Embed Size (px)
Citation preview
A20
**** **** **** **** ****** **** **** **** **** ******* ****
**** **** **** ****
Figure A6. Quantification graphs for controls stimulated in the right hemisphere – Right arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A21
*** ** ************* **** ****
*** ************
********
Figure A7. Quantification graphs for controls stimulated in the left hemisphere – Right arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A22
************
************
** ******** **** **** ** ****
**** **** *
Figure A8. Quantification graphs for controls stimulated in the right hemisphere – Left arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A23
** **************** **********
************
******* ****
********
Figure A9. Quantification graphs for controls stimulated in the left hemisphere – Left arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A24
**************** **** ********
********
***** **** **
Figure A10. Quantification graphs for controls stimulated in the right hemisphere – Both arms elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A25
**** ***** **** ****************
********
************************
Figure A11. Quantification graphs for controls stimulated in the left hemisphere – Both arms elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A26
******
**** ***************
************
********
***
Figure A12. Quantification graphs for controls stimulated in the right hemisphere – Right hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A27
****** *** **** *****************
********
********************
****
Figure A13. Quantification graphs for controls stimulated in the left hemisphere – Right hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A28
******* ** ********
****************************************
********
Figure A14. Quantification graphs for controls stimulated in the right hemisphere – Left hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A29
************
****
**************** *
**
**
**
****************
Figure A15. Quantification graphs for controls stimulated in the left hemisphere – Left hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A30
******** * ************* ********
**** ** ** *
Figure A16. Quantification graphs for controls stimulated in the right hemisphere –Both hands opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A31
************************
****
*** ********** ****
Figure A17. Quantification graphs for controls stimulated in the left hemisphere –Both hands opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A32
Figure A18. Topographic maps for matched control - The topographical distribution for the alpha band (8-10Hz) in association with right arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A33
Figure A19. Topographic maps for stroke patient - The topographical distribution for the alpha band (8-10Hz) in association with right arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A34
Figure A20. Topographic maps for matched control - The topographical distribution for the alpha band (10-12Hz) in association with right arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A35
Figure A21. Topographic maps for stroke patient - The topographical distribution for the alpha band (10-12Hz) in association with right arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A36
Figure A22. Topographic maps for matched control - The topographical distribution for the beta band (15-25Hz) in association with right arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A37
Figure A23. Topographic maps for stroke patient - The topographical distribution for the beta band (15-25Hz) in association with right arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A38
Figure A24. Time-frequency for matched control - channels C3 and CP3 between 3-40Hz before, during and after right arm elevation before cTBS protocol.
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
A39
Figure A25. Time-frequency for matched control - channels C3 and CP3 between 3-40Hz before, during and after right arm elevation after cTBS protocol on the left hemisphere.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A40
Figure A26. Time-frequency for stroke patient - channels C3 and CP3 between 3-40Hz before, during and after right arm elevation before cTBS protocol.
Baseline
Movement Pre-
cTBS
Begin Movement
Pre-cTBS
During Movement
Pre-cTBS
End Movement
Pre-cTBS
A41
Figure A27. Time-frequency for stroke patient - channels C3 and CP3 between 3-40Hz before, during and after right arm elevation after cTBS protocol on the left hemisphere.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A42
Figure A28. Quantification graphs for matched control - Right arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A43
Figure A29. Quantification graphs for stroke patient - Right arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A44
Figure A30. Topographic maps for matched control - The topographical distribution for the alpha band (8-10Hz) in association with left arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A45
Figure A31. Topographic maps for stroke patient - The topographical distribution for the alpha band (8-10Hz) in association with left arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A46
Figure A32. Topographic maps for matched control - The topographical distribution for the alpha band (10-12Hz) in association with left arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A47
Figure A33. Topographic maps for stroke patient - The topographical distribution for the alpha band (10-12Hz) in association with left arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A48
Figure A34. Topographic maps for matched control - The topographical distribution for the beta band (15-25Hz) in association with left arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A49
Figure A35. Topographic maps for stroke patient - The topographical distribution for the beta band (15-25Hz) in association with left arm elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A50
Figure A36. Time-frequency for matched control - channels C4 and CP4 between 3-40Hz before, during and after left arm elevation before cTBS protocol.
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
A51
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
Figure A37. Time-frequency for matched control - channels C4 and CP4 between 3-40Hz before, during and after left arm elevation after cTBS protocol on the left hemisphere.
A52
Figure 38. Time-frequency for stoke patient - channels C4 and CP4 between 3-40Hz before, during and after left arm elevation before cTBS protocol.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A53
Figure A39. Time-frequency for stroke patient - channels C4 and CP4 between 3-40Hz before, during and after left arm elevation after cTBS protocol on the left hemisphere.
