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1. Full Text Ibuprofen-loaded fibrous patches—taming inhibition at the spinal cord injury site
by Pires, Liliana R and Lopes, Cátia D. F and Salvador, Daniela and Rocha, Daniela N and Pêgo, Ana Paula
Journal of materials science. Materials in medicine, ISSN 0957-4530, 10/2017, Volume 28, Issue 10, pp. 1 - 12
Biomedical Engineering | Polymer Sciences | Materials Science | Regenerative Medicine/Tissue Engineering | Ceramics, Glass, Composites, Natural Materials | Surfaces and Interfaces, Thin Films | Biomaterials | Engineering | Technology | Engineering, Biomedical | Materials Science, Biomaterials | Science & Technology | Nanofibers - chemistry | Transdermal Patch | Spinal Cord - drug effects | Nerve Regeneration - physiology | Cells, Cultured | Rats | Ibuprofen - administration & dosage | Drug Carriers - chemistry | Tissue Scaffolds - chemistry | Polyesters - chemistry | Animals | Spinal Cord - physiology | Nerve Regeneration - drug effects | Polymers - chemistry | Mice | Spinal Cord Injuries - therapy | Drug Delivery Systems - methods | Dioxanes - chemistry | Microtechnology | Tissue Engineering | Phosphates | Implants, Artificial | Prosthesis | Analysis | Ibuprofen | Spinal cord injuries | Carbonates | Tubulins | Cues | Surgical implants | Drug delivery systems | Spinal cord | Patches (structures) | Electrospinning | Implantation | RhoA protein | Pharmacology | Spinal cord injury | Biological activity | Fibers | Regeneration | Reduction | Cell activation | Tubulin | Lysophosphatidic acid | Biocompatibility | Nonsteroidal anti-inflammatory drugs | Scaffolds | In vitro methods and tests | Index Medicus
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2. Full Text Selective Nanovector Mediated Treatment of Activated Proinflammatory Microglia/Macrophages in Spinal Cord Injury
by Papa, Simonetta and Rossi, Filippo and Ferrari, Raffaele and Mariani, Alessandro and De Paola, Massimiliano and Caron, Ilaria and Fiordaliso, Fabio and Bisighini, Cinzia and Sammali, Eliana and Colombo, Claudio and Gobbi, Marco and Canovi, Mara and Lucchetti, Jacopo and Peviani, Marco and Morbidelli, Massimo and Forloni, Gianluigi and Perale, Giuseppe and Moscatelli, Davide and Veglianese, Pietro
ACS nano, ISSN 1936-0851, 11/2013, Volume 7, Issue 11, pp. 9881 - 9895
spinal cord injury | inflammation | minocycline | neurodegeneration | nanoparticle | drug delivery | microglia | Physical Sciences | Chemistry | Materials Science | Nanoscience & Nanotechnology | Technology | Materials Science, Multidisciplinary | Science & Technology - Other Topics | Chemistry, Multidisciplinary | Chemistry, Physical | Science & Technology | Nanoparticles - chemistry | Biocompatible Materials - chemistry | Coculture Techniques | Polyethylene Glycols - chemistry | Antigens, CD - metabolism | Drug Delivery Systems | Interleukin-6 - blood | Spinal Cord - pathology | Microglia - pathology | Minocycline - administration & dosage | Rhodamines - chemistry | Spinal Cord Injuries - therapy | Disease Models, Animal | Enzyme-Linked Immunosorbent Assay | Macrophages - pathology | Cell Survival | Mice, Inbred C57BL | Inflammation | Polyesters - chemistry | Animals | Quantum Dots | Antigens, Differentiation, Myelomonocytic - metabolism | Nanomedicine - methods | Polymers - chemistry | Mice | Hydrogels - chemistry | Index Medicus | Activated | Spinal cord | Drug delivery systems | Polyethylene glycol | Activation | Infiltration | Nanostructure | Macrophages | Injuries
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3. Neuroscience
: exploring the brain
by Bear, Mark F and Connors, Barry W and Paradiso, Michael A
2016, Fourth edition., ISBN 9780781778176, xlii, 975 pages
Brain | Neurosciences | Cerveau
Book
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4. Full Text SnapShot: Spinal Cord Development
by Alaynick, William A and Jessell, Thomas M and Pfaff, Samuel L
Cell (Cambridge), ISSN 0092-8674, 2011, Volume 146, Issue 1, pp. 178 - 178.e1
