Bazzana et al.2022 , Front. Hum. Neurosci. 16:920659. doi: 10.3389/fnhum.2022.920659
Infra-Low Frequency Neurofeedback: A Systematic Mixed Studies Review
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Research Publication on the NAP's Results Tracking System
Fleischman, MJ (2022). Documenting the Impact of Infra Low
Frequency Neurofeedback on Underserved Populations With
Complex Clinical Presentations. Front. Hum. Neurosci. 16:921491. doi: 10.3389/fnhum.2022.921491
NAP の結果追跡システムに関する研究出版物 Fleischman, MJ (2022).
複雑な症状を伴う十分なサービスを受けていない集団に対するインフラ低周波ニューロフィードバックの影響の文書化
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InfraLow Frequency (ILF) Neurofeedback Overview, Mechanisms and Neurophysiology
Altan, S., Berberoglu, B., Canan, S. & Dane, S. (2016).
Effects of neurofeedback therapy in healthy young subjects.
Clin invest Med 39, 27–30.
インフラ低周波ニューロフィードバックの概要、メカニズムおよび神経生理学
Arina, G., Osina, E., Dobrushina, O. & Aziatskaya, G. (2017). Sham-neurofeedback as an intervention: Placebo or nocebo? European Psychiatry, 41, 253-254.
介入としての偽ニューロフィードバック: プラセボかノセボか?
Asadpour, V. (2021) Training the Conductor of the Brainwave Symphony: In Search of a Common Mechanism of Action for All Methods of Neurofeedback. In Brain-Computer Interface (1-18), Markovics, J.A.
脳波シンフォニーの指揮者のトレーニング: ニューロフィードバックのすべての方法に対する共通の作用メカニズムを求めて.
Dobrushina, O. et al. (2015). The effect of Infra-Low Frequency Neurofeedback on default mode network of the brain. Conference paper at Applied Neuroscience and Social Well being, Moscow. (in Russian).
脳のデフォルトモードネットワークに対する超低周波ニューロフィードバックの効果
Dobrushina, O. R. et al. (2018) Exploring the brain contour of implicit infra-low frequency EEG neurofeedback: a resting state fMRI study. Int. J. Psychophysiol. 131, S76 (2018).
暗示的な低周波 EEG ニューロフィードバックの脳の輪郭を探る: 安静状態の fMRI 研究
Dobrushina, O. et al. (2020). Modulation of Intrinsic Brain Connectivity by Implicit Electroencephalographic Neurofeedback. Frontiers in Human Neuroscience, 14: 192.
潜在的な脳波ニューロフィードバックによる内因性脳接続の変調
Grin-Yatsenko, V. A., Ponomarev, V. A., Kara, O., Wandernoth, B., Gregory, M., Ilyukhina, V. A., & Kropotov, J. D. (2018). Effect of Infra-Low Frequency Neurofeedback on Infra-Slow EEG Fluctuations. In Biofeedback. IntechOpen
インフラスローEEG変動に対するインフラ低周波ニューロフィードバックの効果
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Grin-Yatsenko, V., Kara, O., Evdokimov, S., Gregory, M., Othmer, S. & Kropotov, J. (2020). Infra-Low Frequency Neurofeedback Modulates Infra-Slow Oscillations of Brain Potentials: A Controlled Study. Journal of Biomedical Engineering and Research, 4, 1-11.
インフラ低周波ニューロフィードバックは、脳電位のインフラ低速振動を調節します:対照研究。
Legarda S., McMahon D., Othmer S. & Othmer SF. (2011). Clinical Neurofeedback: Case Studies, Proposed Mechanism and Implication for Paediatric Neurology Practice. Journal of Child Neurology, 26(8), 1045-1051.
ニューロフィードバック:ケーススタディ、提案されたメカニズム、および小児神経学の実践への影響。
Othmer S., Othmer S.F., Kaiser D. & Putman J. (2013). Endogenous Neuromodulation at Infra-Low Frequencies. Seminars in Paediatric Neurology, 20(4), 246-257.
低周波での内因性神経調節。
Othmer S., Othmer SF. & Legarda S. (2011). Clinical Neurofeedback: Training Brain Behavior. Pediatric Neurology and Psychiatry, 2, 67-73.
ニューロフィードバック: 脳の行動のトレーニング。
Segler, K. (2020). The Science Behind Our Model: The Development of the Other Method. BEE Medic & Neurofeedback Scotland.
