探討兼具拉伸及電刺激之生物反應器於肌肉組織之重建(1/3)

Keyphrases

1. Alizarin Red Staining 9%
2. Aqueous Environment 5%
3. Arrhythmia 6%
4. Bioreactor 33%
5. BMP3 9%
6. BMP5 9%
7. Bone Healing 9%
8. Bone Morphogenetic Protein 9%
9. Bone Morphogenetic Protein 4 (BMP4) 9%
10. Bone Morphogenetic protein-2 (BMP-2) 9%
11. Bone Tissue Engineering 9%
12. Calcium Deposition 9%
13. Cardiac Cells 6%
14. Cardiac Phenotype 6%
15. Cardiovascular Disease 6%
16. Cell Differentiation 6%
17. Cell Morphology 6%
18. Cell Sheet 33%
19. Cell Therapy 6%
20. Cell-based 9%
21. Cell-cell Interaction 6%
22. Cell-to-cell 6%
23. Clinical Application 9%
24. Clinical Drugs 6%
25. Clinical Treatment 6%
26. Communication Rate 6%
27. Computer numerical Control 6%
28. Conductive Polypyrrole 10%
29. Conductive Substrate 73%
30. Constant Voltage 5%
31. Control Cell 6%
32. Culture Conditions 6%
33. Cyclic Stretching 6%
34. Cytoskeleton 6%
35. Dental Pulp-derived Stem Cells 66%
36. Direct Current Electric Field 19%
37. Disease Model 6%
38. Drug Development 6%
39. Duchenne muscular Dystrophy 6%
40. Echocardiography Analysis 6%
41. Effciency 5%
42. Electric Field (E-field) 16%
43. Electric Field Treatment 20%
44. Electrical Coupling 6%
45. Electrical Field 42%
46. Electrical Stimulation 100%
47. Electrical Treatment 6%
48. Electrically Stimulated 6%
49. Electrochemical Reactions 5%
50. Electrophoresis 5%
51. Engineered Cells 20%
52. Engineered Myocardium 6%
53. Entanglement 5%
54. Environmental Cues 13%
55. Etiology 6%
56. Expression Plasmid 5%
57. External Electrical Field 5%
58. Field-assisted 33%
59. Gene Delivery 33%
60. Gene Expression 9%
61. Healing 6%
62. Heart Function 6%
63. Heart Tissue 6%
64. High Stretchability 6%
65. Host Tissues 6%
66. Human Dental Pulp 66%
67. Layer-by-layer Assembly 5%
68. Layered Device 6%
69. Linage 6%
70. Macromolecules 5%
71. Mature Tissue 6%
72. Mechanical Stimulation 33%
73. Mechanical Treatment 6%
74. Medicine Application 5%
75. Mineralization Rate 9%
76. Muscle Disease 6%
77. Muscle Tissue 33%
78. Myocardial Infarction 20%
79. Myocardium 20%
80. Myogenesis 6%
81. Non-viral Vectors 5%
82. Numerically Controlled Processing 6%
83. Osteodifferentiation 33%
84. Osteogenic Differentiation 33%
85. Osteoinduction 9%
86. Partial Injections 5%
87. Physical Stimulation 6%
88. Plasmid DNA (pDNA) 5%
89. Polydimethylsiloxane 20%
90. Polyelectrolyte 5%
91. Polyelectrolyte multilayers 33%
92. Polyethylenimine 16%
93. Polyplexes 5%
94. Polypyrrole 25%
95. Promotion Effect 42%
96. Protein Family 9%
97. Quantification Analysis 9%
98. Quantitative PCR 9%
99. Regenerative Medicine 5%
100. Regenerative Medicine Applications 5%
101. Regenerative Potential 6%
102. Signaling Pathway 9%
103. Static Culture 6%
104. Strain Range 6%
105. Stretchable Substrate 6%
106. Survival Rate 6%
107. Taiwan 6%
108. Temperature Regulation 6%
109. Ten Leading Causes Of death 6%
110. Thermosensitive 6%
111. Time-to-treatment 5%
112. Tissue Engineering Applications 6%
113. Tissue-engineered 6%
114. Transgene Expression 5%
115. Treating Time 9%
116. Treatment Development 6%

Medicine and Dentistry

1. Cardiac Dysrhythmia 8%
2. Cardiovascular Disease 8%
3. Cell Differentiation 8%
4. Cell Interaction 8%
5. Cell Therapy 8%
6. Cytoskeleton 8%
7. Dental Pulp 33%
8. Dimeticone 25%
9. Disease Model 8%
10. Echocardiography 8%
11. Electrotherapy 66%
12. Engineered Cell 25%
13. Engineered Tissue 8%
14. Etiology 8%
15. Ex Vivo 8%
16. Gene Targeting 33%
17. Genetic Transfection 14%
18. Heart Function 8%
19. Heart Tissue 8%
20. In Vitro 8%
21. Mechanical Stimulation 33%
22. Muscle Development 8%
23. Muscle Disease 8%
24. Muscular Dystrophy 8%
25. Myocardial Infarction 25%
26. Myocardium 33%
27. Physical Stimulation 8%
28. Polyelectrolyte 33%
29. Polyethyleneimine 14%
30. Polypyrrole 39%
31. Stem Cell 33%
32. Survival Rate 8%
33. Thermoregulation 8%
34. Tissue Regeneration 13%