| scholarly article | Q13442814 |
| P50 | author | Chiara E Ghezzi | Q59688281 |
| Lorenzo Tozzi | Q59695411 | ||
| Giovanna Bruni | Q60974262 | ||
| David L. Kaplan | Q61761312 | ||
| Cristian Staii | Q91790095 | ||
| Elise Spedden | Q123152261 | ||
| Alessandro Malara | Q56972265 | ||
| Alessandra Balduini | Q56972276 | ||
| Christian A Di Buduo | Q57204120 | ||
| Mauro Magnani | Q58970727 | ||
| P2093 | author name string | Ying Chen | |
| Antonella Antonelli | |||
| Carla Sfara | |||
| Lindsay S Wray | |||
| Luigi De Marco | |||
| Daniel Smoot | |||
| P2860 | cites work | Identification of a novel hierarchy of endothelial progenitor cells using human peripheral and umbilical cord blood | Q28269379 |
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| Materials fabrication from Bombyx mori silk fibroin | Q34220322 | ||
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| VEGFR1 stimulates a CXCR4-dependent translocation of megakaryocytes to the vascular niche, enhancing platelet production in mice | Q84268501 | ||
| Manipulation of oxygenation and flow-induced shear stress can increase the in vitro yield of platelets from cord blood | Q84857092 | ||
| Vascular niche E-selectin regulates hematopoietic stem cell dormancy, self renewal and chemoresistance | Q85243285 | ||
| Two differential flows in a bioreactor promoted platelet generation from human pluripotent stem cell-derived megakaryocytes | Q86657049 | ||
| Silk as a Biomaterial | Q34988084 | ||
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| Linking hematopoiesis to endochondral skeletogenesis through analysis of mice transgenic for collagen X. | Q35748002 | ||
| Extracellular matrix structure and nano-mechanics determine megakaryocyte function. | Q35794111 | ||
| The bone marrow niche for haematopoietic stem cells | Q35887876 | ||
| Matrix nanotopography as a regulator of cell function | Q35925306 | ||
| RETRACTED: Stabilization of vaccines and antibiotics in silk and eliminating the cold chain | Q36132649 | ||
| Transendothelial migration of megakaryocytes in response to stromal cell-derived factor 1 (SDF-1) enhances platelet formation | Q36401529 | ||
| Expansion of engrafting human hematopoietic stem/progenitor cells in three-dimensional scaffolds with surface-immobilized fibronectin. | Q36675920 | ||
| Adhesion mechanisms in platelet function | Q36856340 | ||
| Mimicking stem cell niches to increase stem cell expansion | Q36979314 | ||
| Functionalized silk biomaterials for wound healing | Q37075364 | ||
| Silk fibroin microtubes for blood vessel engineering | Q37226418 | ||
| Distinct spatio-temporal Ca2+ signaling elicited by integrin alpha2beta1 and glycoprotein VI under flow. | Q37372846 | ||
| Challenges and promises for the development of donor-independent platelet transfusions | Q38074224 | ||
| Physical influences of the extracellular environment on cell migration | Q38263780 | ||
| VEGFR-3 is expressed on megakaryocyte precursors in the murine bone marrow and plays a regulatory role in megakaryopoiesis | Q39314303 | ||
| Modulation of perfusion and oxygenation by red blood cell oxygen affinity during acute anemia | Q41978412 | ||
| Silk film biomaterials for cornea tissue engineering | Q42176794 | ||
| Separation of in-vitro-derived megakaryocytes and platelets using spinning-membrane filtration | Q42662112 | ||
| Scalable generation of universal platelets from human induced pluripotent stem cells. | Q43010381 | ||
| Stabilization and release of enzymes from silk films | Q43135894 | ||
| Prolonged continuous in vitro human platelet production using three-dimensional scaffolds | Q43136245 | ||
| Distinct roles of ADP receptors in von Willebrand factor-mediated platelet signaling and activation under high flow | Q45000365 | ||
| A novel flow cytometry-based platelet aggregation assay. | Q45792585 | ||
| Megakaryocyte-matrix interaction within bone marrow: new roles for fibronectin and factor XIII-A. | Q46501234 | ||
| Bone marrow-on-a-chip replicates hematopoietic niche physiology in vitro. | Q51516597 | ||
| Engineered adipose tissue supplied by functional microvessels. | Q51786337 | ||
| Adhesive receptors, extracellular proteins and myosin IIA orchestrate proplatelet formation by human megakaryocytes. | Q53457979 | ||
| Dynamic Visualization of Thrombopoiesis Within Bone Marrow | Q58450371 | ||
| P433 | issue | 14 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 2254-2264 | |
| P577 | publication date | 2015-01-09 | |
| P1433 | published in | Blood | Q885070 |
| P1476 | title | Programmable 3D silk bone marrow niche for platelet generation ex vivo and modeling of megakaryopoiesis pathologies | |
| P478 | volume | 125 |
| Q40965643 | 3D models of the hematopoietic stem cell niche under steady-state and active conditions. |
| Q41480921 | A new path to platelet production through matrix sensing. |
| Q42086488 | A paradigm shift in platelet transfusion therapy |
| Q47257067 | A uniform-shear rate microfluidic bioreactor for real-time study of proplatelet formation and rapidly-released platelets |