私たちのモデルの背後にある科学: 他の方法の開発。
Seuß, S. & Riederle, J. (2021). Experiences with Neurofeedback in Therapeutic Practice. Praxis Ergotherapie, 34.
実践におけるニューロフィードバックの経験。
Sitaram, R., Ros, T., Stoeckel, L., Haller, S., Scharnowski, F., Lewis-Peacock, J., Weiskopf, N., Blefari, M., Rona, M., Oblka, E., Birbaumer, N. &
Sulzer, J. (2017). Closed-loop brain training: the science of neurofeedback. Nature Review Neuroscience, 18(2), 86 -100.
閉ループ脳トレーニング: ニューロフィードバックの科学。
ILF Neurofeedback in Latest Clinical Application
最新の応用におけるILFニューロフィードバック
▼ADDICTION
Corominas-Roso, M. et al. (2020). Benefits of EEG-Neurofeedback on the Modulation of Impulsivity in a Sample of Cocaine and Heroin Long-Term Abstinent Inmates: A Pilot Study. International Journal of Offender Therapy and Comparative Criminology, 64(12), 1275-1298.
コカインとヘロインの長期禁欲受刑者のサンプルにおける衝動性の変調に対するEEG-ニューロフィードバックの利点:パイロット研究。
Leong, S. L., Vanneste, S., Lim, J., Smith, M., Manning, P., & De Ridder, D. (2018). A randomised, double-blind, placebo-controlled parallel trial of closed-loop infraslow brain training in food addiction. Scientific reports, 8(1), 1-9.
依存症における閉ループインフラスロー脳トレーニングの無作為化二重盲検プラセボ対照並行試験。
▼ADHD & AUTISM
Asadpour, V. (2021) Therapeutic Effect of Infra-Low-Frequency Neurofeedback Training on Children and Adolescents with ADHD. In Brain-Computer Interface (1-18), Schneider, H., Riderle, J. & Seuss, S.
ADHDの子供と青年に対する超低周波ニューロフィードバックトレーニングの研究。
Coben, R., Linden, M. & Myers, T.E. (2010). Neurofeedback for Autistic Spectrum Disorder: A Review of the Literature. Applied Psychophysiology & Biofeedback, 35(1), 83-105.
自閉症スペクトラム障害のニューロフィードバック研究:文献のレビュー
Flatz, T. & Gleußner, M. (2014). Neurofeedbacktherapie bei ADHS und Autismus. Pädiatrie & Pädologie 49, 22–27.
ニューロフィードバック:ADHSと自閉症の研究
Othmer S. & Othmer S.F. (2011). Neurofeedback for the Autism Spectrum. In K. Siri and T. Lyons (Eds.), Cutting-Edge Therapies for Autism (262-267). Skyhorse Publishing.
自閉症スペクトラムのニューロフィードバック研究
Schneider, H., Alfred, A., Wandernoth, B. and Blunck, A. (2019): Therapeutic effect of Infra-Low-Frequency (ILF-) Neurofeedback training on Children and Adolescents with Attention Deficit (Hyperkinetic) Disorder. Clinical Neurophysiology, 130, 8, e125-e126. Conference Abstract at the 63rd Annual Meeting of the German Society for Clinical Neurophysiology and Functional Imaging (DGKN)
注意欠陥(多動性)障害のある小児および青年に対する超低周波(ILF-)ニューロフィードバックトレーニングの研究。
▼DEPRESSION
Grin-Yatsenko, V. A. et al. (2018) Infra-low frequency neurofeedback in depression: Three case studies. NeuroRegulation 5, 30–42.
うつ病における低周波神経フィードバック:3つのケーススタディ。
▼MIGRAINE
Dobrushina, O., Arina, G., Osina, E. & Aziatskaya, G. (2017). Clinical and psychological confirmation of stabilizing effect of neurofeedback in migraine. European Psychiatry, 41.
片頭痛におけるニューロフィードバックの安定化効果の心理的確認。
▼EATING DISORDERS
Chirita-Emandi, A., & Puiu, M. (2014). Outcomes of neurofeedback training in childhood obesity management: A pilot study. Journal of Alternative and Complementary Medicine, 20(11), 831–837.
小児肥満管理におけるニューロフィードバックトレーニングの研究:パイロット研究。
▼FIBROMYALGIA, MULTIPLE SCLEROSIS, CONCUSSION
Dobrushina, O. R., Varako, N. A., Kovyazina, M. S. & Zinchenko, Y. P. (2016). Combination of Neurofeedback and cognitive training in attention deficit due to multiple sclerosis. Int. J. Psychophysiol. 108, 118.
