scholarly article | Q13442814 |
P50 | author | Gordana Vunjak-Novakovic | Q54394 |
Darja Marolt | Q17966249 | ||
Warren L Grayson | Q87653069 | ||
Sarindr Bhumiratana | Q107355528 | ||
P2093 | author name string | X Edward Guo | |
Mirjam Fröhlich | |||
P2860 | cites work | Hypoxia enhances proliferation and tissue formation of human mesenchymal stem cells. | Q50996903 |
Bone tissue engineering using human mesenchymal stem cells: effects of scaffold material and medium flow. | Q51036195 | ||
Oxygen gradients correlate with cell density and cell viability in engineered cardiac tissue. | Q51325584 | ||
Modeling evaluation of the fluid-dynamic microenvironment in tissue-engineered constructs: a micro-CT based model. | Q51339221 | ||
3-D computational modeling of media flow through scaffolds in a perfusion bioreactor. | Q51553325 | ||
Computational modeling of flow-induced shear stresses within 3D salt-leached porous scaffolds imaged via micro-CT. | Q51613632 | ||
Engineering bone-like tissue in vitro using human bone marrow stem cells and silk scaffolds. | Q51630092 | ||
A fiber matrix model for fluid flow and streaming potentials in the canaliculi of an osteon | Q72852423 | ||
Quantitative analysis of gene expression in human articular cartilage from normal and osteoarthritic joints | Q73585094 | ||
Effect of convection on osteoblastic cell growth and function in biodegradable polymer foam scaffolds | Q73834379 | ||
Formation of three-dimensional cell/polymer constructs for bone tissue engineering in a spinner flask and a rotating wall vessel bioreactor | Q74479642 | ||
Electrical signal transmission in a bone cell network: the influence of a discrete gap junction | Q74773843 | ||
Bioreactor-based roadmap for the translation of tissue engineering strategies into clinical products | Q84341274 | ||
Bioreactor-based bone tissue engineering: the influence of dynamic flow on osteoblast phenotypic expression and matrix mineralization | Q30434057 | ||
Bone grafts engineered from human adipose-derived stem cells in perfusion bioreactor culture | Q33583461 | ||
Engineering anatomically shaped human bone grafts | Q33734739 | ||
Finite element analyses of fluid flow conditions in cell culture. | Q34156706 | ||
Modeling pO(2) distributions in the bone marrow hematopoietic compartment. I. Krogh's model | Q34176018 | ||
Fluid flow increases mineralized matrix deposition in 3D perfusion culture of marrow stromal osteoblasts in a dose-dependent manner | Q34188669 | ||
Bone tissue engineering: the role of interstitial fluid flow | Q34359041 | ||
Mineralized matrix deposition by marrow stromal osteoblasts in 3D perfusion culture increases with increasing fluid shear forces | Q34382990 | ||
Connexin 43 as a signaling platform for increasing the volume and spatial distribution of regenerated tissue | Q34993780 | ||
Quantification of the roles of trabecular microarchitecture and trabecular type in determining the elastic modulus of human trabecular bone | Q35575608 | ||
Cell-to-cell interactions in bone. | Q36032100 | ||
Quantitative spatially resolved measurements of mass transfer through laryngeal cartilage | Q36891248 | ||
Effects of initial seeding density and fluid perfusion rate on formation of tissue-engineered bone | Q37411849 | ||
Mechanotransduction and strain amplification in osteocyte cell processes | Q37693128 | ||
Mathematical model of oxygen distribution in engineered cardiac tissue with parallel channel array perfused with culture medium containing oxygen carriers. | Q40468758 | ||
Effects of medium perfusion rate on cell-seeded three-dimensional bone constructs in vitro | Q40608435 | ||
Differential effect of steady versus oscillating flow on bone cells | Q40982818 | ||
Perfusion enhances functions of bone marrow stromal cells in three-dimensional culture | Q41029707 | ||
