| review article | Q7318358 |
| scholarly article | Q13442814 |
| P2093 | author name string | Xue Bai | |
| Cen Chen | |||
| In-Seop Lee | |||
| Yahui Ding | |||
| P2860 | cites work | Molecular mechanisms underlying antiproliferative and differentiating responses of hepatocarcinoma cells to subthermal electric stimulation | Q21132368 |
| Clinical imaging in regenerative medicine | Q26851906 | ||
| Adult subependymal neural precursors, but not differentiated cells, undergo rapid cathodal migration in the presence of direct current electric fields | Q27323171 | ||
| Exploration of molecular pathways mediating electric field-directed Schwann cell migration by RNA-seq | Q27334371 | ||
| Selected suitable seed cell, scaffold and growth factor could maximize the repair effect using tissue engineering method in spinal cord injury | Q28077542 | ||
| Induction of chondrogenic differentiation of human adipose-derived stem cells by low frequency electric field | Q28830234 | ||
| Integration of basal topographic cues and apical shear stress in vascular endothelial cells | Q30539102 | ||
| Electrical stimulation using conductive polymer polypyrrole promotes differentiation of human neural stem cells: a biocompatible platform for translational neural tissue engineering. | Q53420958 | ||
| Schwann cell response on polypyrrole substrates upon electrical stimulation. | Q53623236 | ||
| Donor Age and Cell Passage Affect Osteogenic Ability of Rat Bone Marrow Mesenchymal Stem Cells. | Q53631774 | ||
| Migration of human mesenchymal stem cells stimulated with pulsed electric field and the dynamics of the cell surface glycosylation | Q57177386 | ||
| Effects of direct current electric-field using ITO plate on breast cancer cell migration | Q59321320 | ||
| Behaviors of stem cells on carbon nanotube | Q59413114 | ||
| Proangiogenic alginate-g-pyrrole hydrogel with decoupled control of mechanical rigidity and electrically conductivity | Q59615729 | ||
| Electrospun conducting polymer nanofibers and electrical stimulation of nerve stem cells | Q84668234 | ||
| Synergistic effect of defined artificial extracellular matrices and pulsed electric fields on osteogenic differentiation of human MSCs | Q85005899 | ||
| Characteristics of multi-layer coating formed on commercially pure titanium for biomedical applications | Q86511511 | ||
| Accelerating proliferation of neural stem/progenitor cells in collagen sponges immobilized with engineered basic fibroblast growth factor for nervous system tissue engineering | Q87292324 | ||
| Calcium influx differentially regulates migration velocity and directedness in response to electric field application | Q88576162 | ||
| Spatial Micropatterning of Growth Factors in 3D Hydrogels for Location-Specific Regulation of Cellular Behaviors | Q88757658 | ||
| [Effect of different electrical stimulation waves on orientation and alignment of adipose derived mesenchymal stem cells] | Q88808065 | ||
| Enhanced osteogenic commitment of murine mesenchymal stem cells on graphene oxide substrate | Q89810402 | ||
| Electrically stimulated cell migration and its contribution to wound healing | Q90017128 | ||
| The cellular response of nerve cells on poly-l-lysine coated PLGA-MWCNTs aligned nanofibers under electrical stimulation | Q90393566 | ||
| Physical Stimulations for Bone and Cartilage Regeneration | Q91443479 | ||
| The effect of anodal/cathodal biphasic electrical stimulation on insulin release | Q91473488 | ||
| Patterned iridium oxide film as neural electrode interface: Biocompatibility and improved neurite outgrowth with electrical stimulation | Q92208817 | ||
| Enhanced neural stem cell functions in conductive annealed carbon nanofibrous scaffolds with electrical stimulation. | Q50860593 | ||
| Electrical stimulation of somatic human stem cells mediated by composite containing conductive nanofibers for ligament regeneration. | Q51008342 | ||
| The Effect of Layer-by-Layer Assembly Coating on the Proliferation and Differentiation of Neural Stem Cells. | Q51039868 | ||
| Enhanced adhesion and proliferation of human umbilical vein endothelial cells on conductive PANI-PCL fiber scaffold by electrical stimulation. | Q51066385 | ||
| Effects of high-frequency alternating current on axonal conduction through the vagus nerve. | Q51532141 | ||
| Electric fields are novel determinants of human macrophage functions. | Q51581603 | ||
| Electric field-mediated growth of osteoblasts - the significant impact of dynamic flow of medium. | Q51686605 | ||
| Regenerative Rehabilitation: Applied Biophysics Meets Stem Cell Therapeutics. | Q51766118 | ||
| A technique for collision block of peripheral nerve: frequency dependence. | Q51867746 | ||
| Targeting Biophysical Cues: a Niche Approach to Study, Diagnose, and Treat Cancer. | Q52615312 | ||
| Effects of electric fields on human mesenchymal stem cell behaviour and morphology using a novel multichannel device. | Q53008584 | ||
