Your search keyword '"Rafal, Robert"' showing total 18 results

1. Salivary secretion and disgust: A pilot study

Author

Vicario, Carmelo M., Sommer, Werner, Kuran, Karolina A., and Rafal, Robert D.

Published

2017

2. Foreperiod priming in temporal preparation: Testing current models of sequential effects

Author

Capizzi, Mariagrazia, Correa, Ángel, Wojtowicz, Alex, and Rafal, Robert D.

Published

2015

3. The effect of visual signals on spatial decision making

Author

Danziger, Shai and Rafal, Robert

Published

2009

4. Saccade latency bias toward temporal hemifield: Evidence for role of retinotectal tract in mediating reflexive saccades.

Author

Koller, Kristin and Rafal, Robert D.

Subjects

*SUPERIOR colliculus, *EYE movements, *DISCRIMINATION (Sociology)

Abstract

The superior colliculus (SC) plays a critical role in mediating reflexive eye movements. Under optimal conditions, for example including a temporal 'gap' of 200 ms after fixation offset and prior to target onset, it is possible to isolate a population of 'express saccades' with very short latencies between 80 and 120 ms. Ablation of the SC abolishes express saccades in monkeys. However, it remains to be established whether express saccade generation is dependent upon visual afferents transmitting direct retinal projections to SC via the retinotectal tract (RTT). In nineteen healthy human participants, we used a gap paradigm to investigate whether express saccades demonstrate shorter latencies to targets in the temporal hemifield, a marker for RTT function. A population of predominantly reflexive saccades (with latencies between 70 and 150 ms) was isolated in which latencies toward temporal hemifield targets were shown to be shorter than toward nasal hemifield targets. The advantages for reflexive saccades toward temporal hemifield targets suggest that visual efferents from the retina to the superior colliculus contribute to generating reflexively triggered saccades. • Reflexive saccade latency is shorter toward temporal versus nasal hemifield targets. • Temporo-nasal asymmetry is not present for regular, voluntary saccades. • Retinal efferents to superior colliculus contribute to generating reflexive saccades. [ABSTRACT FROM AUTHOR]

Published

2019

5. Orienting toward threat: Contributions of a subcortical pathway transmitting retinal afferents to the amygdala via the superior colliculus and pulvinar.

Author

Koller, Kristin, Rafal, Robert D., Platt, Adam, and Mitchell, Nicholas D.

Subjects

*SUPERIOR colliculus, *AMYGDALOID body, *VISUAL fields, *VISUAL perception, *MAGNETIC resonance imaging, *VISUAL pathways

Abstract

Probabilistic diffusion tractography was used to provide the first direct evidence for a subcortical pathway from the retina to the amygdala, via the superior colliculus and pulvinar, that transmits visual stimuli signaling threat. A bias to orient toward threat was measured in a temporal order judgement saccade decision task, under monocular viewing, in a group of 19 healthy participants who also underwent diffusion weighted MR imaging. On each trial of the behavioural task a picture depicting threat was presented in one visual field and a competing non-threatening stimulus in the other. The onset interval between the two pictures was randomly varied and participants made a saccade toward the stimulus that they judged to have appeared first. The bias to orient toward threat was stronger when the threatening stimulus was in the temporal visual hemifield, suggesting that afferents via the retinotectal tract contributed to the bias. Probabalistic tractography was used to virtually dissect connections between the superior colliculus and the amygdala traversing the pulvinar. Individual differences in microstructure (fractional anisotropy) of the streamline predicted the magnitude of the bias to orient toward threat, providing supporting evidence for a functional role of the subcortical SC-amygdala pathway in processing threat in healthy humans. • First direct evidence for subcortical pathway transmitting visual threat. • Orienting is biased to threatening compared to pleasant stimuli. • Bias to threat is greater in the temporal visual hemifield. • Microstructure (FA) of SC-Amygdala pathway predicts threat bias. [ABSTRACT FROM AUTHOR]

Published

2019

6. Core, social and moral disgust are bounded: A review on behavioral and neural bases of repugnance in clinical disorders.

