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1

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Afferent connections of the prelunate visual association cortex (areas V4 and DP) (1990)

Tanaka, M. ; nLindsley, E. ; Lausmann, S. ; [et al.]

Springer

Anatomy and embryology 181 (1990), S. 19-30

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ISSN: 1432-0568

Keywords: Prestriate cortex ; Pulvinar ; Area V4 ; Area ; DP ; Temporo-basal association cortex

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The afferent and efferent connections of the prelunate visual association area V4 of macaque monkeys were investigated by means of the horseradish peroxidase (HRP) method. The specific thalamic afferents from the dorsolateral segment of the medial pulvinar and the lateral segment of the inferior pulvinar were topographically organized. A band of cells was labelled in the intralaminar nuclei (nucl. centr. med. and lat., reaching into LD and the most dorsal part of VL), and a few cells in the interlaminar layers of the lateral geniculate body. Other diencephalic afferents included the claustrum, the nucleus basalis Meynert and the pars compacta of the substantia nigra. Ipsilateral cortical areas which projected into V4 included area 18 (V2), the inferior parietal cortex, the anterior and posterior parts of the superior temporal sulcus, the frontal eye fields and the temporo-basal association cortex on the lateral half of the parahippocampal gyrus and around the occipito-temporal sulcus. In the contralateral cortex, discontinuous regions in areas V4 and V5 on the prelunate gyrus and some cells at the 17/18-border were labelled. All regions in which labelled cells were found and, in addition a restricted region in the dorsal cap of the head and the tail of the caudate nucleus showed fibre and terminal labelling. In addition mesencephalic afferents and efferents were identified but not investigated in detail. An attempt to estimate the quantitative contribution of the various afferent systems to the prelunate cortex was made by counting the labelled cells in the different areas. The afferent and efferent organization of the prelunate visual association area indicates that it is incorporated in a network of cortical and subcortical regions involved in various aspects of visual behavior.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00189724

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2

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Spontane postsynaptische potentiale von nervenzellen des motorischen cortex der katze (1966)

Watanabe, S. ; Creutzfeldt, O. D.

Springer

Experimental brain research 1 (1966), S. 48-64

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ISSN: 1432-1106

Keywords: Spontaneous post-synaptic potentials (EPSPs, IPSPs) ; Motor cortex ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung 1. Im motorischen Cortex von ausgewachsenen Katzen (mittlere Nembutalnarkose) wurden spontane postsynaptische Potentiale (PSP) mit intrazellulären Mikroelektroden untersucht. Die spontanen EPSP wurden mit ausgelösten EPSP nach schwachen Reizen in spezifischen (VL) und unspezifischen (CM) Thalamuskernen verglichen. 2. Spontane EPSP treten entweder einzeln oder gruppiert auf. spontane IPSP sind seltener und machen nur 3–10% aller spontanen PSP aus. Die kleinsten EPSP haben eine Amplitude von 150–200 μV, daneben kommen kleinere, flache Schwankungen des Membranpotentials vor. Die mittlere Amplitude von spontanen EPSP liegt bei 0.7 mV. Amplitudenhistogramme spontaner EPSP unterscheiden sich nicht wesentlich von solchen, die durch schwache CM- oder VL-Reize ausgelöst sind. 3. Die Anstiegssteilheit von spontanen EPSP liegt zwischen 2 und 15 msec. Es besteht keine konstante Beziehung zwischen Amplitude und Anstiegssteilheit. Der Potentialabfall ist annähernd exponentiell, die Zeitkonstante liegt zwischen 8 und 12 msec und ist damit etwas länger als die passive Neuronzeitkonstante (8.5±2.2 msec nach Creutzfeldt u. Mitarb., 1964b). Es bestehen keine konstanten Unterschiede der Zeitverläufe von spontanen, durch VL- oder CM-Reiz ausgelösten EPSP-Einheiten. 4. Die Intervallhistogramme von spontanen EPSP sind verschieden je nach dem, ob alle Intervalle oder nur Perioden mit sporadischer, nicht-gruppierter Aktivität ausgezählt werden. Nicht gruppierte EPSP haben längere mittlere Intervalle (70–80 msec). 5. Nach überschwelligen Thalamusreizserien ist sowohl die spontane als auch die reizinduzierte PSP-aktivität vermindert. Es kann jedoch nicht entschieden werden, inwieweit corticale und inwieweit thalamische Mechanismen für diese post-tetanische Depression verantwortlich sind. 6. Während reversibler Deafferentierung des Cortex durch K+-depolarisation afferenter Fasern und im chronisch isolierten Cortex finden sich keine spontanen PSP mehr, obwohl EPSP und IPSP am isolierten Cortex durch epicorticale Reize noch ausgelöst werden können. 7. Aus den Befunden wird geschlossen, daß die beobachteten PSP durch afferente und collaterale Faseraktivität ausgelöst sind. Für echte „Miniaturpotentiale” entsprechend Beobachtungen an Muskelendplatten findet sich kein Anhalt. Insofern repräsentiert das „synaptische Rauschen” corticaler Zellen die konvergierende Afferenz dieser Zellen und kann nicht als echtes „spontanes Rauschen” angesehen werden.

