Your search keyword '"Krishna, Vibhor"' showing total 12 results

1. Focused Ultrasound Ablation in Parkinson's Disease. Reply.

Author

Fishman PS, Krishna V, and Eisenberg HM

Subjects

Humans, Globus Pallidus, Magnetic Resonance Imaging, Parkinson Disease surgery

Published

2023

2. Trial of Globus Pallidus Focused Ultrasound Ablation in Parkinson's Disease.

Author

Krishna V, Fishman PS, Eisenberg HM, Kaplitt M, Baltuch G, Chang JW, Chang WC, Martinez Fernandez R, Del Alamo M, Halpern CH, Ghanouni P, Eleopra R, Cosgrove R, Guridi J, Gwinn R, Khemani P, Lozano AM, McDannold N, Fasano A, Constantinescu M, Schlesinger I, Dalvi A, and Elias WJ

Subjects

Humans, Dyskinesias etiology, Dyskinesias surgery, Treatment Outcome, Globus Pallidus surgery, Parkinson Disease complications, Parkinson Disease surgery, High-Intensity Focused Ultrasound Ablation

Abstract

Background: Unilateral focused ultrasound ablation of the internal segment of globus pallidus has reduced motor symptoms of Parkinson's disease in open-label studies., Methods: We randomly assigned, in a 3:1 ratio, patients with Parkinson's disease and dyskinesias or motor fluctuations and motor impairment in the off-medication state to undergo either focused ultrasound ablation opposite the most symptomatic side of the body or a sham procedure. The primary outcome was a response at 3 months, defined as a decrease of at least 3 points from baseline either in the score on the Movement Disorders Society-Unified Parkinson's Disease Rating Scale, part III (MDS-UPDRS III), for the treated side in the off-medication state or in the score on the Unified Dyskinesia Rating Scale (UDysRS) in the on-medication state. Secondary outcomes included changes from baseline to month 3 in the scores on various parts of the MDS-UPDRS. After the 3-month blinded phase, an open-label phase lasted until 12 months., Results: Of 94 patients, 69 were assigned to undergo ultrasound ablation (active treatment) and 25 to undergo the sham procedure (control); 65 patients and 22 patients, respectively, completed the primary-outcome assessment. In the active-treatment group, 45 patients (69%) had a response, as compared with 7 (32%) in the control group (difference, 37 percentage points; 95% confidence interval, 15 to 60; P = 0.003). Of the patients in the active-treatment group who had a response, 19 met the MDS-UPDRS III criterion only, 8 met the UDysRS criterion only, and 18 met both criteria. Results for secondary outcomes were generally in the same direction as those for the primary outcome. Of the 39 patients in the active-treatment group who had had a response at 3 months and who were assessed at 12 months, 30 continued to have a response. Pallidotomy-related adverse events in the active-treatment group included dysarthria, gait disturbance, loss of taste, visual disturbance, and facial weakness., Conclusions: Unilateral pallidal ultrasound ablation resulted in a higher percentage of patients who had improved motor function or reduced dyskinesia than a sham procedure over a period of 3 months but was associated with adverse events. Longer and larger trials are required to determine the effect and safety of this technique in persons with Parkinson's disease. (Funded by Insightec; ClinicalTrials.gov number, NCT03319485.)., (Copyright © 2023 Massachusetts Medical Society.)

Published

2023

3. Non-motor effects of subthalamic nucleus stimulation in Parkinson patients.

Author

Sammartino F, Marsh R, Rezai A, and Krishna V

Subjects

Humans, Magnetic Resonance Imaging, Deep Brain Stimulation, Parkinson Disease diagnostic imaging, Parkinson Disease therapy, Subthalamic Nucleus, White Matter

Abstract

The current white matter connectivity analyses of the subthalamic region have focused on the motor effects of deep brain stimulation. We investigate white matter connectivity associated with the stimulation-induced non-motor acute clinical effects in three domains: mood changes, dizziness, and sweating. We performed whole-brain probabilistic tractography seeded from the domain-specific stimulation volumes. The resultant connectivity maps were statistically compared across patients. The cortical voxels associated with each non-motor domain were compared with stimulation-induced motor improvements in a multivariate model. The resulting voxel maps were thresholded for false discovery (FDR q < 0.05) and clustered using a multimodal atlas. We also performed a group-level parcellation of stimulation volumes to identify the local pathways associated with each non-motor domain. The non-motor effects were rarely observed during stimulation titration: from 1100 acute clinical effects, mood change was observed in 14, dizziness in 23, and sweating in 20. Distinct cortical clusters were associated with each domain; notably, mood change was associated with voxels in the salience network and dizziness with voxels in the visual association cortex. The subthalamic parcellation yielded a mediolateral gradient, with the motor parcel being lateral and the non-motor parcels medial. We also observed an anteroposterior organization in the medial non-motor clusters with mood changes being anterior, followed posteriorly by dizziness, and sweating. We interpret these findings based on the literature and foresee these to be useful in guiding DBS programming., (© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

