Acid chemistry, Lactic Acid chemistry, Materials Testing, Methylcellulose chemistry, Motor Activity, Polyglycolic Acid chemistry, Polylactic Acid-Polyglycolic Acid Copolymer, Rats, Rats, Sprague-Dawley, Spinal Cord Injuries pathology, Drug Carriers chemistry, Hydrogels chemistry, Hydrogels therapeutic use, Injections, Spinal, Nanocomposites chemistry, Nanocomposites therapeutic use, Polymers chemistry, Polymers therapeutic use, Spinal Cord Injuries therapy
Abstract

Major traumatic spinal cord injury (SCI) results in permanent paralysis below the site of injury. The effectiveness of systemically delivered pharmacological therapies against SCI can be limited by the blood-spinal cord barrier and side effects. Local drug delivery to the injured spinal cord can be achieved using a minimally invasive biopolymer matrix of hyaluronan and methylcellulose injected into the intrathecal space, bypassing the blood-spinal cord barrier and overcoming limitations of existing strategies. Composite hydrogels of drug-loaded poly(lactide-co-glycolide) (PLGA) nanoparticles dispersed in this biopolymer matrix meet the in vitro design criteria for prolonged local release. Using a blank (without drug) composite designed for 28-day sustained release, we presently explore the mechanism of particle-mediated hydrogel stabilization in vitro and aspects of biocompatibility and safety in vivo. The composite hydrogel is well tolerated in the intrathecal space of spinal cord injured rats, showing no increase in inflammation, scarring, or cavity volume relative to controls, and no significant effect on locomotor function up to 28 days. Furthermore, there was no effect on locomotor function in healthy animals which received the composite hydrogel, although a qualitative increase in ED-1 staining was apparent. These data support the further development of composite hydrogels of hyaluronan and methylcellulose containing PLGA nanoparticles for sustained local delivery to the injured spinal cord, an application for which there are no approved alternatives., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published
2010
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30. Poly(ethylene glycol) modification enhances penetration of fibroblast growth factor 2 to injured spinal cord tissue from an intrathecal delivery system.

Author

Kang CE, Tator CH, and Shoichet MS

Subjects
Animals, Drug Administration Routes, Drug Delivery Systems, Fibroblast Growth Factor 2 therapeutic use, Hyaluronic Acid metabolism, Hyaluronic Acid pharmacology, Hyaluronic Acid therapeutic use, Injections, Spinal, Methylcellulose metabolism, Methylcellulose pharmacology, Methylcellulose therapeutic use, Mice, Polyethylene Glycols metabolism, Polyethylene Glycols pharmacology, Polyethylene Glycols therapeutic use, Rats, Rats, Sprague-Dawley, Spinal Cord metabolism, Fibroblast Growth Factor 2 metabolism, Spinal Cord drug effects, Spinal Cord Injuries drug therapy, Spinal Cord Injuries metabolism
Abstract

There is no effective treatment for spinal cord injury and clinical drug delivery techniques are limited by the blood-spinal cord barrier. Our lab has developed an injectable drug delivery system consisting of a biopolymer blend of hyaluronan and methylcellulose (HAMC) that can sustain drug release for up to 24h in the intrathecal space. Fibroblast growth factor 2 (FGF2) has great potential for treatment of spinal cord injury due to its angiogenic and trophic effects, but previous studies showed no penetration into spinal cord tissue when delivered locally. Conjugation to poly(ethylene glycol) (PEG) is known to improve penetration of proteins into tissue by reducing clearance and providing immunogenic shielding. We investigated conjugation of PEG to FGF2 and compared its distribution relative to unmodified FGF2 in injured spinal cord tissue when delivered intrathecally from HAMC. Importantly, PEG conjugation nearly doubled the concentration of FGF2 in the injured spinal cord when delivered locally and, contrary to previous reports, we show that some FGF2 penetrated into the injured spinal cord using a more sensitive detection technique. Our results suggest that PEGylation of FGF2 enhanced tissue penetration by reducing its rate of elimination., (Copyright 2010 Elsevier B.V. All rights reserved.)

Published
2010
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31. Accelerated release of a sparingly soluble drug from an injectable hyaluronan-methylcellulose hydrogel.

