Your search keyword '"Michael C. Park"' showing total 42 results

1. Controlling pallidal oscillations in real-time in Parkinson's disease using evoked interference deep brain stimulation (eiDBS): Proof of concept in the human

Author

David Escobar Sanabria, Joshua E. Aman, Valentina Zapata Amaya, Luke A. Johnson, Hafsa Farooqi, Jing Wang, Meghan Hill, Remi Patriat, Kelly Sovell-Brown, Gregory F. Molnar, David Darrow, Robert McGovern, Scott E. Cooper, Noam Harel, Colum D. MacKinnon, Michael C. Park, and Jerrold L. Vitek

Subjects

Deep Brain Stimulation, General Neuroscience, Biophysics, Humans, Parkinson Disease, Neurology (clinical), Globus Pallidus, Basal Ganglia

Abstract

Approaches to control basal ganglia neural activity in real-time are needed to clarify the causal role of 13-35 Hz ("beta band") oscillatory dynamics in the manifestation of Parkinson's disease (PD) motor signs. Here, we show that resonant beta oscillations evoked by electrical pulses with precise amplitude and timing can be used to predictably suppress or amplify spontaneous beta band activity in the internal segment of the globus pallidus (GPi) in the human. Using this approach, referred to as closed-loop evoked interference deep brain stimulation (eiDBS), we could suppress or amplify frequency-specific (16-22 Hz) neural activity in a PD patient. Our results highlight the utility of eiDBS to characterize the role of oscillatory dynamics in PD and other brain conditions, and to develop personalized neuromodulation systems.

Published

2022

2. Reliability of visual review of intracranial electroencephalogram in identifying the seizure onset zone: A systematic review and implications for the accuracy of automated methods

Author

James Flanary, Sam Daly, Caitlin Bakker, Alexander B. Herman, Michael C. Park, Robert McGovern, Thaddeus Walczak, Thomas Henry, Theoden I. Netoff, and David P. Darrow

Subjects

Neurology, Neurology (clinical)

Abstract

Visual review of intracranial electroencephalography (iEEG) is often an essential component for defining the zone of resection for epilepsy surgery. Unsupervised approaches using machine and deep learning are being employed to identify seizure onset zones (SOZs). This prompts a more comprehensive understanding of the reliability of visual review as a reference standard. We sought to summarize existing evidence on the reliability of visual review of iEEG in defining the SOZ for patients undergoing surgical workup and understand its implications for algorithm accuracy for SOZ prediction. We performed a systematic literature review on the reliability of determining the SOZ by visual inspection of iEEG in accordance with best practices. Searches included MEDLINE, Embase, Cochrane Library, and Web of Science on May 8, 2022. We included studies with a quantitative reliability assessment within or between observers. Risk of bias assessment was performed with QUADAS-2. A model was developed to estimate the effect of Cohen kappa on the maximum possible accuracy for any algorithm detecting the SOZ. Two thousand three hundred thirty-eight articles were identified and evaluated, of which one met inclusion criteria. This study assessed reliability between two reviewers for 10 patients with temporal lobe epilepsy and found a kappa of .80. These limited data were used to model the maximum accuracy of automated methods. For a hypothetical algorithm that is 100% accurate to the ground truth, the maximum accuracy modeled with a Cohen kappa of .8 ranged from .60 to .85 (F-2). The reliability of reviewing iEEG to localize the SOZ has been evaluated only in a small sample of patients with methodologic limitations. The ability of any algorithm to estimate the SOZ is notably limited by the reliability of iEEG interpretation. We acknowledge practical limitations of rigorous reliability analysis, and we propose design characteristics and study questions to further investigate reliability.

Published

2022

3. REM Sleep Movements in Parkinson’s Disease: Is the Basal Ganglia Engaged?

Author

Ajay K. Verma, Sergio Francisco Acosta Lenis, Joshua E. Aman, David Escobar Sanabria, Jing Wang, Amy Pearson, Meghan Hill, Remi Patriat, Lauren E. Schrock, Scott E. Cooper, Michael C. Park, Noam Harel, Michael J. Howell, Colum D. MacKinnon, Jerrold L. Vitek, and Luke A. Johnson

Abstract

To elucidate the role of the basal ganglia during REM sleep movements in Parkinson’s disease (PD) we recorded pallidal neural activity from four PD patients. Unlike desynchronization commonly observed during wakeful movements, beta oscillations (13-35 Hz) synchronized during REM sleep movements; furthermore, high-frequency oscillations (150-350 Hz) synchronized during movement irrespective of sleep-wake states. Our results demonstrate differential engagement of the basal ganglia during REM sleep and awake movements.

Published

2022

4. Resective epilepsy surgery: assessment of randomized controlled trials

Author

Michael C. Park, Clark C. Chen, Robert A. McGovern, Sonya Wang, and Samuel W. Cramer

Subjects

medicine.medical_specialty, business.industry, Medically intractable epilepsy, General Medicine, Semiology, medicine.disease, 030218 nuclear medicine & medical imaging, law.invention, Surgery, Temporal lobe, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Randomized controlled trial, law, Cohort, medicine, Epilepsy surgery, Neurology (clinical), Neurosurgery, business, 030217 neurology & neurosurgery

Abstract

Epilepsy is the most common form of chronic neurologic disease. Here, we review the available randomized controlled trials (RCTs) that examined the efficacy of resective epilepsy surgery in select patients suffering from medically intractable epilepsy (defined as persistent epilepsy despite two or more antiepileptic drugs [AEDs]). Three RCTs (two adult RCTs and one pediatric RCT) consistently supported the efficacy of resective surgery as treatment for epilepsy with semiology localized to the mesial temporal lobe. In these studies, 58–100% of the patients who underwent resective surgery achieved seizure freedom, in comparison to 0–13% of medically treated patients. In another RCT, the likelihood of seizure freedom after resective surgery was independent of the surgical approach (transSylvian [64%] versus subtemporal [62%]). Two other RCTs demonstrated that hippocampal resection is essential to optimize seizure control. But, no significant gain in seizure control was achieved beyond removing 2.5 cm of the hippocampus. Across RCTs, minor complications (deficit lasting 3 months) ranged 2–5% and 5–11% respectively. However, nonincapacitating superior subquadrantic visual-field defects (not typically considered a minor or major complication) were noted in up to 55% of the surgical cohort. The available RCTs provide compelling support for resective surgery as a treatment for mesial temporal lobe epilepsy and offer insights toward optimal surgical strategy.

Published

2020

5. Clinical Benefit of Vagus Nerve Stimulation for Epilepsy: Assessment of Randomized Controlled Trials and Prospective Non-Randomized Studies

Author

Samuel W Cramer, Robert A McGovern, Clark C Chen, and Michael C Park

Subjects

General Medicine

Abstract

We examined the efficacy of vagal nerve stimulation (VNS) for patients suffering from medically intractable epilepsy. Four randomized controlled trials (RCTs - 3 adult RCTs and 1 pediatric RCT) were identified in our comprehensive literature search. Across the 4 studies, high frequency VNS stimulation (frequency >20 Hz) consistently achieved a greater seizure frequency reduction (23.4-33.1%) relative to low frequency VNS stimulation (1 Hz, .6-15.2%). We identified 2 RCTs examining whether the parameters of stimulation influenced seizure control. These studies reported that VNS achieved seizure control comparable to those reported by the first 4 RCTs (22-43% seizure frequency reduction), irrespective of the parameters utilized for VNS stimulation. In terms of VNS associated morbidity, these morbidities were consistently higher in adults who underwent high frequency VNS stimulation (eg dysphonia 37-66%, dyspnea 6-25.3%). However, no such differences were observed in the pediatric population. Moreover

Published

2023

6. A simple geometric analysis method for measuring and mitigating RF induced currents on Deep Brain Stimulation leads by multichannel transmission/reception

Author

Jerrold L. Vitek, Gregor Adriany, Noam Harel, Naoharu Kobayashi, Joshua E Aman, J. Thomas Vaughan, Yigitcan Eryaman, Gregory F. Molnar, Kamil Ugurbil, Andrea Grant, Michael C. Park, and Sean Moen

Subjects

Hot Temperature, Materials science, Radio Waves, Image quality, Deep Brain Stimulation, Cognitive Neuroscience, Phase (waves), Neuroimaging, Article, 050105 experimental psychology, Imaging phantom, 03 medical and health sciences, 0302 clinical medicine, Optics, Dielectric heating, Humans, 0501 psychology and cognitive sciences, Lead (electronics), business.industry, 05 social sciences, Magnetic Resonance Imaging, Electrodes, Implanted, Neurology, Transmission (telecommunications), Electromagnetic coil, business, 030217 neurology & neurosurgery, Excitation

Abstract

The purpose of this work is to present a new method that can be used to estimate and mitigate RF induced currents on Deep Brain Stimulation (DBS) leads. Here, we demonstrate the effect of RF induced current mitigation on both RF heating and image quality for a variety of brain MRI sequences at 3 T. We acquired pre-scan images around a DBS lead (in-situ and ex-vivo) using conventional Gradient Echo Sequence (GRE) accelerated by parallel imaging (i.e GRAPPA) and quantified the magnitude and phase of RF induced current using the relative location of the B1+ null with respect to the lead position. We estimated the RF induced current on a DBS lead implanted in a gel phantom as well as in a cadaver head study for a variety of RF excitation patterns. We also measured the increase in tip temperature using fiber-optic probes for both phantom and cadaver studies. Using the magnitude and phase information of the current induced separately by two transmit channels of the body coil, we calculated an implant friendly (IF) excitation. Using the IF excitation, we acquired T1, T2 weighted Turbo Spin Echo (TSE), T2 weighted SPACE-Dark Fluid, and Ultra Short Echo Time (UTE) sequences around the lead. Our induced current estimation demonstrated linear relationship between the magnitude of the induced current and the square root SAR at the tip of the lead as measured in phantom studies. The “IF excitation pattern” calculated after the pre-scan mitigated RF artifacts and increased the image quality around the lead. In addition, it reduced the tip temperature significantly in both phantom and cadaver studies compared to a conventional quadrature excitation while keeping equivalent overall image quality. We present a relatively fast method that can be used to calculate implant friendly excitation, reducing image artifacts as well as the temperature around the DBS electrodes. When combined with a variety of MR sequences, the proposed method can improve the image quality and patient safety in clinical imaging scenarios.

