| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2006PNAS..103.2512F |
| P356 | DOI | 10.1073/PNAS.0506020102 |
| P932 | PMC publication ID | 1413771 |
| P698 | PubMed publication ID | 16473951 |
| P5875 | ResearchGate publication ID | 7302645 |
| P50 | author | Steven Segal | Q42642018 |
| Michael Michaud | Q56946273 | ||
| P2093 | author name string | Michael Young | |
| Qi Li | |||
| Joseph A Madri | |||
| Erin B Lavik | |||
| Sara Royce Hynes | |||
| James P Bertram | |||
| Millicent C Ford | |||
| P2860 | cites work | Fiber templating of poly(2-hydroxyethyl methacrylate) for neural tissue engineering | Q28186217 |
| A photolabile hydrogel for guided three-dimensional cell growth and migration | Q28251770 | ||
| Platelet endothelial cell adhesion molecule-1 modulates endothelial cell motility through the small G-protein Rho | Q28590955 | ||
| Endothelial cells derived from human embryonic stem cells | Q34048189 | ||
| Therapeutic angiogenesis. A single intraarterial bolus of vascular endothelial growth factor augments revascularization in a rabbit ischemic hind limb model | Q34125421 | ||
| Altered vascular permeability and early onset of experimental autoimmune encephalomyelitis in PECAM-1-deficient mice | Q34787599 | ||
| Photopolymerizable hydrogels for tissue engineering applications | Q34829439 | ||
| Hyperglycemia-induced vasculopathy in the murine vitelline vasculature: correlation with PECAM-1/CD31 tyrosine phosphorylation state | Q35787020 | ||
| Neurovascular alignment in adult mouse skeletal muscles. | Q39713157 | ||
| Locally enhanced angiogenesis promotes transplanted cell survival | Q40526099 | ||
| Tissue-engineered microvessels on three-dimensional biodegradable scaffolds using human endothelial progenitor cells | Q40531306 | ||
| Endothelial cells stimulate self-renewal and expand neurogenesis of neural stem cells | Q40570664 | ||
| Engineering and characterization of functional human microvessels in immunodeficient mice | Q40812536 | ||
| Local delivery of basic fibroblast growth factor increases both angiogenesis and engraftment of hepatocytes in tissue-engineered polymer devices | Q44013376 | ||
| Transplantation of EGF-responsive neurospheres from GFP transgenic mice into the eyes of rd mice | Q44052499 | ||
| Fabrication of degradable polymer scaffolds to direct the integration and differentiation of retinal progenitors | Q44565114 | ||
| Delivery of osteoinductive growth factors from degradable PEG hydrogels influences osteoblast differentiation and mineralization | Q46287978 | ||
| Dynamic seeding and in vitro culture of hepatocytes in a flow perfusion system | Q46797108 | ||
| Astrocyte-derived VEGF mediates survival and tube stabilization of hypoxic brain microvascular endothelial cells in vitro | Q48792540 | ||
| Altered vascular permeability and early onset of experimental autoimmune encephalomyelitis in PECAM-1–deficient mice | Q58199772 | ||
| Polymeric system for dual growth factor delivery | Q77106419 | ||
| Engineering vascular networks in porous polymer matrices | Q77925545 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | endothelium | Q111140 |
| hydrogel | Q898925 | ||
| P304 | page(s) | 2512-2517 | |
| P577 | publication date | 2006-02-10 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | A macroporous hydrogel for the coculture of neural progenitor and endothelial cells to form functional vascular networks in vivo | |
| P478 | volume | 103 |
| Q28241515 | 3D biofabrication strategies for tissue engineering and regenerative medicine |
| Q36790748 | A hydrogel-endothelial cell implant mimics infantile hemangioma: modulation by survivin and the Hippo pathway. |
| Q34086551 | A novel composite construct increases the vascularization potential of PEG hydrogels through the incorporation of large fibrin ribbons |
| Q37695125 | A tissue-engineered approach towards retinal repair: scaffolds for cell transplantation to the subretinal space |