| Q33430809 | Abnormal proplatelet formation and emperipolesis in cultured human megakaryocytes from gray platelet syndrome patients |
| Q39350686 | Application of microfluidic devices in studies of thrombosis and hemostasis |
| Q52561904 | Biodegradable silk catheters for the delivery of therapeutics across anatomical repair sites. |
| Q55334386 | Ceramic Hollow Fibre Constructs for Continuous Perfusion and Cell Harvest from 3D Hematopoietic Organoids. |
| Q35692415 | Comparative analysis of human ex vivo-generated platelets vs megakaryocyte-generated platelets in mice: a cautionary tale |
| Q39252350 | Creating artificial lymphoid tissues to study immunity and hematological malignancies |
| Q49557978 | Current status of blood 'pharming': megakaryoctye transfusions as a source of platelets |
| Q42335815 | Eltrombopag, a potent stimulator of megakaryopoiesis. |
| Q35836174 | Embryonic stem cells as sources of donor-independent platelets |
| Q92219763 | Enabling Large-Scale Ex Vivo Production of Megakaryocytes from CD34+ Cells Using Gas-Permeable Surfaces |
| Q36919097 | Graphene Oxide promotes embryonic stem cell differentiation to haematopoietic lineage. |
| Q48589365 | Hematopoietic Niche - Exploring Biomimetic Cues to Improve the Functionality of Hematopoietic Stem/Progenitor Cells |
| Q90489529 | In vitro culture of murine megakaryocytes from fetal liver-derived hematopoietic stem cells |
| Q33443202 | In vitro generation of platelets: Where do we stand? |
| Q97533489 | In vitro platelet production for transfusion purposes: Where are we now? |
| Q90733820 | Induction of differentiation of human stem cells ex vivo: Toward large-scale platelet production |
| Q64080775 | Infused factor VIII-expressing platelets or megakaryocytes as a novel therapeutic strategy for hemophilia A |
| Q33432109 | Inherited thrombocytopenias-recent advances in clinical and molecular aspects |
| Q43109025 | Innovation in the field of thrombocytopenias: achievements since the beginning of the century and promises for the future. |
| Q27320898 | Large-scale production of megakaryocytes from human pluripotent stem cells by chemically defined forward programming |
| Q64934930 | Large-scale production of megakaryocytes in microcarrier-supported stirred suspension bioreactors. |
| Q27345351 | Microfluidic model of the platelet-generating organ: beyond bone marrow biomimetics |
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| Q47684382 | Modular flow chamber for engineering bone marrow architecture and function |
| Q57214406 | Multi-channel silk sponge mimicking bone marrow vascular niche for platelet production |
| Q48031372 | Multi-layered silk film coculture system for human corneal epithelial and stromal stem cells. |
| Q49196741 | Multifunctional Bioreactor System for Human Intestine Tissues |
| Q58574268 | Multiple membrane extrusion sites drive megakaryocyte migration into bone marrow blood vessels |
| Q92424711 | Multiscale engineering of immune cells and lymphoid organs |
| Q37101382 | Navigating the bone marrow niche: translational insights and cancer-driven dysfunction. |
| Q57167167 | On the Way to Platelet Production |
| Q57166306 | On the way to in vitro platelet production |
| Q28069839 | Pathophysiological Significance of Store-Operated Calcium Entry in Megakaryocyte Function: Opening New Paths for Understanding the Role of Calcium in Thrombopoiesis |
| Q33438649 | Platelet bioreactor: accelerated evolution of design and manufacture |
| Q40115861 | Platelet production from induced pluripotent stem cells |
| Q37215777 | Polyurethane scaffolds seeded with CD34(+) cells maintain early stem cells whilst also facilitating prolonged egress of haematopoietic progenitors. |
| Q33890308 | Presence of diabetes autoantigens in extracellular vesicles derived from human islets |
| Q33434705 | Rapamycin and bafilomycin A1 alter autophagy and megakaryopoiesis |
| Q38543301 | Regulation of the genetic code in megakaryocytes and platelets |
| Q33434519 | Revealing eltrombopag's promotion of human megakaryopoiesis through AKT/ERK-dependent pathway activation |
| Q26741792 | Stem Cells Applications in Regenerative Medicine and Disease Therapeutics |
| Q37355219 | Tense your megas! Structural rigidity is key |
| Q28830861 | The European Hematology Association Roadmap for European Hematology Research: a consensus document |
| Q50355706 | The Plant Hormone Abscisic Acid Is a Prosurvival Factor in Human and Murine Megakaryocytes |
| Q48106053 | The role of extracellular matrix stiffness in megakaryocyte and platelet development and function. |
| Q39117766 | The role of the extracellular matrix in primary myelofibrosis |
| Q40126127 | Thrombopoietin/TGF-β1 Loop Regulates Megakaryocyte Extracellular Matrix Component Synthesis. |
| Q36756232 | Tissue Engineering and Regenerative Medicine 2015: A Year in Review |
| Q33442786 | Towards the Manufacture of Megakaryocytes and Platelets for Clinical Application. |
| Q26770860 | Understanding platelet generation from megakaryocytes: implications for in vitro-derived platelets |
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