Table 1.
in vitro animal studies in (t)DCS.
| Publication | System | Chamber type | Bath solution | Generating EF | Calibrating EF |
|---|---|---|---|---|---|
| Jefferys (1981) | rodent hippocampal slicesa | submerged | aCSF | parallel electrodes | not specified |
| Andreasen and Nedergaard (1996) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| Bikson et al. (2003) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| Lian et al. (2003) | rat hippocampal slices | interface | aCSF | parallel electrodes | not specified |
| Bikson et al. (2004) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| Radman et al. (2006) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| Radman et al. (2007) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| Radman et al. (2009a) | rat M1 slices | submerged | aCSF | parallel electrodes | not specified |
| Radman et al. (2009b) | rat M1 slices | submerged | aCSF | parallel electrodes | measured by 2 electrodes |
| Fritsch et al. (2010) | mouse M1 slice | interface | aCSF | human electrodes | not specified |
| Fröhlich and McCormick (2010) | ferret visual cortical slice | interface | aCSF | parallel electrodes | measured voltage gradient |
| Reato et al. (2010) | rat hippocampal slices | submerged | aCSF | parallel electrodes | measured by 2 electrodes |
| Kabakov et al. (2012) | rat hippocampal slices | interface | aCSF | parallel electrodes | not specified |
| Ranieri et al. (2012) | rat M1 slices | submerged | aCSF | parallel electrodes | not specified |
| Rahman et al. (2013) | rat M1 slices | interface | aCSF | parallel electrodes | not specified |
| Pelletier et al. (2015) | mouse cell cultures | submerged | medium | microfluidic chamber | calculatedc |
| Reato et al. (2015) | rat hippocampal slices | submerged | aCSF | parallel electrodes | measured by MUEd |
| Chang et al. (2015) | mouse MT-ACC slices | submerged | aCSF | parallel electrodes | measured by MEA |
| Sun et al. (2016) | mouse hippocampal slicesb | interface | aCSF | parallel electrodes | not specified |
| Lu et al. (2016) | mouse MT-ACC slices | submerged | aCSF | parallel electrodes | measured by MEA |
| Lafon et al. (2017) | rat hippocampal slices | interface | aCSF | parallel electrodes | not specified |
| Rahman et al. (2017) | rat M1 slices | interface | aCSF | parallel electrodes | not specified |
| Kronberg et al. (2017) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| D’Andola et al. (2018) | ferret V1 and V2 slices | interface | aCSF | parallel electrodes | measured voltage gradient |
| Latchoumane et al. (2018) | mouse cell cultures | submerged | medium | not specified | not specified |
| Chakraborty et al. (2018) | mouse PFC slices | submerged | aCSF | parallel electrodes | not specified |
| D’Andola et al. (2019) | ferret forebrain slices | interface | aCSF | parallel electrodes | not specified |
| Ross et al. (2020) | human cell cultures | submerged | medium | parallel electrodes | not specified |
| Kronberg et al. (2020) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| Sun et al. (2020) | mouse hippocampal slicesb | submerged | aCSF | parallel electrodes | not specified |
| Esmaeilpour et al. (2020) | rat hippocampal slices | interface | aCSF | parallel electrodes | measured by 2 electrodes |
| Farahani et al. (2021) | rat hippocampal slices | submerged | aCSF | parallel electrodes | measured by 2 electrodes |
| Gellner et al. (2021) | mouse cell cultures | submerged | medium | microfluidic chamber | calculated |
| Vasu and Kaphzan (2021) | mouse PFC slices | submerged | aCSF | parallel electrodes | not specified |
a
Guinea pig hippocampal slices; Jefferys (1981) and Andreasen and Nedergaard (1996) were included based on the citation history of the rest papers.
b
Mouse hippocampal slices and human cortical slices.
c
Calculated based on the conductivity of cell-free medium.
d
Multiunit electrodes.