Author

Wang Y, Lapitsky Y, Kang CE, and Shoichet MS

Subjects
Algorithms, Calcium Channel Blockers chemistry, Delayed-Action Preparations, Kinetics, Nimodipine chemistry, Solubility, Surface Properties, Calcium Channel Blockers administration & dosage, Hyaluronic Acid chemistry, Hydrogels chemistry, Methylcellulose chemistry, Nimodipine administration & dosage
Abstract

An injectable hydrogel, comprised of hyaluronan and methylcellulose (HAMC), shows promise for localized, sustained delivery of growth factors for treatment of spinal cord injury (SCI). To better understand its potential for the delivery of small molecules, the release of sparingly soluble neuroprotectant, nimodipine, was investigated experimentally and via continuum modeling. This revealed that the MC in HAMC increased the solubility of sparingly soluble drug by over an order of magnitude, and enabled highly tunable release rates to be achieved by varying the method by which the drug was introduced into the scaffold. When nimodipine was introduced into HAMC in solubilized form, it was rapidly released from the scaffold within 8 h. Conversely, when nimodipine was blended into HAMC in particulate form, the release rates were greatly reduced, giving rise to complete release over 2-3 days for small, sub-micron particles, and longer times for large, 100 mum particles. The nimodipine particle-loaded gels yielded particle size-dependent, biphasic release profiles, which reflected rapid release of the solubilized drug followed by the slow, dissolution-limited release of solid nimodipine. This suggests that injectable hydrogel matrices can act as polymeric excipients that accelerate the delivery of poorly soluble drugs and yield highly tunable release rates.

Published
2009
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32. An injectable drug delivery platform for sustained combination therapy.

Author

Baumann MD, Kang CE, Stanwick JC, Wang Y, Kim H, Lapitsky Y, and Shoichet MS

Subjects
Humans, Injections, Pharmaceutical Preparations administration & dosage, Drug Delivery Systems methods, Hyaluronic Acid chemistry, Hydrogels chemistry, Methylcellulose chemistry, Spinal Cord Injuries drug therapy
Abstract

We report the development of a series of physical hydrogel blends composed of hyaluronan (HA) and methyl cellulose (MC) designed for independent delivery of one or more drugs, from 1 to 28 days, for ultimate application in spinal cord injury repair strategies. To achieve a diversity of release profiles we exploit the combination of fast diffusion-controlled release of dissolved solutes from the HAMC itself and slow drug release from poly(lactide-co-glycolide) particles dispersed within the gel. Delivery from the composite hydrogels was demonstrated using the neuroprotective molecules NBQX and FGF-2, which were released for 1 and 4 days, respectively; the neuroregenerative molecules dbcAMP and EGF, and proteins alpha-chymotrypsin and IgG, which were released for 28 days. alpha-chymotrypsin and IgG were selected as model proteins for the clinically relevant neurotrophin-3 and anti-NogoA. Particle loaded hydrogels were significantly more stable than HAMC alone and drug release was longer and more linear than from particles alone. The composite hydrogels are minimally swelling and injectable through a 30 gauge/200 microm inner diameter needle at particle loads up to 15 wt.% and particle diameters up to 15 microm.

Published
2009
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33. A new paradigm for local and sustained release of therapeutic molecules to the injured spinal cord for neuroprotection and tissue repair.

Author

Kang CE, Poon PC, Tator CH, and Shoichet MS

Subjects
Animals, Cell Count, Delayed-Action Preparations, Erythropoietin pharmacology, Hyaluronic Acid metabolism, Methylcellulose metabolism, Neuroprotective Agents pharmacology, Rats, Rats, Sprague-Dawley, Drug Delivery Systems, Erythropoietin administration & dosage, Erythropoietin therapeutic use, Neuroprotective Agents administration & dosage, Neuroprotective Agents therapeutic use, Spinal Cord Injuries drug therapy, Wound Healing drug effects
Abstract

