经颅聚焦超声刺激(TUS)参考文献

2022-07-25 17:57
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经颅超声刺激TUS)部分参考文献
References:

Publications on the safety of tFUS are marked with “**” and those that used Sonic Concepts, Inc. devices, including NeuroFUS are marked with “*”.

经颅聚焦超声对灵长类动物皮质激活的离线影响
Offline impact of transcranial focused ultrasound on cortical activation in primates.
Verhagen L, Gallea C, Folloni D, Constans C, Jensen DE, Ahnine H, Roumazeilles L, Santin M, Ahmed B, Lehericy S, Klein-Flügge MC. Elife. 2019 Feb 12;8:e40541.*

使用经颅聚焦超声刺激操作灵长类动物大脑中的皮质下和深层皮质活动
Manipulation of subcortical and deep cortical activity in the primate brain using transcranial focused ultrasound stimulation.
Folloni D, Verhagen L, Mars RB, Fouragnan E, Constans C, Aubry JF, Rushworth MF, Sallet J. Neuron. 2019 Mar 20;101(6):1109-16.*

激活和破坏猴子新颖选择的神经机制
Activation and disruption of a neural mechanism for novel choice in monkeys.
Bongioanni A, Folloni D, Verhagen L, Sallet J, Klein-Flügge MC, Rushworth MF. Nature. 2021 Jan 6:1-5.*

A basal forebrain-cingulate circuit in macaques decides it is time to act.
Khalighinejad N, Bongioanni A, Verhagen L, Folloni D, Attali D, Aubry JF, Sallet J, Rushworth MF. Neuron. 2020 Jan 22;105(2):370-84.*

系统检查低强度超声刺激参数对人体运动皮层兴奋性和行为的影响
Systematic examination of low-intensity ultrasound parameters on human motor cortex excitability and behavior.
Fomenko A, Chen KH, Nankoo JF, Saravanamuttu J, Wang Y, El-Baba M, Xia X, Seerala SS, Hynynen K, Lozano AM, Chen R. Elife. 2020 Nov 25;9:e54497.*

低强度聚焦超声调节猴子的视觉运动行为
Low-intensity focused ultrasound modulates monkey visuomotor behavior.
Deffieux T, Younan Y, Wattiez N, Tanter M, Pouget P, Aubry JF. Current Biology. 2013 Dec 2;23(23):2430-3.*

经颅超声刺激调节执行反向眼跳任务的猕猴的单神经元放电
Transcranial ultrasonic stimulation modulates single-neuron discharge in macaques performing an antisaccade task.
Wattiez N, Constans C, Deffieux T, Daye PM, Tanter M, Aubry JF, Pouget P. Brain stimulation. 2017 Nov 1;10(6):1024-31.*

经颅聚焦超声治疗人类神经调节的症状和安全性的回顾性定性报告
A retrospective qualitative report of symptoms and safety from transcranial focused ultrasound for neuromodulation in humans.
Legon W, Adams S, Bansal P, Patel PD, Hobbs L, Ai L, Mueller JK, Meekins G, Gillick BT. Scientific reports. 2020 Mar 27;10(1):1-10.**

超声神经调控:对结果,机制和安全性的综述
Ultrasound neuromodulation: a review of results, mechanisms and safety.
Blackmore J, Shrivastava S, Sallet J, Butler CR, Cleveland RO. Ultrasound in medicine & biology. 2019 Jul 1;45(7):1509-36.**

经颅聚焦超声刺激的安全性:对人类和动物研究知识状态的系统综述
Safety of transcranial focused ultrasound stimulation: A systematic review of the state of knowledge from both human and animal studies.
Pasquinelli C, Hanson LG, Siebner HR, Lee HJ, Thielscher. Brain stimulation. 2019 Nov 1;12(6):1367-80.**

基于恒河猴和绵羊的经颅聚焦超声神经调控和磁共振声辐射力成像的组织学安全性‍
Histologic safety of transcranial focused ultrasound neuromodulation and magnetic resonance acoustic radiation force imaging in rhesus macaques and sheep
.