多発性硬化症による注意欠陥障害におけるニューロフィードバックと認知トレーニングの組み合わせの研究。
Ingvaldsen, S. H. (2019). QEEG and Infra-Low Frequency Neurofeedback Training in Fibromyalgia: A Pilot Study (Master's thesis, NTNU).
線維筋痛症におけるQEEGおよび低周波ニューロフィードバックトレーニング:パイロット研究
Lamprecht, C. E. (2019). The effect of neurofeedback in post-concussion syndrome. Doctoral dissertation, Stellenbosch University.
脳震盪後症候群におけるニューロフィードバックの研究。
▼Trauma/PTSD
Gerge, A. (2020). A multifaceted case-vignette integrating neurofeedback and EMDR in the treatment of complex PTSD. European Journal of Trauma & Dissociation, 4(3), 100157.
複雑な PTSD の治療にニューロフィードバックと EMDR を統合した多面的なケースビネット。
Othmer, S. & Othmer, S. F. (2009). Post Traumatic Stress Disorder—The Neurofeedback Remedy. Biofeedback 37, 24–31.
心的外傷後ストレス障害—ニューロフィードバック研究。
Othmer, S., Othmer, S. F. & Legarda, S. B. (2011). Clinical Neurofeedback: Training Brain Behavior. Treat. Strateg. Pediatr. Neurol. Psychiatry 2, 67–73.
ニューロフィードバック: 脳の行動のトレーニング
Nilsson, R. M. & Nilsson, V. (2014). Neurofeedback Treatment for Traumatized Refugees-A Pilot Study. Lund University, Department of Psychology.
トラウマを負った難民のためのニューロフィードバック - パイロット研究。
Rogel, A., Loomis, A. M., Hamlin, E., Hodgdon, H., Spinazzola, J., & van der Kolk, B. (2020, July 13). The Impact of Neurofeedback Training on Children With Developmental Trauma: A Randomized Controlled Study. Psychological Trauma: Theory, Research, Practice, and Policy. Advance online publication. http://dx.doi.org/10.1037/tra0000648
発達上の外傷を持つ子供に対するニューロフィードバックトレーニングの影響:ランダム化比較研究。
van der Kolk, B., Hodgdon, H., Gapen, M., Musicaro, R., Suvak, M.K., Hamlin, E., & Spinazolla, J. (2016). A Randomized Controlled Study of Neurofeedback for Chronic PTSD. PLoS ONE 11(12): e0166752.
慢性PTSDに対するニューロフィードバックの無作為対照研究。
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▼REFRACTORY NEUROLOGICAL DISORDERS (EPILEPSY, CEREBRAL PALSY, AUTISM)
Legarda, S. B., McMahon, D., Othmer, S. S. & Othmer, S. S. (2011). Clinical neurofeedback: Case studies, proposed mechanism, and implications for pediatric neurology practice. J. Child Neurol. 26, 1045–1051.
ニューロフィードバック: ケーススタディ、提案されたメカニズム、および小児神経学の実践への影響
Strehl U., Birkle M., Wörz S. & Kotchoubey B. (2014). Sustained reduction of seizures in patients with intractable epilepsy after self-regulation
training of slow cortical potentials - 10 years after. Frontiers in Human Neuroscience, 8, 604.
遅い皮質電位の自己調整トレーニング後の難治性てんかんの発作の持続的な減少 - 10年後.
▼TINNITUS
Güntensperger, D., Thüring, C., Meyer, M., Neff, P. & Kleinjung, T. (2017). Neurofeedback for Tinnitus Treatment - Review and Current Concepts. Frontiers in Aging Neuroscience, 9,386. (Attn: they have primarily used frequency band NFB training in their studies and are (just) referring to ILF-NFB)
耳鳴り研究のためのニューロフィードバック - レビューと現在の概念
Güntensperger, D. (2018). Treatment of chronic tinnitus with neurofeedback. (Doctoral Dissertation, University of Zurich). (Attn: they have primarily used frequency band NFB training in their studies and are (just) referring to ILF-NFB)
ニューロフィードバックによる慢性耳鳴りの研究。
Leong, S. L., Vanneste, S., Lim, J., Smith, M., Manning, P., & De Ridder, D. (2018). A randomised, double-blind, placebo-controlled parallel trial of closed-loop infraslow brain training in food addiction. Scientific reports, 8(1), 1-9.
