Your search keyword '"Richard J. Burman"' showing total 32 results

1. All-optical reporting of inhibitory receptor driving force in the nervous system

Author

Joshua S. Selfe, Teresa J. S. Steyn, Eran F. Shorer, Richard J. Burman, Kira M. Düsterwald, Ariel Z. Kraitzick, Ahmed S. Abdelfattah, Eric R. Schreiter, Sarah E. Newey, Colin J. Akerman, and Joseph V. Raimondo

Subjects

Science

Abstract

Abstract Ionic driving forces provide the net electromotive force for ion movement across receptors, channels, and transporters, and are a fundamental property of all cells. In the nervous system, fast synaptic inhibition is mediated by chloride permeable GABAA and glycine receptors, and single-cell intracellular recordings have been the only method for estimating driving forces across these receptors (DFGABAA). Here we present a tool for quantifying inhibitory receptor driving force named ORCHID: all-Optical Reporting of CHloride Ion Driving force. We demonstrate ORCHID’s ability to provide accurate, high-throughput measurements of resting and dynamic DFGABAA from genetically targeted cell types over multiple timescales. ORCHID confirms theoretical predictions about the biophysical mechanisms that establish DFGABAA, reveals differences in DFGABAA between neurons and astrocytes, and affords the first in vivo measurements of intact DFGABAA. This work extends our understanding of inhibitory synaptic transmission and demonstrates the potential for all-optical methods to assess ionic driving forces.

Published

2024

2. Divergent paths to seizure‐like events

Author

Neela K. Codadu, Robert T. Graham, Richard J. Burman, R. Thomas Jackson‐Taylor, Joseph V. Raimondo, Andrew J. Trevelyan, and R. Ryley Parrish

Subjects

Epilepsy, ictal events, interneurons, interictal events, Physiology, QP1-981

Abstract

Abstract Much debate exists about how the brain transitions into an epileptic seizure. One source of confusion is that there are likely to be critical differences between experimental seizure models. To address this, we have compared the evolving activity patterns in two widely used in vitro models of epileptic discharges. Brain slices from young adult mice were prepared in the same way and bathed either in 0 Mg2+ or 100 µmol/L 4AP artificial cerebrospinal fluid. We have found that while local field potential recordings of epileptiform discharges in the two models appear broadly similar, patch‐clamp analysis reveals an important difference in the relative degree of glutamatergic involvement. 4AP affects parvalbumin‐expressing interneurons more than other cortical populations, destabilizing their resting state and inducing spontaneous bursting behavior. Consequently, the most prominent pattern of transient discharge (“interictal event”) in this model is almost purely GABAergic, although the transition to seizure‐like events (SLEs) involves pyramidal recruitment. In contrast, interictal discharges in 0 Mg2+ are only maintained by a very large glutamatergic component that also involves transient discharges of the interneurons. Seizure‐like events in 0 Mg2+ have significantly higher power in the high gamma frequency band (60–120Hz) than these events do in 4AP, and are greatly delayed in onset by diazepam, unlike 4AP events. We, therefore, conclude that the 0 Mg2+ and 4AP models display fundamentally different levels of glutamatergic drive, demonstrating how ostensibly similar pathological discharges can arise from different sources. We contend that similar interpretative issues will also be relevant to clinical practice.

Published

2019

3. A Comparison of Parenteral Phenobarbital vs. Parenteral Phenytoin as Second-Line Management for Pediatric Convulsive Status Epilepticus in a Resource-Limited Setting

Author

Richard J. Burman, Sally Ackermann, Alexander Shapson-Coe, Alvin Ndondo, Heloise Buys, and Jo M. Wilmshurst

Subjects

Africa, convulsive status epilepticus, management, pediatrics, phenobarbital, Neurology. Diseases of the nervous system, RC346-429