Published

2019

7. Mapping spreading depolarisations after traumatic brain injury: a pilot clinical study protocol

Author

Samuel W Cramer, Isabela Peña Pino, Anant Naik, Danielle Carlson, Michael C Park, and David P Darrow

Subjects

Cerebral Cortex, Observational Studies as Topic, Seizures, Brain Injuries, Brain Injuries, Traumatic, Cortical Spreading Depression, Humans, General Medicine

Abstract

IntroductionCortical spreading depolarisation (CSD) is characterised by a near-complete loss of the ionic membrane potential of cortical neurons and glia propagating across the cerebral cortex, which generates a transient suppression of spontaneous neuronal activity. CSDs have become a recognised phenomenon that imparts ongoing secondary insults after brain injury. Studies delineating CSD generation and propagation in humans after traumatic brain injury (TBI) are lacking. Therefore, this study aims to determine the feasibility of using a multistrip electrode array to identify CSDs and characterise their propagation in space and time after TBI.Methods and analysisThis pilot, prospective observational study will enrol patients with TBI requiring therapeutic craniotomy or craniectomy. Subdural electrodes will be placed for continuous electrocorticography monitoring for seizures and CSDs as a research procedure, with surrogate informed consent obtained preoperatively. The propagation of CSDs relative to structural brain pathology will be mapped using reconstructed CT and electrophysiological cross-correlations. The novel use of multiple subdural strip electrodes in conjunction with brain morphometric segmentation is hypothesised to provide sufficient spatial information to characterise CSD propagation across the cerebral cortex and identify cortical foci giving rise to CSDs.Ethics and disseminationEthical approval for the study was obtained from the Hennepin Healthcare Research Institute’s ethics committee, HSR 17-4400, 25 October 2017 to present. Study findings will be submitted for publication in peer-reviewed journals and presented at scientific conferences.Trial registration numberNCT03321370.

Published

2022

8. Dissociating theta and beta TACS effects on local field potentials and working memory in epilepsy patients

Author

Taylor Berger, David Darrow, Seth Koenig, Robert McGovern, Michael C. Park, Ivan Alekseichuk, Miles Wischnewski, Alexander B. Herman, Catarina Saiote, and Alexander Opitz

Subjects

Physics, Epilepsy, Working memory, General Neuroscience, Biophysics, medicine, Neurosciences. Biological psychiatry. Neuropsychiatry, Neurology (clinical), Local field potential, Beta (finance), medicine.disease, Neuroscience, RC321-571

Published

2021

9. High-Frequency Oscillations in the Pallidum: A Pathophysiological Biomarker in Parkinson's Disease?

Author

Rajiv Dharnipragada, Remi Patriat, Scott E. Cooper, Michael C. Park, Meghan Hill, Joshua E Aman, David Escobar Sanabria, Laura Li, Noam Harel, Mark Fiecas, Luke A. Johnson, Matthew D. Johnson, Lauren E. Schrock, Ying Yu, Jerrold L. Vitek, and Jing Wang

Subjects

0301 basic medicine, Parkinson's disease, Deep brain stimulation, medicine.medical_treatment, Deep Brain Stimulation, Local field potential, Globus Pallidus, Article, 03 medical and health sciences, 0302 clinical medicine, Subthalamic Nucleus, Basal ganglia, medicine, Neurotoxin, Humans, business.industry, Parkinsonism, Dopaminergic, Parkinson Disease, medicine.disease, nervous system diseases, Subthalamic nucleus, 030104 developmental biology, Neurology, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery, Biomarkers

Abstract

Background Abnormal oscillatory neural activity in the beta-frequency band (13-35 Hz) is thought to play a role in Parkinson's disease (PD); however, increasing evidence points to alterations in high-frequency ranges (>100 Hz) also having pathophysiological relevance. Objectives Studies have found that power in subthalamic nucleus (STN) high-frequency oscillations is increased with dopaminergic medication and during voluntary movements, implicating these brain rhythms in normal basal ganglia function. The objective of this study was to investigate whether similar signaling occurs in the internal globus pallidus (GPi), a nucleus increasingly used as a target for deep brain stimulation (DBS) for PD. Methods Spontaneous and movement-related GPi field potentials were recorded from DBS leads in 5 externalized PD patients on and off dopaminergic medication, as well as from 3 rhesus monkeys before and after the induction of parkinsonism with the neurotoxin 1-methyl-4-phenyl-1,2,3,6 tetrahydropyridine. Results In the parkinsonian condition, we identified a prominent oscillatory peak centered at 200-300 Hz that increased during movement. In patients the magnitude of high-frequency oscillation modulation was negatively correlated with bradykinesia. In monkeys, high-frequency oscillations were mostly absent in the naive condition but emerged after the neurotoxin 1-methyl-4-phenyl-1,2,3,6 tetrahydropyridine. In patients, spontaneous high-frequency oscillations were significantly attenuated on-medication. Conclusions Our findings provide evidence in support of the hypothesis that exaggerated, movement-modulated high-frequency oscillations in the GPi are pathophysiological features of PD. These findings suggest that the functional role(s) of high-frequency oscillations may differ between the STN and GPi and motivate additional investigations into their relationship to motor control in normal and diseased states.

Published

2021

10. Accuracy of Automated Sleep Classification with Intracranial Spectral Data from the Temporal Lobe

Author

Samuel Daly, Alexander Herman, Catarina Saiote, David P Darrow, and Michael C Park

Subjects

Surgery, Neurology (clinical)

Published

2020

11. Organization of Networks Underlying Working Memory

Author

David P Darrow, Alexander Herman, Catarina Saiote, and Michael C Park

Subjects

Surgery, Neurology (clinical)

Published

2020

12. Deep-learning based fully automatic segmentation of the globus pallidus interna and externa using ultra-high 7 Tesla MRI

Author

Henry Braun, Remi Patriat, Jerrold L. Vitek, Joshua E Aman, Tara Palnitkar, Oren Solomon, Noam Harel, Michael C. Park, and Guillermo Sapiro

Subjects

Dystonia, medicine.medical_specialty, Movement disorders, Deep brain stimulation, Essential tremor, business.industry, medicine.medical_treatment, Deep learning, medicine.disease, nervous system diseases, Globus pallidus, Physical medicine and rehabilitation, nervous system, Basal ganglia, medicine, Segmentation, Artificial intelligence, medicine.symptom, business

Abstract

Deep brain stimulation (DBS) surgery has been shown to dramatically improve the quality of life for patients with various motor dysfunctions, such as those afflicted with Parkinson’s disease (PD), dystonia, and essential tremor (ET), by relieving motor symptoms associated with such pathologies. The success of DBS procedures is directly related to the proper placement of the electrodes, which requires the ability to accurately detect and identify relevant target structures within the subcortical basal ganglia region. In particular, accurate and reliable segmentation of the globus pallidus (GP) interna is of great interest for DBS surgery for PD and dystonia. In this work, we present a deep-learning based neural network, which we term GP-net, for the automatic segmentation of both the external and internal segments of the globus pallidus. High resolution 7 Tesla images from 101 subjects were used in this study; GP-net is trained on a cohort of 58 subjects, containing patients with movement disorders as well as healthy control subjects. GP-net performs 3D inference in a patient-specific manner, alleviating the need for atlas-based segmentation. GP-net was extensively validated, both quantitatively and qualitatively over 43 test subjects including patients with movement disorders and healthy control and is shown to consistently produce improved segmentation results compared with state-of-the-art atlas-based segmentations. We also demonstrate a post-operative lead location assessment with respect to a segmented globus pallidus obtained by GP-net.

Published

2020

13. Resective epilepsy surgery: assessment of randomized controlled trials

Author

Samuel W, Cramer, Robert A, McGovern, Sonya G, Wang, Clark C, Chen, and Michael C, Park

Subjects

Epilepsy, Treatment Outcome, Seizures, Humans, Anticonvulsants, Randomized Controlled Trials as Topic

Abstract

Epilepsy is the most common form of chronic neurologic disease. Here, we review the available randomized controlled trials (RCTs) that examined the efficacy of resective epilepsy surgery in select patients suffering from medically intractable epilepsy (defined as persistent epilepsy despite two or more antiepileptic drugs [AEDs]). Three RCTs (two adult RCTs and one pediatric RCT) consistently supported the efficacy of resective surgery as treatment for epilepsy with semiology localized to the mesial temporal lobe. In these studies, 58-100% of the patients who underwent resective surgery achieved seizure freedom, in comparison to 0-13% of medically treated patients. In another RCT, the likelihood of seizure freedom after resective surgery was independent of the surgical approach (transSylvian [64%] versus subtemporal [62%]). Two other RCTs demonstrated that hippocampal resection is essential to optimize seizure control. But, no significant gain in seizure control was achieved beyond removing 2.5 cm of the hippocampus. Across RCTs, minor complications (deficit lasting 3 months) and major complications (deficit 3 months) ranged 2-5% and 5-11% respectively. However, nonincapacitating superior subquadrantic visual-field defects (not typically considered a minor or major complication) were noted in up to 55% of the surgical cohort. The available RCTs provide compelling support for resective surgery as a treatment for mesial temporal lobe epilepsy and offer insights toward optimal surgical strategy.

