Zoltan Mari

Publications

• 9.49

  Impact points

  Widespread abnormality of the γ-aminobutyric acid-ergic system in Tourette syndrome.

  Alicja Lerner, Anto Bagic, Janine M Simmons, Zoltan Mari, Omer Bonne, Ben Xu, Diane Kazuba, Peter Herscovitch, Richard E Carson, Dennis L Murphy, Wayne C Drevets, Mark Hallett

  Brain : a journal of neurology. 05/2012;

  Dysfunction of the γ-aminobutyric acid-ergic system in Tourette syndrome may conceivably underlie the symptoms of motor disinhibition presenting as tics and psychiatric manifestations, such as attention deficit hyperactivity disorder and obsessive-compulsive disorder. The purpose of this study was t... [more] Dysfunction of the γ-aminobutyric acid-ergic system in Tourette syndrome may conceivably underlie the symptoms of motor disinhibition presenting as tics and psychiatric manifestations, such as attention deficit hyperactivity disorder and obsessive-compulsive disorder. The purpose of this study was to identify a possible dysfunction of the γ-aminobutyric acid-ergic system in Tourette patients, especially involving the basal ganglia-thalamo-cortical circuits and the cerebellum. We studied 11 patients with Tourette syndrome and 11 healthy controls. Positron emission tomography procedure: after injection of 20 mCi of [(11)C]flumazenil, dynamic emission images of the brain were acquired. Structural magnetic resonance imaging scans were obtained to provide an anatomical framework for the positron emission tomography data analysis. Images of binding potential were created using the two-step version of the simplified reference tissue model. The binding potential images then were spatially normalized, smoothed and compared between groups using statistical parametric mapping. We found decreased binding of GABA(A) receptors in Tourette patients bilaterally in the ventral striatum, globus pallidus, thalamus, amygdala and right insula. In addition, the GABA(A) receptor binding was increased in the bilateral substantia nigra, left periaqueductal grey, right posterior cingulate cortex and bilateral cerebellum. These results are consistent with the longstanding hypothesis that circuits involving the basal ganglia and thalamus are disinhibited in Tourette syndrome patients. In addition, the abnormalities in GABA(A) receptor binding in the insula and cerebellum appear particularly noteworthy based upon recent evidence implicating these structures in the generation of tics.
• 12.26

  Impact points

  Scientific and ethical issues related to deep brain stimulation for disorders of mood, behavior, and thought.

  Peter Rabins, Brian S Appleby, Jason Brandt, Mahlon R Delong, Laura B Dunn, Loes Gabriëls, Benjamin D Greenberg, Suzanne N Haber, Paul E Holtzheimer, Zoltan Mari, Helen S Mayberg, Evelyn McCann, Sallie P Mink, Steven Rasmussen, Thomas E Schlaepfer, Dorothy E Vawter, Jerrold L Vitek, John Walkup, Debra J H Mathews

  Archives of general psychiatry. 10/2009; 66(9):931-7.

  CONTEXT: A 2-day consensus conference was held to examine scientific and ethical issues in the application of deep brain stimulation for treating mood and behavioral disorders, such as major depression, obsessive-compulsive disorder, and Tourette syndrome. OBJECTIVES: The primary objectives of the c... [more] CONTEXT: A 2-day consensus conference was held to examine scientific and ethical issues in the application of deep brain stimulation for treating mood and behavioral disorders, such as major depression, obsessive-compulsive disorder, and Tourette syndrome. OBJECTIVES: The primary objectives of the conference were to (1) establish consensus among participants about the design of future clinical trials of deep brain stimulation for disorders of mood, behavior, and thought and (2) develop standards for the protection of human subjects participating in such studies. RESULTS: Conference participants identified 16 key points for guiding research in this growing field. CONCLUSIONS: The adoption of the described guidelines would help to protect the safety and rights of research subjects who participate in clinical trials of deep brain stimulation for disorders of mood, behavior, and thought and have further potential to benefit other stakeholders in the research process, including clinical researchers and device manufactures. That said, the adoption of the guidelines will require broad and substantial commitment from many of these same stakeholders.
• 3.12

  Impact points

  Electrophysiological evidence of functional integration between the language and motor systems in the brain: A study of the speech Bereitschaftspotential.