Abstract

Introduction: Pediatric convulsive status epilepticus (CSE) which is refractory to first-line benzodiazepines is a significant clinical challenge, especially within resource-limited countries. Parenteral phenobarbital is widely used in Africa as second-line agent for pediatric CSE, however evidence to support its use is limited.Purpose: This study aimed to compare the use of parenteral phenobarbital against parenteral phenytoin as a second-line agent in the management of pediatric CSE.Methodology: An open-labeled single-center randomized parallel clinical trial was undertaken which included all children (between ages of 1 month and 15 years) who presented with CSE. Children were allocated to receive either parenteral phenobarbital or parenteral phenytoin if they did not respond to first-line benzodiazepines. An intention-to-treat analysis was performed with the investigators blinded to the treatment arms. The primary outcome measure was the success of terminating CSE. Secondary outcomes included the need for admission to the pediatric intensive care unit (PICU) and breakthrough seizures during the admission. In addition, local epidemiological data was collected on the burden of pediatric CSE.Results: Between 2015 and 2018, 193 episodes of CSE from 111 children were enrolled in the study of which 144 met the study requirements. Forty-two percent had a prior history of epilepsy mostly from structural brain pathology (53%). The most common presentation was generalized CSE (65%) caused by acute injuries or infections of the central nervous system (59%), with 19% of children having febrile status epilepticus. Thirty-five percent of children required second-line management. More patients who received parenteral phenobarbital were at a significantly reduced risk of failing second-line treatment compared to those who received parenteral phenytoin (RR = 0.3, p = 0.0003). Phenobarbital also terminated refractory CSE faster (p < 0.0001). Furthermore, patients who received parenteral phenobarbital were less likely to need admission to the PICU. There was no difference between the two groups in the number of breakthrough seizures that occurred during admission.Conclusion: Overall this study supports anecdotal evidence that phenobarbital is a safe and effective second-line treatment for the management of pediatric CSE. These results advocate for parenteral phenobarbital to remain available to health care providers managing pediatric CSE in resource-limited settings.Attachments: CONSORT 2010 checklistTrial registration: NCT03650270Full trial protocol available:https://clinicaltrials.gov/ct2/show/NCT03650270?recrs=e&type=Intr&cond=Status+Epilepticus&age=0&rank=1

Published

2019

4. Time-Dependent, HIV-Tat-Induced Perturbation of Human Neurons In Vitro: Towards a Model for the Molecular Pathology of HIV-Associated Neurocognitive Disorders

Author

Kim T. Gurwitz, Richard J. Burman, Brandon D. Murugan, Shaun Garnett, Tariq Ganief, Nelson C. Soares, Joseph V. Raimondo, and Jonathan M. Blackburn

Subjects

neuronal cell culture, HIV-Tat, mass spectrometry, proteomics, whole-cell patch clamp, intrinsic neuronal properties, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

A significant proportion of human immunodeficiency virus type 1 (HIV)-positive individuals are affected by the cognitive, motor and behavioral dysfunction that characterizes HIV-associated neurocognitive disorders (HAND). While the molecular etiology of HAND remains largely uncharacterized, HIV transactivator of transcription (HIV-Tat) is thought to be an important etiological cause. Here we have used mass spectrometry (MS)-based discovery proteomics to identify the quantitative, cell-wide changes that occur when non-transformed, differentiated human neurons are treated with HIV-Tat over time. We identified over 4000 protein groups (false discovery rate

Published

2017

5. Active cortical networks promote shunting fast synaptic inhibitionin vivo

Author

Richard J. Burman, Paul J.N. Brodersen, Joseph V. Raimondo, Arjune Sen, and Colin J. Akerman

Abstract

Fast synaptic inhibition determines neuronal response properties in the mammalian brain and is mediated by chloride-permeable ionotropic GABA-A receptors (GABAARs). Despite their fundamental role, it is still not known how GABAARs signal in the intact brain. Here we usein vivogramicidin recordings to investigate synaptic GABAAR signaling in mouse cortical pyramidal neurons under conditions that preserve native transmembrane chloride gradients. In anaesthetized cortex, synaptic GABAARs exert classic hyperpolarizing effects. In contrast, GABAAR-mediated synaptic signaling in awake cortex is found to be predominantly shunting. This is due to more depolarized GABAAR equilibrium potentials (EGABAAR), which are shown to result from the high levels of synaptic activity that characterize awake cortical networks. The EGABAARobserved in awake cortex can facilitate the decoupling of local networks, which improves the ability of the network to discriminate stimuli. Our findings therefore suggest that GABAAR signaling adapts to optimize cortical functions.

