Your search keyword '"Pogosyan A"' showing total 16 results

1. Finely-tuned gamma oscillations: Spectral characteristics and links to dyskinesia

Author

Wiest, C., Torrecillos, F., Tinkhauser, G., Pogosyan, A., Morgante, F., Pereira, E.A., and Tan, H.

Published

2022

2. Subthalamic nucleus beta and gamma activity is modulated depending on the level of imagined grip force

Author

Fischer, Petra, Pogosyan, Alek, Cheeran, Binith, Green, Alexander L., Aziz, Tipu Z., Hyam, Jonathan, Little, Simon, Foltynie, Thomas, Limousin, Patricia, Zrinzo, Ludvic, Hariz, Marwan, Samuel, Michael, Ashkan, Keyoumars, Brown, Peter, and Tan, Huiling

Published

2017

3. Subcortical evoked activity and motor enhancement in Parkinson's disease

Author

Anzak, Anam, Tan, Huiling, Pogosyan, Alek, Khan, Sadaquate, Javed, Shazia, Gill, Steven S., Ashkan, Keyoumars, Akram, Harith, Foltynie, Thomas, Limousin, Patricia, Zrinzo, Ludvic, Green, Alexander L., Aziz, Tipu, and Brown, Peter

Published

2016

4. Complementary roles of different oscillatory activities in the subthalamic nucleus in coding motor effort in Parkinsonism

Author

Tan, Huiling, Pogosyan, Alek, Anzak, Anam, Ashkan, Keyoumars, Bogdanovic, Marko, Green, Alexander L., Aziz, Tipu, Foltynie, Thomas, Limousin, Patricia, Zrinzo, Ludvic, and Brown, Peter

Published

2013

5. Frequency specific activity in subthalamic nucleus correlates with hand bradykinesia in Parkinson's disease

Author

Tan, Huiling, Pogosyan, Alek, Anzak, Anam, Foltynie, Thomas, Limousin, Patricia, Zrinzo, Ludvic, Ashkan, Keyoumars, Bogdanovic, Marko, Green, Alexander L., Aziz, Tipu, and Brown, Peter

Published

2013

6. Beta band stability over time correlates with Parkinsonian rigidity and bradykinesia

Author

Little, S., Pogosyan, A., Kuhn, A.A., and Brown, P.

Published

2012

7. Finely-tuned gamma oscillations: Spectral characteristics and links to dyskinesia

Author

Wiest, C, Torrecillos, F, Tinkhauser, G, Pogosyan, A, Morgante, F, Pereira, E A, and Tan, H

Subjects

Levodopa, Dyskinesias, Developmental Neuroscience, Neurology, Deep Brain Stimulation, Humans, 610 Medicine & health, Article, nervous system diseases

Abstract

Gamma oscillations comprise a loosely defined, heterogeneous group of functionally different activities between 30 and 100 Hz in the cortical and subcortical local field potential (LFP) of the motor network. Two distinct patterns seem to emerge which are easily conflated: Finely-tuned gamma (FTG) oscillations - a narrowband activity with peaks between 60 and 90 Hz - have been observed in multiple movement disorders and are induced by dopaminergic medication or deep brain stimulation (DBS). FTG has been linked with levodopa or DBS-induced dyskinesias, which makes it a putative biomarker for adaptive DBS. On the other hand, gamma activity can also present as a broad phenomenon (30-100 Hz) in the context of motor activation and dynamic processing. Here, we contrast FTG, either levodopa-induced or DBS-induced, from movement-related broadband gamma synchronisation and further elaborate on the functional role of FTG and its potential implications for adaptive DBS. Given the unclear distinction of FTG and broad gamma in literature, we appeal for more careful separation of the two. To better characterise cortical and subcortical FTG as biomarkers for dyskinesia, their sensitivity and specificity need to be investigated in a large clinical trial.