Baseline Movement
Post-cTBS
Begin Movement
Post-cTBS
During Movement
Post-cTBS
End Movement
Post-cTBS
A54
Figure A40. Quantification graphs for matched control - Left arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A55
Figure A41. Quantification graphs for stroke patient - Left arm elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A56
Figure A42. Topographic maps for matched control - The topographical distribution for the alpha band (8-10Hz) in association with both arms elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A57
Figure A43. Topographic maps for stroke patient - The topographical distribution for the alpha band (8-10Hz) in association with both arms elevation divided in seven periods of 1000ms. A) Before cTBS stimulation. B) After cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A58
Figure A44. Topographic maps for matched control - The topographical distribution for the alpha band (10-12Hz) in association with both arms elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A59
Figure A45. Topographic maps for stroke patient - The topographical distribution for the alpha band (10-12Hz) in association with both arms elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A60
Figure A46. Topographic maps for matched control - The topographical distribution for the beta band (15-25Hz) in association with both arms elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A61
Figure A47. Topographic maps for stroke patient - The topographical distribution for the beta band (15-25Hz) in association with both arms elevation divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A62
Figure A48. Time-frequency for matched control - channels C3, CZ and C4 between 3-40Hz before, during and after both arms elevation before cTBS protocol.
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
A63
Figure A49. Time-frequency for matched control - channels C3, CZ and C4 between 3-40Hz before, during and after both arms elevation after cTBS protocol on the left hemisphere.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A64
Figure A50. Time-frequency for stroke patient - channels C3, CZ and C4 between 3-40Hz before, during and after both arms elevation before cTBS protocol.
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
A65
Figure A51. Time-frequency for stroke patient - channels C3, CZ and C4 between 3-40Hz before, during and after both arms elevation after cTBS protocol on the left hemisphere.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A66
Figure A52. Quantification graphs for matched control - Both arms elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A67
Figure A53. Quantification graphs for stroke patient - Both arms elevation assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A68
Figure A54. Topographic maps for matched control - The topographical distribution for the alpha band (8-10Hz) in association with right thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A69
Figure A55. Topographic maps for stroke patient - The topographical distribution for the alpha band (8-10Hz) in association with right thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A70
Figure A56. Topographic maps for matched control - The topographical distribution for the alpha band (10-12Hz) in association with right thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A71
Figure A57. Topographic maps for stroke patient - The topographical distribution for the alpha band (10-12Hz) in association with right thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)7
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A72
Figure A58. Topographic maps for matched control - The topographical distribution for the beta band (15-25Hz) in association with right thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A73
Figure A59. Topographic maps for stroke patient - The topographical distribution for the beta band (15-25Hz) in association with right thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A74
Figure A60. Time-frequency for matched control - channels C3 and CP3 between 3-40Hz before, during and after right thumb opposition before cTBS protocol.
Baseline Movement
Pre-cTBS
Begin Movement
Pre-cTBS
During Movement
Pre-cTBS
End Movement
Pre-cTBS
A75
Figure A61. Time-frequency for matched control - channels C3 and CP3 between 3-40Hz before, during and after right thumb opposition after cTBS protocol on the left hemisphere.
Baseline Movement
Post-cTBS
Begin Movement
Post-cTBS
During Movement
Post-cTBS
End Movement
Post-cTBS
A76
Figure A62. Time-frequency for stroke patient - channels C3 and CP3 between 3-40Hz before, during and after right thumb opposition before cTBS protocol.
Baseline Movement
Pre-cTBS
Begin Movement
Pre-cTBS
During Movement
Pre-cTBS
End Movement
Pre-cTBS
A77
Figure A63. Time-frequency for stroke patient - channels C3 and CP3 between 3-40Hz before, during and after right thumb opposition after cTBS protocol on the left hemisphere.
Baseline Movement
Post-cTBS
Begin Movement
Post-cTBS
During Movement
Post-cTBS
End Movement
Post-cTBS
A78
Figure A64. Quantification graphs for matched control - Right hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A79
Figure A65. Quantification graphs for stroke patient - Right hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A80
Figure A66. Topographic maps for matched control - The topographical distribution for the alpha band (8-10Hz) in association with left thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A81
Figure A67. Topographic maps for stroke patient - The topographical distribution for the alpha band (8-10Hz) in association with left thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A82
Figure A68. Topographic maps for matched control - The topographical distribution for the alpha band (10-12Hz) in association with left thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A83
Figure A69. Topographic maps for stroke patient - The topographical distribution for the alpha band (10-12Hz) in association with left thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
-3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
-3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A84
Figure A70. Topographic maps for matched control - The topographical distribution for the beta band (15-25Hz) in association with left thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A85
Figure A71. Topographic maps for stroke patient - The topographical distribution for the beta band (15-25Hz) in association with left thumb oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A86
Figure A72. Time-frequency for matched control - channels C4 and CP4 between 3-40Hz before, during and after left thumb opposition before cTBS protocol.