Notes: Summary Spontaneous post-synaptic potentials (PSP's) of neurones of the motor cortex are analysed (intracellular recording, Nembutal anesthesia, cats). Distinct EPSP's either appear grouped or more sporadically distributed. Spontaneous EPSP's only represent about 3–10% of all spontaneous PSP's. The mean amplitude of EPSP's is about 0.7 mV. The smallest EPSP's have an amplitude of 150–200 μV, smaller slow fluctuations of the membrane potential (MP) are seen occasionally. Amplitude histograms of spontaneous EPSP's are similar to those of evoked EPSP units following weak thalamic stimulation. — The rising time of spontaneous EPSP's varies between 2 and 15 msec. and is not correlated with the peak amplitude. The decay is almost exponential, the time constant is between 8 and 12msec., thus being slightly higher than the neurone time constant of cortical pyramidal cells (8.5±2.2 msec. Creutzfeldt et al., 1964b). No consistant differences in time course and amplitude of “EPSP units” after VL and CM thalamic stimulation and of spontaneous EPSP's was found. Cortical and thalamic components of post-tetanic depression of spontaneous and evoked PSP activity cannot be distinguished. Interval histograms are different whether all EPSP's during sporadic and grouped activity or whether only sporadically appearing EPSP's are counted. Non-grouped EPSP's show longer mean intervals (between 70 and 80 msec.). — During reversible deafferentation with K+-depolarization of afferent fibers and in the chronically isolated cortex no spontaneous EPSP's or IPSP's are found eventhough membrane fluctuations of cells in the latter preparation may sometimes be difficult to distinguish from real EPSP's. In the chronically isolated cortex, EPSP's and IPSP's can still be elicited by epicortical stimulation. — From these findings it is concluded that the observed spontaneous PSP's represent “unit” EPSP's and IPSP's due to afferent and collateral fiber activity and that no true miniature potentials due to spontaneous liberation of transmitter substance can be recorded. Thus, the “synaptic noise” of cortical neurones represents convergent activity on these cells and consequently cannot be considered as true “spontaneous noise”.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235209

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Neuronal responses in the visual cortex of awake cats to stationary and moving targets (1971)

Noda, H. ; Freeman, R. B. ; Gies, B. ; [et al.]