After spinal cord injury (SCI), a complex cascade of events leads to tissue degeneration and a penumbra of cell death. Neuroprotective molecules to limit tissue loss are promising; however, intravenous delivery is limited by the blood-spinal cord barrier and short systemic half-life. Current local delivery strategies are flawed: bolus injection results in drug dispersion throughout the intrathecal (IT) space, and catheters/pumps are invasive and open to infection. Our laboratory previously developed a hydrogel of hyaluronan (HA) and methylcellulose (MC) (HAMC) that, when injected into the IT space, was safe and, remarkably, had some therapeutic benefit on its own. In order to test this new paradigm of local and sustained delivery, relative to conventional delivery strategies, we tested, for the first time, the in vivo efficacy of HAMC as an IT drug delivery system by delivering a known neuroprotective molecule, erythropoietin (EPO). In vitro studies showed that EPO was released from HAMC within 16 h, with 80% bioactivity maintained. When the material alone was injected in vivo, individual fluorescent labels on HA and MC showed that HA dissolved from the gel within 24 h, whereas the hydrophobically associated MC persisted in the IT space for 4-7 days. Using a clip compression injury model of moderate severity, HAMC with EPO was injected in the IT space and, in order to better understand the potential of this delivery system, compared to the therapeutic effect of both common delivery strategies-IT EPO and intraperitoneal EPO-and a control of IT HAMC alone. IT HAMC delivery of EPO resulted in both reduced cavitation after SCI and a greater number of neurons relative to the other delivery strategies. These data suggest that the localized and sustained release of EPO at the tissue site by HAMC delivery enhances neuroprotection. This new system of IT delivery holds great promise for the safe, efficacious, and local delivery of therapeutic molecules directly to the spinal cord.

Published
2009
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34. Glial precursor cell transplantation therapy for neurotrauma and multiple sclerosis.

Author

Kulbatski I, Mothe AJ, Parr AM, Kim H, Kang CE, Bozkurt G, and Tator CH

Subjects
Animals, Behavior physiology, Biomarkers metabolism, Central Nervous System cytology, Central Nervous System physiology, Humans, Myelin Sheath metabolism, Nerve Regeneration physiology, Neuroglia cytology, Neuroglia physiology, Stem Cells cytology, Trauma, Nervous System pathology, Multiple Sclerosis therapy, Neuroglia transplantation, Stem Cell Transplantation, Stem Cells physiology, Trauma, Nervous System therapy
Abstract

Traumatic injury to the brain or spinal cord and multiple sclerosis (MS) share a common pathophysiology with regard to axonal demyelination. Despite advances in central nervous system (CNS) repair in experimental animal models, adequate functional recovery has yet to be achieved in patients in response to any of the current strategies. Functional recovery is dependent, in large part, upon remyelination of spared or regenerating axons. The mammalian CNS maintains an endogenous reservoir of glial precursor cells (GPCs), capable of generating new oligodendrocytes and astrocytes. These GPCs are upregulated following traumatic or demyelinating lesions, followed by their differentiation into oligodendrocytes. However, this innate response does not adequately promote remyelination. As a result, researchers have been focusing their efforts on harvesting, culturing, characterizing, and transplanting GPCs into injured regions of the adult mammalian CNS in a variety of animal models of CNS trauma or demyelinating disease. The technical and logistic considerations for transplanting GPCs are extensive and crucial for optimizing and maintaining cell survival before and after transplantation, promoting myelination, and tracking the fate of transplanted cells. This is especially true in trials of GPC transplantation in combination with other strategies such as neutralization of inhibitors to axonal regeneration or remyelination. Overall, such studies improve our understanding and approach to developing clinically relevant therapies for axonal remyelination following traumatic brain injury (TBI) or spinal cord injury (SCI) and demyelinating diseases such as MS.

Published
2008
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35. Cellular alignment by grafted adhesion peptide surface density gradients.

Author

Kang CE, Gemeinhart EJ, and Gemeinhart RA

Subjects
Animals, Cell Adhesion, Glass chemistry, Mice, Molecular Structure, NIH 3T3 Cells, Polymers chemistry, Silanes chemistry, Spectrum Analysis, Tissue Engineering, Cell Movement drug effects, Fibroblasts cytology, Fibroblasts drug effects, Peptides chemistry, Peptides pharmacology
Abstract

The extracellular matrix and extracellular matrix-associated proteins play a major role in growth and differentiation of tissues and organs. To date, few methods have been developed that allow researchers to examine the affect of surface density gradients of adhesion molecules in a controlled manner. Fibroblasts cultured on surfaces with a surface density gradient of RGD peptide aligned parallel to the gradient while fibroblasts on constant density RGD surfaces spread but did not align as has been shown in numerous earlier studies. Not only did fibroblasts align on the gradient surfaces, but they also showed significantly greater elongation than on constant density peptide surfaces or on control surfaces. This type of method is easy to replicate and can be used by laboratories interested in investigating alignment of various cell types without mechanical force or other stimulation, and without cell-cell interaction or for investigation of affects of surface density gradients of molecules on cellular biochemistry and biophysics. This method also has potential applications for developing scaffolds for tissue engineering applications where cellular alignment is necessary.

Published
2004
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