Fornix Transection Impairs Learning of Randomly Changing Object Discriminations

Wilson, Charles R.E.; Charles, David; Buckley, Mark J.; Gaffan, David

doi:10.1523/jneurosci.3536-07.2007

Cited by 15 publications

(14 citation statements)

References 29 publications

(40 reference statements)

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“…1 and were exposed to five different delay lengths intermixed throughout the session) was not trivial because it required animals to learn about the changing temporal structure of trials, for example, in distinguishing intrafrom intertrial intervals, and in adjusting the maintenance duration from one trial to the next (e.g., from 1 sec 16 sec). Previous studies have shown that fornix transection impairs learning and memory in the temporal domain Brasted et al 2005) and the deficit here may similarly reflect an impairment in learning about temporal structure (Wilson et al 2007). Here, our findings confirmed such a prediction and provided causal evidence for previous studies which suggested that the hippocampus is involved in integrating interval duration information contained within a sequence (Barnett et al 2014).…”

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confidence: 49%

Adaptability to changes in temporal structure is fornix-dependent

2015

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Recognition memory deficits, even after short delays, are sometimes observed following hippocampal damage. One hypothesis links the hippocampus with processes in updating contextual memory representation. Here, we used fornix transection, which partially disconnects the hippocampal system, and compares the performance of fornix-transected monkeys with normal monkeys on two versions of a delayed-matching-to-position task with short delays. Spatial recognition memory was affected by fornix transection only when the temporal structure of the task changed across trials, while differences in motor control, motivation, perception, or short-term memory were not critical. We attributed the deficit to a compromised ability in tracking changes in task temporal structure.Fornix transection disconnects one of the major input/output pathways of the hippocampus (Saunders and Aggleton 2007). In humans, fornix damage may result in long-term memory loss in recognition (Gaffan and Gaffan 1991;Poreh et al. 2006) and recall (McMackin et al. 1995;Aggleton et al. 2000) whereas short-term/ working memory (STM) is sometimes spared (Scoville and Milner 1957;Cave and Squire 1992;Ryan and Cohen 2004). Similarly, monkeys with lesions of the hippocampal formation performed normally on a delayed nonmatching-to-sample task when the delays were short (≤15 sec) but were impaired at longer delays (.30 sec) (Alvarez et al. 1994), in keeping with the notion that the hippocampal system contributes to the recovery of contextual details in long-term memory (Tsivilis et al. 2008;Vann et al. 2009). However, other evidence has challenged this dissociation (Ranganath and Blumenfeld 2005;Kwok and Macaluso 2015). For example, lesions in the medial temporal lobe (MTL) can impair retention of information across short delays (Jeneson et al. 2012) and the hippocampus exhibits persistent activity during STM maintenance (Chein et al. 2011), indicative of a hippocampal role in STM too. Indeed, some recent neuropsychological studies associate hippocampal disruption with deficits in spatial tasks placing high demands on spatial configural processes even in the absence of any delay (Lee et al. 2005(Lee et al. , 2006, further refuting delaydependent theories.Recent studies have provided one possible account to reconcile these seemingly contradictory results. On the one hand, empirical data from animal studies link temporal order processing to an extended diencephalic-hippocampal system in both rodents and primates (Fortin et al. 2002;Charles et al. 2004), suggesting the hypothesis that hippocampal networks mediate associations between sequential events. On the other hand, human neuroimaging studies have indicated that multivoxel patterns in the hippocampus contain temporal information (Hsieh et al. 2011;Ezzyat and Davachi 2014) and that interevent associative encoding and retrieval is mediated by the hippocampus (DuBrow and Davachi 2014), suggesting that hippocampal processes may play an important role in establishing temporal relationships among events. Pertinently,...

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confidence: 49%

Adaptability to changes in temporal structure is fornix-dependent

2015

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“…This leads us to propose that the impairments in our study should be attributable to a deficit in encoding the spatio-temporal context in which associations were learned. This is consistent with other recent studies that have argued that the deficits after fornix transection in reversal learning paradigms may also be attributed to deficits in learning about temporal context (Wilson et al, 2007).…”