Published

2020

14. High-frequency oscillations in the internal globus pallidus: a pathophysiological biomarker in Parkinson's disease?

Author

David Escobar Sanabria, Ying Yu, Mark Fiecas, Remi Patriat, Rajiv Dharnipragada, Luke A. Johnson, Matthew D. Johnson, Michael C. Park, Meghan Hill, Lauren E. Schrock, Jerrold L. Vitek, Joshua E Aman, Jing Wang, Noam Harel, Laura Li, and Scott E. Cooper

Subjects

Parkinson's disease, Deep brain stimulation, business.industry, medicine.medical_treatment, Parkinsonism, Dopaminergic, Local field potential, medicine.disease, Subthalamic nucleus, Dopamine, Basal ganglia, medicine, business, Neuroscience, medicine.drug

Abstract

Abnormal oscillatory neural activity in the basal ganglia is thought to play a pathophysiological role in Parkinson’s disease. Many patient studies have focused on beta frequency band (13-35 Hz) local field potential activity in the subthalamic nucleus, however increasing evidence points to alterations in neural oscillations in high frequency ranges (>100 Hz) having pathophysiological relevance. Prior studies have found that power in subthalamic high frequency oscillations (HFOs) is positively correlated with dopamine tone and increased during voluntary movements, implicating these brain rhythms in normal basal ganglia function. Contrary to this idea, in the current study we present a combination of clinical and preclinical data that support the hypothesis that HFOs in the internal globus pallidus (GPi) are a pathophysiological feature of Parkinson’s disease. Spontaneous and movement-related pallidal field potentials were recorded from deep brain stimulation (DBS) leads targeting the GPi in five externalized Parkinson’s disease patients, on and off dopaminergic medication. We identified a prominent oscillatory peak centered at 200-300 Hz in the off-medication rest recordings in all patients. High frequency power increased during movement, and the magnitude of modulation was negatively correlated with bradykinesia. Moreover, high frequency oscillations were significantly attenuated in the on-medication condition, suggesting they are a feature of the parkinsonian condition. To further confirm that GPi high frequency oscillations are characteristic of dopamine depletion, we also collected field potentials from DBS leads chronically implanted in three rhesus monkeys before and after the induction of parkinsonism with the neurotoxin 1-methyl-4-phenyl-1,2,3,6 tetrahydropyridine (MPTP). High frequency oscillations and their modulation during movement were not prominent in the normal condition but emerged in the parkinsonian condition in the monkey model. These data provide the first evidence demonstrating that exaggerated, movement-modulated high frequency oscillations in the internal globus pallidus are a pathophysiological feature of Parkinson’s disease, and motivate additional investigations into the functional roles of high frequency neural oscillations across the basal ganglia-thalamocortical motor circuit and their relationship to motor control in normal and diseased states. These findings also provide rationale for further exploration of these signals for electrophysiological biomarker-based device programming and stimulation strategies in patients receiving deep brain stimulation therapy.

Published

2020

15. Learning Curve Associated with ClearPoint Neuronavigation System: A Case Series

Author

Birra R. Taha, Christian R. Osswald, Matthew Rabon, Carolina Sandoval-Garcia, Daniel J. Guillaume, Xiao Wong, Andrew S. Venteicher, David P. Darrow, Michael C. Park, Robert A. McGovern, Cornelius H. Lam, and Clark C. Chen

Subjects

Targeted drug delivery, RD1-811, MRI, Magnetic resonance imaging, LITT, Laser interstitial thermal therapy, ClearPoint, Neurosurgery, Intracranial laser ablation, IMRIS, Original Article, Intracranial biopsy, Surgery, Neurology. Diseases of the nervous system, Neurology (clinical), RC346-429

Abstract

Background: The ClearPoint neuronavigation system affords real-time magnetic resonance imaging (MRI) guidance during stereotactic procedures. While such information confers potential clinical benefits, additional operative time may be needed. Methods: We conducted a retrospective analysis of procedural time associated with ClearPoint Stereotaxis, with hypothesis that this procedural time is comparable with that associated with frame-based biopsy. Results: Of the 52 patients evaluated, the total procedural time for ClearPoint stereotactic biopsy averaged 150.0 (±40.4) minutes, of which 111.5 (±16.5) minutes were dedicated to real-time MRI acquisition and trajectory adjustment. This procedural time is within the range of those reported for frame-based needle biopsies. Approximately 5 minutes of the procedural time is related to the mounting of the MRI-compatible stereotactic frame. Based on the procedural time, we estimate that four cases are required in the learning curve to achieve this efficiency. Efficient algorithms for distortion corrections and isocenter localization are keys to ClearPoint stereotaxis. Routine quality assurance/control after each MRI software update and institutional information technology maintenance also contribute to efficiency. Real-time MRI is essential for definitive diagnosis in select cases. Conclusions: ClearPoint stereotactic needle biopsy can be achieved in time frames comparable to frame-based stereotaxis. However, procedural efficiency requires 4 “learning curve” cases as well as vigilance in terms of MR distortion correction and information technology maintenance.

Published

2022

16. Individualized tractography-based parcellation of the globus pallidus pars interna using 7T MRI in movement disorder patients prior to DBS surgery

Author

Scott E. Cooper, Remi Patriat, Noam Harel, Christophe Lenglet, Jacob Niederer, Jerrold L. Vitek, Yuval Duchin, Michael C. Park, and Joshua E Aman

Subjects

Adult, Male, medicine.medical_specialty, Movement disorders, Deep brain stimulation, Deep Brain Stimulation, Cognitive Neuroscience, medicine.medical_treatment, Thalamus, Striatum, Globus Pallidus, Surgical planning, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Cortex (anatomy), Preoperative Care, Image Processing, Computer-Assisted, medicine, Humans, Aged, Movement Disorders, business.industry, Reproducibility of Results, Parkinson Disease, Middle Aged, Magnetic Resonance Imaging, Corpus Striatum, Surgery, Diffusion Tensor Imaging, medicine.anatomical_structure, Globus pallidus, nervous system, Neurology, Dystonic Disorders, Female, medicine.symptom, business, 030217 neurology & neurosurgery, Tractography

Abstract

The success of deep brain stimulation (DBS) surgeries for the treatment of movement disorders relies on the accurate placement of an electrode within the motor portion of subcortical brain targets. However, the high number of electrodes requiring relocation indicates that today's methods do not ensure sufficient accuracy for all patients. Here, with the goal of aiding DBS targeting, we use 7 Tesla (T) MRI data to identify the functional territories and parcellate the globus pallidus pars interna (GPi) into motor, associative and limbic regions in individual subjects. 7 T MRI scans were performed in seventeen patients (prior to DBS surgery) and one healthy control. Tractography-based parcellation of each patient's GPi was performed. The cortex was divided into four masks representing motor, limbic, associative and “other” regions. Given that no direct connections between the GPi and the cortex have been shown to exist, the parcellation was carried out in two steps: 1) The thalamus was parcellated based on the cortical targets, 2) The GPi was parcellated using the thalamus parcels derived from step 1. Reproducibility, via repeated scans of a healthy subject, and validity of the findings, using different anatomical pathways for parcellation, were assessed. Lastly, post-operative imaging data was used to validate and determine the clinical relevance of the parcellation. The organization of the functional territories of the GPi observed in our individual patient population agrees with that previously reported in the literature: the motor territory was located posterolaterally, followed anteriorly by the associative region, and further antero-ventrally by the limbic territory. While this organizational pattern was observed across patients, there was considerable variability among patients. The organization of the functional territories of the GPi was remarkably reproducible in intra-subject scans. Furthermore, the organizational pattern was observed consistently by performing the parcellation of the GPi via the thalamus and via a different pathway, going through the striatum. Finally, the active therapeutic contact of the DBS electrode, identified with a combination of post-operative imaging and post-surgery DBS programming, overlapped with the high-probability “motor” region of the GPi as defined by imaging-based methods. The consistency, validity, and clinical relevance of our findings have the potential for improving DBS targeting, by increasing patient-specific knowledge of subregions of the GPi to be targeted or avoided, at the stage of surgical planning, and later, at the stage when stimulation is adjusted.

Published

2018

17. Directional deep brain stimulation leads reveal spatially distinct oscillatory activity in the globus pallidus internus of Parkinson's disease patients

Author

Colum D. MacKinnon, Luke A. Johnson, Jerrold L. Vitek, Michael C. Park, Meghan Hill, David Escobar Sanabria, Lauren E. Schrock, Scott E. Cooper, Jing Wang, Noam Harel, Joshua E Aman, Remi Patriat, and Ethan Marshall

Subjects

0301 basic medicine, Male, Parkinson's disease, Internal capsule, Deep brain stimulation, medicine.medical_treatment, Deep Brain Stimulation, DBS, Action Potentials, Context (language use), Stimulation, Local field potential, Globus Pallidus, Article, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, GPi, Segmented, medicine, Humans, Lead (electronics), lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, business.industry, Parkinson Disease, Middle Aged, medicine.disease, Magnetic Resonance Imaging, 030104 developmental biology, Globus pallidus, Neurology, Female, business, Beta Rhythm, Neuroscience, 030217 neurology & neurosurgery

Abstract

The goal of this study was to characterize the spectral characteristics and spatial topography of local field potential (LFP) activity in the internal segment of the globus pallidus (GPi) in patients with Parkinson's disease utilizing directional (segmented) deep brain stimulation (dDBS) leads. Data were collected from externalized dDBS leads of three patients with idiopathic Parkinson's disease after overnight withdrawal of parkinsonian medication at rest and during a cued reach-to-target task. Oscillatory activity across lead contacts/segments was examined in the context of lead locations and contact orientations determined using co-registered preoperative 7 Tesla (T) MRI and postoperative CT scans. Each of the three patients displayed a unique frequency spectrum of oscillatory activity in the pallidum, with prominent peaks ranging from 5 to 35 Hz, that modulated variably across subjects during volitional movement. Despite subject-specific spectral profiles, a consistent finding across patients was that oscillatory power was strongest and had the largest magnitude of modulation during movement in LFPs recorded from segments facing the postero-lateral “sensorimotor” region of GPi, whereas antero-medially-directed segmented contacts facing the internal capsule and/or anterior GPi, had relatively weaker LFP power and less modulation in the 5 to 35 Hz. In each subject, contact configurations chosen for clinically therapeutic stimulation (following data collection and blinded to physiology recordings), were in concordance with the contact pairs showing the largest amplitude of LFP oscillations in the 5–35 Hz range. Although limited to three subjects, these findings provide support for the hypothesis that the sensorimotor territory of the GPi corresponds to the site of maximal power of oscillatory activity in the 5 to 35 Hz and provides the greatest benefit in motor signs during stimulation in the GPi. Variability in oscillatory activity across patients is likely related to Parkinson's disease phenotype as well as small differences in recording location (i.e. lead location), highlighting the importance of lead location for optimizing stimulation efficacy. These data also provide compelling evidence for the use of LFP activity for the development of predictive stimulation models that may optimize patient benefits while reducing clinic time needed for programming.

