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基于頻率調(diào)諧的非侵入性神經(jīng)調(diào)制手段在精神疾病中的應(yīng)用

Applications of frequency-tuned non-invasiveneural modulation in neuropsychiatric diseases

作者: 劉靜靜  丁悅  楊志  
單位:上海交通大學(xué)醫(yī)學(xué)院附屬精神衛(wèi)生中心(上海 200030) <p>上海交通大學(xué)心理與行為科學(xué)研究院(上海 200030)</p> <p>通信作者:丁悅。E-mail: [email protected]</p> <p>&nbsp;</p>
關(guān)鍵詞: 頻率調(diào)諧;神經(jīng)調(diào)制;神經(jīng)振蕩;非侵入性;精神疾病  
分類號:R318 <p>&nbsp;</p>
出版年·卷·期(頁碼):2021·40·6(622-628)
摘要:

大腦中不同節(jié)律的神經(jīng)振蕩與認知、注意、記憶、情緒等功能,及多種神經(jīng)精神疾病的臨床 癥狀密切相關(guān)。通過外部施加節(jié)律性刺激可以調(diào)制神經(jīng)活動。大腦內(nèi)特定頻率的神經(jīng)振蕩被外界節(jié)律 性刺激調(diào)制而產(chǎn)生相位鎖定的現(xiàn)象稱為神經(jīng)振蕩-外界節(jié)律同步化。這種同步化現(xiàn)象為非侵入性神經(jīng) 調(diào)制提供了新思路。目前,基于頻率調(diào)諧的非侵入性神經(jīng)調(diào)制方法已被應(yīng)用于精神疾病干預(yù),通過調(diào)控 神經(jīng)活動可緩解精神疾病患者的癥狀。對基于頻率調(diào)諧的非侵入性神經(jīng)調(diào)制方法及其臨床應(yīng)用進行總 結(jié)將有助于促進其技術(shù)發(fā)展及進一步的應(yīng)用推廣。本文首先介紹了神經(jīng)振蕩-外界節(jié)律同步化的潛在 機制,然后總結(jié)了當前基于頻率調(diào)諧的非侵入性神經(jīng)調(diào)制方法,接著梳理了其在精神疾病領(lǐng)域的應(yīng)用, 最后對其未來的發(fā)展方向進行了展望。基于頻率調(diào)諧的非侵入性神經(jīng)調(diào)制手段不僅有助于理解神經(jīng)振 蕩與精神疾病的關(guān)系,發(fā)現(xiàn)精神疾病的神經(jīng)標志物,而且為精神疾病的非侵入性神經(jīng)調(diào)控提供了新的方 法和思路。

 

Neural oscillations of different rhythms in the brain are closely related to human cognition, attention, memory, emotion and the clinical symptoms of neurological and mental disorders. The rhythm of external stimulation can modulate neural activity. Neural entrainment refers to the phenomenon that the neural oscillation of a specific frequency in the brain is modulated by the external rhythmic stimulation, resulting in phase locking. This kind of synchronization provides new ideas for non-invasive neural modulation. The frequency-tuned non-invasive neural modulation has been applied to mental disorders intervention, as the symptoms of patients can be alleviated by effective modulation of neural activity. A summary of the methodology and clinical applications of frequency-tuned non-invasive neural modulation could help with the technical development and further application promotion. This paper reviews the potential mechanisms and applications of current frequency-tuned non-invasive neuromodulation methods in the field of mental disorders, and discusses the future research directions. Frequency-tuned non- invasive neural modulation not only helps to study the relationship between neural oscillations and psychiatric disorders so as to uncover neural markers of mental disorders, but also provides new ideas and methods for non- invasive neuromodulation of mental disorders.

 
參考文獻:

[1 ] Gloss D, Varma JK, Pringsheim T, et al. Practice advisory: the utility of EEG theta/beta power ratio in ADHD diagnosis: report of the Guideline Development, Dissemination, and Implementation Subcommittee of the American Academy of Neurology [ J ]. Neurology, 2016,87(22) : 2375-2379.

[2 ] Nozaradan S, Schonwiesner M, Keller PE, et al. Neural bases of rhythmic entrainment in humans: critical transformation between cortical and lower-level representations of auditory rhythm [ J ]. The European Journal of Neuroscience, 2018,47(4) : 321-332.