| Directed migration of human bone marrow mesenchymal stem cells in a physiological direct current electric field. | Q53188619 | ||
| Exosomes from differentiating human skeletal muscle cells trigger myogenesis of stem cells and provide biochemical cues for skeletal muscle regeneration. | Q53233772 | ||
| Enhanced differentiation of human neural stem cells into neurons on graphene. | Q53411838 | ||
| PI3K mediated electrotaxis of embryonic and adult neural progenitor cells in the presence of growth factors | Q30557078 | ||
| Biphasic monopolar electrical stimulation induces rapid and directed galvanotaxis in adult subependymal neural precursors | Q30645221 | ||
| Guided migration of neural stem cells derived from human embryonic stem cells by an electric field | Q30651121 | ||
| Functional assembly of engineered myocardium by electrical stimulation of cardiac myocytes cultured on scaffolds | Q30846050 | ||
| Effects of physiological electric fields on migration of human dermal fibroblasts. | Q34186241 | ||
| Stem cells in tissue engineering. | Q34426497 | ||
| The effect of high frequency electric field on enhancement of chondrogenesis in human adipose-derived stem cells | Q34558172 | ||
| Osteoblastic differentiation and stress response of human mesenchymal stem cells exposed to alternating current electric fields | Q34576810 | ||
| Electrical signals control wound healing through phosphatidylinositol-3-OH kinase-gamma and PTEN. | Q34652580 | ||
| A novel single pulsed electromagnetic field stimulates osteogenesis of bone marrow mesenchymal stem cells and bone repair. | Q35121644 | ||
| Electrical Activation of Wound-Healing Pathways | Q35414821 | ||
| DC electric stimulation upregulates angiogenic factors in endothelial cells through activation of VEGF receptors | Q35624685 | ||
| Specific Intensity Direct Current (DC) Electric Field Improves Neural Stem Cell Migration and Enhances Differentiation towards βIII-Tubulin+ Neurons | Q35661910 | ||
| Modulation of Osteogenesis in MC3T3-E1 Cells by Different Frequency Electrical Stimulation | Q36009758 | ||
| Application of the cell sheet technique in tissue engineering | Q36321381 | ||
| Electrical Stimulation Promotes Cardiac Differentiation of Human Induced Pluripotent Stem Cells. | Q36405737 | ||
| Biomimetic stochastic topography and electric fields synergistically enhance directional migration of corneal epithelial cells in a MMP-3-dependent manner | Q36702743 | ||
| Microfluidic Bioprinting of Heterogeneous 3D Tissue Constructs Using Low-Viscosity Bioink | Q36720171 | ||
| Stem cell differentiation and expansion for clinical applications of tissue engineering | Q36990671 | ||
| Nanosecond pulsed electric field stimulation of reactive oxygen species in human pancreatic cancer cells is Ca(2+)-dependent | Q37062348 | ||
| Electrical fields in wound healing-An overriding signal that directs cell migration | Q37369299 | ||
| Scaffold stiffness influences cell behavior: opportunities for skeletal tissue engineering | Q37499971 | ||
| Carbon-based materials as supercapacitor electrodes. | Q37582217 | ||
| Regulation of tissue repair and regeneration by electric fields. | Q37682980 | ||
| Application of conductive polymers, scaffolds and electrical stimulation for nerve tissue engineering. | Q37853963 | ||
| Electrical stimulation: a novel tool for tissue engineering | Q38032917 | ||
| Nanomaterial scaffolds for stem cell proliferation and differentiation in tissue engineering | Q38035629 | ||
| Engineering cell alignment in vitro | Q38165624 | ||
| Influence of electrotaxis on cell behaviour. | Q38233518 | ||
| Electric field regulated signaling pathways. | Q38254386 | ||
| Tissue-engineered cartilage: the crossroads of biomaterials, cells and stimulating factors. | Q38256851 | ||
| The regenerative medicine in oral and maxillofacial surgery: the most important innovations in the clinical application of mesenchymal stem cells. | Q38305035 | ||
| Mesenchymal stem cells: Identification, phenotypic characterization, biological properties and potential for regenerative medicine through biomaterial micro-engineering of their niche. | Q38589066 | ||
| Different roles of membrane potentials in electrotaxis and chemotaxis of dictyostelium cells | Q38627764 | ||
| Modification of surface/neuron interfaces for neural cell-type specific responses: a review | Q38676443 | ||
| Electric field stimulation induced neuronal differentiation of filum terminale derived neural progenitor cells | Q38687216 | ||
| Effects of electrical stimulation on cell proliferation and apoptosis | Q38689898 | ||
| TiO2 surfaces support neuron growth during electric field stimulation | Q38719001 | ||
| The effect of pulsed electric fields on the electrotactic migration of human neural progenitor cells through the involvement of intracellular calcium signaling | Q38740912 | ||
| Electrical Stimulation Increases Random Migration of Human Dermal Fibroblasts. | Q38794920 | ||