Published

2019

18. Subthalamic nucleus deep brain stimulation with a multiple independent constant current-controlled device in Parkinson's disease (INTREPID): a multicentre, double-blind, randomised, sham-controlled study

Author

Suketu M. Khandhar, Kelly D. Foote, Scott E. Cooper, Istvan Takacs, Jules M. Nazzaro, Michele Tagliati, Michal Gostkowski, Adam N. Mamelak, Michael S. Okun, Michael H. Pourfar, Mustafa S. Siddiqui, Monique Giroux, Timothy Leichliter, Rajesh Pahwa, Jessica A. Karl, Marta San Luciano, Alon Y. Mogilner, Alexander I. Tröster, Philip A. Starr, Andre G. Machado, Guillermo Moguel-Cobos, Nicholas B. Galifianakis, Andrew P. Duker, Gonzalo J. Revuelta, Sierra Farris, Corneliu C. Luca, Ryan J. Uitti, Stephen B. Tatter, Sepehr Sani, Cathrin M. Buetefisch, Roshini Jain, Fenna T. Phibbs, Lauren E. Schrock, Robert E. Gross, George T. Mandybur, Ihtsham Haq, Lilly Chen, Paul A. House, Mark Sedrak, Michael C. Park, Francisco A. Ponce, Jonathan R. Jagid, Jill L. Ostrem, Joshua M. Rosenow, Donald Whiting, Jerrold L. Vitek, Adam O Hebb, Julie G. Pilitsis, and Leo Verhagen Metman

Subjects

Adult, Male, medicine.medical_specialty, Deep brain stimulation, Parkinson's disease, medicine.medical_treatment, Deep Brain Stimulation, Severity of Illness Index, law.invention, Randomized controlled trial, Double-Blind Method, Informed consent, law, Subthalamic Nucleus, Severity of illness, medicine, Humans, Longitudinal Studies, Aged, Intention-to-treat analysis, Dyskinesias, business.industry, Parkinson Disease, Middle Aged, medicine.disease, Interim analysis, Subthalamic nucleus, Treatment Outcome, Physical therapy, Female, Neurology (clinical), business

Abstract

Deep brain stimulation (DBS) of the subthalamic nucleus is an established therapeutic option for managing motor symptoms of Parkinson's disease. We conducted a double-blind, sham-controlled, randomised controlled trial to assess subthalamic nucleus DBS, with a novel multiple independent contact current-controlled (MICC) device, in patients with Parkinson's disease.This trial took place at 23 implanting centres in the USA. Key inclusion criteria were age between 22 and 75 years, a diagnosis of idiopathic Parkinson's disease with over 5 years of motor symptoms, and stable use of anti-parkinsonian medications for 28 days before consent. Patients who passed screening criteria were implanted with the DBS device bilaterally in the subthalamic nucleus. Patients were randomly assigned in a 3:1 ratio to receive either active therapeutic stimulation settings (active group) or subtherapeutic stimulation settings (control group) for the 3-month blinded period. Randomisation took place with a computer-generated data capture system using a pre-generated randomisation table, stratified by site with random permuted blocks. During the 3-month blinded period, both patients and the assessors were masked to the treatment group while the unmasked programmer was responsible for programming and optimisation of device settings. The primary outcome was the difference in mean change from baseline visit to 3 months post-randomisation between the active and control groups in the mean number of waking hours per day with good symptom control and no troublesome dyskinesias, with no increase in anti-parkinsonian medications. Upon completion of the blinded phase, all patients received active treatment in the open-label period for up to 5 years. Primary and secondary outcomes were analysed by intention to treat. All patients who provided informed consent were included in the safety analysis. The open-label phase is ongoing with no new enrolment, and current findings are based on the prespecified interim analysis of the first 160 randomly assigned patients. The study is registered with ClinicalTrials.gov, NCT01839396.Between May 17, 2013, and Nov 30, 2017, 313 patients were enrolled across 23 sites. Of these 313 patients, 196 (63%) received the DBS implant and 191 (61%) were randomly assigned. Of the 160 patients included in the interim analysis, 121 (76%) were randomly assigned to the active group and 39 (24%) to the control group. The difference in mean change from the baseline visit (post-implant) to 3 months post-randomisation in increased ON time without troublesome dyskinesias between the active and control groups was 3·03 h (SD 4·52, 95% CI 1·3-4·7; p0·0001). 26 serious adverse events in 20 (13%) patients occurred during the 3-month blinded period. Of these, 18 events were reported in the active group and 8 in the control group. One death was reported among the 196 patients before randomisation, which was unrelated to the procedure, device, or stimulation.This double-blind, sham-controlled, randomised controlled trial provides class I evidence of the safety and clinical efficacy of subthalamic nucleus DBS with a novel MICC device for the treatment of motor symptoms of Parkinson's disease. Future trials are needed to investigate potential benefits of producing a more defined current field using MICC technology, and its effect on clinical outcomes.Boston Scientific.

Published

2019

19. Factors Influencing Electrode Position and Bending of the Proximal Lead in Deep Brain Stimulation for Movement Disorders

Author

Oren Rosenberg, Lynn E. Eberly, David Darrow, Noam Harel, Tara Palnitkar, Remi Patriat, Michael C. Park, Jacob Niederer, and Lauren E. Schrock

Subjects

Adult, Male, medicine.medical_specialty, Movement disorders, Deep brain stimulation, medicine.medical_treatment, Deep Brain Stimulation, Essential Tremor, Computed tomography, behavioral disciplines and activities, Article, Internal medicine, medicine, Humans, Lead (electronics), Normal range, Aged, Movement Disorders, medicine.diagnostic_test, Brain shift, business.industry, Parkinson Disease, Middle Aged, nervous system diseases, Electrodes, Implanted, Dystonia, surgical procedures, operative, nervous system, Cardiology, Surgery, Female, Neurology (clinical), medicine.symptom, business, Tomography, X-Ray Computed, therapeutics

Abstract

Background: The introduction of intracranial air (ICA) during deep brain stimulation (DBS) surgery is thought to have a negative influence on targeting and clinical outcomes. Objective: To investigate ICA volumes following surgery and other patient-specific factors as potential variables influencing translocation of the DBS electrode and proximal lead bowing. Methods: High-resolution postoperative computed tomography scans (≤1.0 mm resolution in all directions) within 24 h following DBS surgery and 4–6 weeks of follow-up were acquired. A total of 50 DBS leads in 33 patients were available for analysis. DBS leads included Abbott/St. Jude Medical InfinityTM, Boston Scientific VerciseTM, and Medtronic 3389TM. Results: Both ICA volume and anatomical target were significantly associated with measures of DBS electrode translocation. ICA volume and DBS lead model were found to be significant predictors of proximal lead bowing. Measures of proximal lead bowing and translocation along the electrode trajectory for the Medtronic 3389TM DBS lead were significantly larger than measures for the Abbott/St. Jude Medical InfinityTM and Boston Scientific VerciseTM DBS leads. Conclusion: The association between ICA volume and translocation of the DBS electrode is small in magnitude and not clinically relevant for DBS cases within a normal range of postoperative subdural air volumes. Differences in proximal lead bowing observed between DBS leads may reflect hardware engineering subtleties in the construction of DBS lead models.

Published

2019

20. Gamma knife radiosurgery for glossopharyngeal neuralgia: Marseille experience

Author

Marc, Lévêque, Michael C, Park, Adyl, Melhaoui, Shoji, Yomo, Anne, Donnet, and Jean, Régis

Subjects

Clinical

Abstract

Although Gamma Knife radiosurgery (GKR) is widely recognized as an effective and minimally invasive treatment for intractable trigeminal neuralgia, its role in glossopharyngeal neuralgia (GPN) has not yet been determined.Between January 2002 and February 2009, 7 patients with medically intractable GPN were treated using GKR. Indication for GKR was the presence of medically intractable GPN, patient's refusal for open surgery or contraindication to microvascular decompression. Patients underwent preoperative investigation and were evaluated postoperatively with periodic assessment of pain relief and neurological function. Seven patients, 5 males and 2 females, with mean age 62 (range 36-83) presented with symptoms for an average of 28 months (range 8-72). Four patients had a neurovascular conflict. Patients were treated with a dose ranging from 60 to 80 Gy, targeted on the cisternal segment (n=2) or glossopharyngeal meatus (GPM) (n=5).Outcome was favorable with cure of GPN in 5 of 7 patients (71%) in the short-term (3 months post GKR) and 4 of 7 (57%) patients in the long term (amp;#62; 7 months, mean 16 months). One patient required 2 treatments because of a recurrence of symptoms and was treated with a maximum doses of 60 and 70 Gy, respectively. There were no neurological complications.All patients with GPM as a target that received a dose greater than 75 Gy were cured at long-term follow-up. The 2 patients with cisternal segment as the target and received a dose lower than 70 Gy were not cured of their GPN. There were no neurological deficits involving the lower cranial nerves. It will be necessary to investigate the optimal radiation dose and target of GKR for GPN in order to achieve long-term pain relief.