Springer

Experimental brain research 12 (1971), S. 389-405

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ISSN: 1432-1106

Keywords: Visual cortex ; Unanesthetized and unparalyzed cats ; Neuronal responses to moving and stationary stimuli

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Over 300 single units from the visual cortex (within and around the projection of the central area) were recorded from awake and non-paralyzed cats (chronic preparation). Spontaneous activity of 25% of the neurons was below 3/sec, that of 75% above 3/sec (mean 7.65 spikes/sec). Diffuse illumination had only little influence, but nearly all neurons responded to stimulation with some sort of visual contrast. This would be either an irregularly moved shadow on the screen with irregular boundaries (e. g. a hand with moving fingers), a dark stripe moving in a certain direction, stationary parallel gratings with a certain orientation, or saccadic eye movements across a checkerboard. Although some neurons responding to one stimulus type could also be responsive to other stimuli, the majority of units only responded to one stimulus type. The responses to stationary gratings (alternating parallel dark and bright stripes) and to moving dark stripes are described in detail. Responses to stationary gratings showed no adaptation. The orientation of the grating stripes was critical for each neuron, the optimal and minimal response orientation were separated by about 90°. For movement sensitive neurons, the direction of the movement was critical. Most neurons had only one, some had two preferred directions separated by 180°. No statistically significant predominance of certain orientation or direction preferences was found. The preferred target velocity of movement sensitive neurons was between 10 and 60°/sec, above 80–100°/sec only occasional or no responses could be elicited. Neurons which responded to saccadic eye movements (above 300°/sec) in the presence of a checker board, usually did not respond to slower target movements below 100°/sec. The results support the view that the visual system has different channels for the perception of moving and of stationary objects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234494

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Binocular interaction in the visual cortex of awake cats (1971)

Noda, H. ; Creutzfeldt, O. D. ; Freeman, R. B.

Springer

Experimental brain research 12 (1971), S. 406-421

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ISSN: 1432-1106

Keywords: Single units ; Visual cortex ; Binocular interaction ; Awake and unparalyzed cats

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effect of monocular and binocular stimulation on cortical neurons of area 17 was investigated in awake unparalyzed cats with painless head fixation. Two types of stimuli were applied: Stationary gratings of variable orientations, and a 3° wide dark stripe at different orientation and moving in different directions. All neurons which were excited from both eyes showed qualitatively similar input properties (orientation specificity, movement and/or direction sensitivity). Quantitatively, the input from both eyes was either equal or dominant from one eye. Contralateral dominance was found 5 times more frequently than ipsilateral dominance. Various types of binocular interaction were found. Some neurons showed an excitatory response from one eye and inhibitory response from the other (inhibition, 14% of our units), and others showed a response during binocular stimulation which was equal to the sum of the monocular responses (summation, 18%), larger (facilitation, 43%) or smaller (occlusion, 14%) than the sum of the two monocular responses. A few units with binocular responses did not respond to monocular stimulation of one or both eyes. The results are compared with those found by other authors in paralyzed and anesthetized animals, and current theories of neuronal mechanisms of binocular vision are discussed in the context of our findings.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234495

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Responses of cells in the cat lateral geniculate nucleus to moving stimuli at various levels of light and dark adaptation (1977)

Lee, B. B. ; Virsu, V. ; Creutzfeldt, O. D.

Springer

Experimental brain research 27 (1977), S. 51-59

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ISSN: 1432-1106

Keywords: Lateral geniculate nucleus ; Cat ; Dark adaptation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The responses of neurones in laminae A and A1 of the cat lateral geniculate nucleus to moving stimuli were investigated at different background luminances. Moving bright slits, dark bars and edges were employed; the contrast of stimuli against the background was held constant. Background intensities varied from 10−3 to 102 td. Responses as stimuli passed across the centres of LGN receptive fields became stronger with increasing levels of light adaptation up to 10−1–101 td and then remained constant. Responses as stimuli passed through surround regions altered qualitatively with adaptation level, generally increasing in strength and complexity with background luminance. As a bright slit for on-centre cells or dark bar for off-centre cells left the surround, in almost all units a strong secondary peak could be elicited by an appropriate selection of the adaptation conditions. Many features of the responses to moving stimuli could not be predicted from the responses to stationary stimuli under different adaptation conditions described in the previous paper.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234824

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A quantitative study of chromatic organisation and receptive fields of cells in the lateral geniculate body of the rhesus monkey (1979)

Creutzfeldt, O. D. ; Lee, B. B. ; Elepfandt, A.