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
A87
Figure A73. Time-frequency for matched control - channels C4 and CP4 between 3-40Hz before, during and after left thumb opposition after cTBS protocol on the left hemisphere.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A88
Figure A74. Time-frequency for stroke patient - channels C4 and CP4 between 3-40Hz before, during and after left thumb opposition before cTBS protocol.
Baseline Movement
Pre-cTBS
Begin Movement
Pre-cTBS
During Movement
Pre-cTBS
End Movement
Pre-cTBS
A89
Figure A75. Time-frequency for stroke patient - channels C4 and CP4 between 3-40Hz before, during and after left thumb opposition after cTBS protocol on the left hemisphere.
Baseline Movement
Post-cTBS
Begin Movement
Post-cTBS
During Movement
Post-cTBS
End Movement
Post-cTBS
A90
Figure A76. Quantification graphs for matched control – Left hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A91
Figure A77. Quantification graphs for stroke patient – Left hand opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A92
Figure A78. Topographic maps for matched control - The topographical distribution for the alpha band (8-10Hz) in association with both thumbs oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A93
Figure A79. Topographic maps for stroke patient - The topographical distribution for the alpha band (8-10Hz) in association with both thumbs oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A94
Figure A80. Topographic maps for matched control - The topographical distribution for the alpha band (10-12Hz) in association with both thumbs oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A95
Figure A81. Topographic maps for stroke patient - The topographical distribution for the alpha band (10-12Hz) in association with both thumbs oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A96
Figure A82. Topographic maps for matched control - The topographical distribution for the beta band (15-25Hz) in association with both thumbs oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A97
Figure A83. Topographic maps for stroke patient - The topographical distribution for the beta band (15-25Hz) in association with both thumbs oppostition divided in seven periods of 1000ms. A) Represents before cTBS stimulation. B) Represents after cTBS stimulation on the left hemisphere.
A)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
B)
Time -3000 to -2000ms -2000 to -1000ms -1000 to 0ms 0 to 1000ms 1000 to 2000ms 2000 to 3000ms 3000 to 4000ms
A98
Figure A84. Time-frequency for matched control - channels C3, CZ and C4 between 3-40Hz before, during and after both thumbs opposition before cTBS protocol.
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
A99
Figure A85. Time-frequency for matched control - channels C3, CZ and C4 between 3-40Hz before, during and after both thumbs opposition after cTBS protocol on the left hemisphere.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A100
Figure A86. Time-frequency for stroke patient - channels C3, CZ and C4 between 3-40Hz before, during and after both thumbs opposition before cTBS protocol.
Baseline
Movement
Pre-cTBS
Begin
Movement
Pre-cTBS
During
Movement
Pre-cTBS
End
Movement
Pre-cTBS
A101
Figure A87. Time-frequency for stroke patient - channels C3, CZ and C4 between 3-40Hz before, during and after both thumbs opposition after cTBS protocol on the left hemisphere.
Baseline
Movement
Post-cTBS
Begin
Movement
Post-cTBS
During
Movement
Post-cTBS
End
Movement
Post-cTBS
A102
Figure A88. Quantification graphs for matched control – Both hands opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
A103
Figure A89. Quantification graphs for stroke patient – Both hands opposition assessing the power of lower alpha, higher alpha and beta in both conditions: pre-cTBS and post-cTBS.
![home []€¦ · O to Ono O cžs, t-ri tri O a a a N a O a O O OOOOOOOOOOOOO O 00 . to to to to to to to to to to to to to to to to to to to to N N N N N N N N N N N N](https://img.pdfslide.net/doc/110x75/60752a2d262e887c3e486032/home-o-to-ono-o-cs-t-ri-tri-o-a-a-a-n-a-o-a-o-o-ooooooooooooo-o-00-to-to.jpg)
![[ MRI ] - TWSRT · Web view(A) TR has to set over 2000ms to increase the contrast. (B) The Matrix has to rise to increase SNR. (C) The signal intensities of fat, gray matter, white](https://img.pdfslide.net/doc/110x75/604259ae2dcca34fa326480c/-mri-web-view-a-tr-has-to-set-over-2000ms-to-increase-the-contrast-b-the.jpg)