Published

2023

6. Intracellular chloride regulation mediates local sleep pressure in the cortex

Author

Hannah Alfonsa, Richard J. Burman, Paul J. N. Brodersen, Sarah E. Newey, Kashif Mahfooz, Tomoko Yamagata, Marios C. Panayi, David M. Bannerman, Vladyslav V. Vyazovskiy, and Colin J. Akerman

Subjects

General Neuroscience

Abstract

Extended wakefulness is associated with reduced performance and the build-up of sleep pressure. In the cortex, this manifests as changes in network activity. These changes show local variation depending on the waking experience, and their underlying mechanisms represent targets for overcoming the effects of tiredness. Here, we reveal a central role for intracellular chloride regulation, which sets the strength of postsynaptic inhibition via GABAA receptors in cortical pyramidal neurons. Wakefulness results in depolarizing shifts in the equilibrium potential for GABAA receptors, reflecting local activity-dependent processes during waking and involving changes in chloride cotransporter activity. These changes underlie electrophysiological and behavioral markers of local sleep pressure within the cortex, including the levels of slow-wave activity during non-rapid eye movement sleep and low-frequency oscillatory activity and reduced performance levels in the sleep-deprived awake state. These findings identify chloride regulation as a crucial link between sleep-wake history, cortical activity and behavior.

Published

2022

7. Demonstrating the feasibility of digital health to support pediatric patients in South Africa

Author

Obuchinezia Anyanwu, Jo M. Wilmshurst, Richard J Burman, Elin Haf Davies, Karen Fieggen, and Sandra Komarzynski

Subjects

Wearable computer, Disease, South Africa, Wearable Electronic Devices, Epilepsy, wearable technology, Intellectual disability, medicine, Humans, RC346-429, Child, mobile health, Exercise, mHealth, Wearable technology, business.industry, refractory epilepsy, medicine.disease, Digital health, Neurology, Full‐length Original Research, Feasibility Studies, Observational study, Neurology. Diseases of the nervous system, Smartphone, Neurology (clinical), Medical emergency, business, feasibility

Abstract

Objective Resources for management of epilepsy in Africa are extremely limited reinforcing the need to develop innovative strategies for optimizing care. Studies have shown that the prevalence of epilepsy in low‐ and middle‐income countries is substantially greater than in more resourced countries. The objective of this report was to demonstrate that mobile Health (mHealth) technologies have the potential to improve the management of epilepsy in Africa. Methods The feasibility of technology‐based home monitoring was investigated in an observational study of 40 children with refractory epilepsy or epilepsy associated with intellectual disability and/or behavior difficulties in South Africa. Technology‐based home monitoring was implemented for six months. Physical activity, sleep, and heart rate were continuously monitored with a wearable device. Caregivers completed regular mobile Patient Reported Outcomes (mPROs) and reported seizures and ad hoc events using a dedicated app. Feasibility was assessed and descriptively measured for recruitment, retention, and engagement of the participants. Results The mHealth technology was able to capture important information that gives an impression of the overall experience of the children and their caregivers. Thirty‐seven participants (94.9%) reported at least one clinical event. Seventy‐nine percent of caregivers reported seizure events in their children, which were the primary event anticipated. Median engagement with the wearable device and monthly mPROs was 30.8% and 57.1%, respectively. However, most participants (87%) had to be given smartphones for them to have Bluetooth capabilities and access to the study app. Tolerability to the device was impacted by the difficult living circumstances of caregivers that induced fear of loss or theft. Significance The study showed how the use of remote patient monitoring in the form of mHealth can benefit epilepsy patients, despite highly variable engagement with the technology. The combination of mPROs and wearable devices generated informative datasets that will allow clinicians but also the children and their caregivers to better understand and manage the disease.