Published

2018

21. Subclinical Abnormal Gyration Pattern, a Potential Anatomic Marker of Epileptogenic Zone in Patients With Magnetic Resonance Imaging–Negative Frontal Lobe Epilepsy

Author

Denis Rivière, Patrick Chauvel, Aileen McGonigal, Dominique Figarella-Branger, Jean Régis, Fabrice Bartolomei, Michael C. Park, Nadine Girard, Olivier Coulon, Manabu Tamura, and Jean-François Mangin

Subjects

Adult, Male, Adolescent, Epilepsy, Frontal Lobe, Neurosurgery, Stereoelectroencephalography, Young Adult, Epilepsy, Imaging, Three-Dimensional, Outcome Assessment, Health Care, Humans, Medicine, Epilepsy surgery, Longitudinal Studies, Child, Retrospective Studies, Brain Mapping, medicine.diagnostic_test, business.industry, Electroencephalography, Magnetic resonance imaging, Anatomy, Middle Aged, Cortical dysplasia, medicine.disease, Magnetic Resonance Imaging, Malformations of Cortical Development, Frontal Sulcus, Frontal lobe, Female, Surgery, Neurology (clinical), Superior frontal sulcus, business, Nuclear medicine

Abstract

BACKGROUND: Epilepsy surgery for magnetic resonance imaging (MRI)-negative patients has a less favorable outcome. OBJECTIVE: Detection of subclinical abnormal gyration (SAG) patterns and their potential contribution to assessment of the topography of the epileptogenic zone (EZ) is addressed in MRI-negative patients with frontal lobe epilepsy. METHODS: Between September 1998 and July 2005, 12 MRI-negative frontal lobe epilepsy patients underwent stereoelectroencephalography with postcorticectomy follow-up of longer than 1 year (average, 3.3 years). Original software (BrainVISA/Anatomist, http://brainvisa.info) trained on a database of normal volunteers was used to determine which sulci had morphology out of the normal range (SAG). Topography of the EZ, SAG pattern, corticectomy, postoperative seizure control, and histopathology were analyzed. RESULTS: At last follow-up, 8 of 12 patients (66.7%) were Engel class I (7 IA and 1 IB), 2 class II, and 2 class IV. Small focal cortical dysplasia was histologically diagnosed in 9 of the 12 patients (75%), including 7 of 8 seizure-free patients (87.5%). A SAG pattern was found to be in the EZ area in 9 patients (75%), in the ipsilateral frontal lobe out of the EZ in 2, and limited to the contralateral hemisphere in 1. CONCLUSION: SAG patterns appear to be associated with the topography of the EZ in MRI-negative frontal lobe epilepsy and may have a useful role in preoperative assessment. Small focal cortical dysplasia not detected with MRI is often found on histopathological examination, particularly in the depth of the posterior part of the superior frontal sulcus and intermediate frontal sulcus, suggesting a specific developmental critical zone in these locations.

Published

2011

22. Wait-and-see strategy compared with proactive Gamma Knife surgery in patients with intracanalicular vestibular schwannomas

Author

Outouma Soumare, Jean Régis, Pierre-Hugues Roche, Michael C. Park, Jean Marc Thomassin, Christine Delsanti, and Romain Carron

Subjects

medicine.medical_specialty, education.field_of_study, medicine.diagnostic_test, business.industry, Hearing loss, medicine.medical_treatment, Population, General Medicine, Neuroma, medicine.disease, Radiosurgery, Surgery, Quality of life, Vestibular Schwannomas, Medicine, Audiometry, medicine.symptom, business, Prospective cohort study, education

Abstract

Object The roles of the wait-and-see strategy and proactive Gamma Knife surgery (GKS) in the treatment paradigm for small intracanalicular vestibular schwannomas (VSs) is still a matter of debate, especially when patients present with functional hearing. The authors compare these 2 methods. Methods Forty-seven patients (22 men and 25 women) harboring an intracanalicular VS were followed prospectively. The mean age of the patients at the time of inclusion was 54.4 years (range 20–71 years). The mean follow-up period was 43.8 ± 40 months (range 9–222 months). Failure was defined as significant tumor growth and/or hearing deterioration that required microsurgical or radiosurgical treatment. This population was compared with a control group of 34 patients harboring a unilateral intracanalicular VS who were consecutively treated by GKS and had functional hearing at the time of radiosurgery. Results Of the 47 patients in the wait-and-see group, treatment failure (tumor growth requiring treatment) was observed in 35 patients (74%), although conservative treatment is still ongoing for 12 patients. Treatment failure in the control (GKS) group occurred in only 1 (3%) of 34 patients. In the wait-and-see group, there was no change in tumor size in 10 patients (21%), tumor growth in 36 patients (77%), and a mild decrease in tumor size in 1 patient (2%). Forty patients in the wait-and-see group were available for a hearing level study, which demonstrated no change in Gardner-Robertson hearing class for 24 patients (60%). Fifteen patients (38%) experienced more than 10 db of hearing loss and 2 of them became deaf. At 3, 4, and 5 years, the useful hearing preservation rates were 75%, 52%, and 41% in the wait-and-see group and 77%, 70%, and 64% in the control group, respectively. Thus, the chances of maintaining functional hearing and avoiding further intervention were much higher in cases treated by GKS (79% and 60% at 2 and 5 years, respectively) than in cases managed by the wait-and-see strategy (43% and 14% at 2 and 5 years, respectively). Conclusions These data indicate that the wait-and-see policy exposes the patient to elevated risks of tumor growth and degradation of hearing. Both events may occur independently in the mid-term period. This information must be presented to the patient. A careful sequential follow-up may be adopted when the wait-and-see strategy is chosen, but proactive GKS is recommended when hearing is still useful at the time of diagnosis. This recommendation may be a main paradigm shift in the practice of treating intracanalicular VSs.

Published

2010

23. Is radiosurgery a neuromodulation therapy?

Author

Michael C. Park, Jean Régis, and Romain Carron

Subjects

Cancer Research, medicine.medical_specialty, Neurology, Small volume, Mechanism (biology), business.industry, medicine.medical_treatment, medicine.disease, Neuromodulation (medicine), Radiosurgery, Epilepsy, Coagulative necrosis, Oncology, Trigeminal neuralgia, medicine, Neurology (clinical), Radiology, business

Abstract

Radiosurgery is commonly considered to be effective through a destructive physical mechanism on neural tissue. Since its invention by Leksell in the 1950s, clinical and experimental experience of radiosurgery has demonstrated that for classical indications, for example arteriovenous malformations and benign tumors, radiosurgery is effective because of its specific histological effects of thrombotic endothelial proliferation and apoptosis, not simple coagulative necrosis. In functional neurosurgery, the strategy is either to target a small volume of normal tissue (i.e., ventrointermediate nucleus, capsulotomy, trigeminal neuralgia, etc.) with a high dose (80–140 Gy at maximum) or to target a large volume of tissue (i.e., 5–9 cc in epilepsy radiosurgery) with a moderate dose (17–24 Gy at the marginal isodose). These procedures have been proposed, technically performed, and evaluated on the basis of the hypothesis that their mechanism of action is purely destructive. However, modern neurophysiological, radiological and histological studies are leading us to question this assumption. Tissue destruction is turning out to be either absent or minimal and in almost all cases insufficient to explain the clinical effects obtained. Therefore, one possibility is that radiosurgery is inducing changes in the functioning of the neural tissue, by inducing remodeling of the glial environment, and is leading to the modulation of function while preserving basic processing. Thus, most radiosurgery procedures may induce the desired biological effect without requiring the histological destructive effect for completion of the therapeutic objective. Therefore the concept of “lesional” radiosurgery may be incorrect and a completely hidden world of neuromodulatory effects may remain to be discovered.

Published

2010

24. Thoracic spinal cord compression secondary to metastatic synovial sarcoma: case report

Author

J. Brantley Thrasher, Michael C. Park, John J. Kepes, Kathy L. Newell, and Paul M. Arnold

Subjects

musculoskeletal diseases, Metastatic Synovial Sarcoma, medicine.medical_specialty, business.industry, medicine.medical_treatment, Laminectomy, Soft tissue, medicine.disease, Synovial sarcoma, Surgery, medicine.anatomical_structure, Spinal cord compression, Spinal fusion, Thoracic vertebrae, medicine, Orthopedics and Sports Medicine, Neurology (clinical), Sarcoma, business

Abstract

Synovial sarcoma is an uncommon malignant soft tissue neoplasm, occurring primarily in adolescents and young adults. It is prevalent in the periarticular soft tissues near large joints of the extremities and rarely involves the trunk. Metastases are not uncommon and usually involve the lungs; metastasis to the thoracic spine is rare. We report the case of a 47-year-old man with a history of synovial sarcoma of the lower back, with subsequent metastases to the lung, penis, and perineum (all previously resected), presenting with a 3-month history of low back pain and lower extremity paresthesias. Magnetic resonance imaging (MRI) demonstrated multiple lesions involving multiple contiguous vertebral bodies, with the mass at T12 compressing the spinal cord. The patient underwent T11-T12 laminectomy, transpedicular decompression, tumor debulking, and posterior fixation and fusion. The patient died six months later due to disease progression. Although not curative, decompression and stabilization of the spine are often necessary in patients who present spinal cord compression.

