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References (45)
-
Teng Li, Zhenyu Huang, Z. Suo, S. Lacour, S. Wagner (2004)
Stretchability of thin metal films on elastomer substratesApplied Physics Letters, 85
-
A. Ueno, Y. Akabane, Tsuyoshi Kato, H. Hoshino, S. Kataoka, Y. Ishiyama (2007)
Capacitive Sensing of Electrocardiographic Potential Through Cloth From the Dorsal Surface of the Body in a Supine Position: A Preliminary StudyIEEE Transactions on Biomedical Engineering, 54
-
Dong-Hyun Baek, J. Moon, Yoon-Young Choi, Mi-Na Lee, J. Choi, J. Pak, Sang-Hoon Lee (2011)
A dry release of polyimide electrodes using Kapton film and application to EEG signal measurementsMicrosystem Technologies, 17
-
B. Winter, J. Webster (1983)
Reductionl of Interference Due to Common Mode Voltage in Biopotential AmplifiersIEEE Transactions on Biomedical Engineering, BME-30
-
J. Viventi, Dae-Hyeong Kim, L. Vigeland, E. Frechette, Justin Blanco, Yun-Soung Kim, Andrew Avrin, V. Tiruvadi, Suk-Won Hwang, Ann Vanleer, Drausin Wulsin, K. Davis, Casey Gelber, L. Palmer, J. Spiegel, Jian Wu, Jianliang Xiao, Yonggang Huang, D. Contreras, J. Rogers, B. Litt (2011)
Flexible, Foldable, Actively Multiplexed, High-Density Electrode Array for Mapping Brain Activity in vivoNature neuroscience, 14
-
Jae Lee, Y. Nam, Ha-Chul Jung, Dong-Hyun Baek, Sang-Hoon Lee, Joung-Sook Hong (2012)
Shear induced CNT/PDMS conducting thin film for electrode cardiogram (ECG) electrodeBioChip Journal, 6
-
Michael Smith, David Brink (2018)
: A Review of the -
B. Winter, J. Webster (1983)
Reduction of interference due to common mode voltage in biopotential amplifiers.IEEE transactions on bio-medical engineering, 30 1
-
Copyright for the published papers belongs to the Korean BioChip Society -
Dae-Hyeong Kim, N. Lu, Rui Ma, Yun-Soung Kim, Rak-Hwan Kim, Shuodao Wang, Jian Wu, S. Won, H. Tao, Ahmad Islam, Ki Yu, Tae-il Kim, Raeed Chowdhury, Ming Ying, Lizhi Xu, Ming Li, Hyun‐Joong Chung, H. Keum, Martin McCormick, Ping Liu, Yong-Wei Zhang, F. Omenetto, Yonggang Huang, Todd Coleman, J. Rogers (2011)
Epidermal ElectronicsScience, 333
-
M. Fernandes, K. Lee, Rajeev Ram, J. Correia, P. Mendes (2010)
Flexible PDMS -based dry electrodes for electro-optic acquisition of ECG signals in wearable devices2010 Annual International Conference of the IEEE Engineering in Medicine and Biology
-
Bindu Nair (2003)
Final report on the safety assessment of stearoxy dimethicone, dimethicone, methicone, amino bispropyl dimethicone, aminopropyl dimethicone, amodimethicone, amodimethicone hydroxystearate, behenoxy dimethicone, C24-28 alkyl methicone, C30-45 alkyl methicone, C30-45 alkyl dimethicone, cetearyl methicInternational journal of toxicology, 22 Suppl 2
-
AnXiu Gao, Yunli Tian, Zhuanzhuan Shi, Ling Yu (2016)
A cost-effective microdevice bridges microfluidic and conventional in vitro scratch / wound-healing assay for personalized therapy validationBioChip Journal, 10
-
Li Qiu, Fan Yang, Hong Luo (2018)
A preliminary studyMedicine, 97
-
Namsun Chou, Soonki Yoo, Sohee Kim (2013)
A Largely Deformable Surface Type Neural Electrode Array Based on PDMSIEEE Transactions on Neural Systems and Rehabilitation Engineering, 21
-
Seung Lee, J. Kim, H. Byeon, Yoon-Young Choi, K. Park, Sang-Hoon Lee (2013)
A capacitive, biocompatible and adhesive electrode for long-term and cap-free monitoring of EEG signalsJournal of Neural Engineering, 10
-
Jae‐Woong Jeong, Min Kim, Huanyu Cheng, W. Yeo, Xian Huang, Yuhao Liu, Yihui Zhang, Yonggang Huang, J. Rogers (2014)