| Q34707957 | A tunable synthetic hydrogel system for culture of retinal ganglion cells and amacrine cells |
| Q33805074 | An injectable thiol-acrylate poly(ethylene glycol) hydrogel for sustained release of methylprednisolone sodium succinate. |
| Q91714061 | Angiogenesis in Tissue Engineering: As Nature Intended? |
| Q35608143 | Application of microtechnologies for the vascularization of engineered tissues |
| Q36972715 | Applications of hydrogels for neural cell engineering |
| Q48000367 | Autophagy gene FIP200 in neural progenitors non-cell autonomously controls differentiation by regulating microglia |
| Q46981695 | Biodegradable Cellulose-based Hydrogels: Design and Applications. |
| Q36777653 | Biomaterials for the central nervous system |
| Q37010459 | Biomedical Technologies for in vitro Screening and Controlled Delivery of Neuroactive Compounds |
| Q38222477 | Building biocompatible hydrogels for tissue engineering of the brain and spinal cord |
| Q47262776 | Co-culture of primary neural progenitor and endothelial cells in a macroporous gel promotes stable vascular networks in vivo |
| Q41628071 | Combination scaffolds of salmon fibrin, hyaluronic acid, and laminin for human neural stem cell and vascular tissue engineering |
| Q38887544 | Comparing different methods to fix and to dehydrate cells on alginate hydrogel scaffolds using scanning electron microscopy. |
| Q39744446 | Compositional control of poly(ethylene glycol) hydrogel modulus independent of mesh size |
| Q35162409 | Controlled protein delivery in the generation of microvascular networks. |
| Q34160733 | Controlling the porosity and microarchitecture of hydrogels for tissue engineering |
| Q27027280 | Defining and designing polymers and hydrogels for neural tissue engineering |
| Q37252271 | Design and synthesis of biomimetic hydrogel scaffolds with controlled organization of cyclic RGD peptides |
| Q36362019 | Designer Hydrogels for Precision Control of Oxygen Tension and Mechanical Properties |
| Q39636970 | Development of hydrogels and biomimetic regulators as tissue engineering scaffolds |
| Q39145111 | Development of hydrogels for regenerative engineering. |
| Q39332638 | Endothelial Progenitor Cells for the Vascularization of Engineered Tissues |
| Q37393010 | Engineering angiogenesis following spinal cord injury: a coculture of neural progenitor and endothelial cells in a degradable polymer implant leads to an increase in vessel density and formation of the blood-spinal cord barrier |
| Q30477371 | Engineering hydrogels as extracellular matrix mimics |
| Q34520920 | Engineering systems for the generation of patterned co-cultures for controlling cell-cell interactions. |
| Q37630526 | Engineering the CNS stem cell microenvironment |
| Q43129879 | Enhancement of In Vitro Capillary Tube Formation by Substrate Nanotopography |
| Q39727751 | Exogenous modulation of intrinsic optic nerve neuroprotective activity |
| Q51454082 | From clinical imaging to implantation of 3D printed tissues. |
| Q45872947 | Functional and Biomimetic Materials for Engineering of the Three-Dimensional Cell Microenvironment |
| Q36702758 | Getting the right stuff: controlling neural stem cell state and fate in vivo and in vitro with biomaterials |
| Q35997113 | Hyaluronic acid-based scaffold for central neural tissue engineering |
| Q42236107 | Hydrogel macroporosity and the prolongation of transgene expression and the enhancement of angiogenesis |
| Q57888365 | Hydrogel supported chiral imidazolidinone for organocatalytic enantioselective reduction of olefins in water |
| Q38076509 | Hydrogels for lentiviral gene delivery |
| Q58735013 | Immune Assisted Tissue Engineering via Incorporation of Macrophages in Cell-Laden Hydrogels Under Cytokine Stimulation |
| Q49528225 | In depth examination of impact of secondary reactive species on the apparent decoupling of poly(ethylene glycol) diacrylate hydrogel average mesh size and modulus |
