Detail
Článek
Článek online
FT
Medvik - BMČ
  • Je něco špatně v tomto záznamu ?

Application of spike sorting algorithm to neuronal signals originated from boron doped diamond micro-electrode arrays

O. Klempíř, R. Krupička, J. Krůšek, I. Dittert, V. Petráková, V. Petrák, A. Taylor

. 2020 ; 69 (3) : 529-536. [pub] 20200529

Jazyk angličtina Země Česko

Typ dokumentu časopisecké články

Perzistentní odkaz   https://www.medvik.cz/link/bmc21015642

In this work we report on the implementation of methods for data processing signals from microelectrode arrays (MEA) and the application of these methods for signals originated from two types of MEAs to detect putative neurons and sort them into subpopulations. We recorded electrical signals from firing neurons using titanium nitride (TiN) and boron doped diamond (BDD) MEAs. In previous research, we have shown that these methods have the capacity to detect neurons using commercially-available TiN-MEAs. We have managed to cultivate and record hippocampal neurons for the first time using a newly developed custom-made multichannel BDD-MEA with 20 recording sites. We have analysed the signals with the algorithms developed and employed them to inspect firing bursts and enable spike sorting. We did not observe any significant difference between BDD- and TiN-MEAs over the parameters, which estimated spike shape variability per each detected neuron. This result supports the hypothesis that we have detected real neurons, rather than noise, in the BDD-MEA signal. BDD materials with suitable mechanical, electrical and biocompatibility properties have a large potential in novel therapies for treatments of neural pathologies, such as deep brain stimulation in Parkinson's disease.

Citace poskytuje Crossref.org

Bibliografie atd.

Literatura

000      
00000naa a2200000 a 4500
001      
bmc21015642
003      
CZ-PrNML
005      
20210618141701.0
007      
ta
008      
210604s2020 xr ad f 000 0|eng||
009      
AR
024    7_
$a 10.33549/physiolres.934366 $2 doi
035    __
$a (PubMed)32469239
040    __
$a ABA008 $b cze $d ABA008 $e AACR2
041    0_
$a eng
044    __
$a xr
100    1_
$a Klempíř, Ondřej $7 xx0241721 $u Faculty of Biomedical Engineering, Czech Technical University in Prague, Kladno, Czech Republic
245    10
$a Application of spike sorting algorithm to neuronal signals originated from boron doped diamond micro-electrode arrays / $c O. Klempíř, R. Krupička, J. Krůšek, I. Dittert, V. Petráková, V. Petrák, A. Taylor
504    __
$a Literatura
520    9_
$a In this work we report on the implementation of methods for data processing signals from microelectrode arrays (MEA) and the application of these methods for signals originated from two types of MEAs to detect putative neurons and sort them into subpopulations. We recorded electrical signals from firing neurons using titanium nitride (TiN) and boron doped diamond (BDD) MEAs. In previous research, we have shown that these methods have the capacity to detect neurons using commercially-available TiN-MEAs. We have managed to cultivate and record hippocampal neurons for the first time using a newly developed custom-made multichannel BDD-MEA with 20 recording sites. We have analysed the signals with the algorithms developed and employed them to inspect firing bursts and enable spike sorting. We did not observe any significant difference between BDD- and TiN-MEAs over the parameters, which estimated spike shape variability per each detected neuron. This result supports the hypothesis that we have detected real neurons, rather than noise, in the BDD-MEA signal. BDD materials with suitable mechanical, electrical and biocompatibility properties have a large potential in novel therapies for treatments of neural pathologies, such as deep brain stimulation in Parkinson's disease.
650    _2
$a akční potenciály $7 D000200
650    _2
$a algoritmy $7 D000465
650    _2
$a zvířata $7 D000818
650    _2
$a bor $x chemie $7 D001895
650    _2
$a diamant $x chemie $7 D018130
650    _2
$a hipokampus $x fyziologie $7 D006624
650    _2
$a mužské pohlaví $7 D008297
650    _2
$a mikroelektrody $7 D008839
650    _2
$a neurony $x fyziologie $7 D009474
650    _2
$a krysa rodu Rattus $7 D051381
650    _2
$a potkani Wistar $7 D017208
650    _2
$a titan $x chemie $7 D014025
655    _2
$a časopisecké články $7 D016428
700    1_
$a Krupička, Radim, $d 1981- $7 xx0209817 $u Faculty of Biomedical Engineering, Czech Technical University in Prague, Kladno, Czech Republic
700    1_
$a Krůšek, Jan, $d 1961- $7 xx0101031 $u Laboratory of Cellular Neurophysiology, Institute of Physiology of the Czech Academy of Sciences, Prague, Czech Republic
700    1_
$a Dittert, Ivan $7 xx0066072 $u Laboratory of Cellular Neurophysiology, Institute of Physiology of the Czech Academy of Sciences, Prague, Czech Republic
700    1_
$a Petráková, Vladimíra, $d 1985- $7 xx0261282 $u Faculty of Biomedical Engineering, Czech Technical University in Prague, Kladno, Czech Republic
700    1_
$a Petrák, Václav $7 xx0261291 $u Faculty of Biomedical Engineering, Czech Technical University in Prague, Kladno, Czech Republic
700    1_
$a Taylor, Andy $7 _AN077266 $u Institute of Physics of the Czech Academy of Sciences, Prague, Czech Republic
773    0_
$w MED00003824 $t Physiological research $x 1802-9973 $g Roč. 69, č. 3 (2020), s. 529-536
856    41
$u https://pubmed.ncbi.nlm.nih.gov/32469239 $y Pubmed
910    __
$a ABA008 $b A 4120 $c 266 $y p $z 0
990    __
$a 20210604 $b ABA008
991    __
$a 20210614110338 $b ABA008
999    __
$a ok $b bmc $g 1664023 $s 1136050
BAS    __
$a 3
BAS    __
$a PreBMC
BMC    __
$a 2020 $b 69 $c 3 $d 529-536 $e 20200529 $i 1802-9973 $m Physiological research $n Physiol. Res. (Print) $x MED00003824
LZP    __
$b NLK118 $a Pubmed-20210604

Najít záznam

Citační ukazatele

Možnosti archivace