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1. Globus pallidus internus activity increases during voluntary movement in children with dystonia.

Author

Hernandez-Martin, Estefania, Kasiri, Maral, Abe, Sumiko, MacLean, Jennifer, Olaya, Joffre, Liker, Mark, Chu, Jason, and Sanger, Terence

Subjects
Neurology, Neuroscience, Pathophysiology
Abstract

The rate model of basal ganglia function predicts that muscle activity in dystonia is due to disinhibition of thalamus resulting from decreased inhibitory input from pallidum. We seek to test this hypothesis in children with dyskinetic cerebral palsy undergoing evaluation for deep brain stimulation (DBS) to analyze movement-related activity in different brain regions. The results revealed prominent beta-band frequency peaks in the globus pallidus interna (GPi), ventral oralis anterior/posterior (VoaVop) subnuclei of the thalamus, and subthalamic nucleus (STN) during movement but not at rest. Connectivity analysis indicated stronger coupling between STN-VoaVop and STN-GPi compared to GPi-STN. These findings contradict the hypothesis of decreased thalamic inhibition in dystonia, suggesting that abnormal patterns of inhibition and disinhibition, rather than reduced GPi activity, contribute to the disorder. Additionally, the study implies that correcting abnormalities in GPi function may explain the effectiveness of DBS targeting the STN and GPi in treating dystonia.

Published
2023

2. Impact of COVID-19 pandemic on pediatric healthcare burnout in acute care: a longitudinal study

Author

Martin, Sarah R, Heyming, Theodore, Morphew, Tricia, Sayrs, Lois, Fortier, Michelle A, Sanger, Terence, and Kain, Zeev N

Subjects
Health Services, Pediatric, Clinical Research, Good Health and Well Being, Paediatrics and Reproductive Medicine, Public Health and Health Services, Pediatrics
Abstract

BackgroundCOVID-19 pandemic introduced significant challenges that may have exacerbated healthcare worker (HCW) burnout. To date, assessments of burnout during COVID-19 pandemic have been cross-sectional, limiting our understanding of changes in burnout. This longitudinal study assessed change across time in pediatric HCW burnout during the COVID-19 pandemic and whether demographic and psychological factors were associated with changes in burnout.MethodsThis longitudinal study included 162 physicians, physician assistants, nurses, and medical technicians within the emergency department (ED), intensive care, perioperative, and inter-hospital transport services in a children's hospital. HCW demographics, anxiety and personality traits were reported via validated measures. HCWs completed the Maslach Burnout Inventory in April 2020 and March 2021. Data were analyzed using generalized estimating equations.ResultsThe percentage of HCWs reporting high emotional exhaustion and/or depersonalization burnout increased significantly across time (18.5% to 28.4%, P = 0.010). Factors associated with increased emotional exhaustion included working in the ED (P = 0.011) or perioperative department (P

Published
2023

3. What is the effect of benzodiazepines on deep brain activity? A study in pediatric patients with dystonia.

Author

Hernandez-Martin, Estefania, Vidmark, Jessica, MacLean, Jennifer, and Sanger, Terence

Subjects
benzodiazepines, deep brain stimulation, dystonia, evoked potential, frequency analysis
Abstract

INTRODUCTION: Benzodiazepines (BDZs) are commonly used to treat the symptoms of movement disorders; however, deep brain stimulation (DBS) has become a popular treatment for these disorders. Previous studies have investigated the effects of BDZ on cortical activity, no data are currently available on their effects on deep brain regions, nor on these regions responses to DBS. How the BDZ affects the thalamus and basal ganglia in dystonia patients remains unknown. METHODS: DBS recordings were performed in ventral oralis anterior/posterior (VoaVop), ventral intermediate (VIM) and ventral anterior (VA) thalamic subnuclei, as well as globus pallidus interna (GPi) and subthalamic nucleus (STN). Evoked potentials (EP) and frequency domain analysis were performed to determine the BDZ effect on neural activities compared to the control condition (off-BDZ). Three male pediatric patients with dystonia treated with BDZ and undergoing depth electrode evaluation for clinical targeting were recruited for the study. Stimulation was administered at 25 and 55 Hz frequencies and recordings were simultaneously gathered through pairs of externalized stereoelectroencephalography (sEEG) electrodes. EP amplitude and the effect of stimulation on the frequency spectrum of activity were compared at baseline and following clinical administration of BDZ. RESULTS: Frequency analysis showed consistent reductions in activity during BDZ treatment in all studied brain regions for all patients. Evoked potential (EP) analysis showed increased subthalamic nucleus (STN) EP amplitude and decreased ventral intermediate (VIM) and STN EP amplitude during BDZ treatment. INTERPRETATION: BDZs reduce thalamic and basal ganglia activity in multiple regions and alter the efficacy of transmission between these regions. While the mechanism is unknown our results confirm the known widespread effects of this class of medications and identify specific areas within the motor system that are directly affected.

Published
2023

4. Novel utilization of deep brain stimulation in the pedunculopontine nucleus with globus pallidus internus for treatment of childhood-onset dystonia.