Springer

Experimental brain research 35 (1979), S. 527-545

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ISSN: 1432-1106

Keywords: Monkey LGN ; Colour sensitivity ; Receptive field organisation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The responses of neurones in the lateral geniculate nucleus (LGN) were investigated in anaesthetised rhesus monkeys. A new classification for cells in the parvocellular layers (PCL) is proposed, based on their spectral response curve and their response to white stimuli: (A) narrow-band, short wavelength (NS) excited cells, activity suppressed by white stimuli; (B) wide-band, short-wavelength (WS) excited cells, excited by white stimuli; (C) wide-band, long-wavelength (WL) excited cells, (D) narrow-band, long-wavelength (NL) excited cells, activity suppressed by white stimuli; (E) light suppressed (LI) cells, activity suppressed by all wavelengths, usually with some concealed excitatory input at extreme short or long wavelengths. Responses to moving bars and to spots of various diameters (area response curves) were determined for various wavelengths. It was found that the receptive fields from which wavelength-dependent excitatory or suppressive effects could be elicited are concentrically superimposed. The spectral responsiveness of the excitatory inputs to individual cell types corresponds to the absorption curves of single cones (S-, M- or L-cone for NS, WS and WL cells respectively), the spectral distribution of the suppressive mechanisms of all cells was panchromatic and approximately fitted to a sum of all cones. The excitatory input to NL-cells cannot be related to any of the known cone absorption curves, and a simple (L-M) subtraction model is questioned. Neurones in the magnocellular layers (MCL) can be divided into on- and off-centre cells as in the cat's LGN and give qualitatively similar responses over the whole spectrum. In contrast to the tonic responses of PCL cells, MCL cells respond phasically to chromatic and white flashed spots, even with the smallest stimuli. Implications of these findings for colour processing in the LGN are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236770

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The distribution of degenerating axons after small lesions in the intact and isolated visual cortex of the cat (1977)

Creutzfeldt, O. D. ; Garey, L. J. ; Kuroda, R. ; [et al.]

Springer

Experimental brain research 27 (1977), S. 419-440

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ISSN: 1432-1106

Keywords: Cat ; Visual cortex ; Intrinsic connections ; Degeneration

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The extent of the spread of axonal degeneration was investigated in the visual cortex of the cat after making small lesions restricted to the grey matter. Two series of experiments were undertaken. In the first, normal adult cats were used, and in the second, the cortex of the postlateral gyrus was isolated from its extrinsic afferents by surgical undercutting 3 months before making the lesions. The results were similar in the two series in most respects. 1. Horizontal fibres extended in considerable numbers for some 500 μm from the lesion, mainly in layers I, III/IV and V, a few reaching 2–3 mm. These fibres were better seen in the intact than in the isolated cortex. Their spread was usually asymmetrical, being greater posteromedially than anterolaterally. 2. Oblique axons ran downwards from the middle layers into layers V and VI, or upwards into layers I and II. 3. Axons arising from layers II to VI descended vertically into the white matter. Degeneration patterns after lesions in areas 17 and 18 were compared.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235514

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Functional role of association fibres for a visual association area: The posterior suprasylvian sulcus of the cat (1983)

Guedes, R. ; Watanabe, S. ; Creutzfeldt, O. D.

Springer

Experimental brain research 49 (1983), S. 13-27

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ISSN: 1432-1106

Keywords: Cortex around sulcus suprasylvius (PSSC) ; Cat ; Visual association cortex ; Association fibres

