Journal Article10.1038/S41551-020-0518-9
A wireless millimetre-scale implantable neural stimulator with ultrasonically powered bidirectional communication.
David K. Piech,David K. Piech,Benjamin C. Johnson,Benjamin C. Johnson,Konlin Shen,Konlin Shen,Mohammad Meraj Ghanbari,Ka Yiu Li,Ryan Neely,Kay Joshua,Jose M. Carmena,Michel M. Maharbiz,Rikky Muller +12 more
370
TL;DR: A wireless, leadless and battery-free implantable neural stimulator that is 1.7-mm 3 and that incorporates a piezoceramic transducer, an energy-storage capacitor and an integrated circuit that allows for repeatable stimulation across a range of physiological responses is described.
read more
Abstract: Clinically approved neural stimulators are limited by battery requirements, as well as by their large size compared with the stimulation targets. Here, we describe a wireless, leadless and battery-free implantable neural stimulator that is 1.7 mm3 and that incorporates a piezoceramic transducer, an energy-storage capacitor and an integrated circuit. An ultrasonic link and a hand-held external transceiver provide the stimulator with power and bidirectional communication. The stimulation protocols were wirelessly encoded on the fly, reducing power consumption and on-chip memory, and enabling protocol complexity with a high temporal resolution and low-latency feedback. Uplink data indicating whether stimulation occurs are encoded by the stimulator through backscatter modulation and are demodulated at the external transceiver. When embedded in ex vivo porcine tissue, the integrated circuit efficiently harvested ultrasonic power, decoded downlink data for the stimulation parameters and generated current-controlled stimulation pulses. When cuff-mounted and acutely implanted onto the sciatic nerve of anaesthetized rats, the device conferred repeatable stimulation across a range of physiological responses. The miniaturized neural stimulator may facilitate closed-loop neurostimulation for therapeutic interventions. A wireless and battery-free 1.7-mm3 neural stimulator implanted onto the sciatic nerve of rats allows for repeatable stimulation across a range of physiological responses.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Ultrasound-Induced Wireless Energy Harvesting: From Materials Strategies to Functional Applications.
TL;DR: An overview of recent developments in UWEH technologies that use a variety of material strategies and system designs based on the piezoelectric and capacitive energy harvesting mechanisms is provided, including wireless power for bio-implantable devices, direct cell/tissue electrical stimulations, and wireless recording and communication in nervous systems.
109
Wearable biosensor for sensitive detection of uric acid in artificial sweat enabled by a fiber structured sensing interface
TL;DR: Wang et al. as mentioned in this paper reported a flexible sweat biosensor for uric acid detection based on a fiber structured sensing interface The electrospun carbon nanofibers with rich active sites, oriented graphitized layer, and intrinsic shape-adaptivity provide abundant access to uric acids molecules and enable efficient electron transmission.
104
Wireless Power Delivery Techniques for Miniature Implantable Bioelectronics.
Amanda Singer,Jacob T. Robinson +1 more
TL;DR: In this paper, six different types of wireless power transfer technologies used in bioelectronic implants-inductive coupling, radio frequency, mid-field, ultrasound, magnetoelectrics, and light-were reviewed in context of the five tradeoffs listed above.
102
Piezoelectric ultrasound energy–harvesting device for deep brain stimulation and analgesia applications
Tao Zhang,Huagen Liang,Zhen Ling Wang,Chaorui Qiu,Yuan Bo Peng,Xinyu Zhu,Jiapu Li,Xu Ge,Jianbo Xu,Xian Huang,Junwei Tong,Jun Ou-Yang,Xiaofei Yang,Fei Li,Benpeng Zhu +14 more
TL;DR: A novel implantable piezoelectric ultrasound energy–harvesting device based on Sm-doped Pb(Mg1/3Nb2/3)O3-PbTiO3 (Sm-PMN-PT) single crystal that can reach up to 1.1 W/cm2 in vitro, which is 18 times higher than the previous record and provides new insights into the development of implantable devices in the future.
101
Monitoring deep-tissue oxygenation with a millimeter-scale ultrasonic implant.
TL;DR: In this paper, a minimally invasive system is presented to monitor deep-tissue oxygenation from centimeter-scale depths in sheep and up to a 10-cm depth in ex vivo porcine tissue.
References
The History and Future of Ablative Neurosurgery for Major Depressive Disorder
Matthew Volpini,Peter Giacobbe,G. Rees Cosgrove,Anthony J. Levitt,Andres M. Lozano,Nir Lipsman +5 more
TL;DR: The longitudinal experience with ablative procedures shows that there remains an important role for accurate, discrete lesions in disrupting affective circuitry in the treatment of TRD, and new modalities, such as MRgFUS, have the potential to further improve the accuracy of ablative Procedures, while enhancing safety by obviating the need for open brain surgery.
