Atjaunināt sīkdatņu piekrišanu

Clinical Electrophysiology of the Somatosensory Cortex [Mīkstie vāki]

  • Formāts: Paperback / softback, 198 pages, Illustrations
  • Izdošanas datums: 01-Jan-1993
  • Izdevniecība: Springer
  • ISBN-10: 0387823913
  • ISBN-13: 9780387823911
Citas grāmatas par šo tēmu:
  • Mīkstie vāki
  • Cena: 128,28 €*
  • * Šī grāmata vairs netiek publicēta. Jums tiks paziņota lietotas grāmatas cena
  • Šī grāmata vairs netiek publicēta. Jums tiks paziņota lietotas grāmatas cena.
  • Daudzums:
  • Ielikt grozā
  • Pievienot vēlmju sarakstam
Clinical Electrophysiology of the Somatosensory Cortex
  • Formāts: Paperback / softback, 198 pages, Illustrations
  • Izdošanas datums: 01-Jan-1993
  • Izdevniecība: Springer
  • ISBN-10: 0387823913
  • ISBN-13: 9780387823911
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780387823911.html
Keywords:
Introduction
1(14)
Functional Anatomy of Human Somatosensory Cortex
1(7)
Clinical Importance
1(1)
Methods to Study Functional Anatomy of Human Somatosensory Cortex
2(1)
Direct Cortical Stimulations
2(1)
Somatosensory Evoked Potentials on Electrocorticography
3(1)
Somatosensory Evoked Potentials on Scalp-EEG
4(2)
Somatosensory Evoked Fields on Magnetoencephalography
6(1)
The Neuronal Sources of Somatosensory Evoked Responses
7(1)
Somatotopy of Human Somatosensory Cortex
8(7)
Current Concepts Concerning the Somatotopic Organization of Somatosensory Cortex
8(1)
Clinical Importance
9(1)
Methods to Study Somatotopy of Human Somatosensory Cortex
10(1)
Direct Cortical Stimulations
10(1)
Somatosensory Evoked Potentials on Electrocorticography
11(1)
Somatosensory Evoked Potentials on Scalp-EEG
12(1)
Somatosensory Evoked Fields on Magnetoencephalography
13(2)
General Methodology
15(14)
Neurogenesis of ECoG, Scalp-EEG, and MEG
15(3)
Biophysical Laws of EEG and MEG
18(3)
Forward and Inverse Problem
18(1)
Assumptions Concerning the Current Sources
18(1)
Assumptions Concerning the Volume Conductor
19(1)
Practical Outline of Dipole Modeling
20(1)
Magnetoencephalography - Basic Concepts
21(5)
Basic Principles of the Procedure
21(1)
Instrumentation
21(3)
Magnetic Shielding
24(1)
Differences Between Scalp-EEG and MEG
24(2)
Cortical Stimulations
26(3)
Subdural Grid Electrodes
26(1)
Stimulus Parameters
26(1)
Neurophysiological Effects of Cortical Stimulations
27(1)
General Testing Procedure
28(1)
Spatiotemporal Modeling on ECoG, Scalp-EEG, and MEG
29(14)
Motivation
29(1)
Simulation Study
29(3)
Basic Goals of Spatiotemporal Modeling
32(1)
Principal Component Analysis
33(1)
Introduction
33(1)
Methods
33(1)
Combination of Principal Component Analysis and Biophysical Modeling
34(1)
Multiple Dipole Modeling
35(3)
Introduction
35(1)
Methods
36(1)
Forward Problem
36(1)
Inverse Problem
37(1)
Practical Outline of Spatiotemporal Modeling
38(1)
Spatiotemporal Modeling as Outlined on Two Typical Examples
38(3)
Modeling of the Somatosensory Evoked Magnetic Fields
38(3)
Modeling of the Human Epileptic Spike Complex
41(1)
Limitations of the Procedure
41(2)
Limitations of Principal Component Analysis
41(1)
Limitations of Multiple Dipole Modeling
42(1)
Functional Anatomy of Human Somatosensory Cortex
43(70)
Methods
43(6)
Cortical Stimulations - Median Nerve Somatosensory Evoked Potentials on Electrocorticography
43(1)
Patients
43(1)
Cortical Stimulations
43(1)
Somatosensory Evoked Potentials on Electrocorticography
44(1)
Correlation of Neuroelectric and Anatomical Data
44(1)
Data Analysis
45(1)
Median Nerve Somatosensory Evoked Potentials on Scalp-EEG
46(1)
Subjects and Procedures
46(1)
Correlation of Neuroelectric and Anatomical Data
46(1)
Data Analysis
47(1)
Median Nerve Somatosensory Evoked Fields on Magnetoencephalography
48(1)
Subjects and Procedures
48(1)
Correlation of Neuromagnetic and Anatomical Data
48(1)
Data Analysis
49(1)
Results
49(26)
Cortical Stimulations - Median Nerve Somatosensory Evoked Potentials on Electrocorticography
49(1)
Cortical Stimulations
49(1)
Somatosensory Evoked Potentials - Data
50(1)
Number of Sources
51(1)
Results of Spatiotemporal Modeling
51(1)
Results of Selected Patients
52(5)
Median Nerve Somatosensory Evoked Potentials on Scalp-EEG
57(1)
Data
57(1)
Number of Sources
57(1)
Results of Spatiotemporal Modeling
58(1)
Results of Selected Subjects
58(4)
Median Nerve Somatosensory Evoked Fields on Magnetoencephalography
62(1)
Data
62(1)
Number of Sources
63(1)
Results of Spatiotemporal Modeling
63(1)
Results of Selected Subjects
