Zusammenfassung
Durch den rasanten Fortschritt in der Computertechnologie – der sich sowohl in der Hardware als auch in der Softwareentwicklung in immer schnelleren Rechnern mit größeren Speicherkapazitäten, besserer visueller Darstellung des Feedbacks und komplexen Softwaremodulen widerspiegelt – ist es seit wenigen Jahren möglich geworden, auch neue, aufwändige Bio- und Neurofeedbackanwendungen in den therapeutischen Praxen einzusetzen.
Weiterführende Literatur
Allgemein
Sherlin L, Arns M, Lubar J, Sokhadze E (2010) A position paper on Neurofeedback for the treatment of ADHD. Journal of Neurotherapy 14: 2, 66–78
Z-Wert-Training
Collura TF, Guan J, Tarrant, J, Bailey J, Starr F (2010) EEG biofeedback case studies using live Z-score training and a normative database. Journal of Neurotherapy 14(1):22–46
Collura TF (2009) Neuronal dynamics in relation to normative electroencephalography assessment and training. Biofeedback 36:134–139
Collura TF (2008b) Whole-head normalization using live Z-scores for connectivity training (Part 2). NeuroConnections Newsletter July 2008, pp 9–12
Collura TF (2008) Whole-head normalization using live Z-scores for connectivity training, Part 1. NeuroConnections Newsletter April 2008, pp 12, 15,18–19
Smith M (2008) A father finds a solution: Z-score training. NeuroConnections Newsletter April 2008, pp 22, 24–25
Thatcher RW (2008) Z-score EEG biofeedback: Conceptual foundations. NeuroConnections Newsletter April 2008, pp 9, 11, 20
LORETA-Neurofeedback
Cannon R, Congredo M, Lubar J, Hutchens T (2009) Differentiating a network of executive attention: LORETA neurofeedback in anterior cingulate and dorsolateral prefrontal cortices. Int J Neurosci 119(3):404–441
Cannon R, Lubar J, Sokhadze E, Baldwin D (2008) LORETA neurofeedback for addiction and the possible neurophysiology of psychological processes influenced: A case study and region of interest analysis of LORETA neurofeedback in right anterior cingulate cortex. Journal of Neurotherapy 12(4):227–241
Cannon R, Lubar J (2007) EEG spectral power and coherence: Differentiating effects of spatial-specific neuro-operant learning (SSNOL) utilizing LORETA neurofeedback training in the anterior cingulate and bilateral dorsolateral prefrontal cortices. Journal of Neurotherapy 11(3):25–44
Cannon R, Lubar J, Congedo M, Thornton K, Towler K., Hutchens T (2007) The effects of neurofeedback training in the cognitive division of the anterior cingulate gyrus. International Journal of Neuroscience 117(3):337–357
Cannon R, Lubar J, Congedo M, Thornton K, Towler K, Hutchens T (2007) The effects of neurofeedback training in the cognitive division of the anterior cingulate gyrus. International Journal of Neuroscience 117(3):337–357
Cannon R, Lubar J, Gerke A, Thornton K, Hutchens T, McCammon V (2006) EEG spectral-power and coherence: LORETA neurofeedback training in the anterior cingulate gyrus. Journal of Neurotherapy 10(1):5–31
Cannon R, Lubar J, Congedo M, Gerke A, Thornton K, Kelsay B et al. (2006b) The effects of neurofeedback training in the cognitive division of the anterior cingulate gyrus. International Journal of Science (in press)
Cannon R, Lubar J, Thornton K, Wilson S, Congedo M (2005) Limbic beta activation and LORETA: Can hippocampal and related limbic activity be recorded and changes visualized using LORETA in an affective memory condition? Journal of Neurotherapy 8(4):5–24
Congedo M, Lubar JF, Joffe D (2004) Low-resolution electromagnetic tomography neurofeedback. IEEE Transactions on Neural Systems & Rehabilitation Engineering 12(4):387–397
Lubar J, Congedo M, Askew JH (2003) Low-resolution electromagnetic tomography (LORETA) of cerebral activity in chronic depressive disorder. International Journal of Psychophysiology 49(3):175–185
Thatcher RW (2008) Z-score EEG biofeedback: Conceptual foundations. NeuroConnections Newsletter April 2008, pp 9, 11, 20
Phänotyp-geleitetes Neurofeedbacktraining
American Psychiatric Association (APA) (2000) DSM-IV-TR: Diagnostic and Statistical Manual of Mental Disorders, 4. Aufl.