| Q38916207 | In vitro reconstruction of branched tubular structures from lung epithelial cells in high cell concentration gradient environment. |
| Q41771667 | Influence of hydrogel mechanical properties and mesh size on vocal fold fibroblast extracellular matrix production and phenotype |
| Q37398092 | Initial evaluation of vascular ingrowth into superporous hydrogels |
| Q37343132 | Injectable biomaterials for regenerating complex craniofacial tissues. |
| Q39260720 | Integration of Self-Assembled Microvascular Networks with Microfabricated PEG-Based Hydrogels |
| Q35581125 | Long-term culture of HL-1 cardiomyocytes in modular poly(ethylene glycol) microsphere-based scaffolds crosslinked in the phase-separated state |
| Q33893860 | Manipulating the microvasculature and its microenvironment |
| Q57036355 | Matrices, scaffolds & carriers for cell delivery in nerve regeneration |
| Q33759409 | Microporous cell-laden hydrogels for engineered tissue constructs |
| Q35022686 | Modeling the neurovascular niche: unbiased transcriptome analysis of the murine subventricular zone in response to hypoxic insult |
| Q42695504 | Modular scaffolds assembled around living cells using poly(ethylene glycol) microspheres with macroporation via a non-cytotoxic porogen |
| Q38010642 | Molecular and cellular mechanisms underlying the role of blood vessels in spinal cord injury and repair |
| Q36792121 | Monodisperse polyethylene glycol diacrylate hydrogel microsphere formation by oxygen-controlled photopolymerization in a microfluidic device |
| Q36226244 | Multifunctional Hydrogels with Reversible 3D Ordered Macroporous Structures |
| Q91661092 | Multiscale bioprinting of vascularized models |
| Q42159303 | Neural stem/progenitor cells promote endothelial cell morphogenesis and protect endothelial cells against ischemia via HIF-1alpha-regulated VEGF signaling |
| Q34355443 | PDMS(star)-PEG hydrogels prepared via solvent-induced phase separation (SIPS) and their potential utility as tissue engineering scaffolds. |
| Q33530513 | Photo-cross-linked PDMSstar-PEG hydrogels: synthesis, characterization, and potential application for tissue engineering scaffolds |
| Q50669350 | Photopolymerized poly(ethylene glycol)/poly(L-lysine) hydrogels for the delivery of neural progenitor cells. |
| Q47982659 | Porous PDMS structures for the storage and release of aqueous solutions into fluidic environments. |
| Q28829354 | Schwann cells promote endothelial cell migration |
| Q34541757 | Short term interactions with long term consequences: modulation of chimeric vessels by neural progenitors |
| Q47791379 | Spheroid-based engineering of a human vasculature in mice |
| Q37413713 | Strain differences in behavioral and cellular responses to perinatal hypoxia and relationships to neural stem cell survival and self-renewal: Modeling the neurovascular niche. |
| Q47997216 | The role of endothelial HIF-1 αin the response to sublethal hypoxia in C57BL/6 mouse pups |
| Q33729283 | Three-dimensional laser micro- and nano-structuring of acrylated poly(ethylene glycol) materials and evaluation of their cytoxicity for tissue engineering applications |
| Q45821656 | Three-dimensional nanocharacterization of porous hydrogel with ion and electron beams |
| Q39030580 | Tracking hypoxic signaling in encapsulated stem cells |
| Q33699018 | Transplantation of human neural precursor cells in Matrigel scaffolding improves outcome from focal cerebral ischemia after delayed postischemic treatment in rats |
| Q36206333 | Tuning PEG-DA hydrogel properties via solvent-induced phase separation (SIPS)(). |
| Q48405142 | Using polymer chemistry to modulate the delivery of neurotrophic factors from degradable microspheres: delivery of BDNF. |
| Q33634565 | Vascularization strategies for tissue engineering |
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