Osteopontin gene regulation by oscillatory fluid flow via intracellular calcium mobilization and activation of mitogen-activated protein kinase in MC3T3-E1 osteoblasts | Q42830581 | ||
Bone morphogenetic protein-2 modulation of chondrogenic differentiation in vitro involves gap junction-mediated intercellular communication | Q44183323 | ||
Flow perfusion enhances the calcified matrix deposition of marrow stromal cells in biodegradable nonwoven fiber mesh scaffolds | Q45084197 | ||
Modeling fluid flow through irregular scaffolds for perfusion bioreactors | Q45339923 | ||
Effect of dynamic 3-D culture on proliferation, distribution, and osteogenic differentiation of human mesenchymal stem cells | Q47755678 | ||
Flow perfusion culture of human mesenchymal stem cells on silicate-substituted tricalcium phosphate scaffolds | Q47808887 | ||
Bone and cartilage tissue constructs grown using human bone marrow stromal cells, silk scaffolds and rotating bioreactors. | Q50476908 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | bioreactor | Q864699 |
tissue engineering | Q1540285 | ||
P304 | page(s) | 1159-1170 | |
P577 | publication date | 2010-12-22 | |
P1433 | published in | Biotechnology and Bioengineering | Q4915339 |
P1476 | title | Optimizing the medium perfusion rate in bone tissue engineering bioreactors | |
P478 | volume | 108 |
Q46395132 | A novel bidirectional continuous perfusion bioreactor for the culture of large-sized bone tissue-engineered constructs. |
Q37096440 | Adiponectin enhances bone marrow mesenchymal stem cell resistance to flow shear stress through AMP-activated protein kinase signaling |
Q34646678 | Biomechanical forces in the skeleton and their relevance to bone metastasis: biology and engineering considerations. |
Q51089045 | Biomimetic Approaches for Bone Tissue Engineering. |
Q42413000 | Bioreactor cultivation of anatomically shaped human bone grafts |
Q45962759 | Bioreactor culture duration of engineered constructs influences bone formation by mesenchymal stem cells. |
Q38093335 | Bioreactor engineering of stem cell environments |
Q58898410 | Bioreactors in tissue engineering: Advances in stem cell culture and three-dimensional tissue constructs |
Q37115516 | Cell-laden poly(ɛ-caprolactone)/alginate hybrid scaffolds fabricated by an aerosol cross-linking process for obtaining homogeneous cell distribution: fabrication, seeding efficiency, and cell proliferation and distribution |
Q42598722 | Cellular Nutrition in Complex Three-Dimensional Scaffolds: A Comparison between Experiments and Computer Simulations |
Q38063843 | Concise review: personalized human bone grafts for reconstructing head and face |
Q50736561 | Coupling curvature-dependent and shear stress-stimulated neotissue growth in dynamic bioreactor cultures: a 3D computational model of a complete scaffold. |
Q33992658 | Cultivation of human bone-like tissue from pluripotent stem cell-derived osteogenic progenitors in perfusion bioreactors |
Q47850726 | Decellularized Bone Matrix Scaffold for Bone Regeneration |
Q37968706 | Design concepts and strategies for tissue engineering scaffolds |
Q36196719 | Distribution and Viability of Fetal and Adult Human Bone Marrow Stromal Cells in a Biaxial Rotating Vessel Bioreactor after Seeding on Polymeric 3D Additive Manufactured Scaffolds |
Q35349430 | Effects of cell-attachment and extracellular matrix on bone formation in vivo in collagen-hydroxyapatite scaffolds |
Q53361249 | Effects of flow configuration on bone tissue engineering using human mesenchymal stem cells in 3D chitosan composite scaffolds. |
Q36001194 | Engineering bone tissue from human embryonic stem cells |
Q36884199 | Engineering bone tissue substitutes from human induced pluripotent stem cells |
Q38661279 | Flow velocity-driven differentiation of human mesenchymal stromal cells in silk fibroin scaffolds: A combined experimental and computational approach |