Capacitive Epidermal Electronics for Electrically Safe, Long‐Term Electrophysiological MeasurementsAdvanced Healthcare Materials, 3
-
S. Metz, A. Bertsch, Philippe Renaud (2005)
Partial release and detachment of microfabricated metal and polymer structures by anodic metal dissolutionJournal of Microelectromechanical Systems, 14
-
Keekeun Lee, Jiping He, Amarjit Singh, S. Massia, G. Ehteshami, Bruce Kim, G. Raupp (2004)
Polyimide-based intracortical neural implant with improved structural stiffnessJournal of Micromechanics and Microengineering, 14
-
M. Nei, R. Ho, B. Abou-Khalil, F. Drislane, J. Liporace, A. Romeo, M. Sperling (2004)
EEG and ECG in Sudden Unexplained Death in EpilepsyEpilepsia, 45
-
E. Kelly, Ray (2014)
an update on -
J. Webster (1997)
Medical Instrumentation: Application and Design -
C. Aring, T. Spies (1939)
A CRITICAL REVIEWJournal of Neurology and Psychiatry, 2
-
F. Torres, M. Graças, Mota Melo, A. Tosti (2009)
Management of contact dermatitis due to nickel allergy: an updateClinical, cosmetic and investigational dermatology : CCID, 2
-
J. Iglesias, D. Graf, P. Pascale, E. Pruvot (2009)
The implantable loop recorder: a critical review, 12
-
R. Chui, K. Derakhchan, H. Vargas (2012)
Comprehensive analysis of cardiac arrhythmias in telemetered cynomolgus monkeys over a 6 month period.Journal of pharmacological and toxicological methods, 66 2
-
Seung Lee, K. Sim, K. Kim, Y. Lim, K. Park (2010)
Thin and flexible active electrodes with shield for capacitive electrocardiogram measurementMedical & Biological Engineering & Computing, 48
-
K. Moxon, N. Kalkhoran, M. Markert, Marisa Sambito, J. McKenzie, J. Webster (2004)
Nanostructured surface modification of ceramic-based microelectrodes to enhance biocompatibility for a direct brain-machine interfaceIEEE Transactions on Biomedical Engineering, 51
-
J. Ordonez, Christian Böhler, M. Schuettler, T. Stieglitz (2012)
Improved polyimide thin-film electrodes for neural implants2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society
-
A. Manolis, M. Linzer, D. Salem, N. Estes (1990)
Syncope: current diagnostic evaluation and management.Annals of internal medicine, 112 11
-
(2002)
153-163 163 methicone, stearyl dimethicone, stearyl methicone, and vinyldimethicone -
M. Bélanger, Y. Marois (2001)
Hemocompatibility, biocompatibility, inflammatory and in vivo studies of primary reference materials low-density polyethylene and polydimethylsiloxane: a review.Journal of biomedical materials research, 58 5
-
Sheng Xu, Yihui Zhang, Jiung Cho, Juhwan Lee, Xian Huang, Lin Jia, Jonathan Fan, Yewang Su, Jessica Su, Huigang Zhang, Huanyu Cheng, Bingwei Lu, Cunjiang Yu, Chi-Chou Chuang, Tae-il Kim, Taeseup Song, Kazuyo Shigeta, Sen Kang, C. Dagdeviren, I. Petrov, P. Braun, Yonggang Huang, U. Paik, J. Rogers (2013)
Stretchable batteries with self-similar serpentine interconnects and integrated wireless recharging systemsNature Communications, 4
-
E. Delivopoulos, D. Chew, I. Minev, J. Fawcett, S. Lacour (2012)
Concurrent recordings of bladder afferents from multiple nerves using a microfabricated PDMS microchannel electrode array.Lab on a chip, 12 14
-
K. Cheung, P. Renaud, H. Tanila, K. Djupsund (2007)
Flexible polyimide microelectrode array for in vivo recordings and current source density analysis.Biosensors & bioelectronics, 22 8
-
V. Vince, Marie-Anne Thil, C. Veraart, I. Colin, J. Delbeke (2004)
Biocompatibility of platinum-metallized silicone rubber: in vivo and in vitro evaluationJournal of Biomaterials Science, Polymer Edition, 15
-
C. Hassler, T. Boretius, T. Stieglitz (2011)
Polymers for neural implantsJournal of Polymer Science Part B, 49