Author

Vicario, Carmelo M., Rafal, Robert D., Martino, Davide, and Avenanti, Alessio

Subjects

*AVERSION, *NEUROLOGICAL disorders, *THERAPEUTICS, *MENTAL illness treatment, *HYPOTHESIS, *NEUROCHEMISTRY, *PERSONALITY disorders

Abstract

Disgust is a multifaceted experience that might affect several aspects of life. Here, we reviewed research on neurological and psychiatric disorders that are characterized by abnormal disgust processing to test the hypothesis of a shared neurocognitive architecture in the representation of three disgust domains: i) personal experience of ‘core disgust’; ii) social disgust, i.e., sensitivity to others’ expressions of disgust; iii) moral disgust, i.e., sensitivity to ethical violations. Our review provides some support to the shared neurocognitive hypothesis and suggests that the insula might be the “hub” structure linking the three domains of disgust sensitivity, while other brain regions may subserve specific facets of the multidimensional experience. Our review also suggests a role of serotonin core and moral disgust, supporting “neo-sentimentalist” theories of morality, which posit a causal role of affect in moral judgment. [ABSTRACT FROM AUTHOR]

Published

2017

7. Relationship between body mass index and moral disapproval rating for ethical violations.

Author

Vicario, Carmelo M. and Rafal, Robert D.

Subjects

*AVERSION, *BODY mass index, *SOCIAL justice, *HUMAN behavior, *STATISTICAL correlation

Abstract

Evidence documents a direct relationship between disgust processing and Body Mass Index (BMI). People with high BMI tend to have a lower disgust sensitivity (DS) threshold, while this trait is more accentuated in people with low BMI. Here we provide new insights to this issue by exploring the relationship between BMI and the experience of moral disgust. Results document a significant negative correlation between BMI and moral disapproval rating (MDR) for ethical violations, in that the higher the BMI the lower the MDR. In concordance with previous investigations, we also found that BMI correlates with DS, as measured with a standard test, in that the higher the BMI the lower the DS. Overall, the main result of this paper, which might have direct implication for research in social justice, highlights the relevance of BMI, as an individual variable, in predicting ethical behavior. [ABSTRACT FROM AUTHOR]

Published

2017

8. Temporal dynamics of error correction in a double step task in patients with a lesion to the lateral intra-parietal cortex.

Author

Van der Stigchel, Stefan, Rafal, Robert D., and Bultitude, Janet H.

Subjects

*ERROR correction (Information theory), *SACCADIC eye movements, *GENE targeting, *EYE movements, *TASK analysis, *GAZE, *PERFORMANCE evaluation

Abstract

Abstract: Five patients with lesions involving intra-parietal cortex (IPCx) were tested in a rapid version of the double step paradigm to investigate the role of the IPCx in the rapid, online, updating of a saccade program. Saccades were executed to a single target in either the contra- or the ipsilesional visual field. In two thirds of the trials, a step change in target position required that the saccade shifted to a new location within the same field but in the contra- or the ipsilesional direction, allowing us to investigate whether patients are able to update their saccade program given new exogenous information about the required endpoint of the saccade. This set-up resulted in three types of initial saccades: saccades to the target on no-step trials, uncorrected saccades to the original target location on step trials and corrected saccades to the new target location on step trials. Furthermore, if the updating of the original eye movement program failed, patients performed a second saccade to the new target location that required a rapid error correction. The analysis of the double-step task on a group level indicated that latencies for all trial types were longer when saccades were directed to the contralesional versus the ipsilesional field. Furthermore, longer latencies were required for patients to initiate a corrective second saccade after making an uncorrected first saccade in their contralesional compared to ipsilesional field. There were no differences in the ultimate landing positions of the eye movements for such corrected saccades. These results reveal that deficits in updating of saccade programs only seem to be present if the updating must occur after the gaze has shifted to a new location, pointing to a role of intra-parietal cortex in the processes involved in updating information when the current reference frame has to be updated. In conclusion, the paradigm deployed in the current study allows for a refinement of the role of the intra-parietal cortex in the updating of saccade programs. [Copyright &y& Elsevier]