4. Reliability of Intraoperative Testing During Deep Brain Stimulation Surgery.

Author

Sammartino F, Rege R, and Krishna V

Subjects

Aged, Diffusion Tensor Imaging methods, Female, Humans, Male, Middle Aged, Reproducibility of Results, Retrospective Studies, Subthalamic Nucleus physiopathology, Subthalamic Nucleus surgery, Treatment Outcome, Deep Brain Stimulation methods, Intraoperative Neurophysiological Monitoring methods, Parkinson Disease therapy

Abstract

Introduction: Deep brain stimulation (DBS) is an effective treatment for medically refractory Parkinson's disease (PD). During DBS surgery, intraoperative testing is performed to confirm optimal lead placement by determining the stimulation thresholds for symptom improvement and side effects. However, the reliability of intraoperative testing in predicting distant postoperative thresholds is unknown. In this study, we hypothesized that intraoperative testing reliably estimates postoperative thresholds for both symptom improvement and side effects., Methods: We retrospectively analyzed a prospective database with intraoperative and postoperative thresholds for symptom improvement and side effects from a cohort of 66 PD patients who underwent STN DBS. We recorded the stimulation locations relative to the mid-commissural point. Within-patient stimulation pairs were generated by clustering the intraoperative stimulation locations closest to the DBS contacts. We computed the distance between stimulation locations and atlas-based pyramidal tract (PT) and medial lemniscus (ML) masks. A leave-one-out cross-validation analysis was performed to determine the reliability of intraoperative testing in predicting postoperative thresholds while controlling for the distance from the relevant tracks., Results: Intraoperative testing reliably predicted (area under ROC >0.8) postoperative thresholds for tremor and rigidity improvements, as well as stimulation-induced motor contractions and paresthesias. The reliability was poor for improvement in bradykinesia., Conclusion: Intraoperative testing reliably predicts postoperative thresholds. These results are relevant during the informed consent process and patient counseling for DBS surgery. These will also guide the development of future methods for intraoperative feedback, especially during asleep DBS., (© 2019 International Neuromodulation Society.)

Published

2020

5. Connectivity-based selection of optimal deep brain stimulation contacts: A feasibility study.

Author

Krishna V, Sammartino F, Rabbani Q, Changizi B, Agrawal P, Deogaonkar M, Knopp M, Young N, and Rezai A

Subjects

Aged, Brain diagnostic imaging, Deep Brain Stimulation adverse effects, Feasibility Studies, Humans, Hypokinesia diagnostic imaging, Hypokinesia therapy, Middle Aged, Parkinson Disease diagnostic imaging, Tremor diagnostic imaging, Tremor therapy, Deep Brain Stimulation methods, Parkinson Disease therapy

Abstract

Background: The selection of optimal deep brain stimulation (DBS) parameters is time-consuming, experience-dependent, and best suited when acute effects of stimulation can be observed (e.g., tremor reduction)., Objectives: To test the hypothesis that optimal stimulation location can be estimated based on the cortical connections of DBS contacts., Methods: We analyzed a cohort of 38 patients with Parkinson's disease (24 training, and 14 test cohort). Using whole-brain probabilistic tractography, we first mapped the cortical regions associated with stimulation-induced efficacy (rigidity, bradykinesia, and tremor improvement) and side effects (paresthesia, motor contractions, and visual disturbances). We then trained a support vector machine classifier to categorize DBS contacts into efficacious, defined by a therapeutic window ≥2 V (threshold for side effect minus threshold for efficacy), based on their connections with cortical regions associated with efficacy versus side effects. The connectivity-based classifications were then compared with actual stimulation contacts using receiver-operating characteristics (ROC) curves., Results: Unique cortical clusters were associated with stimulation-induced efficacy and side effects. In the training dataset, 42 of the 47 stimulation contacts were accurately classified as efficacious, with a therapeutic window of ≥3 V in 31 (66%) and between 2 and 2.9 V in 11 (24%) electrodes. This connectivity-based estimation was successfully replicated in the test cohort with similar accuracy (area under ROC = 0.83)., Conclusions: Cortical connections can predict the efficacy of DBS contacts and potentially facilitate DBS programming. The clinical utility of this paradigm in optimizing DBS outcomes should be prospectively tested, especially for directional electrodes., (© 2019 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals, Inc on behalf of American Neurological Association.)

