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Micro-nanofiber composite biomimetic conduits promote long-gap peripheral nerve regeneration in canine models.
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- Bioactive Materials, 2023, v. 30, p. 98, doi. 10.1016/j.bioactmat.2023.06.015
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- Article
Functionalization of in vivo tissue-engineered living biotubes enhance patency and endothelization without the requirement of systemic anticoagulant administration.
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- Bioactive Materials, 2023, v. 26, p. 292, doi. 10.1016/j.bioactmat.2023.03.003
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- Article
Design and Evaluation of a Polypeptide That Mimics the Integrin Binding Site for EDA Fibronectin to Block Profibrotic Cell Activity.
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- International Journal of Molecular Sciences, 2021, v. 22, n. 4, p. 1575, doi. 10.3390/ijms22041575
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- Article
Hepatocyte Growth Factor Mediates Enhanced Wound Healing Responses and Resistance to Transforming Growth Factor-μ<sub>1</sub>-Driven Myofibroblast Differentiation in Oral Mucosal Fibroblasts.
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- International Journal of Molecular Sciences, 2017, v. 18, n. 9, p. 1843, doi. 10.3390/ijms18091843
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- Article
Nuclear hyaluronidase 2 drives alternative splicing of CD44 pre-mRNA to determine profibrotic or antifibrotic cell phenotype.
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- Science Signaling, 2017, v. 10, n. 506, p. 1, doi. 10.1126/scisignal.aao1822
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- Article
Elastic porous microspheres/extracellular matrix hydrogel injectable composites releasing dual bio-factors enable tissue regeneration.
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- Nature Communications, 2024, v. 15, n. 1, p. 1, doi. 10.1038/s41467-024-45764-4
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- Article
Natural Biological Solutions for Chronic Pathological Problems.
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- Biomolecules (2218-273X), 2024, v. 14, n. 10, p. 1248, doi. 10.3390/biom14101248
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- Article
Correction: Liu et al. Emergent Peptides of the Antifibrotic Arsenal: Taking Aim at Myofibroblast Promoting Pathways. Biomolecules 2023, 13 , 1179.
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- 2024
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- Correction Notice
Emergent Peptides of the Antifibrotic Arsenal: Taking Aim at Myofibroblast Promoting Pathways.
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- Biomolecules (2218-273X), 2023, v. 13, n. 8, p. 1179, doi. 10.3390/biom13081179
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- Article
Myofibroblasts: Function, Formation, and Scope of Molecular Therapies for Skin Fibrosis.
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- Biomolecules (2218-273X), 2021, v. 11, n. 8, p. 1095, doi. 10.3390/biom11081095
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- Article
Immunology of Acute and Chronic Wound Healing.
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- Biomolecules (2218-273X), 2021, v. 11, n. 5, p. 700, doi. 10.3390/biom11050700
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- Article
In vivo engineered extracellular matrix scaffolds with instructive niches for oriented tissue regeneration.
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- Nature Communications, 2019, v. 10, n. 1, p. N.PAG, doi. 10.1038/s41467-019-12545-3
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- Article
Versatile Design of NO‐Generating Proteolipid Nanovesicles for Alleviating Vascular Injury.
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- Advanced Science, 2024, v. 11, n. 31, p. 1, doi. 10.1002/advs.202401844
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- Article
Self‐Assembly of Heterogeneous Ferritin Nanocages for Tumor Uptake and Penetration.
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- Advanced Science, 2024, v. 11, n. 17, p. 1, doi. 10.1002/advs.202309271
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- Article
M2 Macrophage‐Derived sEV Regulate Pro‐Inflammatory CCR2<sup>+</sup> Macrophage Subpopulations to Favor Post‐AMI Cardiac Repair.
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- Advanced Science, 2023, v. 10, n. 14, p. 1, doi. 10.1002/advs.202202964
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- Article
An Injectable Dual‐Function Hydrogel Protects Against Myocardial Ischemia/Reperfusion Injury by Modulating ROS/NO Disequilibrium.
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- Advanced Science, 2022, v. 9, n. 15, p. 1, doi. 10.1002/advs.202105408
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- Article
Targeted Repair of Vascular Injury by Adipose‐Derived Stem Cells Modified with P‐Selectin Binding Peptide.
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- Advanced Science, 2020, v. 7, n. 11, p. 1, doi. 10.1002/advs.201903516
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- Article
Layer‐by‐Layer Assembly of Renal‐Targeted Polymeric Nanoparticles for Robust Arginase‐2 Knockdown and Contrast‐Induced Acute Kidney Injury Prevention.
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- Advanced Healthcare Materials, 2024, v. 13, n. 20, p. 1, doi. 10.1002/adhm.202304675
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- Article
Bioorthogonal catalytic nanozyme-mediated lysosomal membrane leakage for targeted drug delivery.
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- Theranostics, 2022, v. 12, n. 3, p. 1132, doi. 10.7150/thno.66325
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- Article
Progress and Current Limitations of Materials for Artificial Bile Duct Engineering.
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- Materials (1996-1944), 2021, v. 14, n. 23, p. 7468, doi. 10.3390/ma14237468
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- Article
Machine‐Learning‐Assisted Nanozyme Design: Lessons from Materials and Engineered Enzymes.
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- Advanced Materials, 2024, v. 36, n. 10, p. 1, doi. 10.1002/adma.202210848
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- Article
Prediction and Design of Nanozymes using Explainable Machine Learning.
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- Advanced Materials, 2022, v. 34, n. 27, p. 1, doi. 10.1002/adma.202201736
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- Article
Biomimetic Design of Artificial Hybrid Nanocells for Boosted Vascular Regeneration in Ischemic Tissues.
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- Advanced Materials, 2022, v. 34, n. 14, p. 1, doi. 10.1002/adma.202110352
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- Article
Modular Assembly of Tumor‐Penetrating and Oligomeric Nanozyme Based on Intrinsically Self‐Assembling Protein Nanocages.
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- Advanced Materials, 2021, v. 33, n. 39, p. 1, doi. 10.1002/adma.202103128
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- Article
Biomimetic Design of Mitochondria‐Targeted Hybrid Nanozymes as Superoxide Scavengers.
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- Advanced Materials, 2021, v. 33, n. 9, p. 1, doi. 10.1002/adma.202006570
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- Article
Nitric‐Oxide‐Releasing Biomaterial Regulation of the Stem Cell Microenvironment in Regenerative Medicine.
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- Advanced Materials, 2020, v. 32, n. 3, p. N.PAG, doi. 10.1002/adma.201805818
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- Article
17β-estradiol ameliorates age-associated loss of fibroblast function by attenuating IFN-γ/ STAT1-dependent miR-7 upregulation.
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- Aging Cell, 2016, v. 15, n. 3, p. 531, doi. 10.1111/acel.12462
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- Article
Micro RNA-7 inhibition rescues age-associated loss of epidermal growth factor receptor and hyaluronan-dependent differentiation in fibroblasts.
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- Aging Cell, 2014, v. 13, n. 2, p. 235, doi. 10.1111/acel.12167
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- Article
Erratum to: Exosome-mimicking nanovesicles derived from efficacy-potentiated stem cell membrane and secretome for regeneration of injured tissue.
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- 2022
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- Correction Notice
Exosome-mimicking nanovesicles derived from efficacy-potentiated stem cell membrane and secretome for regeneration of injured tissue.
- Published in:
- Nano Research, 2022, v. 15, n. 2, p. 1680, doi. 10.1007/s12274-021-3868-z
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- Article