[3 ] Walti MJ, Woolley DG, Wenderoth N. Assessing rhythmic visual entrainment and reinstatement of brain oscillations to modulate memory performance[ J]. Frontiers in Behavioral Neuroscience, 2020,14: 118.

[4] 丁雪,耿新玲.非藥物療法改善睡眠研究進展[J].北京生物 醫(yī)學(xué)工程,2016, 35(5) : 544-548.

Ding X, Geng XL. Research progress in enhancing sleep via non- pharmacologic therapy [ J ], Beijing Biomedical Engineering, 2016, 35 (5): 544-548.

[5 ] Henao D, Navarrete M, Valderrama M, et al. Entrainment and synchronization of brain oscillations to auditory stimulations[ J]. Neuroscience Research, 2020,156:271-278.

[6 ] Wang XJ. Neurophysiological and computational principles of cortical rhythms in cognition [ J]. Physiological Reviews, 2010, 90(3):1195-1268.

[7 ] Doelling KB, Assaneo MF, Bevilacqua D, et al. An oscillator model better predicts cortical entrainment to music [ J ]. Proceedings of the National Academy of Sciences, 2019, 116 (20): 10113-10121.

[8 ] Fries P. Rhythms for cognition: communication through coherence[ J]. Neuron, 2015, 88( 1) : 220-235.

[9 ] Hong LE, Buchanan RW, Thaker GK, et al. Beta ( ~ 16 Hz) frequency neural oscillations mediate auditory sensory gating in humans]J]. Psychophysiology, 2008, 45(2) : 197—204.

[10] Joyce M, Siever D. Audio-visual entrainment program as a treatment for behavior disorders in a school setting[ J]. Journal of Neurotherapy, 2000 , 4(2) : 9-25.

[11 ] Prehn-Kristensen A, Munz M, Goder R, et al. Transcranial oscillatory direct current stimulation during sleep improves declarative memory consolidation in children with attention- deficit/hyperactivity disorder to a level comparable to healthy controls]J]. Brain Stimulation, 2014,7(6) : 793-799.

[12]?Haller N, Senner F, Brunoni AR, et al. Gamma transcranial alternating current stimulation improves mood and cognition in patients with major depression [ J ]. Journal of Psychiatric

Research, 2020,130:31-34.

[13]?Thut G, Schyns PG, Gross J. Entrainment of perceptually relevant brain oscillations by non-invasive rhythmic stimulation of the human brain[ J]. Frontiers in Psychology, 2011, 2: 170.

[14]?Henao D, Navarrete M, Valderrama M, et al. Entrainment and synchronization of brain oscillations to auditory stimulations[ J]. Neuroscience Research, 2020,156: 271-278.

[15]?de Graaf TA, Gross J, Paterson G, et al. Alpha-band rhythms in visual task performance: phase-locking by rhythmic sensory stimulation[ J]. PLoS One, 2013,8(3) : e60035.

[16]?Thut G, Miniussi C, Gross J. The functional importance of rhythmic activity in the brain [ J ]. Current Biology, 2012, 22 (16) : R658-R663.

[17]?Fujioka T, Trainor LJ, Large EW, et al. Internalized timing of isochronous sounds is represented in neuromagnetic beta oscillations [ J ]. Journal of Neuroscience, 2012, 32 ( 5 ): 1791-1802.

[18]?Oribe N, Onitsuka T, Hirano S, et al.Differentiation between bipolar disorder and schizophrenia revealed by neural oscillation to speech sounds: an MEG study [ J]. Bipolar Disorders, 2010, 12(8) : 804-812.

[19]?Vialatte FB, Maurice M, Dauwels J, et al. Steady-state visually evoked potentials: focus on essential paradigms and future perspectives [ J ]. Progress in Neurobiology, 2010, 90 ( 4 ): 418-438.

[20]?Chaieb L, Wilpert EC, Reber TP, et al. Auditory beat stimulation and its effects on cognition and mood states [ J ]. Front Psychiatry, 2015,6: 70.

[21 ] Siever D, Collura T. Chapter 3 - Audio-visual entrainment: physiological mechanisms and clinical outcomes [ M ]// Evans JR, Turner RP. Rhythmic stimulation procedures in neuromodulation. New York, USA: Academic Press, 2017: 51-95.