Q92798178 | Histological Method to Study the Effect of Shear Stress on Cell Proliferation and Tissue Morphology in a Bioreactor |
Q41762582 | Human adipose-derived cells can serve as a single-cell source for the in vitro cultivation of vascularized bone grafts |
Q53023080 | Human periosteal-derived cell expansion in a perfusion bioreactor system: proliferation, differentiation and extracellular matrix formation. |
Q36141198 | Immersed Boundary Models for Quantifying Flow-Induced Mechanical Stimuli on Stem Cells Seeded on 3D Scaffolds in Perfusion Bioreactors |
Q39289900 | Impact of short-term perfusion on cell retention for 3D bioconstruct development |
Q34099206 | In vitro model of vascularized bone: synergizing vascular development and osteogenesis |
Q38781221 | Industrialization of a perfusion bioreactor: prime example of a non-straightforward process |
Q39001312 | Influence of cassette design on three-dimensional perfusion culture of artificial bone |
Q37512307 | Macro and microfluidic flows for skeletal regenerative medicine |
Q44108031 | Make no bones about it: cells could soon be reprogrammed to grow replacement bones? |
Q47284038 | Maximizing neotissue growth kinetics in a perfusion bioreactor: An in silico strategy using model reduction and Bayesian optimization |
Q27004157 | Mechanical control of tissue-engineered bone |
Q91899785 | Mesenchymal Stromal Cell-Based Bone Regeneration Therapies: From Cell Transplantation and Tissue Engineering to Therapeutic Secretomes and Extracellular Vesicles |
Q87973231 | Mesenchymal stem cell cultivation in electrospun scaffolds: mechanistic modeling for tissue engineering |
Q35158358 | Model-based cell number quantification using online single-oxygen sensor data for tissue engineering perfusion bioreactors. |
Q38134206 | Modulating the biochemical and biophysical culture environment to enhance osteogenic differentiation and maturation of human pluripotent stem cell-derived mesenchymal progenitors |
Q28485994 | Noninvasive metabolic imaging of engineered 3D human adipose tissue in a perfusion bioreactor |
Q35857454 | Orthopedic tissue regeneration: cells, scaffolds, and small molecules |
Q48522277 | Perfusion enhances hypertrophic chondrocyte matrix deposition but not the bone formation |
Q51809371 | Recapitulation of mesenchymal condensation enhances in vitro chondrogenesis of human mesenchymal stem cells. |
Q38676887 | Regulation of mesenchymal stem cell 3D microenvironment: From macro to microfluidic bioreactors |
Q39350878 | Sequential application of steady and pulsatile medium perfusion enhanced the formation of engineered bone |
Q53044467 | Spatial optimization in perfusion bioreactors improves bone tissue-engineered construct quality attributes. |
Q90157328 | Strategy for achieving standardized bone models |
Q37630408 | TISSUE ENGINEERING PERFUSABLE CANCER MODELS. |
Q38102635 | The evolution of simulation techniques for dynamic bone tissue engineering in bioreactors |
Q41651715 | The influence of curvature on three-dimensional mineralized matrix formation under static and perfused conditions: an in vitro bioreactor model |
Q38061085 | The influence of environmental factors on bone tissue engineering |
Q41870769 | The inter-sample structural variability of regular tissue-engineered scaffolds significantly affects the micromechanical local cell environment |
Q38090914 | The role of perfusion bioreactors in bone tissue engineering |
Q41981860 | Three-dimensional characterization of tissue-engineered constructs by contrast-enhanced nanofocus computed tomography. |
Q27324514 | Tissue-engineered autologous grafts for facial bone reconstruction |
Q35776963 | Tissue-engineered models of human tumors for cancer research |
Q51579012 | Tunable osteogenic differentiation of hMPCs in tubular perfusion system bioreactor. |
Search more.