Gaur P, Casey KM, Kubanek J, Li N, Mohammadjavadi M, Saenz Y, Glover GH, Bouley DM, Pauly KB. Brain stimulation. 2020 May 1;13(3):804-14.**

非人类灵长类动物的脑扰动和神经影像学联合治疗
Combined Brain Perturbation and Neuroimaging in Non-human Primates.
Klink C, Aubry JF, Ferrera V, Fox AS, Froudist-Walsh S, Jarraya B, Konofagou E, Krauzlis R, Messinger A, Mitchell AS, Ortiz-Rios M. 2020 Sept 11. Web.

一项关于经颅超声刺激(TUS)为期五天的干预措施的双盲初步研究:TUS减轻了抑郁被试的担忧
A double-blind pilot study of transcranial ultrasound (TUS) as a five-day intervention: TUS mitigates worry among depressed participants.
Reznik SJ, Sanguinetti JL, Tyler WJ, Daft C, Allen JJ. Neurology, Psychiatry and Brain Research. 2020 Sep 1;37:60-6.

中枢神经系统慢性神经性疼痛的神经调控管理
Neuromodulation Management of Chronic Neuropathic Pain in the Central Nervous System.
Yu K, Niu X, He B. Advanced Functional Materials. 2020 Sep;30(37):1908999.

小鼠超声神经刺激的表征
Characterization of Ultrasound Neurostimulation in Mice.
Iazourene T, Malloul H, Oujagir E, Escoffre JM, Bouakaz A. In 2020 IEEE International Ultrasonics Symposium (IUS) 2020 Sep 7 (pp. 1-4). IEEE.

神经导航重复性经颅超声刺激诱导对非人灵长类动物动眼神经功能的长期和可逆影响
Neuronavigated Repetitive Transcranial Ultrasound Stimulation induces long-lasting and reversible effects on oculomotor performance in non-human primates.
Pouget P, Frey S, Ahnine H, Attali D, Claron J, Constans C, Aubry JF, Arcizet F. Frontiers in Physiology. 2020 Aug;11.

超声神经调节背后的细胞机制研究[论文]
An Investigation of the Cellular Mechanisms Underlying Ultrasound Neuromodulation [dissertation].”
Newhoff, M. Minneapolis, Minnesota: University of Minnesota; 2020.

经颅聚焦超声刺激产生颅骨传导的横波:计算模型及其对神经调节的影响。
Transcranial focused ultrasound generates skull-conducted shear waves: Computational model and implications for neuromodulation.
Salahshoor H, Shapiro MG, Ortiz M. Applied Physics Letters. 2020 Jul 20;117(3):033702.

聚焦超声神经调控和细胞内电生理学研究的混淆
Focused ultrasound neuromodulation and the confounds of intracellular electrophysiological investigation
Collins MN, Mesce KA. Eneuro. 2020 Jul;7(4).

用超声波远程针对特定大脑区域的选择行为控制
Remote, brain region–specific control of choice behavior with ultrasonic waves.
Kubanek J, Brown J, Ye P, Pauly KB, Moore T, Newsome W. Science advances. 2020 May 1;6(21):eaaz4193.

图像引导的聚焦超声调节体内小鼠周围神经系统中的电诱发运动神经元活动
Image-guided focused ultrasound modulates electrically evoked motor neuronal activity in the mouse peripheral nervous system in vivo.
Kim MG, Kamimura HA, Lee SA, Aurup C, Kwon N, Konofagou EE. Journal of neural engineering. 2020 Apr 8;17(2):026026.

右前额叶皮层的经颅聚焦超声刺激可改善情绪并改变人类的功能连接
Transcranial focused ultrasound to the right prefrontal cortex improves mood and alters functional connectivity in humans.
Sanguinetti JL, Hameroff S, Smith EE, Sato T, Daft CM, Tyler WJ, Allen JJ. Frontiers in human neuroscience. 2020 Feb 28;14:52.