| Quantifying the effect of electric current on cell adhesion studied by single-cell force spectroscopy. | Q38801388 | ||
| Cardiomyocyte behavior on biodegradable polyurethane/gold nanocomposite scaffolds under electrical stimulation. | Q38813069 | ||
| Platelet-rich plasma stimulated by pulse electric fields: Platelet activation, procoagulant markers, growth factor release and cell proliferation. | Q38868935 | ||
| Neural stem cell differentiation by electrical stimulation using a cross-linked PEDOT substrate: Expanding the use of biocompatible conjugated conductive polymers for neural tissue engineering. | Q38911769 | ||
| Modulation of human mesenchymal and pluripotent stem cell behavior using biophysical and biochemical cues: A review. | Q38929214 | ||
| The use of electric, magnetic, and electromagnetic field for directed cell migration and adhesion in regenerative medicine | Q38994925 | ||
| Electrical stimulation promotes maturation of cardiomyocytes derived from human embryonic stem cells | Q39089553 | ||
| Biomimetic, Osteoconductive Non-mulberry Silk Fiber Reinforced Tricomposite Scaffolds for Bone Tissue Engineering. | Q39247789 | ||
| Microcurrent stimulation promotes reverse remodelling in cardiomyocytes | Q39256520 | ||
| Environmental Factors That Influence Stem Cell Migration: An "Electric Field". | Q39355479 | ||
| Polymer structure-property requirements for stereolithographic 3D printing of soft tissue engineering scaffolds | Q39398791 | ||
| Directing migration of endothelial progenitor cells with applied DC electric fields | Q39440554 | ||
| Three-dimensional graphene foam as a biocompatible and conductive scaffold for neural stem cells | Q39551101 | ||
| Osteoblast function on electrically conductive electrospun PLA/MWCNTs nanofibers | Q39598163 | ||
| Chick embryonic Schwann cells migrate anodally in small electrical fields | Q40884918 | ||
| Aligned carbon nanotube containing scaffolds for neural tissue regeneration. | Q41389401 | ||
| Mesenchymal stem cell osteodifferentiation in response to alternating electric current | Q42701815 | ||
| To evaluate and compare the effect of different Post Surface treatments on the Tensile Bond Strength between Fiber Posts and Composite Resin | Q42858046 | ||
| Repetitive paired-pulse transcranial magnetic stimulation affects corticospinal excitability and finger tapping in Parkinson's disease | Q44016781 | ||
| Surface modified electrospun nanofibrous scaffolds for nerve tissue engineering | Q45003386 | ||
| Biophysical Regulation of Cell Behavior-Cross Talk between Substrate Stiffness and Nanotopography | Q45071015 | ||
| Electric stimulation at 448 kHz promotes proliferation of human mesenchymal stem cells | Q46047501 | ||
| Effects of direct current electric fields on lung cancer cell electrotaxis in a PMMA-based microfluidic device | Q46335928 | ||
| In vitro effects of direct current electric fields on adipose-derived stromal cells | Q47175634 | ||
| Promotion of Myogenic Maturation by Timely Application of Electric Field Along the Topographical Alignment | Q47597424 | ||
| The effect of biphasic electrical stimulation on osteoblast function at anodized nanotubular titanium surfaces | Q47620104 | ||
| Intercalated chitosan/hydroxyapatite nanocomposites: Promising materials for bone tissue engineering applications. | Q47667257 | ||
| Enhanced regeneration of rabbit mandibular defects through a combined treatment of electrical stimulation and rhBMP-2 application | Q47693201 | ||
| A brief definition of regenerative medicine | Q48012344 | ||
| Diamond-Graphite Nanoplatelet Surfaces as Conductive Substrates for the Electrical Stimulation of Cell Functions. | Q48129365 | ||
| Electrical stimulation of adipose-derived mesenchymal stem cells and endothelial cells co-cultured in a conductive scaffold for potential orthopaedic applications | Q48176451 | ||
| Electrical stimulation enhances neurogenin2 expression through β-catenin signaling pathway of mouse bone marrow stromal cells and intensifies the effect of cell transplantation on brain injury | Q48300359 | ||
| Electric signals regulate directional migration of ventral midbrain derived dopaminergic neural progenitor cells via Wnt/GSK3β signaling | Q48507863 | ||
| Understanding the response of pulsed electric field on osteoblast functions in three-dimensional mesh structures | Q48636552 | ||
| Electrical stimulation of cardiac adipose tissue-derived progenitor cells modulates cell phenotype and genetic machinery. | Q50494953 | ||
| P921 | main subject | tissue engineering | Q1540285 |
| P304 | page(s) | 25 | |
| P577 | publication date | 2019-12-05 | |
| P1433 | published in | Biomaterials research | Q27726419 |
| P1476 | title | Electrical stimulation as a novel tool for regulating cell behavior in tissue engineering | |
| P478 | volume | 23 |
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