  J J McArdle, Z Mari, R H Pursley, G M Schulz, A R Braun

  Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 01/2009;

  OBJECTIVE: We investigated whether the Bereitschaftspotential (BP), an event related potential believed to reflect motor planning, would be modulated by language-related parameters prior to speech. We anticipated that articulatory complexity would produce effects on the BP distribution similar to th... [more] OBJECTIVE: We investigated whether the Bereitschaftspotential (BP), an event related potential believed to reflect motor planning, would be modulated by language-related parameters prior to speech. We anticipated that articulatory complexity would produce effects on the BP distribution similar to those demonstrated for complex limb movements. We also hypothesized that lexical semantic operations would independently impact the BP. METHODS: Eighteen participants performed 3 speech tasks designed to differentiate lexical semantic and articulatory contributions to the BP. EEG epochs were time-locked to the earliest source of speech movement per trial. Lip movements were assessed using EMG recordings. Doppler imaging was used to determine the onset of tongue movement during speech, providing a means of identification and elimination of potential artifact. RESULTS: Compared to simple repetition, complex articulations produced an anterior shift in the maximum midline BP. Tasks requiring lexical search and selection augmented these effects and independently elicited a left lateralized asymmetry in the frontal distribution. CONCLUSIONS: The findings indicate that the BP is significantly modulated by linguistic processing, suggesting that the premotor system might play a role in lexical access. SIGNIFICANCE: These novel findings support the notion that the motor systems may play a significant role in the formulation of language.
• 6.98

  Impact points

  Involvement of Insula and Cingulate Cortices in Control and Suppression of Natural Urges.

  Alicja Lerner, Anto Bagic, Takashi Hanakawa, Eilis A Boudreau, Fernando Pagan, Zoltan Mari, William Bara-Jimenez, Murat Aksu, Susumu Sato, Dennis L Murphy, Mark Hallett

  Cerebral cortex (New York, N.Y. : 1991). 06/2008;

  The physiology of control and suppression of natural urges is not well understood. We used [(15)O]H(2)O positron-emission tomography imaging to identify neural circuits involved in suppression of spontaneous blinking as a model of normal urges. Suppression of blinking was associated with prominent a... [more] The physiology of control and suppression of natural urges is not well understood. We used [(15)O]H(2)O positron-emission tomography imaging to identify neural circuits involved in suppression of spontaneous blinking as a model of normal urges. Suppression of blinking was associated with prominent activation of bilateral insular-claustrum regions, right more than left; activation was also found in bilateral anterior cingulate cortex (ACC), supplementary motor areas, and the face area of the primary motor cortex bilaterally. These results suggest a central role for the insula possibly together with ACC in suppression of blinking.
• 1.46

  Impact points

  Perception of phosphenes and flashed alphabetical characters is enhanced by single-pulse transcranial magnetic stimulation of anterior frontal lobe: the thalamic gate hypothesis.

  Vahe Amassian, Zoltan Mari, Laura Sagliocco, Nasser Hassan, Peter Maccabee, JOAN B. CRACCO, ROGER Q. CRACCO, Ivan Bodis-Wollner

  Perception. 02/2008; 37(3):375-88.

  Single pulses of transcranial magnetic stimulation (sTMS) restricted locally to the primary cortical areas for somatosensory and visual input, unlike the effects of repetitive stimulation, usually fail to elicit projected sensations. We tested the effect of sTMS over anterior frontal cortex in facil... [more] Single pulses of transcranial magnetic stimulation (sTMS) restricted locally to the primary cortical areas for somatosensory and visual input, unlike the effects of repetitive stimulation, usually fail to elicit projected sensations. We tested the effect of sTMS over anterior frontal cortex in facilitating phosphenes from preceding sTMS over calcarine cortex, which alone was rarely effective in eliciting phosphenes. The combined sTMS elicited complex phosphenes, which changed with the site of frontal sTMS and the interstimulus interval. Our results show that sTMS over anterior frontal cortex also improved reporting of weakly illuminated, flashed four-letter stimuli, which permitted its statistical validation. We propose that the present demonstration of frontal cortical facilitation of visual awareness, when combined with the previous finding of projected paresthesias and sense of movement (Amassian et al, 1991 Brain 114 2505-2520), provide evidence of a general frontal opening effect on a thalamic gate. Opening this gate facilitates entry of information from primary cortical receiving areas to thalamus. Thereby, the reciprocal thalamocortical interrelations that subserve conscious awareness of sensory stimuli could be fostered.
• 8.17

