References

1. Allison T, McCarthy G et al (1989) Human cortical potentials evoked by stimulation of the median nerve. J Neurophysiol 62: 694-710

2. Allison T, McCarthy G et al (1991) Potentials evoked in human and monkey cerebral cortex by stimulation of the median nerve: a review of scalp and intracranial recordings. Brain 114: 2465-2503

3. Anastasiadis PG, Kotini A, Anninos P, Adamopoulos A, Sigalas J, Koutlaki N (2003) Chaotic and periodic analysis of fetal magnetocardiogram recordings in growth restriction. Prenat Diagn 23(5): 405-409

4. Baumgartner C, Pataraia E et al (2000) Magnetoencephalography in focal epilepsy. Epilepsia 41 [Suppl] 3: S39-S47

5. Buchner H, Fuchs M et al (1994) Source analysis of median nerve and finger stimulated somatosensory evoked potentials: multichannel simultaneous recording of electric and magnetic fields combined with 3D MRI tomography. Brain Topography 6: 299-310

6. Cohen D (1968) Magnetoencephalography: evidence of magnetic field produced by alpha-rhythm currents. Science 161: 784-786

7. Disbrow EA, Slutsky DA et al (2000) Functional MRI at 1.5 tesla: a comparison of the blood oxygenation level-dependent signal and electrophys-iology. Proc Natl Acad Sci USA 97(17): 9718-9723

8. Ebersole JS (1997) Defining epileptogenic foci: past, present and future. J Clin Neurophysiol 14: 470-483

9. Engel J Jr (1993) Intracerebral recordings: organization of the human epileptogenic region. J Clin Neurophysiol 10: 90-98

10. Ganslandt O, Fahlbusch R et al (1999) Functional neuronavigation with magnetoencephalography: outcome in 50 patients with lesions around the motor cortex. J Neurosurg 91(1): 73-79

11. Gootjes L, Raij T et al (1999) Left-hemisphere dominance for processing of vowels: a whole-scalp neuromagnetic study. Neuroreport 10(14): 2987-2991

12. Gotman J, Wang IY (1991) State-dependent spike detection: concepts and preliminary results. Electroenceph Clin Neurophysiol 79: 11-19

13. Hari R, Forss N (1999) Magnetoencephalography in the study of human somatosensory cortical processing. Phil Trans R Soc Lond B 354: 1145-1154

14. Hari R, Reinikerinen K et al (1984) Somatosensory evoked cerebral magnetic fields from SI and SII in man. Electroenceph Clin Neurophysiol 57: 254-263

15. Hari R, Salenius S (1999) Rhythmical corticomotor communication. NeuroReport 10: R1-R10

16. Inoue T, Shimizu H et al (1999) Accuracy and limitation of functional magnetic resonance for identification of central sulcus: comparison with magne-toencephalography in patients with brain tumours. Neuroimage 10: 738-748

17. Iwasaki M, Nakasato N et al (2002) Surgical implications of neuromagnetic spike localization in temporal lobe epilepsy. Epilepsia 43: 415-424

18. Kanzaki H, Nakatani S, Kandori A, Tsukada K, Miyatake K (2003) A new screening method to diagnose coronary artery disease using multichannel magnetocardiogram and simple exercise. Basic Res Cardiol 98(2): 124-132

19. Kober H, Moller M et al (2001) New approach to localize speech relevant brain areas and hemispheric dominance using spatially filtered magneto-encephalography. Hum Brain Mapp 14(4): 236-250

20. Kober H, Nimsky C et al (2001) Correlation of sensorimotor activation with functional magnetic resonance imaging and magnetoencephalography in pre-surgical functional imaging: a spatial analysis. Neuroimage 14(5): 1214-1228 Lantz G, Wahlberg P et al (1998) Categorization of inter-ictal epileptiform potentials using a graphic-theoretic method. Electroenceph Clin Neurophysiol 107: 323-331

Makela JP, Kirveskari E et al (2001) Three-dimensional integration of brain anatomy and function to facilitate intraoperative navigation around the sen-sorimotor strip. Human Brain Mapping 12: 180-192