[22]?張力新,常美榕,王仲朋,等.基于經(jīng)顱電、磁刺激神經(jīng)調(diào)控 方法的卒中康復(fù)研究進展[J].北京生物醫(yī)學(xué)工程,2021, 40 (2): 190-197.

Zhang LX, Chang MR, Wang ZP, et al. Research progress of stroke rehabilitation based on transcranial electrical and magnetic stimulation [J] . Beijing Biomedical Engineering, 2021, 40(2): 190-197.

[23]?Thut G, Miniussi C. New insights into rhythmic brain activity from TMS-EEG studies[ J]. Trends in Cognition Sciences, 2009, 13(4): 182-189.

[24]?Chail A, Saini RK, Bhat PS, et al. Transcranial magnetic stimulation: a review of its evolution and current applications] J]. Industrial Psychiatry Journal, 2018 , 27(2) : 172—180.

[25]?Veniero D, Vossen A, Gross J, et al. Lasting EEG/MEG aftereffects of rhythmic transcranial brain stimulation: level of control over oscillatory network activity [ J]. Frontiers in Cellular Neuroscience, 2015, 9: 477.

[26]?Patel V, Saxena S, Lund C, et al. The Lancet?commission on global mental health and sustainable development [ J ]. Lancet, 2018, 392(10157): 1553-1598.

[27]?Fuggetta G, Noh NA. A neurophysiological insight into the potential link between transcranial magnetic stimulation, thalamocortical dysrhythmia and neuropsychiatric disorders [ J ]. Experimental Neurology, 2013,245; 87-95.

[28]?Newson JJ, Thiagarajan TC. EEG frequency bands in psychiatric disorders: a review of resting state studies [ J ]. Frontiers in Human Neuroscience, 2019,12: 521.

[29]?Cirillo P, Gold AK, Nardi AE, et al. Transcranial magnetic stimulation in anxiety and trauma-related disorders: a systematic review and meta-analysis[ J]. Brain and Behavior, 2019, 9(6): e01284.

[30]?Bast T, Pezze M, McGarrity S. Cognitive deficits caused by prefrontal cortical and hippocampal neural disinhibition [ J ]. British Journal of Pharmacology, 2017,174( 19) : 3211-3225.

[31]?Jang KI, Lee C, Lee S, et al. Comparison of frontal alpha asymmetry among schizophrenia patients, major depressive disorder patients, and healthy controls [ J ] . BMC Psychiatry, 2020, 20(1) : 586.

[32]?Rice DM, Potkin SG, Isenhart R. EEG alpha photic driving abnormalities in chronic schizophrenia [J]. Psychiatry Research, 1990, 30(3) : 313-324.

[33]?Hong LE, Summerfelt A, McMahon R, et al. Evoked gamma band synchronization and the liability for chizophrenia [ J ]. Schizophrenia Research, 2004,70(2-3) : 293-302.

[34]?Ferrarelli F, Massimini M, Peterson MJ, et al. Reduced evoked gamma oscillations in the frontal cortex in schizophrenia patients: a TMS/EEG study [ J ]. The American Journal of Psychiatry, 2008,165(8) : 996-1005.

[35]?Ferrarelli F, Kaskie RE, Graziano B, et al. Abnormalities in the evoked frontal oscillatory activity of first-episode psychosis ; a TMS/EEG study [ J ]. Schizophrenia Research, 2019, 206: 436-439.

[36]?Cole JC, Bemacki CG, Helmer A, et al. Efficacy of transcranial magnetic stimulation ( TMS) in the treatment of schizophrenia: a review of the literature to date [ J ]. Innovations in Clinical Neuroscience, 2015,12(7-8) : 12-19.

[37]?Vs S, Shanbhag V, Nawani H, et al. Feasibility of online neuromodulation using transcranial alternating current stimulation in schizophrenia [ J ]. Indian Journal of Psychological Medicine, 2017,39(1): 92-95.

[38]?Kallel L, Mondino M, Brunelin J. Effects of theta-rhythm transcranial alternating current stimulation ( 4. 5 Hz - tACS ) in patients with clozapine-resistant negative symptoms of schizophrenia: a case series [J] . Journal of Neural Transmission, 2016,123(10):1213-1217.