  Impact points

  Neuroimaging of neuronal circuits involved in tic generation in patients with Tourette syndrome.

  A Lerner, A Bagic, E A Boudreau, T Hanakawa, F Pagan, Z Mari, W Bara-Jimenez, M Aksu, G Garraux, J M Simmons, S Sato, D L Murphy, M Hallett

  Neurology. 07/2007; 68(23):1979-87.

  OBJECTIVE: To identify brain regions generating tics in patients with Tourette syndrome using sleep as a baseline. METHODS: We used [15O]H2O PET to study nine patients with Tourette syndrome and nine matched control subjects. For patients, conditions included tic release states and sleep stage 2; an... [more] OBJECTIVE: To identify brain regions generating tics in patients with Tourette syndrome using sleep as a baseline. METHODS: We used [15O]H2O PET to study nine patients with Tourette syndrome and nine matched control subjects. For patients, conditions included tic release states and sleep stage 2; and for control subjects, rest states and sleep stage 2. RESULTS: Our study showed robust activation of cerebellum, insula, thalamus, and putamen during tic release. CONCLUSION: The network of structures involved in tics includes the activated regions and motor cortex. The prominent involvement of cerebellum and insula suggest their involvement in tic initiation and execution.
• 4.01

  Impact points

  Psychogenic palatal tremor.

  Sarah Pirio Richardson, Zoltan Mari, Masao Matsuhashi, Mark Hallett

  Movement disorders : official journal of the Movement Disorder Society. 03/2006; 21(2):274-6.

  We describe a case of psychogenic palatal tremor. The diagnosis was supported by clinical criteria and neurophysiological testing, including frequency analysis and jerk-locked back-averaging. We discuss the differential diagnosis of palatal tremor as well as the role of neurophysiological testing in... [more] We describe a case of psychogenic palatal tremor. The diagnosis was supported by clinical criteria and neurophysiological testing, including frequency analysis and jerk-locked back-averaging. We discuss the differential diagnosis of palatal tremor as well as the role of neurophysiological testing in the diagnosis of psychogenic movement disorders.
• 3.12

  Impact points

  Asymmetric spatiotemporal patterns of event-related desynchronization preceding voluntary sequential finger movements: a high-resolution EEG study.

  Ou Bai, Zoltan Mari, Sherry Vorbach, Mark Hallett

  Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 06/2005; 116(5):1213-21.

  OBJECTIVE: To study spatiotemporal patterns of event-related desynchronization (ERD) preceding voluntary sequential finger movements performed with dominant right hand and nondominant left hand. METHODS: Nine subjects performed self-paced movements consisting of three key strokes with either hand. S... [more] OBJECTIVE: To study spatiotemporal patterns of event-related desynchronization (ERD) preceding voluntary sequential finger movements performed with dominant right hand and nondominant left hand. METHODS: Nine subjects performed self-paced movements consisting of three key strokes with either hand. Subjects randomized the laterality and timing of movements. Electroencephalogram (EEG) was recorded from 122 channels. Reference-free EEG power measurements in the beta band were calculated off-line. RESULTS: During motor preparation (-2 to -0.5s with respect to movement onset), contralateral preponderance of event-related desynchronization (ERD) (lateralized power) was only observed during right hand finger movements, whereas ERD during left hand finger movements was bilateral. CONCLUSIONS: For right-handers, activation on the left hemisphere during left hand movements is greater than that on the right hemisphere during right hand movements. SIGNIFICANCE: We provide further evidence for motor dominance of the left hemisphere in early period of motor preparation for complex sequential finger movements.
• 3.12

  Impact points

  Identifying true brain interaction from EEG data using the imaginary part of coherency.