Malonek D, Dirnagl U et al (1997) Vascular imprints of neuronal activity: relationships between the dynamics of cortical blood flow, oxygenation, and volume changes following sensory stimulation. Proc Natl Acad Sci USA 94(26): 14826-14831

Mauguiere F (1998) Somatosensory evoked potentials: normal reposnses, abnormal waveforms and clinical applications in neurological diseases. 10141058

Momjian S, Seghier M et al (2003) Mapping of the neuronal networks of human cortical brain functions. Adv Tech Stand Neurosurg 28: 91-142 Okada YC, Tanenbaum R et al (1984) Somatotopic organization of the human somatosensory cortex revealed by neuromagnetic measurements. Exp Brain Res 56(197-205)

Ossenblok P, Fuchs M et al (1999) Source analysis of lesional frontal lobe epilepsy. IEEE Eng Med Biol Mag 18: 67-77

Ossenblok P, Luiten FSS et al (2003) Magnetic source imaging contributes to the presurgical identification of sensorimotor cortex in patients with frontal lobe epilepsy. Clin Neurophysiol 114: 212-232

Papanicolaou AC, Simos PG et al (1999) Magnetoencephalographic mapping of the language specific cortex. J Neurosurgery 90: 85-93 Rezai AR, Hund M et al (1996) The interactive use of magneto-encephalography in stereotaxic image-guided neurosurgery. Neurosurgery 39(1): 92-102

Robinson SE, Rose DG (1992) Current source image estimation by spatial filtered MEG

Salenius S, Portin K et al (1997) Cortical control of human motorneuron firing during isometyric contractions. J Neurophysiol 77: 3401-3405 Salmelin R, Hari R et al (1994) Dynamics of brain activation during picture naming. Nature 368: 463-465

Stefan H, Hummel C et al (2000) Magnetoencephalography in extratemporal epilepsy. J Clin Neurophysiol 17: 190-200

Sutherling WW, Crabdall P et al (1988) The magnetic and electric fields agree with intracranial localization of somtaosensory cortex. Neurology 38: 373381

Sutherling WW, Levesque MF et al (1991) Localization of partial epilepsy using magnetic and electric measurements. Epilepsia 32 [Suppl] 5: S29-S40 Van't Ent D, Manshanden I et al (2003) Spike Cluster analysis in neocortical localization related epilepsy achieves clinically significant source localization results in MEG. Clin Neurophysiol (in press)

38. Van't Ent D, Manshanden I et al (2003) Spike cluster analysis in neocortical localization related epilepsy yields clinically significant equivalent source localization results in magnetoencephalogram (MEG). Clin Neurophysiol

39. Wada J, Rasmussen T (1960) Intracarotid injection of sodium amytal for the lateralization of cerebral speech dominance. J Neurosurgery 17: 266-282

40. Wahlberg P, Lantz G (2000) Methods for robust clustering of epileptic EEG spikes. IEEE Trans Biomed Eng 47: 857-868

41. Wilson SB, Turner CA et al (1999) Spike detection. II. Automatic, perception-based detection and clustering. Clin Neurophysiol 110: 404-411

42. Wood CC, Cohen D et al (1985) Electrical sources in human somatosensory cortex: identification by combined magnetic and potential recordings. Science 227: 1051-1053

43. Zilles K, Schlaug G et al (1995) Mapping of human and macaque sensor-imotor areas by integrating architectonic, transmitter receptor, MRI and PET data. J Anat 187(Pt 3): 515-537

Offprint from

Advances and Technical Standards in Neurosurgery, Vol. 30 Edited by J.D. Pickard

© Springer-Verlag/Wien 2005 - Printed in Austria - Not for Sale

Peripheral Neuropathy Natural Treatment Options

Peripheral Neuropathy Natural Treatment Options

This guide will help millions of people understand this condition so that they can take control of their lives and make informed decisions. The ebook covers information on a vast number of different types of neuropathy. In addition, it will be a useful resource for their families, caregivers, and health care providers.

Get My Free Ebook


Post a comment