scholarly article | Q13442814 |
P356 | DOI | 10.1039/C7IB00080D |
P8608 | Fatcat ID | release_7hhpqpdenfb2fgwco2s2mqkfvu |
P698 | PubMed publication ID | 28795726 |
P2093 | author name string | Hui Wang | |
Hui Liu | |||
Li Wang | |||
Yue Yu | |||
Ning Sun | |||
Jianhua Qin | |||
Haitao Liu | |||
Yaqing Wang | |||
Yujuan Zhu | |||
Fangchao Yin | |||
P2860 | cites work | Brain-Region-Specific Organoids Using Mini-bioreactors for Modeling ZIKV Exposure | Q24004552 |
Dynamics of Drosophila embryonic patterning network perturbed in space and time using microfluidics | Q24657141 | ||
Modeling Development and Disease with Organoids | Q24657457 | ||
The need for calcium imaging in nonhuman primates: New motor neuroscience and brain-machine interfaces | Q26741966 | ||
Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors | Q27860937 | ||
Cerebral organoids model human brain development and microcephaly | Q28973619 | ||
Generation of cerebral organoids from human pluripotent stem cells | Q28973621 | ||
Calcium signalling: dynamics, homeostasis and remodelling | Q29547635 | ||
Self-organizing optic-cup morphogenesis in three-dimensional culture | Q29616181 | ||
Organogenesis in a dish: modeling development and disease using organoid technologies | Q34429586 | ||
Electrospinning versus microfluidic spinning of functional fibers for biomedical applications | Q34545665 | ||
Metre-long cell-laden microfibres exhibit tissue morphologies and functions | Q34649925 | ||
Bio-microfluidics: biomaterials and biomimetic designs | Q37706358 | ||
Microfluidic spinning of micro- and nano-scale fibers for tissue engineering | Q38197522 | ||
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Organoids as an in vitro model of human development and disease. | Q38748913 | ||
The promises and challenges of human brain organoids as models of neuropsychiatric disease | Q38802467 | ||
Functional engineered human cardiac patches prepared from nature's platform improve heart function after acute myocardial infarction | Q38832682 | ||
Small airway-on-a-chip enables analysis of human lung inflammation and drug responses in vitro | Q40863253 | ||
Directed differentiation of human pluripotent stem cells into intestinal tissue in vitro | Q41770080 | ||
Dual aerobic hollow-fiber bioreactor for cultivation of Streptomyces aureofaciens | Q43991899 | ||
Directing human embryonic stem cell differentiation towards a renal lineage generates a self-organizing kidney | Q45178758 | ||
Continuous Fabrication and Assembly of Spatial Cell-Laden Fibers for a Tissue-Like Construct via a Photolithographic-Based Microfluidic Chip. | Q48279414 | ||
Vascularized and functional human liver from an iPSC-derived organ bud transplant. | Q48453997 | ||
Expression of Pax2 protein during the formation of the central nervous system in human embryos. | Q48474636 | ||
Simple Spinning of Heterogeneous Hollow Microfibers on Chip. | Q50852750 | ||
Differentiation Induction of Mouse Neural Stem Cells in Hydrogel Tubular Microenvironments with Controlled Tube Dimensions. | Q51490331 | ||
3D Tissue Formation of Unilocular Adipocytes in Hydrogel Microfibers. | Q51602178 | ||
P433 | issue | 9 | |
P921 | main subject | organoid | Q11293125 |
P304 | page(s) | 774-781 | |
P577 | publication date | 2017-08-10 | |
P1433 | published in | Integrative Biology | Q1524032 |
P1476 | title | A hollow fiber system for simple generation of human brain organoids | |
P478 | volume | 9 |
Q98466534 | Biomedical Application of Functional Materials in Organ-on-a-Chip |
Q91809498 | Core-Shell Fibers: Design, Roles, and Controllable Release Strategies in Tissue Engineering and Drug Delivery |
Q92988149 | Differential Effects of Extracellular Vesicles of Lineage-Specific Human Pluripotent Stem Cells on the Cellular Behaviors of Isogenic Cortical Spheroids |
Q66678798 | Functionalization of Brain Region-specific Spheroids with Isogenic Microglia-like Cells |
Q64996906 | Mini and customized low-cost bioreactors for optimized high-throughput generation of tissue organoids. |
Q63741854 | Review: Synthetic scaffolds to control the biochemical, mechanical, and geometrical environment of stem cell-derived brain organoids |
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