Author

MacLean, Jennifer, Nataraj, Jaya, Davies, Jordan, Zakharova, Aleksandra, Kurtz, Joshua, Liker, Mark, Olaya, Joffre, and Sanger, Terence

Subjects
deep brain stimulation, dystonia, orofacial dyskinesia, pediatrics, pedunculopontine nucleus, stereotaxy
Abstract

INTRODUCTION: Deep brain stimulation (DBS) is a well-documented therapy for dystonia utilized in many adult and pediatric movement disorders. Pedunculopontine nucleus (PPN) has been investigated as a DBS target primarily in adult patients with dystonia or dyskinesias from Parkinsons disease, showing improvement in postural instability and gait dysfunction. Due to the difficulty in targeting PPN using standard techniques, it is not commonly chosen as a target for adult or pediatric pathology. There is no current literature describing the targeting of PPN in DBS for childhood-onset dystonia. METHODS: Two pediatric and one young adult patient with childhood-onset dystonia who underwent DBS implantation at our institution were identified. Patient 1 has Mitochondrial Enoyl CoA Reductase Protein-Associated Neurodegeneration (MEPAN) syndrome. Patient 2 has Glutaric Aciduria Type 1 (GA1). Patient 3 has atypical pantothenate kinase-associated neurodegeneration (PKAN). PPN was identified as a potential target for these patients due to axial or orofacial dystonia. Pre- and post-operative videos taken as part of routine clinical assessments were evaluated and scored on the Burke-Fahn-Marsden Dystonia Rating Scale (BFMDRS) and Barry-Albright Dystonia Scale (BADS). All patients had permanent electrodes placed bilaterally in PPN and globus pallidus internus (GPi). A Likert scale on quality of life was also obtained from the patient/parents as applicable. RESULTS: Significant programming was necessary over the first 3-12 months to optimize patients response to stimulation. All patients experienced at least a 34% improvement in the BFMDRS score. Patients 2 and 3 also experienced an over 30% improvement in BADS score. All patients/parents appreciated improvement in quality of life postoperatively. DISCUSSION: Deep brain stimulation in PPN was safely and successfully used in two pediatric patients and one young adult patient with childhood-onset dystonia. These patients showed clinically significant improvements in BFMDRS scoring post operatively. This represents the first reported DBS targeting of PPN in pediatric patients, and suggests that PPN is a possible target for pediatric-onset dystonia with axial and orofacial symptoms that may be refractory to traditional pallidal stimulation alone.

Published
2023

5. Application of deep brain stimulation for the treatment of childhood-onset dystonia in patients with MEPAN syndrome.

Author

Nataraj, Jaya, MacLean, Jennifer, Davies, Jordan, Kurtz, Joshua, Salisbury, Amanda, Liker, Mark, Sanger, Terence, and Olaya, Joffre

Subjects
MECR, MEPAN, deep brain stimulation, dystonia, pediatrics
Abstract

INTRODUCTION: Mitochondrial Enoyl CoA Reductase Protein-Associated Neurodegeneration (MEPAN) syndrome is a rare inherited metabolic condition caused by MECR gene mutations. This gene encodes a protein essential for fatty acid synthesis, and defects cause progressively worsening childhood-onset dystonia, optic atrophy, and basal ganglia abnormalities. Deep brain stimulation (DBS) has shown mixed improvement in other childhood-onset dystonia conditions. To the best of our knowledge, DBS has not been investigated as a treatment for dystonia in patients with MEPAN syndrome. METHODS: Two children with MEPAN were identified as possible DBS candidates due to severe generalized dystonia unresponsive to pharmacotherapy. Temporary depth electrodes were placed in six locations bilaterally and tested during a 6-day hospitalization to determine the best locations for permanent electrode placement. The Burke-Fahn-Marsden Dystonia Rating Scale (BFMDRS) and Barry-Albright Dystonia Scale (BADS) were used for preoperative and postoperative testing to quantitatively assess dystonia severity changes. Patient 1 had permanent electrodes placed at the globus pallidus internus (GPi) and pedunculopontine nucleus (PPN). Patient 2 had permanent electrodes placed at the GPi and ventralis intermedius nucleus of the thalamus (VIM). RESULTS: Both patients successfully underwent DBS placement with no perioperative complications and significant improvement in their BFMDRS score. Patient 2 also demonstrated improvement in the BADS. DISCUSSION: We demonstrated a novel application of DBS in MEPAN syndrome patients with childhood-onset dystonia. These patients showed clinically significant improvements in dystonia following DBS, indicating that DBS can be considered for dystonia in patients with rare metabolic disorders that currently have no other proven treatment options.

Published
2023

7. Association of Congenital and Acquired Cardiovascular Conditions With COVID-19 Severity Among Pediatric Patients in the US

Author

Ehwerhemuepha, Louis, Roth, Bradley, Patel, Anita K, Heutlinger, Olivia, Heffernan, Carly, Arrieta, Antonio C, Sanger, Terence, Cooper, Dan M, Shahbaba, Babak, Chang, Anthony C, Feaster, William, Taraman, Sharief, Morizono, Hiroki, and Marano, Rachel

Subjects
Cardiovascular, Pediatric, Prevention, Clinical Research, Heart Disease, Good Health and Well Being, Adolescent, COVID-19, Child, Child, Preschool, Female, Heart Arrest, Hospital Mortality, Humans, Male, Retrospective Studies, SARS-CoV-2
Abstract