经颅聚焦超声应用的温度和移位 MRI 监测
MRI monitoring of temperature and displacement for transcranial focus ultrasound applications.
Ozenne V, Constans C, Bour P, Santin MD, Valabrègue R, Ahnine H, Pouget P, Lehéricy S, Aubry JF, Quesson B. NeuroImage. 2020 Jan 1;204:116236.

啮齿动物在体经颅聚焦超声刺激神经调节期间脑移位的实时成像
Real-time imaging of brain displacement during FUS neuromodulation in rodents in vivo.
Kugelman T, Burgess MT, Konofagou E. The Journal of the Acoustical Society of America. 2019 Oct;146(4):2813-.

Simultaneous nerve displacement mapping for human peripheral neuromodulation.
Lee SA, Kamimura HA, Konofagou EE. In2019 IEEE International Ultrasonics Symposium (IUS) 2019 Oct 6 (pp. 2155-2157). IEEE.

使用经颅聚焦超声刺激操作灵长类动物大脑中的皮质下和深层皮质活动
Manipulation of subcortical and deep cortical activity in the primate brain using transcranial focused ultrasound stimulation.
Folloni D, Verhagen L, Mars RB, Fouragnan E, Constans C, Aubry JF, Rushworth MF, Sallet J. Neuron. 2019 Mar 20;101(6):1109-16.

低强度脉冲超声对非人灵长类动物青霉素诱导的癫痫模型中癫痫样放电的影响
Effect Of Low-intensity Pulsed Ultrasound On Epileptiform Discharges In A Penicillin-induced Epilepsy Model In Non-human Primates.
Zou J, Guo Y, Niu L, Meng L, Pang N, Zheng H. Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation. 2019 Mar 1;12(2):443.

通过在初级运动皮层上应用θ爆发刺激来评估健康受试者皮质可塑性的个体间变异性
Inter-individual variability in cortical plasticity assessment in healthy subjects by application of Theta burst stimulation on primary motor cortex.
Hamza A, Bashir S. Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation. 2019 Mar 1;12(2):443-4.

无创亚器官超声刺激靶向神经调节
Noninvasive sub-organ ultrasound stimulation for targeted neuromodulation.
Cotero V, Fan Y, Tsaava T, Kressel AM, Hancu I, Fitzgerald P, Wallace K, Kaanumalle S, Graf J, Rigby W, Kao TJ. Nature communications. 2019 Mar 12;10(1):1-2.

经颅聚焦超声对灵长类动物皮质激活的离线影响
Offline impact of transcranial focused ultrasound on cortical activation in primates.
Verhagen L, Gallea C, Folloni D, Constans C, Jensen DE, Ahnine H, Roumazeilles L, Santin M, Ahmed B, Lehericy S, Klein-Flügge MC. Elife. 2019 Feb 12;8:e40541.

新型超声供电植入式装置的长期体内性能
Long-term in vivo performance of novel ultrasound powered implantable devices.
Kang C, Chang TC, Vo J, Charthad J, Weber M, Arbabian A, Vasudevan S. In2018 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2018 Jul 18 (pp. 2985-2988). IEEE.

经颅聚焦超声刺激对人体初级运动皮层进行神经调节
Transcranial focused ultrasound neuromodulation of the human primary motor cortex.
Legon W, Bansal P, Tyshynsky R, Ai L, Mueller JK. Scientific reports. 2018 Jul 3;8(1):1-14.

超声通过人工耳蜗通路产生广泛的脑活化
Ultrasound produces extensive brain activation via a cochlear pathway.
Guo H, Hamilton II M, Offutt SJ, Gloeckner CD, Li T, Kim Y, Legon W, Alford JK, Lim HH. Neuron. 2018 Jun 6;98(5):1020-30.

通过MRI引导和检测的经颅聚焦超声刺激对猴脑中感觉网络的神经调节
Neuromodulation of sensory networks in monkey brain by focused ultrasound with MRI guidance and detection.
Yang PF, Phipps MA, Newton AT, Chaplin V, Gore JC, Caskey CF, Chen LM. Scientific reports. 2018 May 22;8(1):1-9.

