scholarly article | Q13442814 |
P2093 | author name string | Jian Cao | |
Yuhong Man | |||
Lisen Li | |||
P2860 | cites work | Osteonectin, a bone-specific protein linking mineral to collagen | Q24302317 |
Electrically conducting polymers can noninvasively control the shape and growth of mammalian cells | Q35161227 | ||
Silicon substitution in the calcium phosphate bioceramics | Q36838181 | ||
Comparing culture, real-time PCR and fluorescence resonance energy transfer technology for detection of Porphyromonas gingivalis in patients with or without peri-implant infections | Q39635265 | ||
Do electromagnetic fields interact directly with DNA? | Q41401664 | ||
Static electromagnetic fields induce vasculogenesis and chondro-osteogenesis of mouse embryonic stem cells by reactive oxygen species-mediated up-regulation of vascular endothelial growth factor | Q43269706 | ||
Effect of electromagnetic fields on osteogenesis: an experimental study on rats | Q44455708 | ||
Genetic analysis and effect of triiodothyronine and prednisone trial on bone turnover in a patient with craniotubular hyperostosis | Q44819639 | ||
Rapamycin inhibits the invasive ability of thyroid cancer cells by down-regulating the expression of VEGF-C in vitro | Q46393415 | ||
Synthesis of biodegradable and electroactive multiblock polylactide and aniline pentamer copolymer for tissue engineering applications | Q46764296 | ||
Synthesis and characterization of electroactive and biodegradable ABA block copolymer of polylactide and aniline pentamer | Q46987432 | ||
Influence of crystallite size of nanophased hydroxyapatite on fibronectin and osteonectin adsorption and on MC3T3-E1 osteoblast adhesion and morphology. | Q47416590 | ||
Synthesis, property characterization and photocatalytic activity of the novel composite polymer polyaniline/Bi2SnTiO7. | Q50250669 | ||
Preparation and characterization of composites that contain small carbon nano-onions and conducting polyaniline | Q50503987 | ||
Poly(lactide-co-glycolide)/hydroxyapatite composite scaffolds for bone tissue engineering. | Q51353564 | ||
A scaffold-free multicellular three-dimensional in vitro model of osteogenesis. | Q53268344 | ||
[Osteogenesis and bone growth. Modification by electrical and electromagnetic effects] | Q71616037 | ||
Fabrication and in vivo osteogenesis of biomimetic poly(propylene carbonate) scaffold with nanofibrous chitosan network in macropores for bone tissue engineering | Q82283768 | ||
Multi-wall carbon nanotube-polyaniline biosensor based on lectin-carbohydrate affinity for ultrasensitive detection of Con A | Q83565356 | ||
Self-suspended polyaniline doped with a protonic acid containing a polyethylene glycol segment | Q84879640 | ||
Osteogenesis and angiogenesis of tissue-engineered bone constructed by prevascularized β-tricalcium phosphate scaffold and mesenchymal stem cells | Q85091516 | ||
P433 | issue | 3 | |
P921 | main subject | nanocomposite | Q2639556 |
P304 | page(s) | 428-432 | |
P577 | publication date | 2013-03-01 | |
P1433 | published in | Biomedical Reports | Q26853995 |
P1476 | title | Electrical stimuli improve osteogenic differentiation mediated by aniline pentamer and PLGA nanocomposites | |
P478 | volume | 1 |
Q64064102 | Combined Optimized Effect of a Highly Self-Organized Nanosubstrate and an Electric Field on Osteoblast Bone Cells Activity |
Q57778349 | Electrical stimulation of human mesenchymal stem cells on biomineralized conducting polymers enhances their differentiation towards osteogenic outcomes |
Q62594027 | Electroactive polymers for tissue regeneration: Developments and perspectives |
Q42871493 | Induced redox responsiveness and electroactivity for altering the properties of micelles without external stimuli. |
Q38820059 | Poly (lactic acid)-based biomaterials for orthopaedic regenerative engineering. |
Q47225636 | Sequential application of mineralized electroconductive scaffold and electrical stimulation for efficient osteogenesis. |
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