ImportanceIdentifying the associations between severe COVID-19 and individual cardiovascular conditions in pediatric patients may inform treatment.ObjectiveTo assess the association between previous or preexisting cardiovascular conditions and severity of COVID-19 in pediatric patients.Design, setting, and participantsThis retrospective cohort study used data from a large, multicenter, electronic health records database in the US. The cohort included patients aged 2 months to 17 years with a laboratory-confirmed diagnosis of COVID-19 or a diagnosis code indicating infection or exposure to SARS-CoV-2 at 85 health systems between March 1, 2020, and January 31, 2021.ExposuresDiagnoses for 26 cardiovascular conditions between January 1, 2015, and December 31, 2019 (before infection with SARS-CoV-2).Main outcomes and measuresThe main outcome was severe COVID-19, defined as need for supplemental oxygen or in-hospital death. Mixed-effects, random intercept logistic regression modeling assessed the significance and magnitude of associations between 26 cardiovascular conditions and COVID-19 severity. Multiple comparison adjustment was performed using the Benjamini-Hochberg false discovery rate procedure.ResultsThe study comprised 171 416 pediatric patients; the median age was 8 years (IQR, 2-14 years), and 50.28% were male. Of these patients, 17 065 (9.96%) had severe COVID-19. The random intercept model showed that the following cardiovascular conditions were associated with severe COVID-19: cardiac arrest (odds ratio [OR], 9.92; 95% CI, 6.93-14.20), cardiogenic shock (OR, 3.07; 95% CI, 1.90-4.96), heart surgery (OR, 3.04; 95% CI, 2.26-4.08), cardiopulmonary disease (OR, 1.91; 95% CI, 1.56-2.34), heart failure (OR, 1.82; 95% CI, 1.46-2.26), hypotension (OR, 1.57; 95% CI, 1.38-1.79), nontraumatic cerebral hemorrhage (OR, 1.54; 95% CI, 1.24-1.91), pericarditis (OR, 1.50; 95% CI, 1.17-1.94), simple biventricular defects (OR, 1.45; 95% CI, 1.29-1.62), venous embolism and thrombosis (OR, 1.39; 95% CI, 1.11-1.73), other hypertensive disorders (OR, 1.34; 95% CI, 1.09-1.63), complex biventricular defects (OR, 1.33; 95% CI, 1.14-1.54), and essential primary hypertension (OR, 1.22; 95% CI, 1.08-1.38). Furthermore, 194 of 258 patients (75.19%) with a history of cardiac arrest were younger than 12 years.Conclusions and relevanceThe findings suggest that some previous or preexisting cardiovascular conditions are associated with increased severity of COVID-19 among pediatric patients in the US and that morbidity may be increased among individuals children younger than 12 years with previous cardiac arrest.

Published
2022

8. Personalizing User Engagement Dynamics in a Non-Verbal Communication Game for Cerebral Palsy

Author

Dennler, Nathaniel, Yunis, Catherine, Realmuto, Jonathan, Sanger, Terence, Nikolaidis, Stefanos, and Matarić, Maja

Subjects
Computer Science - Robotics
Abstract

Children and adults with cerebral palsy (CP) can have involuntary upper limb movements as a consequence of the symptoms that characterize their motor disability, leading to difficulties in communicating with caretakers and peers. We describe how a socially assistive robot may help individuals with CP to practice non-verbal communicative gestures using an active orthosis in a one-on-one number-guessing game. We performed a user study and data collection with participants with CP; we found that participants preferred an embodied robot over a screen-based agent, and we used the participant data to train personalized models of participant engagement dynamics that can be used to select personalized robot actions. Our work highlights the benefit of personalized models in the engagement of users with CP with a socially assistive robot and offers design insights for future work in this area., Comment: 7 pages, 6 figures. Accepted to IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN) 2021

Published
2021

9. Increased movement-related signals in both basal ganglia and cerebellar output pathways in two children with dystonia.

Author

Hernandez-Martin, Estefania, Arguelles, Enrique, Liker, Mark, Robison, Aaron, and Sanger, Terence

Subjects
cyclic drawing task, deep brain signals, deep brain stimulation, movement disorders, muscle signals
Abstract

The contribution of different brain regions to movement abnormalities in children with dystonia is unknown. Three awake subjects undergoing depth electrode implantation for assessments of potential deep brain recording targets performed a rhythmic figure-8 drawing task. Two subjects had dystonia, one was undergoing testing for treatment of Tourette Syndrome and had neither dystonia nor abnormal movements during testing. Movement-related signals were evaluated by determining the magnitude of task-related frequency components. Brain signals were recorded in globus pallidus internus (GPi), the ventral oralis anterior/posterior (VoaVop) and the ventral intermediate (Vim) nuclei of the thalamus. In comparison to the subject without dystonia, both children with dystonia showed increased task-related activity in GPi and Vim. This finding is consistent with a role of both basal ganglia and cerebellar outputs in the pathogenesis of dystonia. Our results further suggest that frequency analysis of brain recordings during cyclic movements may be a useful tool for analysis of the presence of movement-related signals in various brain regions.

Published
2022

10. Assisting Forearm Function in Children With Movement Disorders via A Soft Wearable Robot With Equilibrium-Point Control

Author

Realmuto, Jonathan and Sanger, Terence D

Subjects
Information and Computing Sciences, Human-Centred Computing, Engineering, Control Engineering, Mechatronics and Robotics, Clinical Research, Bioengineering, wearable robotics, soft robotics, human-robot interaction, reflexes, equilibrium-point control, proprioception, human–robot interaction, Artificial Intelligence and Image Processing, Electrical and Electronic Engineering, Information and computing sciences
Abstract

Wearable robots are envisioned to amplify the independence of people with movement impairments by providing daily physical assistance. For portable, comfortable, and safe devices, soft pneumatic-based robots are emerging as a potential solution. However, due to the inherent complexities, including compliance and nonlinear mechanical behavior, feedback control for facilitating human-robot interaction remains a challenge. Herein, we present the design, fabrication, and control architecture of a soft wearable robot that assists in supination and pronation of the forearm. The soft wearable robot integrates an antagonistic pair of pneumatic-based helical actuators to provide active pronation and supination torques. Our main contribution is a bio-inspired equilibrium-point control scheme for integrating proprioceptive feedback and exteroceptive input (e.g., the user's muscle activation signals) directly with the on/off valve behavior of the soft pneumatic actuators. The proposed human-robot controller is directly inspired by the equilibrium-point hypothesis of motor control, which suggests that voluntary movements arise through shifts in the equilibrium state of the antagonistic muscle pair spanning a joint. We hypothesized that the proposed method would reduce the required effort during dynamic manipulation without affecting the error. In order to evaluate our proposed method, we recruited seven pediatric participants with movement disorders to perform two dynamic interaction tasks with a haptic manipulandum. Each task required the participant to track a sinusoidal trajectory while the haptic manipulandum behaved as a Spring-Dominate system or Inertia-Dominate system. Our results reveal that the soft wearable robot, when active, reduced user effort on average by 14%. This work demonstrates the practical implementation of an equilibrium-point volitional controller for wearable robots and provides a foundational path toward versatile, low-cost, and soft wearable robots.