Published

2021

8. Elevations in local gamma activity are accompanied by changes in the firing rate and information coding capacity of neurons in the region of the subthalamic nucleus in Parkinson's disease

Author

Pogosyan, Alek, Kühn, Andrea A., Trottenberg, Thomas, Schneider, Gerd-Helge, Kupsch, Andreas, and Brown, Peter

Published

2006

9. Intra-operative recordings of local field potentials can help localize the subthalamic nucleus in Parkinson's disease surgery

Author

Chen, Chiung Chu, Pogosyan, Alek, Zrinzo, Ludvic U., Tisch, Stephen, Limousin, Patricia, Ashkan, Keyoumars, Yousry, Tarek, Hariz, Marwan I., and Brown, Peter

Published

2006

10. Subthalamic nucleus beta and gamma activity is modulated depending on the level of imagined grip force

Author

Petra, Fischer, Alek, Pogosyan, Binith, Cheeran, Alexander L, Green, Tipu Z, Aziz, Jonathan, Hyam, Simon, Little, Thomas, Foltynie, Patricia, Limousin, Ludvic, Zrinzo, Marwan, Hariz, Michael, Samuel, Keyoumars, Ashkan, Peter, Brown, and Huiling, Tan

Subjects

Male, STN, Deep Brain Stimulation, Movement, Force decoding, Motor imagery, Subthalamic Nucleus, Gamma Rhythm, Humans, Gamma oscillations, Aged, Hand Strength, Imagined force, Electroencephalography, Parkinson Disease, Middle Aged, Beta suppression, Brain machine interface, Neuro-feedback, Imagination, Basal ganglia, Female, Cues, Beta Rhythm, Photic Stimulation, Brain computer interface, Research Paper

Abstract

Motor imagery involves cortical networks similar to those activated by real movements, but the extent to which the basal ganglia are recruited is not yet clear. Gamma and beta oscillations in the subthalamic nucleus (STN) vary with the effort of sustained muscle activity. We recorded local field potentials in Parkinson's disease patients and investigated if similar changes can be observed during imagined gripping at three different ‘forces’. We found that beta activity decreased significantly only for imagined grips at the two stronger force levels. Additionally, gamma power significantly scaled with increasing imagined force. Thus, in combination, these two spectral features can provide information about the intended force of an imaginary grip even in the absence of sensory feedback. Modulations in the two frequency bands during imaginary movement may explain the rehabilitating benefit of motor imagery to improve motor performance. The results also suggest that STN LFPs may provide useful information for brain-machine interfaces., Highlights • We tested to which extent the subthalamic nucleus is involved in motor imagery. • During real gripping at three force levels beta and gamma activity is scaled. • Force-dependent modulation also was observed during imagined gripping. • STN neuro-feedback may support motor training or brain-machine interfaces.

Published

2016

11. Beta band stability over time correlates with Parkinsonian rigidity and bradykinesia

Author

Aa A. Kuhn, A Pogosyan, Simon Little, and Peter Brown

Subjects

Male, Levodopa, Oscillations, Time Factors, Deep brain stimulation, Parkinson's disease, medicine.medical_treatment, LFP, Local field potential, Hypokinesia, Local field potential, Article, Basal Ganglia, LZC, Lempel–Ziv complexity, 03 medical and health sciences, STN, Subthalamic nucleus, 0302 clinical medicine, Developmental Neuroscience, DBS, Deep brain stimulation, Basal ganglia, medicine, Humans, Beta Rhythm, CV, Coefficient of variation, Aged, 030304 developmental biology, 0303 health sciences, Beta, Parkinson Disease, Biomarker, Middle Aged, medicine.disease, UPDRS, Unified Parkinson's disease rating scale, Muscle Rigidity, Subthalamic nucleus, Neurology, Female, medicine.symptom, Psychology, KS, Kolmogorov–Smirnov test, Neuroscience, 030217 neurology & neurosurgery, medicine.drug