依存症における閉ループインフラスロー脳トレーニングの無作為化二重盲検プラセボ対照並行試験。
Prinz, W. (2015). Neurofeedbacktherapie als Spezialtherapieangebot. psychopraxis. neuropraxis 18, 180-183. (in German)
特別なセラピーとしてのニューロフィードバック研究。
▼TRAUMATIC BRAIN INJURY (TBI)
Carlson, J. & Ross, G.W. (2021). Neurofeedback Impact on Chronic Headache, Sleep, and Attention Disorders Experienced by Veterans with Mild Traumatic Brain Injury: A Pilot Study. Biofeedback, 49(1), 2-9.
軽度の外傷性脳損傷の退役軍人が経験した慢性頭痛、睡眠、注意障害に対するニューロフィードバックの影響:パイロット研究。
▼VIRTUAL REALITY NEUROFEEDBACK IN PAIN TREATMENT
Orakpo, N., Vieux, U. & Castro-Nunez, C. (2021). Case Report: Virtual Reality Neurofeedback Therapy as a Novel Modality for Sustained Analgesia in Centralized Pain Syndromes. Frontiers in Psychiatry, 12, 418. DOI:10.3389/fpsyt.2021.660105
集中型疼痛症候群における持続的鎮痛のための新しいモダリティとしての仮想現実ニューロフィードバック研究。
Books and Book Chapters on ILF Neurofeedback
Kirk H. (2015) Restoring the Brain: Neurofeedback as an Integrative Approach to Health. CRC Press, Taylor and Francis Group. esp. Chapter 11, Neurofeedback in application to the ADHD spectrum, R. Sasu & S. Othmer
健康への統合的アプローチとしてのニューロフィードバック。
Othmer, S. & Othmer, S. F. (2011). Performance Enhancement Applications of Neurofeedback. In Case Studies in Applied Psychophysiology: Neurofeedback and Biofeedback Treatments for Advances in Human Performance 17–30. Wiley-Blackwell.
ニューロフィードバックのパフォーマンス向上アプリケーション。
Othmer S. (2019). Protocol Guide for Neurofeedback Clinicians, 7th Edition. EEGInfo
ニューロフィードバックのためのプロトコル ガイド、第 7 版。
QEEG /ERP
Biomarker
Publications of HBImed
ADHD バイオマーカー ※日本語翻訳版
1: Izquierdo-Alventosa R, Inglés M, Cortés-Amador S, Gimeno-Mallench L, Chirivella-Garrido
J, Kropotov J, Serra-Añó P. Low-Intensity Physical Exercise Improves Pain Catastrophizing and
Other Psychological and Physical Aspects in Women with Fibromyalgia: A Randomized
Controlled Trial. Int J Environ Res Public Health. 2020 May 21;17(10):3634. doi:
10.3390/ijerph17103634. PMID: 32455853; PMCID: PMC7277480.
2: Ogrim G, Kropotov JD. Event Related Potentials (ERPs) and other EEG Based Methods for
Extracting Biomarkers of Brain Dysfunction: Examples from Pediatric Attention
Deficit/Hyperactivity Disorder (ADHD). J Vis Exp. 2020 Mar 12;(157). doi: 10.3791/60710.
PMID: 32225146.
3: Khomenko IG, Pronina MV, Kataeva GV, Kropotov JD, Irishina YA, Susin DS. Combined
18F-fluorodeoxyglucose positron emission tomography and event-related potentials study of the
cognitive impairment mechanisms in Parkinson's disease. J Clin Neurosci. 2020 Feb;72:335-341.
doi: 10.1016/j.jocn.2019.11.044. Epub 2019 Dec 19. PMID: 31866351.
4: Askovic M, Watters AJ, Coello M, Aroche J, Harris AWF, Kropotov J. Evaluation of
Neurofeedback for Posttraumatic Stress Disorder Related to Refugee Experiences Using SelfReport and Cognitive ERP Measures. Clin EEG Neurosci. 2020 Mar;51(2):79-86. doi:
10.1177/1550059419849170. Epub 2019 May 27. PMID: 31132893.
5: Müller A, Vetsch S, Pershin I, Candrian G, Baschera GM, Kropotov JD, Kasper J, Rehim HA,
Eich D. EEG/ERP-based biomarker/neuroalgorithms in adults with ADHD: Development,
reliability, and application in clinical practice. World J Biol Psychiatry. 2020 Mar;21(3):172-
182. doi: 10.1080/15622975.2019.1605198. Epub 2019 May 7. PMID: 30990349.
6: Kropotov JD, Pronina MV, Ponomarev VA, Poliakov YI, Plotnikova IV, Mueller A. Latent
ERP components of cognitive dysfunctions in ADHD and schizophrenia. Clin Neurophysiol.