Long-term suppression of tremor by chronic stimulation of the ventral intermediate thalamic nucleus
Alim-Louis Benabid,Pierre Pollak,Dominique Hoffmann,C L Gervason,Marc Hommel,Perret J,J. de Rougemont,D.M. Gao +7 more
TL;DR: Reversibility and adaptability, allowing control of side-effects, make thalamic stimulation preferable to thalamotomy, especially when treatment of both sides of the brain is needed.
1.9K
脳卒中の回復期から慢性期治療 2. 危険因子の管理と再発予防
野村栄一
- 01 Jan 2007
Abstract: Á—UA21⁄2« vA 1 Èc «Ë ̈ WOÐdF « ‰Ëb « iFÐ v Ë—u'« U31⁄2 vÞUFð vKŽ VKD « ...œU1“Ë —UA21⁄2ô «dE1⁄2 U?3M? « v W U?F??H « U1⁄2uJ*« vKŽ ·d??F?2 «Ë qB?? v ≈ ·b?Nð W??O U?(« W?Ý«—b? « ÊS? p c ̈ d??B? v p – oO??I?×?2 Ë Æ W??I?O?? b « W?OzU??O?L?OJ? « qO U?×??2 « «b‡‡ ?2??ÝUÐ W?OÇu? u? U? —U??H « Á—UŁ¬ sŽ W u??3⁄4? *«Ë ‚dÞ Â«b 2Ý« p c Ë ̈ (TLC) WI?O d « WI3D « U?O «dłuðU? Ëd Ë ̈ v «dłuðU? ËdJ « œuLF « «b ?2Ý« WK2J « ”UO?I0 Êd2I*« “U?G « UO «dłuðU? Ëd Ë ̈ (GLC) “UG « UO? «dłuðU Ëd ∫ q¦ W‡H?K2<« qOK×2 « Ác1⁄4 vKŽ ·dF?2 «Ë qBHK (NMR) v OÞUMG*« 51⁄2d «Ë ̈ (IR) ¡«dL?(« X% W?Fý_«Ë ̈ (GC-MS® Æ U1⁄2uJ*« s U?L1⁄4Ë® 5 ËdÐu?O?¦ «Ë 5O? UJ « Èb1u?K vKŽ U?3M « ¡«u?2?Š« U?N?OKŽ qB?×?2*« ZzU?2M « X2?3Ł√ b? Ë UNKB? sJ √ v2 « WOM1⁄4b « ÷UL?Š_«Ë U1⁄2uÐd Ë—bON « s W?ŽuL−? vKŽ p c Ë ̈ ©5 1⁄2«e « UI2?A Æ U3M « v UN2OL b1b%Ë UNOKŽ ·dF2 «Ë
1.1K
Ultrasound-enhanced systemic thrombolysis for acute ischemic stroke.
Andrei V. Alexandrov,Andrei V. Alexandrov,Carlos A. Molina,James C. Grotta,Zsolt Garami,Shiela R. Ford,José Alvarez-Sabín,Joan Montaner,Maher Saqqur,Andrew M. Demchuk,Lemuel A. Moyé,Michael D. Hill,Anne W. Wojner +12 more
TL;DR: In patients with acute ischemic stroke, continuous transcranial Doppler augments t-PA-induced arterial recanalization, with a nonsignificant trend toward an increased rate of recovery from stroke, as compared with placebo.
1K
Vagus nerve stimulation inhibits cytokine production and attenuates disease severity in rheumatoid arthritis
F. A. Koopman,Sangeeta S. Chavan,Sanda Miljko,Simeon Grazio,Sekib Sokolovic,P. Richard Schuurman,Ashesh D. Mehta,Yaakov A. Levine,Michael A. Faltys,Ralph Zitnik,Kevin J. Tracey,Paul P. Tak +11 more
TL;DR: Vagus nerve stimulation targeting the inflammatory reflex modulates TNF production and reduces inflammation in humans is established, suggesting that it is possible to use mechanism-based neuromodulating devices in the experimental therapy of RA and possibly other autoimmune and autoinflammatory diseases.
905
Related Papers (5)
Gunchul Shin,Adrian M. Gomez,Ream Al-Hasani,Yu Ra Jeong,Jeonghyun Kim,Zhaoqian Xie,Zhaoqian Xie,Anthony Banks,Seungmin Lee,Sang Youn Han,Sang Youn Han,Chul Jong Yoo,Jong-Lam Lee,Seunghee Lee,Jonas Kurniawan,Jacob Tureb,Zhongzhu Guo,Jangyeol Yoon,Sung Il Park,Sang Yun Bang,Yoonho Nam,Marie C. Walicki,Vijay K. Samineni,Aaron D. Mickle,Kunhyuk Lee,Seung Yun Heo,Jordan G. McCall,Taisong Pan,Liang Wang,Xue Feng,Tae Il Kim,Jong Kyu Kim,Yuhang Li,Yonggang Huang,Robert W. Gereau,Jeong Sook Ha,Michael R. Bruchas,John A. Rogers +37 more
[...]