Biochemistry & Molecular Biology | Life Sciences & Biomedicine | Science & Technology | Cell Biology | Motor Neurons - metabolism | Nerve Tissue Proteins - metabolism | Animals | Spinal Cord - cytology | Spinal Cord - growth & development | Homeodomain Proteins - metabolism | Index Medicus
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5. Full Text Lithium chloride contributes to blood–spinal cord barrier integrity and functional recovery from spinal cord injury by stimulating autophagic flux
by Tong, Minji and He, Zili and Lin, Xiaoxiao and Zhou, Yulong and Wang, Qingqing and Zheng, Zengming and Chen, Jian and Xu, Huazi and Tian, Naifeng
Biochemical and biophysical research communications, ISSN 0006-291X, 01/2018, Volume 495, Issue 4, pp. 2525 - 2531
Spinal cord injury | Lithium chloride | Blood–spinal cord barrier | Autophagic flux | Biochemistry & Molecular Biology | Biophysics | Life Sciences & Biomedicine | Science & Technology | Proteins | Evaluation | Halides | Proteolysis | Analysis | Spinal cord injuries | Permeability | Health aspects | Lithium compounds | Index Medicus
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6. Full Text Mesoporous silica-supported lipid bilayers (protocells) for DNA cargo delivery to the spinal cord
by Dengler, Ellen C and Liu, Juewen and Kerwin, Audra and Torres, Sergio and Olcott, Clara M and Bowman, Brandi N and Armijo, Leisha and Gentry, Katherine and Wilkerson, Jenny and Wallace, James and Jiang, Xingmao and Carnes, Eric C and Brinker, C. Jeffrey and Milligan, Erin D
Journal of controlled release, ISSN 0168-3659, 06/2013, Volume 168, Issue 2, pp. 209 - 224
Gene delivery | Biocompatibility | Non-viral vector | Interleukin-10 cytokine | Cell and tissue viability | Neuropathic pain | Pharmacology & Pharmacy | Physical Sciences | Chemistry | Life Sciences & Biomedicine | Chemistry, Multidisciplinary | Science & Technology | Sciatic Nerve - injuries | Spinal Cord - metabolism | Humans | Male | Quaternary Ammonium Compounds - chemistry | Cholesterol - chemistry | Artificial Cells - chemistry | HEK293 Cells | Fatty Acids, Monounsaturated - chemistry | Injections, Spinal | Cell Line | Gene Transfer Techniques | Cell Survival | Silicon Dioxide - chemistry | DNA - administration & dosage | Rats | Phosphatidylcholines - chemistry | Rats, Sprague-Dawley | Animals | Plasmids | Interleukin-10 - genetics | Mice | Lipid Bilayers - chemistry | Liposomes | Nitric Oxide - metabolism | Silica | Health aspects | Analysis | DNA | Index Medicus
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7. Full Text 3D Printed Stem‐Cell Derived Neural Progenitors Generate Spinal Cord Scaffolds
by Joung, Daeha and Truong, Vincent and Neitzke, Colin C and Guo, Shuang‐Zhuang and Walsh, Patrick J and Monat, Joseph R and Meng, Fanben and Park, Sung Hyun and Dutton, James R and Parr, Ann M and McAlpine, Michael C
Advanced functional materials, ISSN 1616-301X, 09/2018, Volume 28, Issue 39, pp. 1801850 - n/a
spinal cord scaffolds | tissue engineering | 3D bioprinting | induced pluripotent stem cells | neural progenitor cells | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Nervous system diseases | Tissue engineering | Neurons | Analysis | Stem cells | Bioengineering | Spinal cord | Hydrogels | Central nervous system | Channels | Neurological diseases | Axons | Three dimensional printing | Biomimetics | Neural networks | Cells (biology) | Biocompatibility | Extrusion | Scaffolds
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8. Full Text Biomimetic 3D-printed scaffolds for spinal cord injury repair
by Koffler, Jacob and Zhu, Wei and Qu, Xin and Platoshyn, Oleksandr and Dulin, Jennifer N and Brock, John and Graham, Lori and Lu, Paul and Sakamoto, Jeff and Marsala, Martin and Chen, Shaochen and Tuszynski, Mark H
Nature medicine, ISSN 1078-8956, 02/2019, Volume 25, Issue 2, pp. 263 - 269