  Guido Nolte, Ou Bai, Lewis Wheaton, Zoltan Mari, Sherry Vorbach, Mark Hallett

  Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 11/2004; 115(10):2292-307.

  OBJECTIVE: The main obstacle in interpreting EEG/MEG data in terms of brain connectivity is the fact that because of volume conduction, the activity of a single brain source can be observed in many channels. Here, we present an approach which is insensitive to false connectivity arising from volume ... [more] OBJECTIVE: The main obstacle in interpreting EEG/MEG data in terms of brain connectivity is the fact that because of volume conduction, the activity of a single brain source can be observed in many channels. Here, we present an approach which is insensitive to false connectivity arising from volume conduction. METHODS: We show that the (complex) coherency of non-interacting sources is necessarily real and, hence, the imaginary part of coherency provides an excellent candidate to study brain interactions. Although the usual magnitude and phase of coherency contain the same information as the real and imaginary parts, we argue that the Cartesian representation is far superior for studying brain interactions. The method is demonstrated for EEG measurements of voluntary finger movement. RESULTS: We found: (a) from 5 s before to movement onset a relatively weak interaction around 20 Hz between left and right motor areas where the contralateral side leads the ipsilateral side; and (b) approximately 2-4 s after movement, a stronger interaction also at 20 Hz in the opposite direction. CONCLUSIONS: It is possible to reliably detect brain interaction during movement from EEG data. SIGNIFICANCE: The method allows unambiguous detection of brain interaction from rhythmic EEG/MEG data.

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• 8.17

  Impact points

  Open-label dose-escalation study of oral 1-octanol in patients with essential tremor.

  H A Shill, K O Bushara, Z Mari, M Reich, M Hallett

  Neurology. 07/2004; 62(12):2320-2.

  Twenty-one single oral doses of 1-octanol were given to patients with essential tremor (ET) in an open-label dose-escalation study. The drug was well tolerated up to 64 mg/kg. The main side effect was an unusual taste. No overt intoxication was seen. There was evidence for efficacy, with a significa... [more] Twenty-one single oral doses of 1-octanol were given to patients with essential tremor (ET) in an open-label dose-escalation study. The drug was well tolerated up to 64 mg/kg. The main side effect was an unusual taste. No overt intoxication was seen. There was evidence for efficacy, with a significant reduction in tremor amplitude as measured by accelerometry and handwriting that was maximal at 2 hours. Higher doses may produce more sustained benefit.
• 2.63

  Impact points

  Ruthenium red inhibits tail skin vasodilatation evoked by intracerebroventricular injection of capsaicin in the rat.

  M Hajós, G Jancsó, Z Mari, F Obál

  Naunyn-Schmiedeberg's archives of pharmacology. 05/1991; 343(4):431-3.

  The effect of Ruthenium red on the tail skin vasodilatation evoked by an intracerebroventricular injection of capsaicin was studied in the anesthetized rat. Injection of capsaicin into the lateral ventricle resulted in a marked elevation of the tail skin temperature, indicative of peripheral vasodil... [more] The effect of Ruthenium red on the tail skin vasodilatation evoked by an intracerebroventricular injection of capsaicin was studied in the anesthetized rat. Injection of capsaicin into the lateral ventricle resulted in a marked elevation of the tail skin temperature, indicative of peripheral vasodilatation. Ruthenium red, given by intracerebroventricular injection, significantly inhibited this response, which is known to be mediated by central warmth-sensitive neuronal structures. The findings suggest that the sensitivity to Ruthenium red, reportedly characteristic of the capsaicin-sensitive neurons in the peripheral nervous system, is also a trait of the capsaicin-sensitive nerve cells in the central nervous system. This is the first evidence indicating that similar molecular mechanisms, presumably involving changes in cellular calcium metabolism, contribute to the capsaicin-induced activation of neurons in both the peripheral and central nervous systems.