Published

2019

6. Predictors of deep brain stimulation outcome in tremor patients.

Author

Sandoe C, Krishna V, Basha D, Sammartino F, Tatsch J, Picillo M, di Biase L, Poon YY, Hamani C, Reddy D, Munhoz RP, Lozano AM, Hutchison WD, and Fasano A

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Retrospective Studies, Severity of Illness Index, Thalamus physiology, Treatment Outcome, Young Adult, Deep Brain Stimulation, Essential Tremor therapy, Parkinson Disease therapy, Tremor therapy

Abstract

Background: Deep brain stimulation of the ventro-intermedius nucleus of the thalamus is an established treatment for tremor of differing etiologies but factors that may predict the short- and especially long-term outcome of surgery are still largely unknown., Methods: We retrospectively investigated the clinical, pharmacological, electrophysiological and anatomical features that might predict the initial response and preservation of benefit in all patients who underwent deep brain stimulation for tremor. Data were collected at the following time points: baseline (preoperative), one-year post-surgery, and most recent visit. Tremor severity was recorded using the Fahn-Tolosa-Marin Tremor Rating Scale and/or the Unified Parkinson's Disease Rating Scale., Results: A total of 52 patients were included in the final analysis: 31 with essential tremor, 15 with cerebellar tremor of different etiologies, and 6 with Parkinson's disease. Long-term success (mean follow-up duration 34.7 months, range 1.7-121.1 months) was reported in 63.5%. Predictors of long-term benefit were: underlying tremor etiology (best outcome in Parkinson's disease, worst outcome in cerebellar tremor); age at surgery (the older the better); baseline tremor severity (the greater the better); lack of response to benzodiazepines; a more anterior electrode placement and single-unit beta power (the greater the better)., Conclusions: Specific patients' features (including single unit beta activity) and electrode locations may predict the short- and long-term benefit of thalamic stimulation for tremor. Future prospective studies enrolling a much larger sample of patients are needed to substantiate the associations detected by this retrospective study., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

7. Microelectrode recording findings within the tractography-defined ventral intermediate nucleus.

Author

King NKK, Krishna V, Basha D, Elias G, Sammartino F, Hodaie M, Lozano AM, and Hutchison WD

Subjects

Aged, Cohort Studies, Electroencephalography, Essential Tremor physiopathology, Female, Humans, Male, Middle Aged, Parkinson Disease physiopathology, Diffusion Tensor Imaging, Essential Tremor diagnostic imaging, Microelectrodes, Parkinson Disease diagnostic imaging, Ventral Thalamic Nuclei diagnostic imaging, Ventral Thalamic Nuclei physiopathology

Abstract

OBJECTIVE The ventral intermediate nucleus (VIM) of the thalamus is not visible on structural MRI. Therefore, direct VIM targeting methods for stereotactic tremor surgery are desirable. The authors previously described a direct targeting method for visualizing the VIM and its structural connectivity using deterministic tractography. In this combined electrophysiology and imaging study, the authors investigated the electrophysiology within this tractography-defined VIM (T-VIM). METHODS Thalamic neurons were classified based on their relative location to the T-VIM: dorsal, within, and ventral to the T-VIM. The authors identified the movement-responsive cells (kinesthetic and tremor cells), performed spike analysis (firing rate and burst index), and local field potential analysis (area under the curve for 13-30 Hz). Tremor efficacy in response to microstimulation along the electrode trajectory was also assessed in relation to the T-VIM. RESULTS Seventy-three cells from a total of 9 microelectrode tracks were included for this analysis. Movement-responsive cells (20 kinesthetic cells and 26 tremor cells) were identified throughout the electrode trajectories. The mean firing rate and burst index of cells (n = 27) within the T-VIM are 18.8 ± 9.8 Hz and 4.5 ± 5.4, respectively. Significant local field potential beta power was identified within the T-VIM (area under the curve for 13-30 Hz = 6.6 ± 7.7) with a trend toward higher beta power in the dorsal T-VIM. The most significant reduction in tremor was also observed in the dorsal T-VIM. CONCLUSIONS The electrophysiological findings within the VIM thalamus defined by tractography, or T-VIM, correspond with the known microelectrode recording characteristics of the VIM in patients with tremor.