Published

2009

25. Endonasal Ethmoidectomy and Bifrontal Craniotomy with Craniofacial Approach for Resection of Frontoethmoidal Osteoma Causing Tension Pneumocephalus

Author

John E. Donahue, Michael C. Park, Glenn A. Tung, Prakash Sampath, Marc A. Goldman, and Ritu Goel

Subjects

medicine.medical_specialty, business.industry, medicine.medical_treatment, Ethmoidectomy, Case Report, medicine.disease, Surgery, Pneumocephalus, Midline shift, medicine, Neurology (clinical), Mucocele, Neurosurgery, Craniofacial, business, Osteoma, Craniotomy

Abstract

Tension pneumocephalus is an unusual, potentially life-threatening complication of frontal fossa tumors. We present an uncommon case of a frontoethmoidal osteoma causing a tension pneumocephalus and neurological deterioration prompting a combined endonasal ethmoidectomy and bifrontal craniotomy with craniofacial approach for resection. A 68-year-old man presented with a 1-week history of worsening headache, slowness of speech, and increasing confusion. Standard computed tomography scan revealed a marked tension pneumocephalus with ventricular air and 1-cm midline shift to the right. Further studies showed a calcified left ethmoid mass and a left anterior cranial-base defect. A team composed of neurosurgery and otolaryngology performed a combined endonasal ethmoidectomy and bifrontal craniotomy with craniofacial approach to resect a large frontoethmoid bony tumor. No abscess or mucocele was identified. The skull base defect was repaired with the aid of a transnasal endoscopy, a titanium mesh, and a pedunculated pericranial flap. Postoperatively, the pneumocephalus and the patient's symptoms completely resolved. Pathology was consistent with a benign osteoma. This is an uncommon case of a frontoethmoidal osteoma associated with tension pneumocephalus. Recognition of this entity and timely diagnosis and treatment, consisting of an endonasal ethmoidectomy and a bifrontal craniotomy with craniofacial approach, may prevent potential life-threatening complications.

Published

2008

26. Single Level Arthrodesis as Treatment for Midcervical Fracture Subluxation

Author

James Frederick Harrington and Michael C. Park

Subjects

Adult, Male, medicine.medical_specialty, Nerve root, Arthrodesis, medicine.medical_treatment, Joint Dislocations, Good reduction, Single level, Cohort Studies, Postoperative Complications, medicine, Humans, Transplantation, Homologous, Orthopedics and Sports Medicine, Aged, Subluxation, Bone Transplantation, business.industry, Posterior surgery, Prostheses and Implants, Middle Aged, Spinal cord, medicine.disease, Internal Fixators, Surgery, Radiography, Treatment Outcome, medicine.anatomical_structure, Cervical Vertebrae, Spinal Fractures, Female, Neurology (clinical), business, Bone Plates, Cohort study

Abstract

Although many different techniques exist for fusion of midcervical facet fracture dislocations, limiting arthrodesis to a single level could have a theoretical advantage: fewer fused segments could lessen long-term negative effects of fusion on adjacent segments. Therefore, we prospectively treated 22 consecutive patients with midcervical fracture dislocation without vertebral body fracture with single level arthrodesis even if anterior/posterior surgery were required. Twelve patients with unilateral facet subluxation underwent anterior cervical discectomy, distraction reduction with Caspar posts (AESCULAP, Tuttlingen, Germany) with allograft fusion and anterior cervical plating. Ten patients with any component of bilateral facet subluxation underwent anterior cervical discectomy, distraction reduction with Caspar posts, allograft fusion and plating followed by posterior lateral mass plating. No patients demonstrated worsening of nerve root or spinal cord function postoperatively. Interbody stability occurred in all cases. Only complications were 4 cases of pneumonia, 1 case of wound leakage, and 1 case of superficial wound infection. Good reduction was achieved for both unilateral and bilateral facet fractures. Single level interbody arthrodesis is safe and effective strategy with both unilateral and bilateral facet fractures. Single level arthrodesis may also offer long-term benefit compared with multilevel fusions.

Published

2007

27. Copper deficiency myelopathy in the setting of advanced degenerative cervical spondylosis

Author

Paul S. Page, Robert F. James, Michael C. Park, and Ryan G. Nazar

Subjects

medicine.medical_specialty, medicine.medical_treatment, Unnecessary Surgery, Disease, Spinal Cord Diseases, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Myelopathy, 0302 clinical medicine, medicine, Cervical spondylosis, Humans, Aged, business.industry, General Medicine, Bowel resection, medicine.disease, Decompression, Surgical, Surgery, Treatment Outcome, Cervical Vertebrae, Subacute Combined Degeneration, Female, Neurology (clinical), Spondylosis, Copper deficiency, business, Spinal Cord Compression, 030217 neurology & neurosurgery, Copper

Abstract

When presenting conjointly, degenerative cervical spondylosis and copper deficiency myelopathy may be difficult to differentiate providing the potential for mismanagement and unnecessary surgery. We present a case of a 69-year-old female with copper deficiency myelopathy secondary to previous bowel resection in the setting of advanced degenerative cervical spondylotic disease.

Published

2015

28. Interstitial chemotherapy for malignant gliomas: the Johns Hopkins experience

Author

Alessandro Olivi, Henry Brem, Jon D. Weingart, Prakash Sampath, Lawrence Kleinberg, Michael C. Park, Namath S. Hussain, Eileen Bohan, and H. Christopher Lawson

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Neurology, Polymers, Polyesters, Placebo, Article, Central Nervous System Neoplasms, Internal medicine, Glioma, medicine, Animals, Humans, Antineoplastic Agents, Alkylating, Survival analysis, Randomized Controlled Trials as Topic, Carmustine, business.industry, Interstitial chemotherapy, Cancer, medicine.disease, Survival Analysis, Surgery, Neurology (clinical), Neurosurgery, Neoplasm Recurrence, Local, business, Decanoic Acids, medicine.drug

Abstract

Malignant gliomas are very difficult neoplasms for clinicians to treat. The reason for this is multifaceted. Many treatments that are effective for systemic cancer are unable to cross the blood-brain barrier and/or have unacceptable systemic toxicities. Consequently, in recent years an effort has been placed on trying to develop innovative local treatments that bypass the blood-brain barrier and allow for direct treatment in the central nervous system (CNS)—interstitial treatment. In this paper, we present our extensive experience in using interstitial chemotherapy as a strategy to treat malignant brain tumors at a single institution (The Johns Hopkins Hospital). We provide a comprehensive summary of our preclinical work on interstitial chemotherapy at the Hunterian Neurosurgery Laboratory, reviewing data on rat, rabbit, and monkey studies. Additionally, we present our clinical experience with randomized placebo-controlled studies for the treatment of malignant gliomas. We compare survival statistics for those patients who received placebo versus Gliadel® as initial therapy (11.6 months vs. 13.9 months, respectively) and at the time of tumor recurrence (23 weeks vs. and 31 weeks, respectively). We also discuss the positive impact of local therapy in avoiding the toxicities associated with systemic treatments. Furthermore, we provide an overview of newer chemotherapeutic agents and other strategies used in interstitial treatment. Finally, we offer insight into some of the lessons we have learned from our unique perspective.

Published

2006

29. Esthesioneuroblastoma (Olfactory Neuroblastoma) with Hemorrhage: An Unusual Presentation

Author

Prakash Chougule, Prakash Sampath, Michael C. Park, Curtiland Deville, Dara Huang, and Selina Cortez

Subjects

medicine.medical_specialty, rhinorrhea, Olfactory Neuroblastoma, business.industry, medicine.medical_treatment, Anosmia, Case Report, medicine.disease, Surgery, Radiation therapy, Esthesioneuroblastoma, Hyposmia, medicine, Neurology (clinical), medicine.symptom, Headaches, business, Neuroectodermal tumor

Abstract

Esthesioneuroblastoma (olfactory neuroblastoma) is an uncommon neuroectodermal tumor. Its biological activity ranges from indolent growth to local recurrence and rapid widespread metastasis. Treatment options consist of surgical resection followed by radiation therapy for primary lesions and the addition of chemotherapy for advanced, recurrent, or metastatic lesions. Patients often present with nasal obstruction, rhinorrhea, recurrent epistaxis, hyposmia, or anosmia. However, we report the highly unusual case of a patient with an esthesioneuroblastoma who presented with atypical symptoms of headaches, sinus congestion, and fatigue before acutely losing consciousness. Imaging showed a large frontal skull-based tumor associated with intratumoral hemorrhage. The findings prompted an emergent combined anterior craniofacial resection with gross total resection of the tumor. Except for anosmia, the patient recovered almost completely. Postoperatively, she received adjuvant intensity-modulated radiation therapy and chemotherapy. This is the first reported case of an esthesioneuroblastoma presenting with hemorrhage and rapidly declining mental status, an acute neurological manifestation of which clinicians should be aware.

