A citation-based method for searching scientific literature

John P Seymour, Daryl R Kipke. Biomaterials 2007
Times Cited: 227







List of co-cited articles
1208 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Ultrasmall implantable composite microelectrodes with bioactive surfaces for chronic neural interfaces.
Takashi D Yoshida Kozai, Nicholas B Langhals, Paras R Patel, Xiaopei Deng, Huanan Zhang, Karen L Smith, Joerg Lahann, Nicholas A Kotov, Daryl R Kipke. Nat Mater 2012
298
53

Response of brain tissue to chronically implanted neural electrodes.
Vadim S Polikov, Patrick A Tresco, William M Reichert. J Neurosci Methods 2005
844
52


Brain tissue responses to neural implants impact signal sensitivity and intervention strategies.
Takashi D Y Kozai, Andrea S Jaquins-Gerstl, Alberto L Vazquez, Adrian C Michael, X Tracy Cui. ACS Chem Neurosci 2015
202
34

Ultraflexible nanoelectronic probes form reliable, glial scar-free neural integration.
Lan Luan, Xiaoling Wei, Zhengtuo Zhao, Jennifer J Siegel, Ojas Potnis, Catherine A Tuppen, Shengqing Lin, Shams Kazmi, Robert A Fowler, Stewart Holloway,[...]. Sci Adv 2017
153
33

Failure mode analysis of silicon-based intracortical microelectrode arrays in non-human primates.
James C Barrese, Naveen Rao, Kaivon Paroo, Corey Triebwasser, Carlos Vargas-Irwin, Lachlan Franquemont, John P Donoghue. J Neural Eng 2013
245
32

Insertion of linear 8.4 μm diameter 16 channel carbon fiber electrode arrays for single unit recordings.
Paras R Patel, Kyounghwan Na, Huanan Zhang, Takashi D Y Kozai, Nicholas A Kotov, Euisik Yoon, Cynthia A Chestek. J Neural Eng 2015
67
38

Chronic tissue response to carboxymethyl cellulose based dissolvable insertion needle for ultra-small neural probes.
Takashi D Y Kozai, Zhannetta Gugel, Xia Li, Peter J Gilgunn, Rakesh Khilwani, O Burak Ozdoganlar, Gary K Fedder, Douglas J Weber, X Tracy Cui. Biomaterials 2014
96
27

Mechanical failure modes of chronically implanted planar silicon-based neural probes for laminar recording.
Takashi D Y Kozai, Kasey Catt, Xia Li, Zhannetta V Gugel, Valur T Olafsson, Alberto L Vazquez, X Tracy Cui. Biomaterials 2015
97
25

Three-dimensional macroporous nanoelectronic networks as minimally invasive brain probes.
Chong Xie, Jia Liu, Tian-Ming Fu, Xiaochuan Dai, Wei Zhou, Charles M Lieber. Nat Mater 2015
147
25

Brain responses to micro-machined silicon devices.
D H Szarowski, M D Andersen, S Retterer, A J Spence, M Isaacson, H G Craighead, J N Turner, W Shain. Brain Res 2003
441
25

Comprehensive characterization and failure modes of tungsten microwire arrays in chronic neural implants.
Abhishek Prasad, Qing-Shan Xue, Viswanath Sankar, Toshikazu Nishida, Gerry Shaw, Wolfgang J Streit, Justin C Sanchez. J Neural Eng 2012
159
24

Reduction of neurovascular damage resulting from microelectrode insertion into the cerebral cortex using in vivo two-photon mapping.
T D Y Kozai, T C Marzullo, F Hooi, N B Langhals, A K Majewska, E B Brown, D R Kipke. J Neural Eng 2010
97
23

Relationship between intracortical electrode design and chronic recording function.
Lohitash Karumbaiah, Tarun Saxena, David Carlson, Ketki Patil, Radhika Patkar, Eric A Gaupp, Martha Betancur, Garrett B Stanley, Lawrence Carin, Ravi V Bellamkonda. Biomaterials 2013
123
23

