Literature DB >> 32313193

Morphing electronics enable neuromodulation in growing tissue.

Yuxin Liu1, Jinxing Li2, Shang Song3, Jiheong Kang2,4, Yuchi Tsao5, Shucheng Chen2, Vittorio Mottini2, Kelly McConnell3, Wenhui Xu6, Yu-Qing Zheng2, Jeffrey B-H Tok2, Paul M George7,8, Zhenan Bao9.   

Abstract

Bioelectronics for modulating the nervous system have shown promise in treating neurological diseases1-3. However, their fixed dimensions cannot accommodate rapid tissue growth4,5 and may impair development6. For infants, children and adolescents, once implanted devices are outgrown, additional surgeries are often needed for device replacement, leading to repeated interventions and complications6-8. Here, we address this limitation with morphing electronics, which adapt to in vivo nerve tissue growth with minimal mechanical constraint. We design and fabricate multilayered morphing electronics, consisting of viscoplastic electrodes and a strain sensor that eliminate the stress at the interface between the electronics and growing tissue. The ability of morphing electronics to self-heal during implantation surgery allows a reconfigurable and seamless neural interface. During the fastest growth period in rats, morphing electronics caused minimal damage to the rat nerve, which grows 2.4-fold in diameter, and allowed chronic electrical stimulation and monitoring for 2 months without disruption of functional behavior. Morphing electronics offers a path toward growth-adaptive pediatric electronic medicine.

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Year:  2020        PMID: 32313193      PMCID: PMC7805559          DOI: 10.1038/s41587-020-0495-2

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  38 in total

1.  Vagus nerve stimulation attenuates the systemic inflammatory response to endotoxin.

Authors:  L V Borovikova; S Ivanova; M Zhang; H Yang; G I Botchkina; L R Watkins; H Wang; N Abumrad; J W Eaton; K J Tracey
Journal:  Nature       Date:  2000-05-25       Impact factor: 49.962

2.  Assessment of age-related changes in abdominal organ structure and function with computed tomography and positron emission tomography.

Authors:  Jeffrey M Meier; Abass Alavi; Sireesha Iruvuri; Saad Alzeair; Rex Parker; Mohamed Houseni; Miguel Hernandez-Pampaloni; Andrew Mong; Drew A Torigian
Journal:  Semin Nucl Med       Date:  2007-05       Impact factor: 4.446

3.  3D multifunctional integumentary membranes for spatiotemporal cardiac measurements and stimulation across the entire epicardium.

Authors:  Lizhi Xu; Sarah R Gutbrod; Andrew P Bonifas; Yewang Su; Matthew S Sulkin; Nanshu Lu; Hyun-Joong Chung; Kyung-In Jang; Zhuangjian Liu; Ming Ying; Chi Lu; R Chad Webb; Jong-Seon Kim; Jacob I Laughner; Huanyu Cheng; Yuhao Liu; Abid Ameen; Jae-Woong Jeong; Gwang-Tae Kim; Yonggang Huang; Igor R Efimov; John A Rogers
Journal:  Nat Commun       Date:  2014-02-25       Impact factor: 14.919

4.  Equations to describe brain size across the continuum of human lifespan.

Authors:  Matthew Borzage; Stefan Blüml; Istvan Seri
Journal:  Brain Struct Funct       Date:  2012-12-14       Impact factor: 3.270

5.  Anterior vertebral body tethering for immature adolescent idiopathic scoliosis: one-year results on the first 32 patients.

Authors:  Amer F Samdani; Robert J Ames; Jeff S Kimball; Joshua M Pahys; Harsh Grewal; Glenn J Pelletier; Randal R Betz
Journal:  Eur Spine J       Date:  2014-12-16       Impact factor: 3.134

6.  Medical Devices and Adolescents: Points to Consider.

Authors:  Joy H Samuels-Reid; Judith U Cope
Journal:  JAMA Pediatr       Date:  2016-11-01       Impact factor: 16.193

Review 7.  A review of vagus nerve stimulation as a therapeutic intervention.

Authors:  Rhaya L Johnson; Christopher G Wilson
Journal:  J Inflamm Res       Date:  2018-05-16

8.  Therapy using implanted organic bioelectronics.

Authors:  Amanda Jonsson; Zhiyang Song; David Nilsson; Björn A Meyerson; Daniel T Simon; Bengt Linderoth; Magnus Berggren
Journal:  Sci Adv       Date:  2015-05-08       Impact factor: 14.136

Review 9.  Vagus nerve stimulation lead removal or replacement: surgical technique, institutional experience, and literature overview.