64(4)
Comparison of ECoG, Scalp-EEG, and MEG
68(1)
Comparison of the Raw Data for the Subjects as a Group
68(1)
Comparison of Spatiotemporal Modeling for the Subject as a Group
68(2)
Comparison of ECoG and Scalp-EEG in a Selected Patient
70(2)
Comparison of Scalp-EEG and MEG in a Selected Subject
72(3)
Discussion
75(38)
Cortical Stimulations - Median Nerve Somatosensory Evoked Potentials on Electrocorticography
75(1)
Cortical Stimulations
76(2)
Data
78(3)
Source Localization Techniques
81(1)
Spatiotemporal Modeling
81(1)
The Neuronal Sources Underlying SEPs
82(3)
Limitations of the Procedure
85(1)
Median Nerve Somatosensory Evoked Potentials on Scalp-EEG
85(1)
Data
85(3)
Source Localization Techniques
88(1)
Spatiotemporal Modeling
89(1)
Neuronal Sources Underlying SEPs
90(3)
Limitations of the Procedure
93(1)
Median Nerve Somatosensory Evoked Fields on Magnetoencephalography
94(1)
Data
94(2)
Spatiotemporal Modeling
96(1)
The Neuronal Sources Underlying SEFs
97(2)
Functional Organization of Human Somatosensory Cortex
99(1)
Comparison of ECoG, Scalp-EEG, and MEG
100(1)
Comparison of ECoG and Scalp-EEG
100(2)
Comparison of Scalp-EEG and MEG
102(1)
Localization Accuracy of Scalp-EEG and MEG
103(1)
Additional Information Revealed by Scalp-EEG and MEG
103(1)
Considerations Concerning the Model
104(1)
The Dipole Concept
104(1)
Spatiotemporal Modeling - Modeling Assumptions and Neurophysiological Considerations
105(1)
Spatiotemporal Modeling - Mathematical and Computational Considerations
105(2)
Neurogenesis of the Human Somatosensory Evoked Response
107(1)
The Primary Evoked Response
107(1)
Neurogenesis of the N20-P30 Component - Activity Attributed to Area 3b
107(3)
Neurogenesis of the P25-N35 Component - Activity Attributed to Area 1
110(3)
Somatotopy of Human Somatosensory Cortex
113(54)
Methods
113(6)
Somatotopy as Studied with Cortical Stimulations and Somatosensory Evoked Potentials on Electrocorticography
113(1)
Patients
113(1)
Cortical Stimulations
113(1)
Somatosensory Evoked Potentials Recorded on Electrocorticography
113(1)
Correlation of Neuroelectric and Anatomical Data
114(1)
Data Analysis
114(1)
Somatotopy as Studied on Scalp-EEG
115(1)
Subjects and Procedures
115(1)
Correlation of Neuroelectric and Anatomical Data
116(1)
Data Analysis
116(1)
Somatotopy as Studied on Magnetoencephalography
117(1)
Subjects and Procedures
117(1)
Correlation of Neuromagnetic and Anatomical Data
118(1)
Data Analysis
118(1)
Results
119(29)
Somatotopy as Studied with Cortical Stimulations and Somatosensory Evoked Potentials on Electrocorticography
119(1)
Cortical Stimulations
119(1)
Somatosensory Evoked Potentials - Data
120(2)
Isopotential Maps for Median and Ulnar Nerve SEPs
122(1)
Isopotential Maps for Digit SEPs
123(1)
Isopotential Maps for Lip SEPs
124(1)
Cortical Hand and Digit Representation
125(3)
Cortical Lip Representation in Relation to Hand Representation
128(3)
Somatotopy as Studied on Scalp-EEG
131(1)
Data
131(1)
Isopotential Maps for Median and Ulnar Nerve SEPs
132(1)
Isopotential Maps for Digit SEPs
133(2)
Cortical Hand and Digit Representation
135(3)
Somatotopy as Studied on Magnetoencephalography
138(1)
Data
138(1)
Isofield Maps for Median, Ulnar Nerve and Digit SEFs
139(2)
Cortical Hand and Digit Representation
141(3)
Comparison of ECoG, Scalp-EEG, and MEG
144(1)
General Comparison
144(2)
Comparison of Somatotopy on ECoG and Scalp-EEG in a Selected Patient
146(1)
Comparison of Somatotopy on Scalp-EEG and MEG in Two Selected Subjects
146(2)
Discussion
148(19)
Somatotopy as Studied with Cortical Stimulations and Somatosensory Evoked Potentials on Electrocorticography
148(1)
Cortical Stimulations
148(2)
Somatosensory Evoked Potentials - Data
150(1)
Isopotential Maps
151(1)
Somatotopy of Human Hand Somatosensory Cortex
151(2)
Neuronal Sources in Human Hand Somatosensory Cortex
153(1)
Somatotopy and Neuronal Sources of Lip Somatosensory Cortex
154(1)
Somatotopy as Studied on Scalp-EEG
155(1)
Data
155(1)
Isopotential Maps
156(1)
Somatotopy of Human Hand Somatosensory Cortex
157(2)
Neuronal Sources in Human Hand Somatosensory Cortex
159(1)
Somatotopy as Studied on Magnetoencephalography
160(1)
Data
160(1)
Isofield Maps
161(1)
Somatotopy of Human Hand Somatosensory Cortex
162(1)
Neuronal Sources in Human Hand Somatosensory Cortex
163(1)
Comparison of ECoG, Scalp-EEG, and MEG
164(3)
Clinical Implications
167(5)
Summary 172(4)
List of Abbreviations 176(1)
References 177