Section: Discussionsupporting

confidence: 93%

“…However the FNX group was less able to remember incorrect responses from further back in time than the preceding trial, as evidenced by their greater likelihood than the CON group to return back to previously unrewarded places from responses made more than one trial ago, thereby generating more nonperseverative errors. Although FNX monkeys' abilities in monitoring the most recent action remained intact, their deficits in remembering multiple stimuli chosen over extended periods of time and in monitoring earlier errors is consistent with an impairment in the processing of temporal order/context Wilson et al, 2007). It is unlikely that the impairments observed in the present study may be attributable solely to deficits in remembering information over longer periods of time because a previous study showed that fornix transected monkeys were as good as controls at recognizing stimuli irrespective of when the item was presented (i.e., early or late) in an extended list of samples .…”

Section: Discussionmentioning

confidence: 86%

“…At the conclusion of this experiment and a series of following experiments (Kwok and Buckley, 2006;Wilson et al, 2007) the animals with fornix transection were deeply anesthetized, then perfused through the heart with saline followed by formol-saline solution. The brains were blocked in the coronal stereotaxic plane posterior to the lunate sulcus, removed from the skull, and allowed to sink in sucrose-formalin solution.…”

Section: Histologymentioning

confidence: 99%

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Fornix transection selectively impairs fast learning of conditional visuospatial discriminations

Kwok

Buckley

2009

Hippocampus

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As the fornix has previously been implicated in the rapid learning of associations, we hypothesized that fornix transection in macaques would selectively impair the acquisition of rapidly learned conditional visuospatial discrimination problems. Macaque monkeys learned, postoperatively, three sets of concurrent problems of increasing sizes containing 8, 32, and 64 problems, respectively. Each problem consisted of four identical visual stimuli and animals had to learn which stimulus position was rewarded. The lesioned animals made significantly more errors-to-criterion on the smallest set of problems, consistent with the idea that the most rapidly acquired sets would be more vulnerable to fornical damage. Moreover, during the early stages of acquisition across all three sets, fornix transection selectively impeded monkeys' abilities to eliminate nonperseverative errors in correction trials, consistent with an inability to monitor or correct erroneous spatial responses made further back in time than the last trial. Both one-trial learning and an errorless learning (facilitation of performance) were observed in control and fornix lesioned animals but neither were fornix-dependent and overcoming the deleterious effect upon subsequent learning of having made prior errors was also unaffected by fornix transection. The data indicate that the fornix is not important for all forms of new learning; rather it is selectively concerned with the relatively rapid acquisition of spatial and temporal relationships between stimuli and responses.

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“…It can be assumed, however, that a loss of nerve fibers from the fornix interferes with the efferent connections from the hippocampus and it is not surprising that studies of the effects of damage to the fornix in both humans (e.g. D’Esposito et al, 1995; Gaffan 1974; Gaffan et al, 1991) and in monkeys (Gaffan et al 2001, Owen and Butler, 1981, Wilson et al 2007) have emphasized that the fornix has a role in memory, and have described amnesia as the major consequence of lesions.…”

Section: Discussionmentioning

confidence: 99%

How the primate fornix is affected by age

Peters

Sethares

Moss

2010

J of Comparative Neurology

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The effects of age on nerve fibers and neuroglial cells in the fornix, was examined in 25 rhesus monkeys between four and 33 years of age. There is no age related change in the cross-sectional area of the fornix, but a significant loss of myelinated nerve fibers. The loss of myelinated nerve fibers is accompanied by a significant increase in the numbers of nerve fibers that show degeneration of their axons, and alterations in myelin sheaths. Aging also brings about an increase in the frequency of profiles of paranodes, indicating that some of the nerve fibers are being remyelinated.Aging also affects neuroglial cells. Each type shows inclusions in their perikarya, and in the case of astrocytes and microglial cells some of these inclusions are phagocytosed myelin. Numbers of astrocytes and microglial cells do not appear to increase with age, but there is a 20% increase in oligodendrocytes.When correlations with cognitive impairments displayed by individual monkeys are examined, the decreased packing density of nerve fibers, the increasing frequency of nerve fibers with degenerating axons, and of nerve fibers with altered myelin sheaths, all correlate with increasing cognitive impairment. It is suggested that these correlations result from some disconnection of the hippocampus with the thalamus, septal nuclei and medial frontal cortex, and from reductions in the conduction velocity brought about by the shorter internodal lengths of remyelinated nerve fibers in the fornix.

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Fornix Transection Impairs Learning of Randomly Changing Object Discriminations

Cited by 15 publications

References 29 publications

Adaptability to changes in temporal structure is fornix-dependent

Adaptability to changes in temporal structure is fornix-dependent

Fornix transection selectively impairs fast learning of conditional visuospatial discriminations

How the primate fornix is affected by age

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