聚焦超声介导的无创血脑屏障调节:临床前检查各种超声处理参数的疗效和安全性
Focused ultrasound–mediated noninvasive blood-brain barrier modulation: preclinical examination of efficacy and safety in various sonication parameters.
Shin J, Kong C, Cho JS, Lee J, Koh CS, Yoon MS, Na YC, Chang WS, Chang JW. Neurosurgical focus. 2018 Feb 1;44(2):E15.

经颅超声刺激调节执行反向眼跳任务的猕猴的单神经元放电
Transcranial ultrasonic stimulation modulates single-neuron discharge in macaques performing an antisaccade task.
Wattiez N, Constans C, Deffieux T, Daye PM, Tanter M, Aubry JF, Pouget P. Brain stimulation. 2017 Nov 1;10(6):1024-31.

使用脑电图/聚焦超声脑对脑接口对人类的感觉运动信息进行非侵入性传输
Non-invasive transmission of sensorimotor information in humans using an EEG/focused ultrasound brain-to-brain interface.
Lee W, Kim S, Kim B, Lee C, Chung YA, Kim L, Yoo SS. PloS one. 2017 Jun 9;12(6):e0178476.

无创神经调节和丘脑映射与低强度聚焦超声
Noninvasive neuromodulation and thalamic mapping with low-intensity focused ultrasound.
Dallapiazza RF, Timbie KF, Holmberg S, Gatesman J, Lopes MB, Price RJ, Miller GW, Elias WJ. Journal of neurosurgery. 2017 Apr 21;128(3):875-84.

用于啮齿动物和灵长类动物神经刺激的200-1380-kHz四精度聚焦超声换能器:经颅体外校准和颅腔影响的数值研究
A 200–1380-kHz quadrifrequency focused ultrasound transducer for neurostimulation in rodents and primates: transcranial in vitro calibration and numerical study of the influence of skull cavity.
Constans C, Deffieux T, Pouget P, Tanter M, Aubry JF. IEEE transactions on ultrasonics, ferroelectrics, and frequency control. 2017 Jan 11;64(4):717-24.

使用浅表脑电图传感器进行深部脑部监测神经调节聚焦超声
Toward deep brain monitoring with superficial EEG sensors plus neuromodulatory focused ultrasound.
Darvas F, Mehić E, Caler CJ, Ojemann JG, Mourad PD. Ultrasound in medicine & biology. 2016 Aug 1;42(8):1834-47.

神经系统疾病的超声治疗 - 当前和新兴的应用
Ultrasound treatment of neurological diseases—current and emerging applications.
Leinenga G, Langton C, Nisbet R, Götz J. Nature Reviews Neurology. 2016 Mar;12(3):161.

通过聚焦超声利用微气泡在执行认知任务的非人类灵长类动物中反复打开血脑屏障的长期安全性
Long-term safety of repeated blood-brain barrier opening via focused ultrasound with microbubbles in non-human primates performing a cognitive task.
Downs ME, Buch A, Sierra C, Karakatsani ME, Chen S, Konofagou EE, Ferrera VP. PloS one. 2015 May 6;10(5):e0125911.

图像引导下经颅聚焦超声刺激人类原发性躯体感觉皮层
Image-guided transcranial focused ultrasound stimulates human primary somatosensory cortex.
Lee W, Kim H, Jung Y, Song IU, Chung YA, Yoo SS. Scientific reports. 2015 Mar 4;5(1):1-10.

经颅聚焦超声调节内在和诱发的脑电图动力学
Transcranial focused ultrasound modulates intrinsic and evoked EEG dynamics.
Mueller J, Legon W, Opitz A, Sato TF, Tyler WJ. Brain stimulation. 2014 Nov 1;7(6):900-8.

经颅聚焦超声刺激调节人类原发性躯体感觉皮层的活性
Transcranial focused ultrasound modulates the activity of primary somatosensory cortex in humans.
Legon W, Sato TF, Opitz A, Mueller J, Barbour A, Williams A, Tyler WJ. Nature neuroscience. 2014 Feb;17(2):322-9.