Published
2022

11. Recurrent SARS-CoV-2 Serology Testing and Pandemic Anxiety: A Study of Pediatric Healthcare Workers

Author

Li, Natasha, Martin, Sarah R, Heyming, Theodore W, Knudsen-Robbins, Chloe, Sanger, Terence, and Kain, Zeev N

Subjects
Health Services and Systems, Biomedical and Clinical Sciences, Clinical Sciences, Health Sciences, Health Services, Vaccine Related, Biodefense, Prevention, Clinical Research, Emerging Infectious Diseases, Good Health and Well Being, Antibodies, Viral, Anxiety, COVID-19, COVID-19 Testing, Child, Female, Health Personnel, Humans, Longitudinal Studies, Male, Pandemics, SARS-CoV-2, anxiety, pediatrics, antibody testing, Toxicology
Abstract

Background: Limited access to SARS-CoV-2 testing has been identified as a potential source of anxiety among healthcare workers (HCWs), but the impact of repeated testing on pandemic-related anxiety in pediatric HCWs has not been examined. We sought to understand the impact of repeated SARS-CoV-2 antibody testing on pediatric HCWs’ COVID-19 anxiety. Methods: This longitudinal cohort study was conducted between April and July 2020. Participants, 362 pediatric HCWs, underwent rapid SARS-CoV-2 antibody testing either every 96 h or weekly and were asked to rate their COVID-19 anxiety on a visual analog scale. Changes in self-reported anxiety from the study baseline were calculated for each testing day response. Bivariate analyses, repeated measures, and logistic regression analyses were performed to examine demographics associated with changes in anxiety. Results: Baseline COVID-19 anxiety was significantly higher in HCWs with less than 10 years of experience (Z = −2.63, p = 0.009), in females compared to males (Z = −3.66 p < 0.001), and in nurses compared to other HCWs (F (3,302) = 6.04, p = 0.003). After excluding participants who received a positive test result, repeated measures analyses indicated that anxiety decreased over time (F (5,835) = 3.14, p = 0.008). Of the HCWs who reported decreased anxiety, 57 (29.8%) had a clinically meaningful decrease (≥30%) and Emergency Department (ED) HCWs were 1.97 times more likely to report a clinically meaningful decrease in anxiety (X2 (1) = 5.05, p = 0.025). Conclusions: The results suggest that repeated SARS-CoV-2 antibody serology testing is associated with decreased COVID-19 anxiety in HCWs. Routine screening for the disease may be a helpful strategy in attenuating pandemic-related anxiety in pediatric HCWs.

Published
2022

12. Rapid antibody testing for SARS-CoV-2 vaccine response in pediatric healthcare workers.

Author

Heyming, Theodore, Nugent, Diane, Tongol, Aprille, Knudsen-Robbins, Chloe, Hoang, Janet, Schomberg, John, Bacon, Kellie, Lara, Bryan, and Sanger, Terence

Subjects
COVID-19, Pediatric healthcare workers, SARS-CoV-2, SARS-CoV-2 vaccine, 2019-nCoV Vaccine mRNA-1273, Antibodies, Viral, BNT162 Vaccine, COVID-19, COVID-19 Vaccines, Health Personnel, Humans, Pediatrics, Spike Glycoprotein, Coronavirus
Abstract

BACKGROUND: The durability of the immune response to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccination remains unknown. The objective of this study was to evaluate a rapid SARS-CoV-2 IgM/IgG antibody detection kit as a qualitative screen for the humoral response to vaccination. METHODS: Study participants (n = 125) included pediatric healthcare workers (HCWs) who had received two doses of BNT162b2 or mRNA-1273. Participants were tested on study entry (March 12, 2021 to April 9, 2021). The mean number of days post second dose was 22 (range 17-36). Participants were tested for IgM/IgG antibodies to the SARS-CoV-2 spike protein with the RightSign COVID-19 IgG/IgM Rapid Test Cassette. ELISA/competitive inhibition ELISA (CI-ELISA) were subsequently run to assess for the neutralization effect and SARS-CoV-2 anti-nucleocapsid IgM/IgG antibodies. RESULTS: Overall, 98.4% of participants were IgG-positive and 0.8% were IgM-positive on rapid RightSign testing. Of those with IgG-positive results, 100% were anti-spike protein IgG-positive on CI-ELISA; none of those who tested IgG-negative via the rapid test were IgG-positive on CI-ELISA. All HCWs who tested RightSign positive demonstrated neutralizing capability on CI-ELISA. Overall, 1.6% demonstrated anti-nucleocapsid IgM antibodies and 5.6% demonstrated anti-nucleocapsid IgG antibodies. CONCLUSIONS: The strong agreement between the rapid RightSign IgG results and confirmatory CI-ELISA testing suggests that this test may be used to assess for positive, and neutralizing, antibody responses to SARS-CoV-2 mRNA vaccination.

Published
2021

13. Transient Complete Resolution of Tourette Syndrome Symptoms Following Personalized Depth Electrode Placement.

Author

MacLean, Jennifer, Ferman, Diana, Chu, Jason, Liker, Mark, and Sanger, Terence

Subjects
Tourette syndrome, deep brain stimulation, pediatric, stereo EEG, targeting
Abstract

Treatment refractory Tourette syndrome has been shown to be improved with deep brain stimulation, but with multiple possible stimulation locations and variable and incomplete benefit. This study presents a single case of complete amelioration of motor and verbal tics in a patient with Tourette syndrome during placement of 12 stereo-EEG electrodes to identify optimal targets for permanent stimulating electrodes. Subsequently, substantial improvement in motor and verbal tic frequency occurred with placement and programming of permanent electrodes in bilateral globus pallidus internus and nucleus accumbens, but without the complete resolution seen during depth electrode placement. We suggest that simultaneous stimulation at multiple patient-specific targets could provide effective control of Tourette symptomatology, but further study will be needed.

