Functional neuroimaging in Tourette syndrome: recent perspectives

The urge to blink in Tourette syndrome

10.1101/477372 ◽

2018 ◽

Author(s):

Haley E. Botteron ◽

Cheryl A. Richards ◽

Tomoyuki Nishino ◽

Keisuke Ueda ◽

Haley K. Acevedo ◽

...

Keyword(s):

Tourette Syndrome ◽

Functional Neuroimaging ◽

Brain Activity ◽

Timing Model ◽

Chronic Tic Disorder ◽

Eye Closure ◽

Recovery Block ◽

Patients Experience ◽

Adult Volunteers ◽

Mean Time

Functional neuroimaging studies have attempted to explore brain activity that occurs with tic occurrence in subjects with Tourette syndrome (TS). However, they are limited by the difficulty of disambiguating brain activity required to perform a tic, or activity caused by the tic, from brain activity that generates a tic. Inhibiting the urge to tic is important to patients’ experience of tics and we hypothesize that inhibition of a compelling motor response to a natural urge will differ in TS subjects compared to controls. This study examines the urge to blink, which shares many similarities to premonitory urges to tic. Previous neuroimaging studies with the same hypothesis have used a one-size-fits-all approach to extract brain signal putatively linked to the urge to blink. We aimed to create a subject-specific and blink-timing-specific pathophysiological model, derived from out-of-scanner blink suppression trials, to eventually better interpret blink suppression fMRI data. Eye closure and continuously self-reported discomfort were reported during five blink suppression trials in 30 adult volunteers, 15 with a chronic tic disorder. For each subject, data from four of the trials were used with an empirical mathematical model to predict discomfort from eye closure observed during the remaining trial. The blink timing model of discomfort during blink suppression predicted observed discomfort much better than previously applied models. However, so did a model that simply reflected the mean time-discomfort curves from each subject’s other trials. The TS group blinked more than twice as often during the blink suppression block, and reported higher baseline discomfort, smaller excursion from baseline to peak discomfort during the blink suppression block, and slower return of discomfort to baseline during the recovery block. Combining this approach with observed eye closure during fMRI blink suppression trials should therefore extract brain signal more tightly linked to the urge to blink.

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Functional Neuroimaging Investigations of Motor Networks in Tourette Syndrome

Behavioural Neurology ◽

10.1155/2013/481398 ◽

2013 ◽

Vol 27 (1) ◽

pp. 47-55 ◽

Cited By ~ 8

Author(s):

Aribert Rothenberger ◽

Veit Roessner

Keyword(s):

Tourette Syndrome ◽

Functional Neuroimaging

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Functional neuroimaging in Tourette syndrome

Journal of Psychosomatic Research ◽

10.1016/j.jpsychores.2009.07.024 ◽

2009 ◽

Vol 67 (6) ◽

pp. 575-584 ◽

Cited By ~ 38

Author(s):

Hugh Rickards

Keyword(s):

Tourette Syndrome ◽

Functional Neuroimaging

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Functional Neuroimaging of Speech Production in People Who Stutter

Perspectives on Fluency and Fluency Disorders ◽

10.1044/ffd12.2.3 ◽

2002 ◽

Vol 12 (2) ◽

pp. 3-6

Author(s):

Michael Blomgren ◽

Srikantan Nagarajan

Keyword(s):

Speech Production ◽

Functional Neuroimaging

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Functional Neuroimaging in Child Psychiatry

10.1017/cbo9780511470998 ◽

2000 ◽

Cited By ~ 11

Author(s):

Joseph T. Coyle

Keyword(s):

Child Psychiatry ◽

Functional Neuroimaging

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Social Cognition in Gilles de la Tourette Syndrome

Zeitschrift für Neuropsychologie ◽

10.1024/1016-264x/a000272 ◽

2019 ◽

Vol 30 (4) ◽

pp. 243-249

Author(s):

Ronja Weiblen ◽

Melanie Jonas ◽

Sören Krach ◽

Ulrike M. Krämer

Keyword(s):

Tourette Syndrome ◽

Social Cognitive ◽

Mirror Neuron System ◽

Mirror Neuron ◽

Theoretical Work ◽

Neural Processes ◽

The Social ◽

Decision Making System ◽

Social Decision Making ◽

Work Done

Abstract. Research on the neural mechanisms underlying Gilles de la Tourette syndrome (GTS) has mostly concentrated on abnormalities in basal ganglia circuits. Recent alternative accounts, however, focused more on social and affective aspects. Individuals with GTS show peculiarities in their social and affective domain, including echophenomena, coprolalia, and nonobscene socially inappropriate behavior. This article reviews the experimental and theoretical work done on the social symptoms of GTS. We discuss the role of different social cognitive and affective functions and associated brain networks, namely, the social-decision-making system, theory-of-mind functions, and the so-called “mirror-neuron” system. Although GTS affects social interactions in many ways, and although the syndrome includes aberrant social behavior, the underlying cognitive, affective, and neural processes remain to be investigated.

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Neural Encoding Correlates of High and Low Verbal Memory Performance

Journal of Psychophysiology ◽

10.1027/0269-8803.20.2.68 ◽

2006 ◽

Vol 20 (2) ◽

pp. 68-78 ◽

Cited By ~ 7

Author(s):

Sibylle Heinze ◽

Gudrun Sartory ◽

Bernhard W. Müller ◽

Armin de Greiff ◽

Michael Forsting ◽

...