Published

2013

9. Temporal feature integration in the right parietal cortex

Author

Arend, Isabel, Rafal, Robert, and Ward, Robert

Subjects

*NEUROPSYCHOLOGY, *TEMPORAL lobe, *PARIETAL lobe, *ATTENTION, *SENSORY perception, *CEREBRAL hemispheres

Abstract

Abstract: When searching for a target presented among distractors by means of Rapid Serial Visual Presentation (RSVP), participants often report the stimulus that is preceding or following the target as being the target. These so-called temporal binding errors are accompanied by high levels of confidence so that participants are bemused with the mismatch between their perceptual experience and the actual presented stimulus. By contrast with spatial binding the neural basis for temporal binding errors remains unexplored. Previous neuropsychology studies using non-spatial selective attention tasks have shown that right temporo-parietal cortex is involved in the temporal deployment of attention. Here we investigated the neural basis of temporal binding in five patients with visual extinction whose lesions involved different cortical areas in the right hemisphere, including the temporo-parietal cortex. Patients made significantly more binding errors for contralesional than ipsilesional stimuli and more binding errors than healthy controls. Incorrect binding from distractors near to the target was the most common for both patients and controls. Eye movements did not contribute to the pattern of results. These results show that right hemisphere cortical areas contribute to the accurate temporal coding of visual features. [Copyright &y& Elsevier]

Published

2011

10. Early Endosomal Antigen 1 (EEA1) Is an Obligate Scaffold for Angiotensin II-induced; PKC-α-dependent Akt Activation in Endosomes.

Author

Nazarewicz, Rafal Robert, Salazar, Gloria, Patrushev, Nikolay, San Martin, Alejandra, Hilenski, Lula, Shiqin Xiong, and Alexander, R. Wayne

Subjects

*ENDOSOMES, *ANGIOTENSIN II, *VASCULAR smooth muscle, *CELL membranes, *AMINO acids, *ANTIGENS, *HYPERTROPHY

Abstract

Akt/protein kinase B (PKB) activation/phosphorylation by angiotensin II (Ang II) is a critical signaling event in hypertrophy of vascular smooth muscle cells (VSMCs). Conventional wisdom asserts that Akt activation occurs mainly in plasma membrane domains. Recent evidence that Akt activation may take place within intracellular compartments challenges this dogma. The spatial identity and mechanistic features of these putative signaling domains have not been defined. Using cell fractionation and fluorescence methods, we demonstrate that the early endosomal antigen-1 (EEA1)-positive endosomes are a major site of Ang II-induced Akt activation. Akt moves to and is activated in EEA1 endosomes. The expression of EEA1 is required for phosphorylation of Akt at both Thr-308 and Ser-473 as well as for phosphorylation of its downstream targets mTOR and S6 kinase, but not for Erk1/2 activation. Both Akt and phosphorylated Akt (p-Akt) interact with EEA1. We also found that PKC-α is required for organizing Ang II-induced, EEA1-dependent Akt phosphorylation in VSMC early endosomes. EEA1 expression enables PKC-α phosphorylation, which in turn regulates Akt upstream signaling kinases, PDK1 and p38 MAPK. Our results indicate that PKC-α is a necessary regulator of EEA1-dependent Akt signaling in early endosomes. Finally, EEA1 down-regulation or expression of a dominant negative mutant of PKC-α blunts Ang II-induced leucine incorporation in VSMCs. Thus, EEA1 serves a novel function as an obligate scaffold for Ang II-induced Akt activation in early endosomes. [ABSTRACT FROM AUTHOR]