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary This paper reports on experiments in which the effect of disconnexion of association fibres from Area 17/18 to the posterior suprasylvian cortex (PSSC) was investigated. In the control experiments, all neurons had large receptive fields in the central 5–10 ° of the visual field without detailled retinotopy. In the medial bank of PSSC, receptive fields were located in the contralateral visual field, while receptive fields of neurons in the lateral bank were located ipsilaterally. Neurons in PSSC could be excited by electrical stimulation of the ipsilateral Area 17/18 boundary, of the medial pulvinar (N. lat. post., pars, lat.) and the lateral geniculate body. About 2/3 of all neurons could be excited from all these regions, although with varying latencies. After acute and chronic subpial undercutting of the representation of the central 5–10 ° of the ipsilateral area 17/18, visual response properties including direction sensitivity, receptive field size and ocularity of PSSC-neurons in the medio-posterior bank did not change significantly. After ablation of the whole contralateral visual cortex (including PSSC and a wide region of the contralateral Clare-Bishop area) the input from the ipsilateral eye was considerably diminished, but other response properties did not change significantly. These essentially negative findings are discussed in relation to different findings of other authors, and it is argued that the subpial undercutting of only the central visual field representation may have prevented damage to the ipsilateral suprasylvian cortex and its afferents, which is difficult to avoid if the whole area 17 is ablated by suction. It is proposed, that association fibres may only “unspecifically” excite neurons in related association areas rather than impose onto them specific response features. These latter are derived, also in association areas, essentially from their thalamic afferents and their intracortical interaction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235537

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Connections of the anterior ectosylvian visual area (AEV) (1986)

Norita, M. ; Mucke, L. ; Benedek, G. ; [et al.]

Springer

Experimental brain research 62 (1986), S. 225-240

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ISSN: 1432-1106

Keywords: Visual system ; Anterior ectosylvian sulcus ; Association cortex ; Afferent ; Efferent

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We have previously described a visual area situated in the cortex surrounding the deep infolding of the anterior ectosylvian sulcus of the cat (Mucke et al. 1982). Using orthograde and retrograde transport methods we now report anatomical evidence that this anterior ectosylvian visual area (AEV) is connected with a substantial number of both cortical and subcortical regions. The connections between AEV and other cortical areas are reciprocal and, at least in part, topographically organized: the rostral AEV is connected with the bottom region of the presylvian sulcus, the lower bank of the cruciate sulcus, the rostral part of the ventral bank of the splenial sulcus, the rostral portion of the lateral suprasylvian visual area (LS) and the lateral bank of the posterior rhinal sulcus; the caudal AEV is connected with the bottom region of the presylvian sulcus, the caudal part of LS, the ventral part of area 20 and the lateral bank of the posterior rhinal sulcus. Subcortically, AEV has reciprocal connections with the ventral medial thalamic nucleus (VM), with the medial part of the lateralis posterior nucleus (LPm), as well as with the lateralis medialis-suprageniculate nuclear (LM-Sg) complex. These connections are also topographically organized with more rostral parts of AEV being related to more ventral portions of the LPm and LM-Sg complex. AEV also projects to the caudate nucleus, the putamen, the lateral amygdaloid nucleus, the superior colliculus, and the pontine nuclei. It is concluded that AEV is a visual association area which functionally relates the visual with both the motor and the limbic system and that it might play a role in the animal's orienting and alerting behavior.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238842

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A simultaneous contrast effect of steady remote surrounds on responses of cells in macaque lateral geniculate nucleus (1985)

Valberg, A. ; Lee, B. B. ; Tigwell, D. A. ; [et al.]

Springer

Experimental brain research 58 (1985), S. 604-608

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ISSN: 1432-1106

Keywords: Vision ; Macaque ; Lateral geniculate nucleus ; Simultaneous contrast

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Steadily illuminated surrounds, remote from the receptive field centre, are shown to affect the responses of primate visual cells. Intensity-response curves of cells of the macaque lateral geniculate nucleus were measured using a successive contrast paradigm where chromatic or achromatic stimuli were presented in alternation with a white adaptation field of constant luminance. Adding white surround annuli around stimuli and adaptation field shifted the intensity-response curves to higher intensity ranges. Since response curves can be non-monotonic, this remote surround effect can result in an increase or decrease in responsiveness (facilitation or suppression) dependent on stimulus intensity. Steady surrounds, remote from the receptive field centre, thus control cell sensitivity and responses by means of simultaneous contrast.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235876

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