Published
2021

14. SARS-CoV-2 Serology Testing in an Asymptomatic, At-Risk Population: Methods, Results, Pitfalls.

Author

Heyming, Theodore, Bacon, Kellie, Lara, Bryan, Knudsen-Robbins, Chloe, Tongol, Aprille, and Sanger, Terence

Subjects
COVID-19, SARS-CoV-2, antibody testing, pediatric healthcare workers
Abstract

The primary aim of this study was to determine the seroprevalence of SARS-CoV-2 antibodies in a population of pediatric healthcare workers (HCWs). This study was conducted 14 May-13 July 2020. Study participants included pediatric HCWs at a pediatric hospital with either direct patient contact or close proximity to patient-care areas. SARS-CoV-2 antibodies were assessed via the Wytcote Superbio SARS-CoV-2 IgM/IgG Antibody Fast Detection Kit and the Abbott Architect SARS-CoV-2 IgG assay. Participants underwent RT-PCR testing upon entry to the study and following rapid IgM+/IgG+ results; respiratory panel PCR (RP-PCR) was performed following IgM+ results. A total of 57 of 289 (19.7%) of participants demonstrated positive serology as assessed by the Wytcote rapid kit (12 on Day 1 and 45 throughout the study). However, only one of these participants demonstrated IgG+ serology via the Abbott assay. Two participants tested SARS-CoV-2+ via RT-PCR testing. One individual was adenovirus+ and enterovirus/rhinovirus+. In our study population, we observed a seroprevalence of SARS-CoV-2 antibodies of 0.35%. The lack of concordance between antibody tests suggests that the Wytcote rapid test kit may not be of use as a screening tool. However, the feasibility of the overall process indicates that a similar methodology may have potential for future epidemiologic surveillance.

Published
2021

15. Constraint-induced intervention as an emergent phenomenon from synaptic competition in biological systems.

Author

Sohn, Won and Sanger, Terence

Subjects
BCM theory, Constraint-induced movement therapy, Hemiplegic cerebral palsy, Spike-timing-dependent plasticity (STDP), Synaptic competition, Models, Neurological, Neuronal Plasticity, Neurons, Synapses, Visual Cortex
Abstract

The principle of constraint-induced therapy is widely practiced in rehabilitation. In hemiplegic cerebral palsy (CP) with impaired contralateral corticospinal projection due to unilateral injury, function improves after imposing a temporary constraint on limbs from the less affected hemisphere. This type of partially-reversible impairment in motor control by early brain injury bears a resemblance to the experience-dependent plastic acquisition and modification of neuronal response selectivity in the visual cortex. Previously, such mechanism was modeled within the framework of BCM (Bienenstock-Cooper-Munro) theory, a rate-based synaptic modification theory. Here, we demonstrate a minimally complex yet sufficient neural network model which provides a fundamental explanation for inter-hemispheric competition using a simplified spike-based model of information transmission and plasticity. We emulate the restoration of function in hemiplegic CP by simulating the competition between cells of the ipsilateral and contralateral corticospinal tracts. We use a high-speed hardware neural simulation to provide realistic numbers of spikes and realistic magnitudes of synaptic modification. We demonstrate that the phenomenon of constraint-induced partial reversal of hemiplegia can be modeled by simplified neural descending tracts with 2 layers of spiking neurons and synapses with spike-timing-dependent plasticity (STDP). We further demonstrate that persistent hemiplegia following unilateral cortical inactivation or deprivation is predicted by the STDP-based model but is inconsistent with BCM model. Although our model is a highly simplified and limited representation of the corticospinal system, it offers an explanation of how constraint as an intervention can help the system to escape from a suboptimal solution. This is a display of an emergent phenomenon from the synaptic competition.

Published
2021

16. High-fidelity transmission of high-frequency burst stimuli from peripheral nerve to thalamic nuclei in children with dystonia.

Author

Hernandez-Martin, Estefanía, Arguelles, Enrique, Zheng, Yifei, Deshpande, Ruta, and Sanger, Terence

Subjects
Adolescent, Adult, Child, Deep Brain Stimulation, Dystonia, Female, Humans, Male, Neural Pathways, Peripheral Nerves, Prognosis, Thalamic Nuclei, Young Adult
Abstract

High-frequency peripheral nerve stimulation has emerged as a noninvasive alternative to thalamic deep brain stimulation for some patients with essential tremor. It is not known whether such techniques might be effective for movement disorders in children, nor is the mechanism and transmission of the peripheral stimuli to central brain structures understood. This study was designed to investigate the fidelity of transmission from peripheral nerves to thalamic nuclei in children with dystonia undergoing deep brain stimulation surgery. The ventralis intermediate (VIM) thalamus nuclei showed a robust evoked response to peripheral high-frequency burst stimulation, with a greatest response magnitude to intra-burst frequencies between 50 and 100 Hz, and reliable but smaller responses up to 170 Hz. The earliest response occurred at 12-15 ms following stimulation onset, suggesting rapid high-fidelity transmission between peripheral nerve and thalamic nuclei. A high-bandwidth, low-latency transmission path from peripheral nerve to VIM thalamus is consistent with the importance of rapid and accurate sensory information for the control of coordination and movement via the cerebello-thalamo-cortical pathway. Our results suggest the possibility of non-invasive modulation of thalamic activity in children with dystonia, and therefore the possibility that a subset of children could have beneficial clinical response without the need for invasive deep brain stimulation.