Authors:  Marlien W Aalbers; Kim Rijkers; Sylvia Klinkenberg; Marian Majoie; Erwin M J Cornips
Journal:  Acta Neurochir (Wien)       Date:  2015-09-03       Impact factor: 2.216

10.  Nonthrombogenic, stretchable, active multielectrode array for electroanatomical mapping.

Authors:  Wonryung Lee; Shingo Kobayashi; Masase Nagase; Yasutoshi Jimbo; Itsuro Saito; Yusuke Inoue; Tomoyuki Yambe; Masaki Sekino; George G Malliaras; Tomoyuki Yokota; Masaru Tanaka; Takao Someya
Journal:  Sci Adv       Date:  2018-10-19       Impact factor: 14.136
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  21 in total

Review 1.  Recent Progress in Materials Chemistry to Advance Flexible Bioelectronics in Medicine.

Authors:  Gaurav Balakrishnan; Jiwoo Song; Chenchen Mou; Christopher J Bettinger
Journal:  Adv Mater       Date:  2022-01-27       Impact factor: 30.849

2.  A low-power stretchable neuromorphic nerve with proprioceptive feedback.

Authors:  Yeongjun Lee; Yuxin Liu; Dae-Gyo Seo; Jin Young Oh; Yeongin Kim; Jinxing Li; Jiheong Kang; Jaemin Kim; Jaewan Mun; Amir M Foudeh; Zhenan Bao; Tae-Woo Lee
Journal:  Nat Biomed Eng       Date:  2022-08-15       Impact factor: 29.234

3.  Digital selective transformation and patterning of highly conductive hydrogel bioelectronics by laser-induced phase separation.

Authors:  Daeyeon Won; Jin Kim; Joonhwa Choi; HyeongJun Kim; Seonggeun Han; Inho Ha; Junhyuk Bang; Kyun Kyu Kim; Youngseok Lee; Taek-Soo Kim; Jae-Hak Park; C-Yoon Kim; Seung Hwan Ko
Journal:  Sci Adv       Date:  2022-06-08       Impact factor: 14.957

Review 4.  Dissecting Biological and Synthetic Soft-Hard Interfaces for Tissue-Like Systems.

Authors:  Yin Fang; Xiao Yang; Yiliang Lin; Jiuyun Shi; Aleksander Prominski; Clementene Clayton; Ellie Ostroff; Bozhi Tian
Journal:  Chem Rev       Date:  2021-10-22       Impact factor: 72.087

Review 5.  Flexible Electronics and Devices as Human-Machine Interfaces for Medical Robotics.

Authors:  Wenzheng Heng; Samuel Solomon; Wei Gao
Journal:  Adv Mater       Date:  2022-02-25       Impact factor: 32.086

Review 6.  Learning from the brain's architecture: bioinspired strategies towards implantable neural interfaces.

Authors:  Nicholas J Rommelfanger; Carl Hc Keck; Yihang Chen; Guosong Hong
Journal:  Curr Opin Biotechnol       Date:  2021-08-05       Impact factor: 9.740

7.  Electronic skin: from flexibility to a sense of touch.

Authors:  Katharine Sanderson
Journal:  Nature       Date:  2021-03       Impact factor: 49.962

Review 8.  How is flexible electronics advancing neuroscience research?

Authors:  Yihang Chen; Nicholas J Rommelfanger; Ali I Mahdi; Xiang Wu; Scott T Keene; Abdulmalik Obaid; Alberto Salleo; Huiliang Wang; Guosong Hong
Journal:  Biomaterials       Date:  2020-12-02       Impact factor: 12.479

9.  Viscoelastic surface electrode arrays to interface with viscoelastic tissues.

Authors:  Christina M Tringides; Nicolas Vachicouras; Irene de Lázaro; Hua Wang; Alix Trouillet; Bo Ri Seo; Alberto Elosegui-Artola; Florian Fallegger; Yuyoung Shin; Cinzia Casiraghi; Kostas Kostarelos; Stéphanie P Lacour; David J Mooney
Journal:  Nat Nanotechnol       Date:  2021-06-17       Impact factor: 40.523

10.  Electrical stimulation of human neural stem cells via conductive polymer nerve guides enhances peripheral nerve recovery.

Authors:  Shang Song; Kelly W McConnell; Danielle Amores; Alexa Levinson; Hannes Vogel; Marco Quarta; Thomas A Rando; Paul M George
Journal:  Biomaterials       Date:  2021-06-23       Impact factor: 15.304
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