DIFFERENTIATION OF FRONTAL INFEROTEMPORAL + NORMAL MONKEYS IN VISUAL EXPLORATORY SITUATION by Lindsley, D, Weiskrantz, L, Mingay, R

Mnemonic functions in the macaque monkey: further insight into the role of the fornix by Kwok, S

“…The fornical tract, a major input-output pathway of the hippocampus, of the primate brain makes crucial contributions to visual memory, as effects after surgical or aetiological lesions of this tract are widely documented in the monkey and human literature. Here, a series of experiments sought to further elucidate the functions of this structure with a battery of novel tasks in macaque monkeys, conducted either on a touchscreen or in an ambulatory chamber, so as to offer a more global view of the mnemonic role accomplished by it. …”

A primacy effect in monkeys when list position is relevant. by Buffalo, B, Gaffan, D, Murray, E

“…In Experiment 1 (1a and 1b), Rhesus monkeys (Macaca mulatta) learned lists of two-choice visual discriminations in which list position was relevant to discrimination performance. …”

The lengths of the fibres of Henle in the retina of macaque monkeys: implications for vision. by Perry, V, Cowey, A

“…In Golgi preparations of retinae from macaque monkeys the lengths of the fibres of Henle from photoreceptors, and Müller's fibres were measured. …”

Effects of frontal cortex lesions on object discrimination learning by monkeys. by Oxbury, J, Weiskrantz, L

Interaction of genes and early life stress on neurogenesis in adult monkeys by Blair, W, Sexton, C, Nemirovskaya, Y, Coplan, J, Dwork, A, Perera, T

BLINDSIGHT - RESIDUAL VISION FOLLOWING OCCIPITAL LESIONS IN MAN AND MONKEY by Weiskrantz, L, Warrington, E

Motor learning in monkeys (Macaca fascicularis) with lesions in motor thalamus. by Canavan, A, Nixon, P, Passingham, R

“…Monkeys with small lesions in VAmc or with lesions centred on VLo were not impaired. …”

CONTOUR DISCRIMINATION IN A YOUNG MONKEY WITH STRIATE CORTEX ABLATION by Weiskrantz, L

Pedunculopontine nucleus stimulation improves akinesia in a Parkinsonian monkey. by Jenkinson, E, Nandi, D, Miall, R, Stein, J, Aziz, T

“…After making the monkey Parkinsonian with MPTP, unilateral low frequency stimulation of the pedunculopontine nuclei led to significant increases in activity. …”

Role of the dorsal prestriate cortex in visuospatial configural discrimination by monkeys. by Gaffan, D, Harrison, S

“…Cynomolgus monkeys (Macaca fascicularis) learned a series of visuospatial configural discriminations in which particular discriminative stimulus objects were rewarded only in particular spatial locations. …”

Demonstration of cross-modal matching in rhesus monkeys, Macaca mulatta. by Cowey, A, Weiskrantz, L

Activation and disruption of a neural mechanism for novel choice in monkeys by Bongioanni, A, Folloni, D, Verhagen, L, Sallet, J, Klein-Flugge, M, Rushworth, M

“…Functional magnetic resonance imaging (fMRI) suggested that this ability was mediated by the MFC, which is rarely investigated in monkeys3; MFC activity reflected different processes of comparison for unfamiliar and familiar options. …”

Probing human and monkey anterior cingulate cortex in variable environments. by Walton, M, Mars, R

“…Here, we illustrate how these different varieties of decision making studied can influence theories ofACC function in monkeys. Converging evidence from unit recordings and lesion studies now suggest that the ACC is important for interpreting outcome information according to the current task context to guide future action selection. …”

Place memory and scene memory: effects of fornix transection in the monkey. by Gaffan, D, Harrison, S

“…Five experiments examined the effects of fornix transection upon some spatial and visual learning tasks in monkeys (Macaca fascicularis). For each trial of each task, the monkey was brought to a test tray and allowed to choose between 2 objects on the tray. …”

Discrimination of locomotion direction in impoverished displays of walkers by macaque monkeys by Vangeneugden, J, Vancleef, K, Jaeggli, T, VanGool, L, Vogels, R

“…These results indicate that rhesus monkeys require extensive training in order to use the intrinsic motion cues related to forward versus backward locomotion and imply that extrapolation of observations concerning human perception of impoverished biological motion displays onto monkey perception needs to be made cautiously.…”

Spatial responses to brief stimuli by monkeys with striate cortex ablations. by Weiskrantz, L, Cowey, A, Passingham, C

Effects of temporal and frontal cortical lesions on auditory discrimination in monkeys. by Weiskrantz, L, Mishkin, M

Detection and discrimination of chromatic targets in hemianopic macaque monkeys and humans. by Cowey, A, Stoerig, P

“…We measured the ability of three macaque monkeys with unilateral removal of primary visual cortex to detect 9 degrees, 200-ms targets presented at random in the upper or lower quadrants of the normal and hemianopic visual fields. …”

A comparative review of the results of neuropsychological research on man and monkey. by Drewe, E, Ettlinger, G, Milner, A, Passingham, R