Published

2017

8. Low-frequency Subthalamic Stimulation in Parkinson's Disease: Long-term Outcome and Predictors.

Author

Zibetti M, Moro E, Krishna V, Sammartino F, Picillo M, Munhoz RP, Lozano AM, and Fasano A

Subjects

Aged, Deep Brain Stimulation adverse effects, Female, Humans, Male, Middle Aged, Parkinson Disease physiopathology, Postural Balance physiology, Treatment Outcome, Deep Brain Stimulation methods, Gait physiology, Parkinson Disease therapy, Speech physiology, Subthalamic Nucleus physiopathology

Abstract

Background: Parkinson's disease patients undergoing subthalamic nucleus deep brain stimulation (STN DBS) at standard frequency (>100 Hz) often develop gait impairment, postural instability and speech difficulties. Low frequency stimulation (<100 Hz, LFS) can improve such axial symptoms, but there are concerns that improvement may be transient., Objective: To identify long-term outcome and predictors of low-frequency subthalamic stimulation in Parkinson's disease., Methods: Through a chart review we identified 85 out of 324 STN DBS patients who received a trial of LFS and describe their characteristics and outcome predictors., Results: Patients were switched to LFS (<100 Hz) 3.8 ± 3.3 years after surgery. Most patients (64%) attained a subjective improvement of gait, speech or balance for 2.0 ± 1.9 years. Motor scores improved within the first year after the stimulation change and showed a slower progression over time when compared to patients switched back to high frequency stimulation. UPDRS III axial score on medication before surgery and the y-axis coordinate of the active contact were independent predictors of LFS retention., Conclusions: This report provides evidence that the use of LFS yields an enduring benefit in a considerable percentage of patients who develop axial motor symptoms during conventional stimulation., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

9. Tractography-Based Ventral Intermediate Nucleus Targeting: Novel Methodology and Intraoperative Validation.

Author

Sammartino F, Krishna V, King NK, Lozano AM, Schwartz ML, Huang Y, and Hodaie M

Subjects

Diffusion Tensor Imaging standards, Humans, Neuronavigation standards, Parkinson Disease surgery, Ventral Thalamic Nuclei surgery, Diffusion Tensor Imaging methods, Intraoperative Neurophysiological Monitoring methods, Nerve Fibers, Myelinated, Neuronavigation methods, Parkinson Disease diagnostic imaging, Pyramidal Tracts diagnostic imaging, Tremor diagnostic imaging, Ventral Thalamic Nuclei diagnostic imaging

Abstract

Background: The ventral intermediate nucleus of the thalamus is not readily visible on structural magnetic resonance imaging. Therefore, a method for its visualization for stereotactic targeting is desirable., Objective: The objective of this study was to define a tractography-based methodology for the stereotactic targeting of the ventral intermediate nucleus., Methods: The lateral and posterior borders of the ventral intermediate nucleus were defined by tracking the pyramidal tract and medial lemniscus, respectively. A thalamic seed was then created 3 mm medial and anterior to these borders, and its structural connections were analyzed. The application of this method was assessed in an imaging cohort of 14 tremor patients and 15 healthy controls, in which we compared the tractography-based targeting to conventional targeting. In a separate surgical cohort (3 tremor and 3 tremor-dominant Parkinson's disease patients), we analyzed the accuracy of this method by correlating it with intraoperative neurophysiology., Results: Tractography of the thalamic seed revealed the tracts corresponding to cerebellar input and motor cortical output fibers. The tractography-based target was more lateral (12.5 [1.2] mm vs 11.5 mm for conventional targeting) and anterior (8.5 [1.1] mm vs 6.7 [0.3] mm, anterior to the posterior commissure). In the surgical cohort, the Euclidian distance between the ventral intermediate nucleus identified by tractography and the surgical target was 1.6 [1.1] mm. The locations of the sensory thalamus, lemniscus, and pyramidal tracts were concordant within <1 mm between tractography and neurophysiology., Interpretation: The tractography-based methodology for identification of the ventral intermediate nucleus is accurate and useful. This method may be used to improve stereotactic targeting in functional neurosurgery procedures. © 2016 The Authors. Movement Disorders published by Wiley Periodicals, Inc. on behalf of International Parkinson and Movement Disorder Society., (© 2016 The Authors. Movement Disorders published by Wiley Periodicals, Inc. on behalf of International Parkinson and Movement Disorder Society.)