Abstract

Abnormal oscillatory activity in the basal ganglia is increasingly implicated in the pathophysiology of Parkinson's disease. Such activity is recorded in patients in the form of oscillations in the local field potential (LFP) picked up in the subthalamic nucleus. Previous studies have focused on correlations between features of the time averaged power or amplitude spectrum of the LFP and the clinical state, either off medication or in response to levodopa. However, average spectral densities do not take account of time variant spectral properties and we hypothesised that these dynamic properties of the spectrum of the LFP would contain additional information about clinical state. Here we assess the variability in LFP amplitude over time using the coefficient of variation (CV), evaluating this with regard to clinical state off medication and in response to levodopa in two datasets. The CV of activity in the high beta frequency band was found to be correlated with clinical state off levodopa (rho = − 0.59, p, Highlights ► Variability in beta band amplitude correlates with rigidity–bradykinesia in Parkinson's. ► Correlations occur with motor impairment off medication. ► Correlations also occur with change in motor impairment upon treatment. ► Correlations are frequency and symptom specific, as well as spatially focal.

Published

2012

12. Subcortical evoked activity and motor enhancement in Parkinson's disease

Author

Anam, Anzak, Huiling, Tan, Alek, Pogosyan, Sadaquate, Khan, Shazia, Javed, Steven S, Gill, Keyoumars, Ashkan, Harith, Akram, Thomas, Foltynie, Patricia, Limousin, Ludvic, Zrinzo, Alexander L, Green, Tipu, Aziz, and Peter, Brown

Subjects

Adult, Male, Local field potentials, Hand Strength, Electromyography, Deep Brain Stimulation, Parkinson Disease, Middle Aged, Motor Activity, Subthalamic nucleus, Article, Pedunculopontine nucleus, Antiparkinson Agents, Levodopa, Acoustic Stimulation, Reaction Time, Humans, Female, Evoked activity, Cues, Arousal, Evoked Potentials, Photic Stimulation, Psychoacoustics, Aged

Abstract

Enhancements in motor performance have been demonstrated in response to intense stimuli both in healthy subjects and in the form of ‘paradoxical kinesis’ in patients with Parkinson's disease. Here we identify a mid-latency evoked potential in local field potential recordings from the region of the subthalamic nucleus, which scales in amplitude with both the intensity of the stimulus delivered and corresponding enhancements in biomechanical measures of maximal handgrips, independent of the dopaminergic state of our subjects with Parkinson's disease. Recordings of a similar evoked potential in the related pedunculopontine nucleus – a key component of the reticular activating system – provide support for this neural signature in the subthalmic nucleus being a novel correlate of ascending arousal, propagated from the reticular activating system to exert an ‘energizing’ influence on motor circuitry. Future manipulation of this system linking arousal and motor performance may provide a novel approach for the non-dopaminergic enhancement of motor performance in patients with hypokinetic disorders such as Parkinson's disease., Highlights • We identify an evoked potential in the subthalamic nucleus of Parkinsonian patients. • This scales with enhancements in motor performance by loud sounds. • The same is seen in the pedunculopontine nucleus of the reticular activating system. • The potential may be a neural marker of movement energization by phasic arousal.

Published

2015

13. Intra-operative recordings of local field potentials can help localize the subthalamic nucleus in Parkinson's disease surgery

Author

Patricia Limousin, Ludvic Zrinzo, Stephen Tisch, Keyoumars Ashkan, Alek Pogosyan, Tarek A. Yousry, Chiung Chu Chen, Marwan Hariz, and Peter Brown

Subjects

Adult, Male, medicine.medical_specialty, Deep brain stimulation, Parkinson's disease, medicine.medical_treatment, Electric Stimulation Therapy, Local field potential, Functional Laterality, Neurosurgical Procedures, Stereotaxic Techniques, Central nervous system disease, Developmental Neuroscience, Subthalamic Nucleus, Monitoring, Intraoperative, medicine, Humans, Pallidotomy, business.industry, Electroencephalography, Parkinson Disease, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Electrodes, Implanted, nervous system diseases, Surgery, Subthalamic nucleus, Electrophysiology, surgical procedures, operative, medicine.anatomical_structure, nervous system, Neurology, Cerebral cortex, Female, business, Neuroscience