2019 Apr;130(4):445-453. doi: 10.1016/j.clinph.2019.01.015. Epub 2019 Feb 10. PMID:
30769271.
7: Ogrim G, Kropotov JD. Predicting Clinical Gains and Side Effects of Stimulant Medication in
Pediatric Attention-Deficit/Hyperactivity Disorder by Combining Measures From qEEG and
ERPs in a Cued GO/NOGO Task. Clin EEG Neurosci. 2019 Jan;50(1):34-43. doi:
10.1177/1550059418782328. Epub 2018 Jun 25. PMID: 29940782; PMCID: PMC6291902.
8: Kozhushko NJ, Nagornova ZV, Evdokimov SA, Shemyakina NV, Ponomarev VA,
Tereshchenko EP, Kropotov JD. Specificity of spontaneous EEG associated with different levels
of cognitive and communicative dysfunctions in children. Int J Psychophysiol. 2018 Jun;128:22-
30. doi: 10.1016/j.ijpsycho.2018.03.013. Epub 2018 Mar 22. PMID: 29577946.
9: Aasen IE, Øgrim G, Kropotov J, Brunner JF. Methylphenidate selectively modulates one subcomponent of the no-go P3 in pediatric ADHD medication responders. Biol Psychol. 2018
Apr;134:30-38. doi: 10.1016/j.biopsycho.2018.02.011. Epub 2018 Feb 21. PMID: 29476840.
10: Kropotov JD, Ponomarev VA, Pronina M, Jäncke L. Functional indexes of reactive cognitive
control: ERPs in cued go/no-go tasks. Psychophysiology. 2017 Dec;54(12):1899-1915. doi:
10.1111/psyp.12960. Epub 2017 Aug 3. PMID: 28771747.
11: Chrapusta A, Kropotov JD, Pąchalska M. Neuromarkers of Post-Traumatic Stress Disorder
(PTSD) in a patient after bilateral hand amputation - ERP case study. Ann Agric Environ Med.
2017 Jun 8;24(2):265-270. doi: 10.26444/aaem/74597. Epub 2017 Jun 8. PMID: 28664706.
12 : Andreas Mueller, Gian Candrian, Juri D Kropotov, Valery A Ponomarev, Gian-Marco Baschera Classification of ADHD patients on the basis of independent ERP components using a machine learning system
Nonlinear Biomed Phys. 2010; 4(Suppl 1): S1.Published online 2010 Jun 3. doi: 10.1186/1753-4631-4-S1-S1
13 : Andreas Mueller,corresponding author1 Gian Candrian,Venke Arntsberg Grane, Juri D Kropotov, Valery A Ponomarev, and Gian-Marco Baschera Discriminating between ADHD adults and controls using independent ERP components and a support vector machine: a validation study
Nonlinear Biomed Phys. 2011; 5: 5. Published online 2011 Jul 19. doi:10.1186/1753-4631-5-5
14 : Müller, A., Candrian, G., & Kropotov, J. (2011). ADHS - Neurodiagnostik in der Praxis. Berlin: Springer.
15 : Bruchmüller, K., Margraf, J., & Schneider, S. (2012). Is ADHD diagnosed in accord with diagnostic criteria? Overdiagnosis and influence of client gender on diagnosis. Journal of Consulting Clinical Psychology, 80, 128-138.
16 : Drechsler, R., Rizzo, P., & Steinhausen, Ch. (2009). Zur klinischen Validität einer computergestützten Aufmerksamkeitstestbatterie für Kinder (KITAP) bei 7- bis 10-jährigen Kindern mit ADHS. Kindheit und Entwicklung, 18, 153–161
17 : Barry, R.J., Clarke, A.R., & Johnstone, S.J. (2003). A review of electrophysiology in attention- deficit/hyperactivity disorder: I. Qualitative and quantitative electroencephalography. Clinical Neurophysiology, 114, 171-183.
18 : Barry, R.J., Clarke, A.R., & Johnstone, S.J. (2003). A review of electrophysiology in attention- deficit/hyperactivity disorder: I. Qualitative and quantitative electroencephalography. Clinical Neurophysiology, 114, 171-183
19 : Clarke, A.R., Barry, R.J., McCarthy, R., Selikowitz, M., & Brown, C.R. (2002). EEG evidence for a new conceptualisation of attention deficit hyperactivity disorder. Clinical Neurophysiology, 113, 1036-1044.
Transcranial Magnetic Stimulation
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