Published

2011

11. Selection for action and selection for awareness: Evidence from hemispatial neglect

Author

Rafal, Robert, Ward, Robert, and Danziger, Shai

Subjects

*BRAIN research, *PATIENTS, *UNILATERAL neglect, *AWARENESS, *SENSORY perception

Abstract

Abstract: In bedside testing of patients with hemispatial neglect, we have found that extinction for contralesional stimuli is less when the contralesional and ipsilesional items are different on the dimension to be reported relative to when they are the same. Importantly, a study that investigated this observation found that similarity on visual features that are not necessary for response does not impact the amount of extinction. These findings suggest that response requirements may determine what stimuli will and what stimuli will not gain access to awareness. In a related study, we found that extinction of contralesional stimuli was not determined by perceptual similarity of the ipsilesional and contralesional items but by whether they shared the same semantics (e.g., ONE + 1 ) or the same response (e.g., ONE = WON). Here, we report a single case study in which extinction was determined by whether the competing items shared the same response, regardless of whether they shared or differed in their visual features or semantics. When asked to read the item in each field, there was equivalent extinction in the conditions (ONE + ONE) and (ONE + 1) but less extinction in the condition (ONE + TWO). By contrast, when asked to count the number of characters in each field, there was more extinction in the condition (ONE + TWO) than (ONE + 1). When asked to categorize each item as either a word or digit, the degree of extinction was determined both by whether the items shared the same semantics and by whether they required the same response. The results are consistent with a biased competition model in which competition for selection is resolved flexibly depending on response requirements. Furthermore, the data provide evidence that unattended stimuli are processed to the level of response. [Copyright &y& Elsevier]

Published

2006

12. A dissociation between visual and auditory hemi-inattention: Evidence from temporal order judgements

Author

Sinnett, Scott, Juncadella, Montserrat, Rafal, Robert, Azañón, Elena, and Soto-Faraco, Salvador

Subjects

*PATIENTS, *UNILATERAL neglect, *AUDITORY adaptation, *LEGAL judgments

Abstract

Abstract: Patients with right hemisphere brain lesions often suffer from deficits in spatial attention that can be manifested in different sensory modalities. It has recently been claimed that a relationship (i.e., association) could exist between symptoms of hemi-inattention in different modalities, based on correlations between the results of visual and auditory clinical tests of neglect or extinction. However, it should be noted that the visual and auditory tasks varied greatly both in response type and level of sensitivity. Here, we have examined cross-modal associations in spatial attention deficits using a temporal order judgment task (TOJ) in which patients were required to identify which of two visual or auditory objects had appeared first. When compared to age and education matched control participants, the patients needed, on average, the contralesional stimulus to lead the ipsilesional stimulus to achieve the point of subjective simultaneity (PSS). No association between the degree of visual and auditory hemi-inattention was observed amongst the patients, suggesting that there is a certain degree of independence between the mechanisms subserving spatial attention across sensory modalities. [Copyright &y& Elsevier]

Published

2007

13. Patients with lesions to the intraparietal cortex show greater proprioceptive realignment after prism adaptation: Evidence from open-loop pointing and manual straight ahead.

Author

Bultitude, Janet H., Hollifield, Michael, and Rafal, Robert D.

Subjects

*PRISMS, *EYE-sockets, *VISUAL accommodation, *PROPRIOCEPTION, *EVIDENCE, *VISUOMOTOR coordination

Abstract

Reaching toward a target viewed through laterally refracting prisms results in adaptation of both visual and (limb) proprioceptive spatial representations. Common ways to measure adaptation after-effect are to ask a person to point straight ahead with their eyes closed ("manual straight ahead", MSA), or to a seen target using their unseen hand ("open-loop pointing", OLP). MSA measures changes in proprioception only, whereas OLP measures the combined visual and proprioceptive shift. The behavioural and neurological mechanisms of prism adaptation have come under scrutiny following reports of reduced hemispatial neglect in patients following this procedure. We present evidence suggesting that shifts in proprioceptive spatial representations induced by prism adaptation are larger following lesions to the intraparietal cortex – a brain region that integrates retinotopic visual signals with signals of eye position in the orbit and that is activated during prism adaptation. Six healthy participants and six patients with unilateral intraparietal cortex lesions underwent prism adaptation. After-effects were measured with OLP and MSA. After-effects of control participants were larger when measured with OLP than with MSA, consistent with previous research and with the additional contribution of visual shift to OLP after-effects. However, patients' OLP shifts were not significantly different to their MSA shifts. We conclude that, for the patients, correction of pointing errors during prism adaptation involved proportionally more changes to arm proprioception than for controls. Since lesions to intraparietal cortex led to enhanced realignment of arm proprioceptive representations, our results indirectly suggest that the intraparietal cortex could be key for visual realignment. • Prism adaptation shifted controls' open-loop pointing more than manual straight ahead. • Manual straight ahead shifted more in people with intraparietal cortex lesions than controls. • Shifts in open-loop pointing for the two groups were not different. • Results indicate greater proprioceptive realignment following intraparietal cortex damage. • This could also be indirect evidence of reduced visual realignment. [ABSTRACT FROM AUTHOR]