Published
2021

17. Can spatial filtering separate voluntary and involuntary components in children with dyskinetic cerebral palsy?

Author

Borish, Cassie, Bertucco, Matteo, Berger, Denise, dAvella, Andrea, and Sanger, Terence

Subjects
Adolescent, Cerebral Palsy, Child, Electromyography, Female, Humans, Male, Movement, Muscle, Skeletal, Spatial Analysis
Abstract

The design of myocontrolled devices faces particular challenges in children with dyskinetic cerebral palsy because the electromyographic signal for control contains both voluntary and involuntary components. We hypothesized that voluntary and involuntary components of movements would be uncorrelated and thus detectable as different synergistic patterns of muscle activity, and that removal of the involuntary components would improve online EMG-based control. Therefore, we performed a synergy-based decomposition of EMG-guided movements, and evaluated which components were most controllable using a Fitts Law task. Similarly, we also tested which muscles were most controllable. We then tested whether removing the uncontrollable components or muscles improved overall function in terms of movement time, success rate, and throughput. We found that removal of less controllable components or muscles did not improve EMG control performance, and in many cases worsened performance. These results suggest that abnormal movement in dyskinetic CP is consistent with a pervasive distortion of voluntary movement rather than a superposition of separable voluntary and involuntary components of movement.

Published
2021

18. Provider Antibody Serology Study of Virus in the Emergency Room (PASSOVER) Study: Special Population COVID-19 Seroprevalence

Author

Heyming, Theodore W., Sanger, Terence, Tongol, Aprille, Schomberg, John, Bacon, Kellie, and Lara, Bryan

Subjects
COVID-19, seroprevalence, emergency medicine
Abstract

Introduction: Limited data on the seroprevalence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) among healthcare workers (HCW) are publicly available. In this study we sought to determine the seroprevalence of SARS-CoV-2 in a population of HCWs in a pediatric emergency department (ED).Methods: We conducted this observational cohort study from April 14–May 13, 2020 in a pediatric ED in Orange County, CA. Asymptomatic HCW ≥18 years of age were included in the study. Blood samples were obtained by fingerstick at the start of each shift. The inter-sampling interval was ≤96 hours. The primary outcome was positive seroprevalence of SARS-CoV-2 as determined with an antibody fast detection kit (Colloidal Gold, Superbio, Timisoara, Romania) for the SARS-CoV-2 immunoglobulin M/immunoglobulin G (IgM/IgG) antibody.Results: A total of 143 HCWs participated in the study. Overall SARS-CoV-2 seroprevalence was 10.5% (n = 15). Positive seroprevalence was classified as IgG only (4.9%), IgM+IgG (3.5%), or IgM only (2.1%). SARS-CoV-2 was detected by reverse transcription polymerase chain reaction RT-PCR in 0.7% of the overall study population (n = 1). Samples obtained on Day 1 indicated seropositivity in 4.2% of the study population (n = 6). Subsequent seroconversion occurred in 6.3% of participants (n = 9). The rate of seroconversion was linear with a rate of approximately one new case every two days, starting at Day 9 of the study.Conclusion: We observed a linear rate of seroconversion to SARS-CoV-2–positive status among asymptomatic HCWs who underwent daily symptom surveys and temperature screens in an environment with universal source control. Rapid antibody testing may be useful for screening for SARS-CoV-2 seropositivity in high-risk populations, such as HCWs in the ED.

Published
2021

19. Opportunities for Regulatory Changes to Promote Pediatric Device Innovation in the United States: Joint Recommendations From Pediatric Innovator Roundtables.

Author

Sanger, Terence, Chang, Anthony, Feaster, William, Taraman, Sharief, Afari, Nadine, Beauregard, Debra, Dethlefs, Brent, Ghere, Tiffani, Kabeer, Mustafa, Tolomiczenko, George, Billig, Michael, Brophy, Jon, Eskandanian, Kolaleh, Espinoza, Juan, Farrugia, Sherry, Harrison, Michael, Horvat, Christopher, Hoyen, Claudia, Koh, Chester, Komiyama, Allison, Nelson, Krista, Kulkarni, Omkar, Levy, Robert, Maher, Kevin, O'Donnell, Michael, Ponsky, Todd, Richmond, Frances, Richter, Jessica, Roy, Shuvo, Samir, Shreim, Suresh, Srinivasan, Stallworth, Charlette, Thekkedath, Usha, Toman, Kara, Wall, James, West, Leanne, and Wolff, Dawn

Subjects
Device, FDA, guidelines, pediatric, regulatory
Abstract

ObjectiveThe purpose of this report is to provide insight from pediatric stakeholders with a shared desire to facilitate a revision of the current United States regulatory pathways for the development of pediatric healthcare devices.MethodsOn August 5, 2020, a group of innovators, engineers, professors and clinicians met to discuss challenges and opportunities for the development of new medical devices for pediatric health and the importance of creating a regulatory environment that encourages and accelerates the research and development of such devices. On January 6, 2021, this group joined regulatory experts at a follow-up meeting.ResultsOne of the primary issues identified was the need to present decision-makers with opportunities that change the return-on-investment balance between adult and pediatric devices to promote investment in pediatric devices.Discussion/conclusionSeveral proposed strategies were discussed, and these strategies can be divided into two broad categories: 1. Removal of real and perceived barriers to pediatric device innovation; 2. Increasing incentives for pediatric device innovation.