Abstract

Deep brain stimulation (DBS) of the subthalamic nucleus (STN) can be a highly effective treatment for Parkinson's disease (PD). However, therapeutic efficacy is limited by difficulties in consistently and correctly targeting this nucleus. Increasing evidence suggests that there is abnormal synchronization of beta frequency band activity (not, vert, similar20 Hz) in the STN of PD patients, as reflected in the oscillatory nature of the local field potential (LFP). We hypothesized that an increase in the power of the LFP beta activity may provide intra-operative confirmation of STN targeting in patients undergoing STN implantation for the treatment of advanced PD. Accordingly, we recorded LFPs from the four contacts of DBS electrodes as the latter were advanced in 2 mm steps from a point 4–6 mm above the intended surgical target point in the STN, to a point 4 mm below this. Contacts were configured to give three bipolar recordings of LFPs. These were analyzed on 16 sides in 9 patients. The power in the 13–35 Hz band recorded at the lowest contact pair underwent a steep but focal increase during electrode descent. The depth of the peak beta activity showed excellent agreement with the level of the intra-operative clinical stun effect (k coefficient = 0.792). The depth of peak beta activity also showed 100% specificity and 100% sensitivity for placement within STN in comparison to pre- and Post-operative stereotactic MRI. Functional physiological localization of STN by the on-line spectral analysis of LFPs is quick to perform and may provide information directly relevant to the position of the electrode contact actually used for DBS.

Published

2006

14. Complementary roles of different oscillatory activities in the subthalamic nucleus in coding motor effort in Parkinsonism

Author

Huiling, Tan, Alek, Pogosyan, Anam, Anzak, Keyoumars, Ashkan, Marko, Bogdanovic, Alexander L, Green, Tipu, Aziz, Thomas, Foltynie, Patricia, Limousin, Ludvic, Zrinzo, and Peter, Brown

Subjects

Male, Neurons, Local field potentials, Hand Strength, Deep Brain Stimulation, Electroencephalography, Parkinson Disease, Middle Aged, Beta oscillation, Article, Antiparkinson Agents, Levodopa, Gamma oscillation, Alpha Rhythm, Motor effort coding, Subthalamic Nucleus, Basal ganglia, Humans, Female, Beta Rhythm, Aged

Abstract

The basal ganglia may play an important role in the control of motor scaling or effort. Recently local field potential (LFP) recordings from patients with deep brain stimulation electrodes in the basal ganglia have suggested that local increases in the synchronisation of neurons in the gamma frequency band may correlate with force or effort. Whether this feature uniquely codes for effort and whether such a coding mechanism holds true over a range of efforts is unclear. Here we investigated the relationship between frequency-specific oscillatory activities in the subthalamic nucleus (STN) and manual grips made with different efforts. The latter were self-rated using the 10 level Borg scale ranging from 0 (no effort) to 10 (maximal effort). STN LFP activities were recorded in patients with Parkinson's Disease (PD) who had undergone functional surgery. Patients were studied while motor performance was improved by dopaminergic medication. In line with previous studies we observed power increase in the theta/alpha band (4–12 Hz), power suppression in the beta band (13–30 Hz) and power increase in the gamma band (55–90 Hz) and high frequency band (101–375 Hz) during voluntary grips. Beta suppression deepened, and then reached a floor level as effort increased. Conversely, gamma and high frequency power increases were enhanced during grips made with greater effort. Multiple regression models incorporating the four different spectral changes confirmed that the modulation of power in the beta band was the only independent predictor of effort during grips made with efforts rated, Highlights • Changes in motor effort are associated with changes in oscillatory synchronisation in the STN. • The precise pattern of changes in STN activity depends on the degree of effort. • Failure of these changes may contribute to impairment in effort in Parkinson's Disease.