In vivo two-photon microscopy reveals immediate microglial reaction to implantation of microelectrode through extension of processes.
Takashi D Yoshida Kozai, Alberto L Vazquez, Cassandra L Weaver, Seong-Gi Kim, X Tracy Cui. J Neural Eng 2012
102
22

Implanted neural electrodes cause chronic, local inflammation that is correlated with local neurodegeneration.
George C McConnell, Howard D Rees, Allan I Levey, Claire-Anne Gutekunst, Robert E Gross, Ravi V Bellamkonda. J Neural Eng 2009
244
22


Brain micromotion around implants in the rodent somatosensory cortex.
Aaron Gilletti, Jit Muthuswamy. J Neural Eng 2006
127
22

The impact of chronic blood-brain barrier breach on intracortical electrode function.
Tarun Saxena, Lohitash Karumbaiah, Eric A Gaupp, Radhika Patkar, Ketki Patil, Martha Betancur, Garrett B Stanley, Ravi V Bellamkonda. Biomaterials 2013
147
22

A finite-element model of the mechanical effects of implantable microelectrodes in the cerebral cortex.
Jeyakumar Subbaroyan, David C Martin, Daryl R Kipke. J Neural Eng 2005
164
22

Fully integrated silicon probes for high-density recording of neural activity.
James J Jun, Nicholas A Steinmetz, Joshua H Siegle, Daniel J Denman, Marius Bauza, Brian Barbarits, Albert K Lee, Costas A Anastassiou, Alexandru Andrei, Çağatay Aydın,[...]. Nature 2017
467
22

Chronic in vivo stability assessment of carbon fiber microelectrode arrays.
Paras R Patel, Huanan Zhang, Matthew T Robbins, Justin B Nofar, Shaun P Marshall, Michael J Kobylarek, Takashi D Y Kozai, Nicholas A Kotov, Cynthia A Chestek. J Neural Eng 2016
69
30

A carbon-fiber electrode array for long-term neural recording.
Grigori Guitchounts, Jeffrey E Markowitz, William A Liberti, Timothy J Gardner. J Neural Eng 2013
96
21

Reach and grasp by people with tetraplegia using a neurally controlled robotic arm.
Leigh R Hochberg, Daniel Bacher, Beata Jarosiewicz, Nicolas Y Masse, John D Simeral, Joern Vogel, Sami Haddadin, Jie Liu, Sydney S Cash, Patrick van der Smagt,[...]. Nature 2012
937
20

Syringe-injectable electronics.
Jia Liu, Tian-Ming Fu, Zengguang Cheng, Guosong Hong, Tao Zhou, Lihua Jin, Madhavi Duvvuri, Zhe Jiang, Peter Kruskal, Chong Xie,[...]. Nat Nanotechnol 2015
231
20

Cerebral astrocyte response to micromachined silicon implants.
J N Turner, W Shain, D H Szarowski, M Andersen, S Martins, M Isaacson, H Craighead. Exp Neurol 1999
337
20

Neural stimulation and recording electrodes.
Stuart F Cogan. Annu Rev Biomed Eng 2008
749
20

Abiotic-biotic characterization of Pt/Ir microelectrode arrays in chronic implants.
Abhishek Prasad, Qing-Shan Xue, Robert Dieme, Viswanath Sankar, Roxanne C Mayrand, Toshikazu Nishida, Wolfgang J Streit, Justin C Sanchez. Front Neuroeng 2014
96
19

High-performance neuroprosthetic control by an individual with tetraplegia.
Jennifer L Collinger, Brian Wodlinger, John E Downey, Wei Wang, Elizabeth C Tyler-Kabara, Douglas J Weber, Angus J C McMorland, Meel Velliste, Michael L Boninger, Andrew B Schwartz. Lancet 2013
682
19


Mechanically adaptive intracortical implants improve the proximity of neuronal cell bodies.
J P Harris, J R Capadona, R H Miller, B C Healy, K Shanmuganathan, S J Rowan, C Weder, D J Tyler. J Neural Eng 2011
98
19