Published

2021

14. Intact tactile detection yet biased tactile localization in a hand-centered frame of reference: Evidence from a dissociation.

Author

Liu, Yuqi, O'Neal, Alexandria, Rafal, Robert D., and Medina, Jared

Subjects

*POSTURE, *EVIDENCE

Abstract

We examined the performance of an individual with subcortical damage, but an intact somatosensory thalamocortical pathway, to examine the functional architecture of tactile detection and tactile localization processes. Consistent with the intact somatosensory thalamocortical pathway, tactile detection on the contralesional hand was well within the normal range. Despite intact detection, the individual demonstrated substantial localization biases. Across all localization experiments, he consistently localized tactile stimuli to the left side in space relative to the long axis of his hand. This was observed when the contralesional hand was palm up, palm down, rotated 90° relative to the trunk, and when making verbal responses. Furthermore, control experiments demonstrated that this response pattern was unlikely a motor response error. These findings indicate that tactile localization on the body is influenced by proprioceptive information specifically in a hand-centered frame of reference. Furthermore, this also provides evidence that aspects of tactile localization are mediated by pathways outside of the primary somatosensory thalamocortical pathway. • We report a brain-damaged individual who has completely normal tactile detection but substantial localization biases. • Tactile localization showed an ulnar bias when the hand was palm down, and a radial bias when the hand was palm up. • Always biased towards the left side in space relative to the hand proximodistal axis. • Provides evidence for a strong single dissociation between tactile detection and tactile localization. • Provides evidence that tactile localization on the body surface is influenced by body position in external space. [ABSTRACT FROM AUTHOR]

Published

2020

15. Eye movements during object recognition in visual agnosia

Author

Charles Leek, E., Patterson, Candy, Paul, Matthew A., Rafal, Robert, and Cristino, Filipe

Subjects

*EYE movements, *RECOGNITION (Psychology), *VISUAL agnosia, *MEMORY, *SACCADIC eye movements, *VISUAL perception

Abstract

Abstract: This paper reports the first ever detailed study about eye movement patterns during single object recognition in visual agnosia. Eye movements were recorded in a patient with an integrative agnosic deficit during two recognition tasks: common object naming and novel object recognition memory. The patient showed normal directional biases in saccades and fixation dwell times in both tasks and was as likely as controls to fixate within object bounding contour regardless of recognition accuracy. In contrast, following initial saccades of similar amplitude to controls, the patient showed a bias for short saccades. In object naming, but not in recognition memory, the similarity of the spatial distributions of patient and control fixations was modulated by recognition accuracy. The study provides new evidence about how eye movements can be used to elucidate the functional impairments underlying object recognition deficits. We argue that the results reflect a breakdown in normal functional processes involved in the integration of shape information across object structure during the visual perception of shape. [Copyright &y& Elsevier]

Published

2012

16. PGC-1α Serine 570 Phosphorylation and GCN5-mediated Acetylation by Angiotensin II Drive Catalase Down-regulation and Vascular Hypertrophy.