Published
2021

20. Proceedings of the Seventh Annual Deep Brain Stimulation Think Tank: Advances in Neurophysiology, Adaptive DBS, Virtual Reality, Neuroethics and Technology

Author

Ramirez-Zamora, Adolfo, Giordano, James, Gunduz, Aysegul, Alcantara, Jose, Cagle, Jackson N, Cernera, Stephanie, Difuntorum, Parker, Eisinger, Robert S, Gomez, Julieth, Long, Sarah, Parks, Brandon, Wong, Joshua K, Chiu, Shannon, Patel, Bhavana, Grill, Warren M, Walker, Harrison C, Little, Simon J, Gilron, Ro’ee, Tinkhauser, Gerd, Thevathasan, Wesley, Sinclair, Nicholas C, Lozano, Andres M, Foltynie, Thomas, Fasano, Alfonso, Sheth, Sameer A, Scangos, Katherine, Sanger, Terence D, Miller, Jonathan, Brumback, Audrey C, Rajasethupathy, Priya, McIntyre, Cameron, Schlachter, Leslie, Suthana, Nanthia, Kubu, Cynthia, Sankary, Lauren R, Herrera-Ferrá, Karen, Goetz, Steven, Cheeran, Binith, Steinke, G Karl, Hess, Christopher, Almeida, Leonardo, Deeb, Wissam, Foote, Kelly D, and Okun, Michael S

Subjects
Neurosciences, Rehabilitation, Bioengineering, Assistive Technology, deep brain stimulation, stereoelectroencephalography, depression, Parkinson's disease, tremor, optogenetics, local field potentials, neuroethics, Parkinson’s disease, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

The Seventh Annual Deep Brain Stimulation (DBS) Think Tank held on September 8th of 2019 addressed the most current: (1) use and utility of complex neurophysiological signals for development of adaptive neurostimulation to improve clinical outcomes; (2) Advancements in recent neuromodulation techniques to treat neuropsychiatric disorders; (3) New developments in optogenetics and DBS; (4) The use of augmented Virtual reality (VR) and neuromodulation; (5) commercially available technologies; and (6) ethical issues arising in and from research and use of DBS. These advances serve as both "markers of progress" and challenges and opportunities for ongoing address, engagement, and deliberation as we move to improve the functional capabilities and translational value of DBS. It is in this light that these proceedings are presented to inform the field and initiate ongoing discourse. As consistent with the intent, and spirit of this, and prior DBS Think Tanks, the overarching goal is to continue to develop multidisciplinary collaborations to rapidly advance the field and ultimately improve patient outcomes.

Published
2020

22. Increasing Consistency of Evoked Response in Thalamic Nuclei During Repetitive Burst Stimulation of Peripheral Nerve in Humans

Author

Vidmark, Jessica S. L., Hernandez-Martin, Estefania, Sanger, Terence D., Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, de Bruijne, Marleen, editor, Cattin, Philippe C., editor, Cotin, Stéphane, editor, Padoy, Nicolas, editor, Speidel, Stefanie, editor, Zheng, Yefeng, editor, and Essert, Caroline, editor

Published
2021
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32. Harnessing neuroplasticity for clinical applications.

Author

Cramer, Steven C, Sur, Mriganka, Dobkin, Bruce H, O'Brien, Charles, Sanger, Terence D, Trojanowski, John Q, Rumsey, Judith M, Hicks, Ramona, Cameron, Judy, Chen, Daofen, Chen, Wen G, Cohen, Leonardo G, deCharms, Christopher, Duffy, Charles J, Eden, Guinevere F, Fetz, Eberhard E, Filart, Rosemarie, Freund, Michelle, Grant, Steven J, Haber, Suzanne, Kalivas, Peter W, Kolb, Bryan, Kramer, Arthur F, Lynch, Minda, Mayberg, Helen S, McQuillen, Patrick S, Nitkin, Ralph, Pascual-Leone, Alvaro, Reuter-Lorenz, Patricia, Schiff, Nicholas, Sharma, Anu, Shekim, Lana, Stryker, Michael, Sullivan, Edith V, and Vinogradov, Sophia

Subjects
Aging, Animals, Biomedical Research, Brain Diseases: physiopathology, therapy, Cognition Disorders: etiology, Humans, Neuronal Plasticity: physiology, Recovery of Function, Stroke: pathology, physiopathology, therapy
Abstract

Neuroplasticity can be defined as the ability of the nervous system to respond to intrinsic or extrinsic stimuli by reorganizing its structure, function and connections. Major advances in the understanding of neuroplasticity have to date yielded few established interventions. To advance the translation of neuroplasticity research towards clinical applications, the National Institutes of Health Blueprint for Neuroscience Research sponsored a workshop in 2009. Basic and clinical researchers in disciplines from central nervous system injury/stroke, mental/addictive disorders, paediatric/developmental disorders and neurodegeneration/ageing identified cardinal examples of neuroplasticity, underlying mechanisms, therapeutic implications and common denominators. Promising therapies that may enhance training-induced cognitive and motor learning, such as brain stimulation and neuropharmacological interventions, were identified, along with questions of how best to use this body of information to reduce human disability. Improved understanding of adaptive mechanisms at every level, from molecules to synapses, to networks, to behaviour, can be gained from iterative collaborations between basic and clinical researchers. Lessons can be gleaned from studying fields related to plasticity, such as development, critical periods, learning and response to disease. Improved means of assessing neuroplasticity in humans, including biomarkers for predicting and monitoring treatment response, are needed. Neuroplasticity occurs with many variations, in many forms, and in many contexts. However, common themes in plasticity that emerge across diverse central nervous system conditions include experience dependence, time sensitivity and the importance of motivation and attention. Integration of information across disciplines should enhance opportunities for the translation of neuroplasticity and circuit retraining research into effective clinical therapies.

Published
2011

35. Learning Visually Guided Risk-Aware Reaching on a Robot Controlled by a GPU Spiking Neural Network

Author

Sanger, Terence D., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Hirose, Akira, editor, Ozawa, Seiichi, editor, Doya, Kenji, editor, Ikeda, Kazushi, editor, Lee, Minho, editor, and Liu, Derong, editor

Published
2016
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36. Design and testing of a sew-free origami mask for improvised respiratory protection.