Effects of insertion conditions on tissue strain and vascular damage during neuroprosthetic device insertion.
C S Bjornsson, S J Oh, Y A Al-Kofahi, Y J Lim, K L Smith, J N Turner, S De, B Roysam, W Shain, S J Kim. J Neural Eng 2006
174
19

Factors influencing the biocompatibility of insertable silicon microshafts in cerebral cortex.
D J Edell, V V Toi, V M McNeil, L D Clark. IEEE Trans Biomed Eng 1992
257
19

A Materials Roadmap to Functional Neural Interface Design.
Steven M Wellman, James R Eles, Kip A Ludwig, John P Seymour, Nicholas J Michelson, William E McFadden, Alberto L Vazquez, Takashi D Y Kozai. Adv Funct Mater 2018
92
20

Effects of caspase-1 knockout on chronic neural recording quality and longevity: insight into cellular and molecular mechanisms of the reactive tissue response.
Takashi D Y Kozai, Xia Li, Lance M Bodily, Ellen M Caparosa, Georgios A Zenonos, Diane L Carlisle, Robert M Friedlander, X Tracy Cui. Biomaterials 2014
76
23

Flexible polyimide-based intracortical electrode arrays with bioactive capability.
P J Rousche, D S Pellinen, D P Pivin, J C Williams, R J Vetter, D R Kipke. IEEE Trans Biomed Eng 2001
276
18


Large-scale recording of neuronal ensembles.
György Buzsáki. Nat Neurosci 2004
845
18

Progress towards biocompatible intracortical microelectrodes for neural interfacing applications.
Mehdi Jorfi, John L Skousen, Christoph Weder, Jeffrey R Capadona. J Neural Eng 2015
144
18

NeuroGrid: recording action potentials from the surface of the brain.
Dion Khodagholy, Jennifer N Gelinas, Thomas Thesen, Werner Doyle, Orrin Devinsky, George G Malliaras, György Buzsáki. Nat Neurosci 2015
285
18

Toward a comparison of microelectrodes for acute and chronic recordings.
Matthew P Ward, Pooja Rajdev, Casey Ellison, Pedro P Irazoqui. Brain Res 2009
161
17

Comprehensive chronic laminar single-unit, multi-unit, and local field potential recording performance with planar single shank electrode arrays.
Takashi D Y Kozai, Zhanhong Du, Zhannetta V Gugel, Matthew A Smith, Steven M Chase, Lance M Bodily, Ellen M Caparosa, Robert M Friedlander, X Tracy Cui. J Neurosci Methods 2015
64
26

Silicon-substrate intracortical microelectrode arrays for long-term recording of neuronal spike activity in cerebral cortex.
Daryl R Kipke, Rio J Vetter, Justin C Williams, Jamille F Hetke. IEEE Trans Neural Syst Rehabil Eng 2003
194
17

Long-term neural recording characteristics of wire microelectrode arrays implanted in cerebral cortex.
J C Williams, R L Rennaker, D R Kipke. Brain Res Brain Res Protoc 1999
222
17


BBB leakage, astrogliosis, and tissue loss correlate with silicon microelectrode array recording performance.
Nicholas F Nolta, Michael B Christensen, Paul D Crane, John L Skousen, Patrick A Tresco. Biomaterials 2015
85
20

Ultrasoft microwire neural electrodes improve chronic tissue integration.
Zhanhong Jeff Du, Christi L Kolarcik, Takashi D Y Kozai, Silvia D Luebben, Shawn A Sapp, Xin Sally Zheng, James A Nabity, X Tracy Cui. Acta Biomater 2017
58
29


Neuronal ensemble control of prosthetic devices by a human with tetraplegia.
Leigh R Hochberg, Mijail D Serruya, Gerhard M Friehs, Jon A Mukand, Maryam Saleh, Abraham H Caplan, Almut Branner, David Chen, Richard D Penn, John P Donoghue. Nature 2006
16

Mechanically-compliant intracortical implants reduce the neuroinflammatory response.
Jessica K Nguyen, Daniel J Park, John L Skousen, Allison E Hess-Dunning, Dustin J Tyler, Stuart J Rowan, Christoph Weder, Jeffrey R Capadona. J Neural Eng 2014
110
16


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.