Published

2006

30. Properties of Primary Motor Cortex Output to Forelimb Muscles in Rhesus Macaques

Author

Abderraouf Belhaj-Saïf, Michael C. Park, and Paul D. Cheney

Subjects

Male, Physiology, General Neuroscience, Motor Cortex, Biology, Efferent Pathways, Macaca mulatta, Electric Stimulation, body regions, medicine.anatomical_structure, Spinal Cord, Forelimb, Reaction Time, medicine, Animals, Primary motor cortex, Muscle, Skeletal, Neuroscience, Electric stimulation

Abstract

Stimulus-triggered averaging (StTA) of electromyographic (EMG) activity from 24 simultaneously recorded forelimb muscles was used to investigate properties of primary motor cortex (M1) output in the macaque monkey. Two monkeys were trained to perform a reach-to-grasp task requiring multijoint coordination of the forelimb. EMG activity was recorded from 24 forelimb muscles including 5 shoulder, 7 elbow, 5 wrist, 5 digit, and 2 intrinsic hand muscles. Microstimulation (15 μA at 15 Hz) was delivered throughout the movement task. From 297 stimulation sites in M1, a total of 2,079 poststimulus effects (PStE) were obtained including 1,398 poststimulus facilitation (PStF) effects and 681 poststimulus suppression (PStS) effects. Of the PStF effects, 60% were in distal and 40% in proximal muscles; 43% were of extensors and 47% flexors. For PStS, the corresponding numbers were 55 and 45% and 36 and 55%, respectively. M1 output effects showed extensive cofacilitation of proximal and distal muscles (96 sites, 42%) including 47 sites that facilitated at least one shoulder, elbow, and distal muscle, 45 sites that facilitated an elbow muscle and a distal muscle, and 22 sites that facilitated at least one muscle at all joints. The muscle synergies represented by outputs from these sites may serve an important role in the production of coordinated, multijoint movements. M1 output effects showed many similarities with red nucleus output although red nucleus effects were generally weaker and showed a strong bias toward facilitation of extensor muscles and a greater tendency to facilitate synergies involving muscles at noncontiguous joints.

Published

2004

31. Consistent Features in the Forelimb Representation of Primary Motor Cortex in Rhesus Macaques

Author

Michael C. Park, Abderraouf Belhaj-Saïf, Michael A. Gordon, and Paul D. Cheney

Subjects

Male, Electromyography, Wrist, Biology, Reaction Time, medicine, Animals, ARTICLE, Muscle, Skeletal, Brain Mapping, medicine.diagnostic_test, General Neuroscience, Motor Cortex, Signal Processing, Computer-Assisted, Anatomy, Macaca mulatta, Magnetic Resonance Imaging, Trunk, Electric Stimulation, Electrodes, Implanted, Forearm, medicine.anatomical_structure, Proximal Muscle, Body region, Primary motor cortex, Forelimb, Microelectrodes, Neuroscience, Motor cortex

Abstract

The purpose of this study was to systematically map the forelimb area of primary motor cortex (M1) in rhesus macaques in an effort to investigate further the organization of motor output to distal and proximal muscles. We used stimulus-triggered averaging (StTAing) of electromyographic activity to map the cortical representation of 24 simultaneously recorded forelimb muscles. StTAs were obtained by applying 15 μA stimuli to M1 sites while the monkey performed a reach and prehension task. Motor output to body regions other than the forelimb (e.g., face, trunk, and hindlimb) was identified using repetitive intracortical microstimulation to evoke movements. Detailed, muscle-based maps of M1 revealed a central core of distal (wrist, digit, and intrinsic hand) muscle representation surrounded by a “horseshoe”-shaped zone of proximal (shoulder and elbow) muscle representation. The core distal and proximal zones were separated by a relatively large region representing combinations of both distal and proximal muscles. On the basis of its size and characteristics, we argue that this zone is not simply the result of stimulus-current spread, but rather a distinct zone within the forelimb representation containing cells that specify functional synergies of distal and proximal muscles. Electrode tracks extending medially from the medial arm of the proximal muscle representation evoked trunk and hindlimb responses. No distal or proximal muscle poststimulus effects were found in this region. These results argue against the existence of a second, major noncontiguous distal or proximal forelimb representation located medially within the macaque M1 representation.

Published

2001

32. Chronic recording of EMG activity from large numbers of forelimb muscles in awake macaque monkeys

Author

Paul D. Cheney, Michael C. Park, and Abderraouf Belhaj-Saïf

Subjects

Time Factors, biology, Electromyography, General Neuroscience, Brain, Equipment Design, Prostheses and Implants, Macaca mulatta, Macaque, Motor task, medicine.anatomical_structure, biology.animal, Neural Pathways, Arm, Neural control, medicine, Animals, Implant, Wakefulness, Forelimb, Muscle, Skeletal, Psychology, Neuroscience

Abstract

Studies of the neural control of movement often require or benefit from long-term recording of EMG activity from large numbers of muscles involved in a particular motor task. While chronic recording of EMG activity has been described in a number of previous monkey studies, the number of muscles recorded has been somewhat limited and the implantation approach has been highly invasive procedures. This paper presents two EMG implant fabrication and surgical implantation methods that are suitable for use in monkeys, relatively non-traumatic and capable of simultaneous recording from 24 or more muscles.

Published

2000

33. Wait-and-see strategy compared with proactive Gamma Knife surgery in patients with intracanalicular vestibular schwannomas

Author

Jean, Régis, Romain, Carron, Michael C, Park, Outouma, Soumare, Christine, Delsanti, Jean Marc, Thomassin, and Pierre-Hugues, Roche

Subjects

Adult, Male, Auditory Threshold, Kaplan-Meier Estimate, Neuroma, Acoustic, Middle Aged, Radiosurgery, Tumor Burden, Treatment Outcome, Audiometry, Quality of Life, Humans, Female, Prospective Studies, Hearing Loss, Aged

Abstract

The roles of the wait-and-see strategy and proactive Gamma Knife surgery (GKS) in the treatment paradigm for small intracanalicular vestibular schwannomas (VSs) is still a matter of debate, especially when patients present with functional hearing. The authors compare these 2 methods.Forty-seven patients (22 men and 25 women) harboring an intracanalicular VS were followed prospectively. The mean age of the patients at the time of inclusion was 54.4 years (range 20-71 years). The mean follow-up period was 43.8 ± 40 months (range 9-222 months). Failure was defined as significant tumor growth and/or hearing deterioration that required microsurgical or radiosurgical treatment. This population was compared with a control group of 34 patients harboring a unilateral intracanalicular VS who were consecutively treated by GKS and had functional hearing at the time of radiosurgery.Of the 47 patients in the wait-and-see group, treatment failure (tumor growth requiring treatment) was observed in 35 patients (74%), although conservative treatment is still ongoing for 12 patients. Treatment failure in the control (GKS) group occurred in only 1 (3%) of 34 patients. In the wait-and-see group, there was no change in tumor size in 10 patients (21%), tumor growth in 36 patients (77%), and a mild decrease in tumor size in 1 patient (2%). Forty patients in the wait-and-see group were available for a hearing level study, which demonstrated no change in Gardner-Robertson hearing class for 24 patients (60%). Fifteen patients (38%) experienced more than 10 db of hearing loss and 2 of them became deaf. At 3, 4, and 5 years, the useful hearing preservation rates were 75%, 52%, and 41% in the wait-and-see group and 77%, 70%, and 64% in the control group, respectively. Thus, the chances of maintaining functional hearing and avoiding further intervention were much higher in cases treated by GKS (79% and 60% at 2 and 5 years, respectively) than in cases managed by the wait-and-see strategy (43% and 14% at 2 and 5 years, respectively).These data indicate that the wait-and-see policy exposes the patient to elevated risks of tumor growth and degradation of hearing. Both events may occur independently in the mid-term period. This information must be presented to the patient. A careful sequential follow-up may be adopted when the wait-and-see strategy is chosen, but proactive GKS is recommended when hearing is still useful at the time of diagnosis. This recommendation may be a main paradigm shift in the practice of treating intracanalicular VSs.

Published

2010

34. The Future of Neural Interface Technology

Author

Michael C. Park, Marc A. Goldman, T. W. Belknap, and Gerhard Friehs

Subjects

Computer architecture, Computer science, Brain–computer interface

Published

2009

35. Stereotactic radiosurgery for functional disorders

Author

Gerhard Friehs, Marc A. Goldman, Michael C. Park, Vasilios A. Zerris, Georg Norén, and Prakash Sampath

Subjects

medicine.medical_specialty, Obsessive-Compulsive Disorder, medicine.medical_treatment, Pain, Radiosurgery, Stereotaxic Techniques, Trigeminal neuralgia, Medicine, Humans, Epilepsy surgery, Epilepsy, Movement Disorders, Essential tremor, business.industry, Thalamotomy, General Medicine, medicine.disease, Magnetic Resonance Imaging, Surgery, Stereotaxic technique, Intractable pain, Neurology (clinical), Neurosurgery, business

Abstract

✓ Stereotactic radiosurgery (SRS) with the Gamma Knife and linear accelerator has revolutionized neurosurgery over the past 20 years. The most common indications for radiosurgery today are tumors and arteriovenous malformations of the brain. Functional indications such as treatment of movement disorders or intractable pain only contribute a small percentage of treated patients. Although SRS is the only noninvasive form of treatment for functional disorders, it also has some limitations: neurophysiological confirmation of the target structure is not possible, and one therefore must rely exclusively on anatomical targeting. Furthermore, lesion sizes may vary, and shielding adjacent radiosensitive neural structures may be difficult or impossible. The most common indication for functional SRS is the treatment of trigeminal neuralgia. Radiosurgical treatment for epilepsy and certain psychiatric illnesses is performed in several centers as part of strict research protocols, and radiosurgical pallidotomy or medial thalamotomy is no longer recommended due to the high risk of complications. Radiosurgical ventrolateral thalamotomy for the treatment of tremor in patients with Parkinson disease or multiple sclerosis, as well as in the treatment of essential tremor, may be indicated for a select group of patients with advanced age, significant medical conditions that preclude treatment with open surgery, or patients who must receive anticoagulation therapy. A promising new application of SRS is high-dose radiosurgery delivered to the pituitary stalk. This treatment has already been successfully performed in several centers around the world to treat severe pain in patients with end-stage cancer.