Author

Realmuto, Jonathan, Kleinman, Michael T, Sanger, Terence, Lawler, Michael J, and Smith, James N

Subjects
RESPIRATORY protective devices, MEDICAL masks, ORIGAMI, PRESSURE drop (Fluid dynamics), BREATHING apparatus, FILTERS & filtration, TEST design
Abstract

Respiratory aerosols with diameters smaller than 100 μ m have been confirmed as important vectors for the spread of diseases such as SARS-CoV-2. While disposable and cloth masks afford some protection, they are typically inefficient at filtering these aerosols and require specialized fabrication devices to produce. We describe a fabrication technique that makes use of a folding procedure (origami) to transform any filtration material into a mask. These origami masks can be fabricated by non-experts at minimal cost and effort, provide adequate filtration efficiencies, and are easily scaled to different facial sizes. Using a mannequin fit test simulator, we demonstrate that these masks can provide filtration efficiencies of over 90% while simultaneously providing greater comfort as demonstrated by pressure drops of <20 Pa. We also quantify mask leakage by measuring the variations in filtration efficiency and pressure drop when masks are sealed to the mannequin face compared to when the mask is unsealed but positioned to achieve the best fit. While leakage generally trended with pressure drop, some of the best performing mask media achieved <10% reduction in filtration efficiency due to leakage. Because this mask can provide high filtration efficiencies at low pressure drop compared to commercial alternatives, it is likely to promote greater mask wearing tolerance and acceptance. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Stereotactic Awake Basal Ganglia Electrophysiological Recording and Stimulation (SABERS): A Novel Staged Procedure for Personalized Targeting of Deep Brain Stimulation in Pediatric Movement and Neuropsychiatric Disorders.

Author

Liker, Mark A., Sanger, Terence D., MacLean, Jennifer A., Nataraj, Jaya, Arguelles, Enrique, Krieger, Mark, Robison, Aaron, and Olaya, Joffre

Subjects
*DEEP brain stimulation, *BASAL ganglia, *STEREOTAXIC techniques, *NEUROBEHAVIORAL disorders, *MOVEMENT disorders, *BRAIN stimulation, *ELECTROPHYSIOLOGY
Abstract

Selection of targets for deep brain stimulation (DBS) has been based on clinical experience, but inconsistent and unpredictable outcomes have limited its use in patients with heterogeneous or rare disorders. In this large case series, a novel staged procedure for neurophysiological assessment from 8 to 12 temporary depth electrodes is used to select targets for neuromodulation that are tailored to each patient's functional needs. Thirty children and young adults underwent deep brain stimulation target evaluation with the new procedure: Stereotactic Awake Basal ganglia Electrophysiological Recording and Stimulation (SABERS). Testing is performed in an inpatient neuromodulation monitoring unit over 5-7 days, and results guide the decision to proceed and the choice of targets for permanent deep brain stimulation implantation. Results were evaluated 3-6 months postoperatively with the Burke-Fahn-Marsden Dystonia Rating Scale and the Barry-Albright Dystonia Scale. Stereotactic Awake Basal ganglia Electrophysiological Recording and Stimulation testing allowed modulation to be tailored to specific neurologic deficits in a heterogeneous population, including subjects with primary dystonia, secondary dystonia, and Tourette syndrome. All but one subject were implanted with 4 permanent deep brain stimulation leads. Results showed significant improvement on both scales at postoperative follow-up. No significant adverse events occurred. Use of the Stereotactic Awake Basal ganglia Electrophysiological Recording and Stimulation protocol with evaluation in the neuromodulation monitoring unit is feasible and results in significant patient benefit compared with previously published results in these populations. This new technique supports a significant expansion of functional neurosurgery to predict effective stimulation targets in a wide range of disorders of brain function, including those for which the optimal target is not yet known. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Deep Brain Signal Transmission in Response to Exogenous Stimulation in Children with Dystonia

Author

Widmark Hillman, Jessica Sofie Louise, Sanger, Terence D1, Widmark Hillman, Jessica Sofie Louise, Widmark Hillman, Jessica Sofie Louise, Sanger, Terence D1, and Widmark Hillman, Jessica Sofie Louise

Abstract

Dystonia is a movement disorder that causes involuntary twisting and repetitive movements, which can impede the patient so much that they are unable to lead independent lives or even communicate clearly with the people around them. In recent decades, exogenous electrical stimulation, including deep brain stimulation (DBS) and peripheral nerve stimulation (PNS), has shown promising results in the treatment of movement disorders caused by abnormal neural activity. However, as with any tool, exogenous electrical stimulation is only as useful as its operator is skilled, and for optimal use, the operator must both know what to do, and how to do so. By studying the abnormal signal flow that causes dystonia, we can understand what needs to be fixed, and by studying the effects of electrical stimulation on the dystonic brain, we can learn how to control the response pattern to generate the desired effect for each individual patient. I aimed to contribute to these topics by studying neural recordings from stereo-electroencephalography (sEEG) electrodes in thalamic nuclei and basal ganglia of pediatric patients with dystonia during intracranial and peripheral electrical stimulation. My results were multifold, highlighting the complexity of the brain’s response to exogenous stimulation. I found that the initial transient neural response to exogenous stimulations differs from long-term steady state responses to constant stimulation, and that DBS evoked potentials (EPs) can be affected, in a highly heterogeneous way, by the intake of medications. I discovered novel, intricate, yet highly consistent EPs, and unearthed trends in how DBS EPs and their delay, amplitude, and even shape depends on the stimulation frequency. I helped generate models to describe the observed neural responses and even discover connections between invasive neurophysiological recordings and non-invasive imaging methods.These results were made possible by my extensive work put into developing methods to acc

Published
2023

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