LITERATURE DETAILS |
MAPPING DATA |
EXPERIMENTAL DATA |
MAPS RELATION DATA |
DOWNLOAD PDF
Maps relation data:
Add maps relation
* First time you log in, please close the new tab and click on again.
| Acronym Name A | Acronym Full Name A | Relation Codes Desc | Acronym Name B | Acronym Full Name B | Reference Text | Reference Figures | Citation | Comments | |
| 17 | primary visual cortex | is Identical to | 17 | primary visual cortex | 2181 | 1 | Visual, somatosensory, and parietal areas of the ferret cortex were identified on the basis of previous anatomical and physiological studies (Innocenti et al. 2002; Manger et al. 2002, 2004). | Edit | |
| 18 | second visual cortical area | is Identical to | 18 | second visual cortical area | 2181 | 1 | Visual, somatosensory, and parietal areas of the ferret cortex were identified on the basis of previous anatomical and physiological studies (Innocenti et al. 2002; Manger et al. 2002, 2004). | Edit | |
| 19 | third visual cortical area | is Identical to | 19 | third visual cortical area | 2181 | 1 | Visual, somatosensory, and parietal areas of the ferret cortex were identified on the basis of previous anatomical and physiological studies (Innocenti et al. 2002; Manger et al. 2002, 2004). | Edit | |
| 20a | temporal visual area a | is Identical to | 20a | temporal visual area a | 2181 | 1 | Visual, somatosensory, and parietal areas of the ferret cortex were identified on the basis of previous anatomical and physiological studies (Innocenti et al. 2002; Manger et al. 2002, 2004). | Edit | |
| 20b | temporal visual area b | is Identical to | 20b | temporal visual area b | 2181 | 1 | Visual, somatosensory, and parietal areas of the ferret cortex were identified on the basis of previous anatomical and physiological studies (Innocenti et al. 2002; Manger et al. 2002, 2004). | Edit | |
| PPc | posterior parietal caudal cortical area | is Identical to | PPc | posterior parietal caudal cortical area | 2181 | 1 | Visual, somatosensory, and parietal areas of the ferret cortex were identified on the basis of previous anatomical and physiological studies (Innocenti et al. 2002; Manger et al. 2002, 2004). | Edit | |
| MEG | middle ectosylvian gyrus | is Large than | A1 | primary auditory cortex | 2183 | 1,13 | Figure 13 shows the location of retrogradely labeled cells in the cortex following injections of 2 different tracers in the MEG, where the primary auditory fields, A1 and AAF, are located | Edit | |
| MEG | middle ectosylvian gyrus | is Large than | AAF | anterior auditory field | 2183 | 1,13 | Figure 13 shows the location of retrogradely labeled cells in the cortex following injections of 2 different tracers in the MEG, where the primary auditory fields, A1 and AAF, are located | Edit | |
| AEG | anterior ectosylvian gyrus | is Large than | ADF | anterior dorsal field | 2183 | 1,14 | Figure 14 shows the pattern of cortical labeling observed after injections of BDA and CTb were placed in the AEG and posterior ectosylvian gyrus (PEG), respectively. | Edit | |
| AEG | anterior ectosylvian gyrus | is Large than | AVF | anterior ventral field | 2183 | 1,14 | Figure 14 shows the pattern of cortical labeling observed after injections of BDA and CTb were placed in the AEG and posterior ectosylvian gyrus (PEG), respectively. | Edit | |
| PEG | posterior ectosylvian gyrus | is Large than | PPF | posterior pseudosylvian field | 2183 | 1,14 | Figure 14 shows the pattern of cortical labeling observed after injections of BDA and CTb were placed in the AEG and posterior ectosylvian gyrus (PEG), respectively. | Edit | |
| PEG | posterior ectosylvian gyrus | is Large than | PSF | posterior suprasylvian field | 2183 | 1,14 | Figure 14 shows the pattern of cortical labeling observed after injections of BDA and CTb were placed in the AEG and posterior ectosylvian gyrus (PEG), respectively. | Edit |