Biochemistry & Molecular Biology | Life Sciences & Biomedicine | Medicine, Research & Experimental | Science & Technology | Cell Biology | Research & Experimental Medicine | Green Fluorescent Proteins - metabolism | Animals | Biomimetics | Humans | Neural Stem Cells - transplantation | Rats | Nerve Regeneration | Printing, Three-Dimensional | Spinal Cord Injuries - therapy | Neural Stem Cells - metabolism | Neural Stem Cells - ultrastructure | Tissue Scaffolds - chemistry | Usage | Care and treatment | Rodents | Stem cells | Spinal cord injuries | Transplantation | Research | Health aspects | 3D printing | Risk factors | Surgical implants | Spinal cord | Hydrogels | Tissue engineering | Central nervous system | Spinal cord injury | Progenitor cells | Regeneration (physiology) | Complexity | Medicine | Regeneration | Axons | Three dimensional printing | Precision medicine | Synaptic transmission | Computer architecture | Cells (biology) | Neural stem cells | Scaffolds | Injuries | Index Medicus
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9. Full Text In situ gelling hydrogels for conformal repair of spinal cord defects, and local delivery of BDNF after spinal cord injury
by Jain, Anjana and Kim, Young-Tae and McKeon, Robert J and Bellamkonda, Ravi V
Biomaterials, ISSN 0142-9612, 2006, Volume 27, Issue 3, pp. 497 - 504
CNS scaffolds | In situ gelling hydrogel | Spinal cord regeneration | CNS drug delivery | BDNF delivery | Engineering | Materials Science | Technology | Engineering, Biomedical | Materials Science, Biomaterials | Science & Technology | Macrophages - chemistry | Male | Neurons - cytology | Axons - physiology | Drug Carriers | Antigens, CD - analysis | Brain-Derived Neurotrophic Factor - pharmacology | Spinal Cord - chemistry | Sepharose - therapeutic use | Spinal Cord - pathology | Guided Tissue Regeneration - methods | Neurofilament Proteins - analysis | Astrocytes - chemistry | Brain-Derived Neurotrophic Factor - therapeutic use | Spinal Cord Injuries - therapy | Astrocytes - cytology | Chondroitin Sulfate Proteoglycans - analysis | Implants, Experimental | Neurons - chemistry | Glial Fibrillary Acidic Protein - analysis | Rats | Axons - chemistry | Macrophages - cytology | Phosphatidylcholines - chemistry | Rats, Sprague-Dawley | Animals | Sepharose - chemistry | Antigens, Differentiation, Myelomonocytic - analysis | Nerve Regeneration - drug effects | Spinal Cord Injuries - physiopathology | Hydrogels - pharmacology | Delayed-Action Preparations | Hydrogels - therapeutic use | Drugs | Drug delivery systems | Biological products | Analysis | Spinal cord injuries | Sulfates | Growth factors | Vehicles | Index Medicus
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10. Full Text Intrathecal delivery of a polymeric nanocomposite hydrogel after spinal cord injury
by Baumann, M. Douglas and Kang, Catherine E and Tator, Charles H and Shoichet, Molly S
Biomaterials, ISSN 0142-9612, 2010, Volume 31, Issue 30, pp. 7631 - 7639
Advanced Basic Science | Dentistry | Nanoparticles | Hyaluronan | Methylcellulose | Drug delivery | Hydrogel | Spinal cord injury | Engineering | Materials Science | Technology | Engineering, Biomedical | Materials Science, Biomaterials | Science & Technology | Nanocomposites - therapeutic use | Nanocomposites - chemistry | Biocompatible Materials - chemistry | Humans | Motor Activity | Drug Carriers - chemistry | Spinal Cord Injuries - pathology | Behavior, Animal | Polymers - therapeutic use | Female | Spinal Cord Injuries - therapy | Injections, Spinal | Drug Administration Routes | Lactic Acid - chemistry | Hyaluronic Acid - chemistry | Rats | Materials Testing | Rats, Sprague-Dawley | Methylcellulose - chemistry | Animals | Polyglycolic Acid - chemistry | Polymers - chemistry | Biocompatible Materials - therapeutic use | Hydrogels - therapeutic use | Hydrogels - chemistry | Drugs | Drug delivery systems | Biological products | Spinal cord injuries | Paralysis | Hyaluronic acid | Polymers | Vehicles | Spinal cord | Rope | Hydrogels | Barriers | Biocompatibility | Nanostructure | Biopolymers | Injuries | Index Medicus
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