Author

Shiqin Xiong, Salazar, Gloria, San Martin, Alejandra, Ahmad, Mushtaq, Patrushev, Nikolay, Hilenski, Lula, Nazarewicz, Rafal Robert, Minhui Ma, Ushio-Fukai, Masuko, and Alexander, R. Wayne

Subjects

*ANGIOTENSIN II, *HORMONES, *REACTIVE oxygen species, *INSULIN resistance, *PEROXISOMES

Abstract

Angiotensin II (Ang II) is a pleuripotential hormone that is important in the pathophysiology of multiple conditions including aging, cardiovascular and renal diseases, and insulin resistance. Reactive oxygen species (ROS) are important mediators of Ang II-induced signaling generally and have a well defined role in vascular hypertrophy, which is inhibited by overexpression of catalase, inferring a specific role of H2O2. The molecular mechanisms are understood incompletely. The transcriptional coactivator peroxisome proliferator-activated receptor γ coactivator-1α (PGC-1α) is a key regulator of energy metabolism and ROS-scavenging enzymes including catalase. We show that Ang II stimulates Akt-dependent PGC-1α serine 570 phosphorylation, which is required for the binding of the histone acetyltransferase GCN5 (general control nonderepressible 5) to PGC-1α and for its lysine acetylation. These sequential post-translational modifications suppress PGC-1α activity and prevent its binding to the catalase promoter through the forkhead box O1 transcription factor, thus decreasing catalase expression. We demonstrate that overexpression of the phosphorylation-defective mutant PGC-1α (S570A) prevents Ang II-induced increases in H2O2 levels and hypertrophy ([³H]leucine incorporation). Knockdown of PGC-1α by small interfering RNA promotes basal and Ang II-stimulated ROS and hypertrophy, which is reversed by polyethylene glycol-conjugated catalase. Thus, endogenous PGC-1α is a negative regulator of vascular hypertrophy by up-regulating catalase expression and thus reducing ROS levels. We provide novel mechanistic insights by which Ang II may mediate its ROS-dependent pathophysiologic effects on multiple cardiometabolic diseases. [ABSTRACT FROM AUTHOR]

Published

2010

17. Impaired control of the oculomotor reflexes in Parkinson's disease

Author

van Koningsbruggen, Martijn G., Pender, Tom, Machado, Liana, and Rafal, Robert D.

Subjects

*REFLEXES, *PARKINSON'S disease patients, *BASAL ganglia, *EYE movements, *EYE movement disorders, *REACTION time, *PSYCHOLOGY

Abstract

Abstract: To investigate the role of the basal ganglia in integrating voluntary and reflexive behaviour, the current study examined the ability of patients with Parkinson''s disease to voluntarily control oculomotor reflexes. We measured the size of the fixation offset effect (the reduction in saccadic reaction time when a fixation point is removed) during a block of pro- and a block of anti-saccades. Healthy controls showed the expected reduction of the FOE during the anti-saccades, which results from efforts to suppress reflexive eye movements (a preparatory set characterized by increased internal control and reduced external control). However, there was no reduction of the FOE in the anti-saccade task in Parkinson''s patients, indicating that they are impaired in exerting control over oculomotor reflexes. [Copyright &y& Elsevier]

Published

2009

18. Automatic activation of motor programs by object affordances in patients with Parkinson's disease

Author

Oguro, Hiroaki, Ward, Robert, Bracewel, Martyn, Hindle, John, and Rafal, Robert

Subjects

*BRAIN stimulation, *PARKINSON'S disease patients, *VISUAL learning, *BASAL ganglia, *SYMPTOMS, *MOTOR ability

Abstract

Abstract: Clinical observations of kinesia paradoxica and freezing in patients with Parkinson''s disease suggest that the automatic activation of motor programmes by visual stimuli may not require intact basal ganglia function, and that an increased sensitivity to such object affordances may contribute to some symptoms of the disease. Employing a paradigm that measures the degree of interference from object affordances on voluntary actions, we confirm that activation of object affordances are preserved in Parkinson''s disease, but find no evidence that there is an increased sensitivity to the effects of object affordances on voluntary action. [Copyright &y& Elsevier]

Published

2009