Published

2013

15. Frequency specific activity in subthalamic nucleus correlates with hand bradykinesia in Parkinson's disease

Author

Keyoumars Ashkan, Huiling Tan, Alexander L. Green, Marko Bogdanovic, Patricia Limousin, Tipu Z. Aziz, Anam Anzak, Alek Pogosyan, Peter Brown, Ludvic Zrinzo, and Thomas Foltynie

Subjects

Adult, Male, medicine.medical_specialty, Deep brain stimulation, Parkinson's disease, Movement, medicine.medical_treatment, Action Potentials, Stimulation, Hypokinesia, Local field potential, Subthalamic nucleus, Physical medicine and rehabilitation, Developmental Neuroscience, Biological Clocks, Hand strength, Basal ganglia, Reaction Time, medicine, Humans, Aged, Neurons, Local field potentials, Hand Strength, Force decrement, Parkinson Disease, Middle Aged, Hand, medicine.disease, Neurology, Force release, Female, medicine.symptom, Psychology, Neuroscience

Abstract

Local field potential recordings made from the basal ganglia of patients undergoing deep brain stimulation have suggested that frequency specific activity is involved in determining the rate of force development and the peak force at the outset of a movement. However, the extent to which the basal ganglia might be involved in motor performance later on in a sustained contraction is less clear. We therefore recorded from the subthalamic nucleus region (STNr) in patients with Parkinson's disease (PD) as they made maximal voluntary grips. Relative to age-matched controls they had more rapid force decrement when contraction was meant to be sustained and prolonged release reaction time and slower rate of force offset when they were supposed to release the grip. These impairments were independent from medication status. Increased STNr power over 5–12Hz (in the theta/alpha band) independently predicted better performance—reduced force decrement, shortened release reaction time and faster rate of force offset. In contrast, lower mean levels and progressive reduction of STNr power over 55–375Hz (high gamma/high frequency) over the period when contraction was meant to be sustained were both strongly associated with greater force decrement over time. Higher power over 13–23Hz (low beta) was associated with more rapid force decrement during the period when grip should have been sustained, and with a paradoxical shortening of the release reaction time. These observations suggest that STNr activities at 5–12Hz and 55–375Hz are necessary for optimal grip performance and that deficiencies of such activities lead to motor impairments. In contrast, increased levels of 13–25Hz activity both promote force decrement and shorten the release reaction time, consistent with a role in antagonising (and terminating) voluntary movement. Frequency specific oscillatory activities in the STNr impact on motor performance from the beginning to the end of a voluntary grip.

16. β band stability over time correlates with Parkinsonian rigidity and bradykinesia.

Author

Little S, Pogosyan A, Kuhn AA, and Brown P

Subjects

Aged, Basal Ganglia drug effects, Basal Ganglia physiology, Beta Rhythm drug effects, Female, Humans, Hypokinesia drug therapy, Levodopa pharmacology, Levodopa therapeutic use, Male, Middle Aged, Muscle Rigidity drug therapy, Parkinson Disease drug therapy, Time Factors, Beta Rhythm physiology, Hypokinesia physiopathology, Muscle Rigidity physiopathology, Parkinson Disease physiopathology

Abstract

Abnormal oscillatory activity in the basal ganglia is increasingly implicated in the pathophysiology of Parkinson's disease. Such activity is recorded in patients in the form of oscillations in the local field potential (LFP) picked up in the subthalamic nucleus. Previous studies have focused on correlations between features of the time averaged power or amplitude spectrum of the LFP and the clinical state, either off medication or in response to levodopa. However, average spectral densities do not take account of time variant spectral properties and we hypothesised that these dynamic properties of the spectrum of the LFP would contain additional information about clinical state. Here we assess the variability in LFP amplitude over time using the coefficient of variation (CV), evaluating this with regard to clinical state off medication and in response to levodopa in two datasets. The CV of activity in the high beta frequency band was found to be correlated with clinical state off levodopa (rho=-0.59, p<0.001) and this was shown to be complementary, rather than redundant, to spectral amplitude in a multiple regression analysis, selective for rigidity-bradykinesia and highly focal. Similarly, a strong correlation was found between change in clinical scores and change in high beta CV following levodopa (rho=-0.66, p=0.004). This too was selective for rigidity-bradykinesia and non-redundant to spectral power in a multiple regression model. Our results indicate that temporal stability in the beta band is correlated with rigidity-bradykinesia. It is suggested that loss of beta reactivity is deleterious to basal ganglia function over and above any concomitant change in absolute level of beta synchrony. The CV of LFP beta band amplitude may potentially provide an additional index of clinical state suitable for feedback control in closed loop stimulation therapy., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012