Johnstone J, Gunkelman J, Lunt J (2005) Clinical database development: Characterization of EEG phenotypes. Clinical EEG and Neuroscience 36(2):99–107
Gunkelman J (2006) Transcend the DSM using phenotypes. Biofeedback 34(3):95–98
fMRT-Neurofeedback
Bray S, Shimojo S, O’Doherty JP (2007) Direct instrumental conditioning of neural activity using functional magnetic resonance imaging-derived reward feedback. Journal of Neuroscience 27:7498–7507
Caria A, Sitaram R, Veit R, Begliomini C, Birbaumer N (2010) Volitional control of anterior insula activity modulates the response to aversive stimuli. A real-time functional magnetic resonance imaging study. Biological Psychiatry 68(5):425–432
Caria A, Veit R, Sitaram R, Lotze M, Weiskopf N, Grodd W, Birbaumer N (2007) Regulation of anterior insular cortex activity using real-time fMRI. Neuroimage 35:1238–1246
DeCharms RC (2008) Applications of real-time fMRI . Nature Neuroscience 9:720–729
DeCharms RC (2007) Reading and controlling human brain activation using real-time functional magnetic resonance imaging. Trends in Cognitive Science 11:473–481
DeCharms RC, Maeda F, Glover GH, Ludlow D, Pauly JM, Soneji D, Gabrieli JD, Mackey SC (2005) Control over brain activation and pain learned by using realtime functional MRI. Proceedings of the National Academy of Sciences 102:18626–18631
DeCharms RC, Christoff K, Glover G, Pauly J, Whitfield S, Gabrieli J (2004) Learned regulation of spatially localized brain activation using real-time fMRI. Neuroimage 21:436–443
Fetz EE (2007) Volitional control of neural activity: implications for brain-computer interfaces. Journal of Physiology 579:571–579
Johnston SJ, Boehm SG, Healy D, Goebel R, Linden DEJ (2010) Neurofeedback: A promising tool for the self-regulation of emotion networks. Neuroimage 49(1):1066–1072
Rota G, Sitaram R, Veit R, Erb M, Weiskopf N, Dogil G, Birbaumer N (2009) Self-regulation of regional cortical activity using real-time fMRI: The right inferior frontal gyrus and linguistic processing. Human Brain Mapping 30:1605–1614
Weiskopf N, Sitaram R, Josephs O, Veit R, Scharnowski F, Goebel R, Birbaumer N, Deichmann R, Mathiak K (2007) Real-time functional magnetic resonance imaging: methods and applications. Magnetic Resonance Imaging 25:989–1003
Weiskopf N, Scharnowski F, Veit R, Goebel R, Birbaumer N, Mathiak K (2004) Self-regulation of local brain activity using real-time functional magnetic resonance imaging (fMRI). Journal of Physiology (Paris) 98:357–373
Weiskopf N, Veit R, Erb M, Mathiak K, Grodd W, Goebel R, Birbaumer N (2003) Physiological self-regulation of regional brain activity using real-time functional magnetic resonance imaging (fMRI): methodology and exemplary data. Neuroimage 19:577–586
Yoo S, O’Leary H, Fairneny T, Chen N, Panych L, Park H, Jolesz F (2006) Increasing cortical activity in auditory areas through neurofeedback functional magnetic resonance imaging. Neuroreport 17:1273–1278
Yoo S, Jolesz FA (2002) Functional MRI for neurofeedback: feasibility study on a hand motor task. Neuroreport 13:1377–1381
HEG-Biofeedback
Carmen JA (2004) Passive infrared hemoencephalography: Four years and 100 migraines. Journal of Neurotherapy 8(3):23–51
Coben R, Pudolsky I (2007) Infrared imaging and neurofeedback: Initial reliability and validity. Journal of Neurotherapy 11(3):3–13
Friedes D, Aberbach L (2003) Exploring hemispheric differences in infrared brain emissions. Journal of Neurotherapy 8(3):53–61
Mize W (2004) Hemoencephalography A new therapy for attention deficit hyperactivity disorder (ADHD): Case report. Journal of Neurotherapy 8(3):77–97
Sherrill R (2004) Effects of hemoencephalography (HEG) training at three prefrontal locations using EEG ratios at Cz. Journal of Neurotherapy 8(3):63–76
Toomim H, Mize W, Kwong PC, Toomim M, Marsh R, Kozlowski GP, Kimball M, Remond A (2004) Intentional increase of cerebral blood oxygenation using hemoencephalography (HEG). Journal of Neurotherapy 8(3):5–21
Rights and permissions
Copyright information
© 2013 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Strauß, G. (2013). Neuere Ansätze. In: Praxisbuch Biofeedback und Neurofeedback. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-30179-7_6
Download citation
DOI: https://doi.org/10.1007/978-3-642-30179-7_6
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-30178-0
Online ISBN: 978-3-642-30179-7
eBook Packages: Medicine (German Language)