Published

2016

10. Sequence of electrode implantation and outcome of deep brain stimulation for Parkinson's disease.

Author

Sammartino F, Krishna V, King NK, Bruno V, Kalia S, Hodaie M, Marras C, Lozano AM, and Fasano A

Subjects

Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Models, Statistical, Neuroimaging, Retrospective Studies, Subthalamic Nucleus physiology, Treatment Outcome, Deep Brain Stimulation methods, Electrodes, Implanted statistics & numerical data, Parkinson Disease therapy

Abstract

Introduction: The effect of the variability of electrode placement on outcomes after bilateral deep brain stimulation of subthalamic nucleus has not been sufficiently studied, especially with respect to the sequence of hemisphere implantation., Methodology: We retrospectively analysed the clinical and radiographic data of all the consecutive patients with Parkinson's disease who underwent surgery at our centre and completed at least 1 year follow-up. The dispersion in electrode location was calculated by the square of deviation from population mean, and the direction of deviation was analysed by comparing the intended and final implantation coordinates. Linear regression analysis was performed to analyse the predictors of postoperative improvement of the motor condition, also controlling for the sequence of implanted hemisphere., Results: 76 patients (mean age 58±7.2 years) were studied. Compared with the first side, the second side electrode tip had significantly higher dispersion as an overall effect (5.6±21.6 vs 2.2±4.9 mm(2), p=0.04), or along the X-axis (4.1±15.6 vs 1.4±2.4 mm(2), p=0.03) and Z-axis (4.9±11.5 vs 2.9±3.6 mm(2), p=0.02); the second side stimulation was also associated with a lower threshold for side effects (contact 0, p<0.001 and contact 3, p=0.004). In the linear regression analysis, the significant predictors of outcome were baseline activities of daily living (p=0.010) and dispersion of electrode on the second side (p=0.005)., Conclusions: We observed a higher dispersion for the electrode on the second implanted side, which also resulted to be a significant predictor of motor outcome at 1 year., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/)

Published

2016

11. The effect of dexmedetomidine on the firing properties of STN neurons in Parkinson's disease.

Author

Krishna V, Elias G, Sammartino F, Basha D, King NK, Fasano A, Munhoz R, Kalia SK, Hodaie M, Venkatraghavan L, Lozano AM, and Hutchison WD

Subjects

Deep Brain Stimulation methods, Dose-Response Relationship, Drug, Female, Humans, Male, Microelectrodes, Middle Aged, Parkinson Disease therapy, Statistics, Nonparametric, Subthalamic Nucleus physiology, Action Potentials drug effects, Analgesics, Non-Narcotic pharmacology, Dexmedetomidine pharmacology, Neurons drug effects, Parkinson Disease pathology, Subthalamic Nucleus cytology

Abstract

Dexmedetomidine (an alpha-2 adrenergic agonist) sedation is commonly used during subthalamic nucleus (STN) deep-brain stimulation (DBS). Its effects on the electrophysiological characteristics of human STN neurons are largely unknown. We hypothesised that dexmedetomidine modulates the firing rates and bursting of human STN neurons. We analysed microelectrode recording (MER) data from patients with Parkinson's disease who underwent STN DBS. A 'Dex bolus' group (dexmedetomidine bolus prior to MER; 27 cells from seven patients) was compared with a 'no sedation' group (29 cells from 11 patients). We also performed within-patient comparisons with varying dexmedetomidine states. Cells were classified as dorsal half or ventral half based on their relative location in the STN. Neuronal burst and oscillation characteristics were analysed using the Kaneoke-Vitek methodology and local field potential (LFP) oscillatory activity was also investigated. Dexmedetomidine was associated with a slight increase in firing rate (41.1 ± 9.9 vs. 34.5 ± 10.6 Hz, P = 0.02) but a significant decrease in burstiness (number of bursts, P = 0.02; burst index, P < 0.001; percentage of spikes in burst, P = 0.002) of dorsal but not ventral STN neurons. This was not associated with modulation of beta oscillations in the spike-oscillations analysis(beta peak, P = 0.4; signal-to-noise ratio in the beta range for spikes and bursts, P = 0.3 and P = 0.5, respectively) and LFP analysis (Beta power, P = 0.17). As bursting pattern is often used to identify STN and guide electrode placement, we recommend that high-dose dexmedetomidine should be avoided during DBS surgery., (© 2015 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2015

12. Current Directions in Deep Brain Stimulation for Parkinson’s Disease—Directing Current to Maximize Clinical Benefit

Author

Merola, Aristide, Romagnolo, Alberto, Krishna, Vibhor, Pallavaram, Srivatsan, Carcieri, Stephen, Goetz, Steven, Mandybur, George, Duker, Andrew P., Dalm, Brian, Rolston, John D., Fasano, Alfonso, and Verhagen, Leo

Published

2020