[39]?Sreeraj VS, Suhas S, Parlikar R, et al. Effect of add-on transcranial alternating current stimulation (tACS) on persistent delusions in schizophreniaf J]. Psychiatry Research, 2020, 290: 113106.

[40]?Ahn S, Mellin JM, Alagapan S, et al. Targeting reduced neural oscillations in patients with schizophrenia by transcranial alternating current stimulation] J]. Neurolmage, 2019,186: 126-136.

[41]?Helm K, Viol K, Weiger TM, et al. Neuronal connectivity in major depressive disorder: a systematic review [ J ]. Neuropsychiatric Disease and Treatment, 2018,14: 2715-2737.

[42]?Prete G, Laeng B, Fabri M, et al. Right hemisphere or valence hypothesis, or both? The processing of hybrid faces in the intact and callosotomized brain [J], Neuropsychologia, 2015, 68: 94-106.

[43]?Liu S, Sheng J, Li B, et al. Recent advances in non-invasive brain stimulation for major depressive disorder[ J]. Frontiers in Human Neuroscience, 2017,11: 526.

[44]?Isenberg K, Downs D, Pierce K, et al. Low frequency rTMS stimulation of the right frontal cortex is as effective as high frequency rTMS stimulation of the left frontal cortex for antidepressant-free, treatment-resistant depressed patients [ J ]. Annals of Clinical Psychiatry, 2005,17(3) : 153-159.

[45]?Pellicciari MC, Ponzo V, Caltagirone C, et al. Restored asymmetry of prefrontal cortical oscillatory activity after bilateral theta burst stimulation treatment in a patient with major depressive disorder: a TMS-EEG study [ J ]. Brain Stimulation, 2017, 10(1) : 147-149.

[46]?Alexander ML, Alagapan S, Lugo CE, et al. Double-blind, randomized pilot clinical trial targeting alpha oscillations with transcranial alternating current stimulation ( tACS) for the treatment of major depressive disorder ( MDD) [ J] . Translational Psychiatry, 2019, 9(1): 106.

[47]?Breukelaar IA, Erlinger M, Hams A, et al. Investigating the neural basis of cognitive control dysftinction in mood disorders [J]. Bipolar Disorders, 2020, 22(3) : 286—295.

[48]?Ozerdem A, Giintekin B,Atagiin MI, et al. Chapter 14-Brain oscillations in bipolar disorder in search of new biomarkers[ M]// Bagar E, Ba§ar-Eroglu C, Ozerdem A, et al. Supplements to clinical neurophysiology. Amsterdam, NL: Elsevier, 2013, 62: 207-221.

[49]?Spencer KM, Salisbury DF, Shenton ME, et al. Gamma-band auditory steady-state responses are impaired in first episode psychosis] J]. Biological Psychiatry, 2008, 64(5) : 369-375.

[50]?Reite M, Teale P, Rojas DC, et al. MEG auditory evoked fields suggest altered structural/functional asymmetry in primary but not secondary auditory cortex in bipolar disorder [ J ]. Bipolar Disorders, 2009,11(4) : 371-381.

[51 ] Gold AK, Ornelas AC, Cirillo P, et al., Clinical applications of transcranial magnetic stimulation in bipolar disorder [ J] . Brain and Behavior, 2019,9(10) : e01419.

[52]?Canali P, Casarotto S, Rosanova M, et al. Abnormal brain oscillations persist after recovery from bipolar depression [ J ]. European Psychiatry, 41:10—15.

[53]?Olmstead R. Use of auditory and visual stimulation to improve cognitive abilities in learning-disabled children [ J ]. Journal of Neurotherapy, 2005 , 9(2) : 49- 61.

[54]?Patrick GJ. Improved neuronal regulation in ADHD: an application of 15 sessions of photic-driven EEG neurotherapy [ J ]. Journal of Neurotherapy, 1996,1(4) : 27—36.

[55]?Le Scouamec RP, Poirier RM, Owens JE, et al. Use of binaural beat tapes for treatment of anxiety: a pilot study of tape preference and outcomes] J], Alternative Therapies in Health and Medicine, 2001,7(1) : 58-63.

Klimke A, Nitsche MA, Maurer K, et al. Case report: successful treatment of therapy-resistant OCD with application of transcranial alternating current stimulation ( tACS ) [ J ] . Brain Stimulation, 2016,9(3) : 463-465.

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