Published

2007

36. Vagus nerve stimulation for depression: rationale, anatomical and physiological basis of efficacy and future prospects

Author

Marc A. Goldman, Lawrence H. Price, Linda L. Carpenter, Michael C. Park, and Gerhard Friehs

Subjects

business.industry, medicine.medical_treatment, medicine.disease, Vagus nerve, Epilepsy, Neurochemical, Brain stimulation, medicine, Major depressive disorder, business, Treatment-resistant depression, Neuroscience, Depression (differential diagnoses), Vagus nerve stimulation

Abstract

Treatment-resistant depression (TRD) is a major public health concern due to its high costs to society. One of the novel approaches for the treatment of depression is the vagus nerve stimulation (VNS). Therapeutic brain stimulation through delivery of pulsed electrical impulses to the left cervical vagus nerve now has established safety and efficacy as an adjunct treatment for medication-resistant epilepsy and has recently been approved as an adjunct long-term treatment for chronic or recurrent depression. There is considerable evidence from both animal and human neurochemical and neuroimaging studies, that the vagus nerve and its stimulation influence limbic and higher cortical brain regions implicated in mood disorders, providing a rationale for its possible role in the treatment of psychiatric disorders. Clinical studies (open-label and comparator with treatment in naturalistic setting) in patients with TRD have produced promising results, especially when the response rates at longer-term (one- and two-year) follow-up time points are considered. Ongoing research efforts will help determine the place of VNS in the armament of therapeutic modalities available for major depression.

Published

2007

37. Neuroanatomical localization of the 'precentral knob' with computed tomography imaging

Author

Min J. Park, Michael C. Park, Marc A. Goldman, and Gerhard Friehs

Subjects

Adult, Male, viruses, Computed tomography, Brain mapping, Lateralization of brain function, parasitic diseases, medicine, Humans, Aged, Brain Mapping, Hand function, medicine.diagnostic_test, business.industry, Motor Cortex, Magnetic resonance imaging, Anatomy, Middle Aged, Hand, Magnetic Resonance Imaging, Neuroanatomy, medicine.anatomical_structure, Surgery, Female, Neurology (clinical), Tomography, Nuclear medicine, business, Tomography, X-Ray Computed, Algorithms, Psychomotor Performance, Motor cortex

Abstract

Background/Aims: The ‘precentral knob’, a cortical representation of the motor hand function, can be identified and localized consistently using magnetic resonance imaging (MRI) and functional MRI. We present a method of indirectly identifying and localizing the Ω-shaped precentral knob using the anatomical landmarks on computed tomography (CT). Methods: CT and MRI obtained within 24 h from 10 patients undergoing a headache workup and found to be negative for any anatomical abnormalities were studied. First, the precentral knob was identified in the CT images. Then, the ‘coronal suture line’ and ‘midline’ were identified and used to measure the distance to the precentral knob on both hemispheres. MRI was used to confirm the location of the precentral knob in the CT images based on anatomical landmarks (i.e. sulcal configurations). Results: The precentral knob is located 45.1 ± 5.2 mm posterior with respect to the coronal suture line and 33.9 ± 3.4 mm lateral to the midline on the right hemisphere, and 44.6 ± 5.7 mm posterior and 33.2 ± 2.5 mm lateral on the left hemisphere. Conclusion: We present a method of consistently identifying and localizing the Ω-shaped precentral knob, a cortical representation of the motor hand function, using CT.

Published

2007

38. Interstitial docetaxel (taxotere), carmustine and combined interstitial therapy: a novel treatment for experimental malignant glioma

Author

Francesco DiMeco, Prakash Sampath, Henry Brem, Laurence D. Rhines, Betty Tyler, and Michael C. Park

Subjects

Drug, Oncology, Cancer Research, medicine.medical_specialty, Polymers, media_common.quotation_subject, Docetaxel, Placebo, Article, Central nervous system disease, In vivo, Internal medicine, Glioma, Cell Line, Tumor, Absorbable Implants, Antineoplastic Combined Chemotherapy Protocols, medicine, Animals, Humans, neoplasms, media_common, Injections, Intraventricular, Carmustine, business.industry, Brain Neoplasms, Neoplasms, Experimental, medicine.disease, Surgery, Rats, Neurology, Delayed-Action Preparations, Toxicity, Taxoids, Neurology (clinical), business, medicine.drug

Abstract

Docetaxel (Taxotere) is a hemisynthetic, anti-cancer compound with good preclinical and clinical activity in a variety of systemic neoplasms. We tested its activity against malignant gliomas using local delivery methods. Antitumor activity was assessed in vitro against human (U87 and U80 glioma) and rat brain-tumor (9L gliosarcoma and F98 glioma) cell lines. For in vivo evaluation, we incorporated docetaxel into a biodegradable polymer matrix, determined associated toxicity in the rat brain, and measured efficacy at extending survival in a rat model of malignant glioma. Also, we examined the combined local delivery of docetaxel with carmustine (BCNU) against the experimental intracranial glioma. Rats bearing intracranial 9L gliosarcomas were treated 5 days after tumor implantation with various polymers (placebo, 5% docetaxel, 3.8% BCNU, or 5% docetaxel and 3.8% BCNU combination). Animals receiving docetaxel polymers (n = 15, median survival 39.1 days) had significantly improved survival over control animals (n = 12, median survival 22.5 days, P = 0.01). Similarly, animals receiving BCNU polymers (n = 15, median survival 39.3 days, 13.3% long-term survivors) demonstrated an increase in survival compared to the controls (P = 0.04). Animals receiving the combination polymers demonstrated a modest increase in survival compared to either chemotherapeutic agent alone (n = 14, median survival 54.9 days, 28.6% long-term survivors) with markedly improved survival over controls (P = 0.003). We conclude that locally delivered docetaxel shows promise as a novel anti-glioma therapy and that the combination of drug regimens via biodegradable polymers may be a great therapeutic benefit to patients with malignant glioma.

Published

2005

39. Intracavitary chemotherapy (Gliadel) for recurrent esthesioneuroblastoma: case report and review of the literature

Author

Charles E. Weaver, Michael C. Park, John E. Donahue, and Prakash Sampath

Subjects

Adult, Cancer Research, medicine.medical_specialty, medicine.medical_treatment, Polyesters, Nose Neoplasms, Intra arterial chemotherapy, Esthesioneuroblastoma, Olfactory, Biocompatible Materials, Malignancy, Resection, Esthesioneuroblastoma, medicine, Combined Modality Therapy, Humans, Antineoplastic Agents, Alkylating, Drug Implants, Carmustine, Chemotherapy, Drug Carriers, business.industry, medicine.disease, Surgery, Radiation therapy, Treatment Outcome, Neurology, Oncology, Female, Neurology (clinical), Nasal Cavity, Neoplasm Recurrence, Local, business, Decanoic Acids, medicine.drug

Abstract

Esthesioneuroblastoma is an uncommon malignancy of the nasal vault with a treatment regimen consisting of surgical resection followed by radiotherapy for primary lesions and addition of chemotherapy for patients with advanced, recurrent or metastatic lesions. We report a case of a 39-year-old female with a history of esthesioneuroblastoma, previously treated with resection, radiation and chemotherapy, presenting with a recurrent disease that was successfully treated with re-resection and placement of Gliadel® wafers in the surgical resection cavity. The novel option of controlled-release and local delivery of a chemotherapeutic agent for treatment of recurrent esthesioneuroblastoma should be recognized and considered.

Published

2005

40. Contrasting properties of motor output from the supplementary motor area and primary motor cortex in rhesus macaques

Author

Marie-Hélène Boudrias, Paul D. Cheney, Michael C. Park, and Abderraouf Belhaj-Saïf

Subjects

Male, Cognitive Neuroscience, Movement, Electromyography, Stimulus (physiology), Efferent Pathways, Cellular and Molecular Neuroscience, medicine, Animals, Muscle, Skeletal, Motor Neurons, medicine.diagnostic_test, Supplementary motor area, Motor Cortex, SMA, Hand, Macaca mulatta, Electrodes, Implanted, medicine.anatomical_structure, Facilitation, Arm, Primary motor cortex, Forelimb, Psychology, Neuroscience, Motor cortex

Abstract

The goal of this study was to assess the motor output capabilities of the forelimb representation of the supplementary motor area (SMA) in terms of the sign, latency and strength of effects on electromyographic (EMG) activity. Stimulus triggered averages of EMG activity from 24 muscles of the forelimb were computed in SMA during a reach-to-grasp task. Poststimulus facilitation (PStF) from SMA had two distinct peaks (15.2 and 55.2 ms) and one poststimulus suppression (PStS) peak (32.4 ms). The short onset latency PStF and PStS of SMA were 5.5 and 16.8 ms longer than those of the primary motor cortex (M1). The average magnitudes (peak increase or decrease above baseline) of the short and long latency PStF and PStS from SMA at 60 microA were 13.8, 11.3 and -11.9% respectively. In comparison, M1 PStF and PStS magnitudes at 15 microA were 50.2 and -23.8%. Extrapolating M1 PStF magnitude to 60 microA yields a mean effect that is nearly 15 times greater than the mean PStF from SMA. Moreover, unlike M1, the facilitation of distal muscles from SMA was not significantly greater than the facilitation of proximal muscles. We conclude that the output from SMA to motoneurons is markedly weaker compared with M1 raising doubts about the role of SMA corticospinal neurons in the direct control of muscle activity.

Published

2005

41. Cortical motor areas and their properties: Implications for neuroprosthetics

Author

Abderraouf Belhaj-Saïf, Joanne K. Marcario, Hill-Karrer J, Michael C. Park, Brian J. McKiernan, and Paul D. Cheney

Subjects

Motor area, Neuroprosthetics, Computer science, Neuroscience

Published

2000

42. Initial Surgical Experience with an Intracortical Microelectrode Array for Brain-computer Interface Applications

Author

Jon A. Mukand, Vasilios A. Zerris, Leigh R. Hochberg, John D. Donoghue, Gerhard Friehs, David Chen, Michael C. Park, Richard D. Penn, and Marc A. Goldman

Subjects

business.industry, Medicine, Surgery, Neurology (clinical), Multielectrode array, business, Brain–computer interface, Biomedical engineering

Published

2006