-
R. Arzbaecher, D. Hampton, M. Burke, M. Garrett (2010)
Subcutaneous electrocardiogram monitors and their field of view.Journal of electrocardiology, 43 6
-
J. Koschwanez, R. Carlson, D. Meldrum (2009)
Thin PDMS Films Using Long Spin Times or Tert-Butyl Alcohol as a SolventPLoS ONE, 4
-
S. Kim, J. Moon, J. Kim, Sungho Jeong, Sang-Hoon Lee (2011)
Flexible, stretchable and implantable PDMS encapsulated cable for implantable medical deviceBiomedical Engineering Letters, 1
-
B. Nair (2002)
Final report on the safety assessment of stearoxy dimethicone, dimethicone, methicone, amino bispropyl dimethicone, aminopropyl dimethicone, amodimethicone, amodimethicone hydroxystearate, behenoxy dimethicone, C24-28 alkyl methicone, C30-45 alkyl methicone, C30-45 alkyl dimethicone, cetearyl methicone, cetyl dimethicone, dimethoxysilyl ethylenediaminopropyl dimethicone, hexyl methicone, hydroxypropyldimethicone, stearamidopropyl dimethicone, stearyl dimethicone, stearyl methicone, and vinyldimethiconeInt. J. Toxicol., 22
-
Y. Sun, S. Lacour, R. Brooks, N. Rushton, J. Fawcett, R. Cameron (2009)
Assessment of the biocompatibility of photosensitive polyimide for implantable medical device use.Journal of biomedical materials research. Part A, 90 3
-
F. Cools, S. Janssens, A. Vanlommel, A. Teisman, R. Towart, D. Gallacher (2011)
ECG arrhythmias in non-implanted vs. telemetry-implanted dogs: need for screening before and sufficient recovery time after implantation.Journal of pharmacological and toxicological methods, 64 1
-
J. Moon, Dong-Hyun Baek, Yoon-Young Choi, K. Lee, Hee Kim, Sang-Hoon Lee (2010)
Wearable polyimide–PDMS electrodes for intrabody communicationJournal of Micromechanics and Microengineering, 20
-
G. Jeong, Dong-Hyun Baek, Ha-Chul Jung, Ji Song, J. Moon, S. Hong, I. Kim, Sang-Hoon Lee (2012)
Solderable and electroplatable flexible electronic circuit on a porous stretchable elastomerNature Communications, 3
- Publisher
- Springer Journals
- Copyright
- 2017 The Korean BioChip Society and Springer-Verlag GmbH Germany
- ISSN
- 1976-0280
- eISSN
- 2092-7843
- DOI
- 10.1007/s13206-017-1304-y
- Publisher site
- See Article on Publisher Site
Abstract
Abstract Electrodes should be adhered onto the body steadily under motion, and implanted stably into the tissue without any damages while maintaining conformal contact. Although most electrodes are fabricated with biocompatible materials, they should be shielded from tissues to prevent mechanical delamination from the device itself and to avoid adverse effects such as irritation, allergic reactions, or inflammation. Herein, we demonstrate a simple process for the development of a flexible and implantable capacitive electrode based on a minimal incision accessible design with polyimide (PI) and Gold/Titanium (Au/Ti) layers and completely encapsulated in a polydimethylsiloxane (PDMS) substrate. Electrodes of three different sizes (recording site diameters of 1.8 mm, 2.8 mm, and 3.8 mm, respectively) were fabricated and examined in this work. Electrocardiography (ECG) was recorded in the dorsal area of the rat for 4 weeks for biological signal checkup. We obtained stable and robust ECG signals owing to the intrinsic property of capacitive coupling, with almost no leakage current compared to the direct contact electrode for the applied current over the range of 0 to 10 mA. These results indicate that our electrode can be used to detect bio-signals effectively in the long term, and can play a role in electroceuticals in the near future.
Journal
BioChip Journal – Springer Journals
Published: Jun 1, 2017