Keyword(s):

Verbal Memory ◽

Parietal Lobe ◽

Functional Neuroimaging ◽

Memory Performance ◽

Extrastriate Cortex ◽

Parahippocampal Gyrus ◽

Premotor Area ◽

High Performers ◽

Rehearsal Strategy ◽

Common Memory

Neuroimaging studies have indicated involvement of left prefrontal cortex and temporal areas in verbal memory processes. The current study used event-related functional neuroimaging to compare encoding of subsequently recalled and not recalled words in high and low memory performers. Fifteen healthy volunteers were given lists of words to learn with immediate recall and to read as a control condition. High performers reported to have visualized the words whereas low performers used a rehearsal strategy. Compared to reading, unsuccessful encoding was associated with thalamic and left premotor area (BA 6) activity. Comparing successful with unsuccessful learning yielded widespread activity of the left prefrontal and posterior temporal gyrus as well as the left superior parietal lobe in the whole group. Low performers showed activation of the left premotor area throughout learning and additionally of the left middle temporal and parahippocampal gyrus during successful encoding. High performers showed increased activation in the extrastriate cortex throughout learning and additionally in the left parietal post- and paracentral areas as well as in the right precuneus during successful encoding. The results suggest that high verbal memory performance is the result of spatiovisual activation concomitant to imagery and low performance of hippocampal and motor activation, the latter being associated with rehearsal, with a common memory circuit subserving both groups.

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Behavior in the Brain

Journal of Psychophysiology ◽

10.1027/0269-8803/a000016 ◽

2010 ◽

Vol 24 (2) ◽

pp. 76-82 ◽

Cited By ~ 15

Author(s):

Martin M. Monti ◽

Adrian M. Owen

Keyword(s):

Motor Behavior ◽

Functional Neuroimaging ◽

Brain Activity ◽

Motor Output ◽

The Unconscious ◽

Ethical Implications ◽

Brain Responses ◽

Minimally Conscious ◽

Brain Insults ◽

Brain Behavior

Recent evidence has suggested that functional neuroimaging may play a crucial role in assessing residual cognition and awareness in brain injury survivors. In particular, brain insults that compromise the patient’s ability to produce motor output may render standard clinical testing ineffective. Indeed, if patients were aware but unable to signal so via motor behavior, they would be impossible to distinguish, at the bedside, from vegetative patients. Considering the alarming rate with which minimally conscious patients are misdiagnosed as vegetative, and the severe medical, legal, and ethical implications of such decisions, novel tools are urgently required to complement current clinical-assessment protocols. Functional neuroimaging may be particularly suited to this aim by providing a window on brain function without requiring patients to produce any motor output. Specifically, the possibility of detecting signs of willful behavior by directly observing brain activity (i.e., “brain behavior”), rather than motoric output, allows this approach to reach beyond what is observable at the bedside with standard clinical assessments. In addition, several neuroimaging studies have already highlighted neuroimaging protocols that can distinguish automatic brain responses from willful brain activity, making it possible to employ willful brain activations as an index of awareness. Certainly, neuroimaging in patient populations faces some theoretical and experimental difficulties, but willful, task-dependent, brain activation may be the only way to discriminate the conscious, but immobile, patient from the unconscious one.

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What Is Left Is Right

European Psychologist ◽

10.1027/1016-9040.14.1.78 ◽

2009 ◽

Vol 14 (1) ◽

pp. 78-89 ◽

Cited By ~ 8

Author(s):

Kenneth Hugdahl ◽

René Westerhausen

Keyword(s):

Speech Processing ◽

Information Transfer ◽

Hemispheric Asymmetry ◽

Functional Neuroimaging ◽

Gray Matter Volume ◽

Functional Anatomy ◽

Posterior Part ◽

Functional Asymmetry ◽

Planum Temporale ◽

Evolution Of Speech

The present paper is based on a talk on hemispheric asymmetry given by Kenneth Hugdahl at the Xth European Congress of Psychology, Praha July 2007. Here, we propose that hemispheric asymmetry evolved because of a left hemisphere speech processing specialization. The evolution of speech and the need for air-based communication necessitated division of labor between the hemispheres in order to avoid having duplicate copies in both hemispheres that would increase processing redundancy. It is argued that the neuronal basis of this labor division is the structural asymmetry observed in the peri-Sylvian region in the posterior part of the temporal lobe, with a left larger than right planum temporale area. This is the only example where a structural, or anatomical, asymmetry matches a corresponding functional asymmetry. The increase in gray matter volume in the left planum temporale area corresponds to a functional asymmetry of speech processing, as indexed from both behavioral, dichotic listening, and functional neuroimaging studies. The functional anatomy of the corpus callosum also supports such a view, with regional specificity of information transfer between the hemispheres.

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Effects of Psychotherapy on Brain Activation Patterns in Anxiety Disorders

Zeitschrift für Psychologie ◽

10.1027/2151-2604/a000240 ◽

2016 ◽

Vol 224 (2) ◽

pp. 62-70 ◽

Cited By ~ 2

Author(s):

Thomas Straube

Keyword(s):

Anxiety Disorders ◽

Neuronal Plasticity ◽

Functional Neuroimaging ◽

State Of The Art ◽

Methodological Issues ◽

Future Directions ◽

Activation Patterns ◽

New Learning ◽

Analytical Strategies ◽

Sample Characteristics

Abstract. Psychotherapy is an effective treatment for most mental disorders, including anxiety disorders. Successful psychotherapy implies new learning experiences and therefore neural alterations. With the increasing availability of functional neuroimaging methods, it has become possible to investigate psychotherapeutically induced neuronal plasticity across the whole brain in controlled studies. However, the detectable effects strongly depend on neuroscientific methods, experimental paradigms, analytical strategies, and sample characteristics. This article summarizes the state of the art, discusses current theoretical and methodological issues, and suggests future directions of the research on the neurobiology of psychotherapy in anxiety disorders.

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