Published

2021

8. Precision medicine for developmental and epileptic encephalopathies in Africa – strategies for a resource-limited setting

Author

Alina I. Esterhuizen, Nicki Tiffin, Gillian Riordan, Marie Wessels, Richard J. Burman, Miriam C. Aziz, Jeffrey D. Calhoun, Jonathan Gunti, Ezra E. Amiri, Aishwarya Ramamurthy, Michael J. Bamshad, Deborah A. Nickerson, Heather C. Mefford, Raj Ramesar, Jo M. Wilmshurst, and Gemma L. Carvill

Abstract

PurposeSub-Saharan Africa bears the highest burden of epilepsy worldwide. A presumed proportion is genetic, but this aetiology is buried under the burden of infections and perinatal insults, in a setting of limited awareness and few options for testing. Children with developmental and epileptic encephalopathies (DEEs), are most severely affected by this diagnostic gap in Africa, as the rate of actionable findings is highest in DEE-associated genes.MethodsWe tested 235 genetically naïve South African children diagnosed with/possible DEE, using gene panels, exome sequencing and chromosomal microarray. Statistical comparison of electroclinical features in children with and without candidate variants was performed to identify characteristics most likely predictive of a positive genetic finding.ResultsOf 41/235 children with likely/pathogenic variants, 26/235 had variants supporting precision therapy. Multivariate regression modelling highlighted neonatal or infantile-onset seizures and movement abnormalities as predictive of a positive genetic finding. We used this, coupled with an emphasis on precision medicine outcomes, to propose the pragmatic “Think-Genetics” strategy for early recognition of a possible genetic aetiology.ConclusionOur findings emphasise the importance of an early genetic diagnosis in DEE. We designed the “Think-Genetics” strategy for early recognition, appropriate interim management and genetic testing for DEE in resource-constrained settings.

Published

2022

9. Predictive models for starting antiseizure medication withdrawal following epilepsy surgery in adults

Author

Carolina Ferreira-Atuesta, Jane de Tisi, Andrew W McEvoy, Anna Miserocchi, Jean Khoury, Ruta Yardi, Deborah T Vegh, James Butler, Hamin J Lee, Victoria Deli-Peri, Yi Yao, Feng-Peng Wang, Xiao-Bin Zhang, Lubna Shakhatreh, Pakeeran Siriratnam, Andrew Neal, Arjune Sen, Maggie Tristram, Elizabeth Varghese, Wendy Biney, William P Gray, Ana Rita Peralta, Alexandre Rainha-Campos, António J C Gonçalves-Ferreira, José Pimentel, Juan Fernando Arias, Samuel Terman, Robert Terziev, Herm J Lamberink, Kees P J Braun, Willem M Otte, Fergus J Rugg-Gunn, Walter Gonzalez, Carla Bentes, Khalid Hamandi, Terence J O’Brien, Piero Perucca, Chen Yao, Richard J Burman, Lara Jehi, John S Duncan, Josemir W Sander, Matthias Koepp, and Marian Galovic

Subjects

Neurology (clinical)

Abstract

More than half of adults with epilepsy undergoing resective epilepsy surgery achieve long-term seizure freedom and might consider withdrawing antiseizure medications. We aimed to identify predictors of seizure recurrence after starting postoperative antiseizure medication withdrawal and develop and validate predictive models. We performed an international multicentre observational cohort study in nine tertiary epilepsy referral centres. We included 850 adults who started antiseizure medication withdrawal following resective epilepsy surgery and were free of seizures other than focal non-motor aware seizures before starting antiseizure medication withdrawal. We developed a model predicting recurrent seizures, other than focal non-motor aware seizures, using Cox proportional hazards regression in a derivation cohort (n = 231). Independent predictors of seizure recurrence, other than focal non-motor aware seizures, following the start of antiseizure medication withdrawal were focal non-motor aware seizures after surgery and before withdrawal [adjusted hazard ratio (aHR) 5.5, 95% confidence interval (CI) 2.7–11.1], history of focal to bilateral tonic-clonic seizures before surgery (aHR 1.6, 95% CI 0.9–2.8), time from surgery to the start of antiseizure medication withdrawal (aHR 0.9, 95% CI 0.8–0.9) and number of antiseizure medications at time of surgery (aHR 1.2, 95% CI 0.9–1.6). Model discrimination showed a concordance statistic of 0.67 (95% CI 0.63–0.71) in the external validation cohorts (n = 500). A secondary model predicting recurrence of any seizures (including focal non-motor aware seizures) was developed and validated in a subgroup that did not have focal non-motor aware seizures before withdrawal (n = 639), showing a concordance statistic of 0.68 (95% CI 0.64–0.72). Calibration plots indicated high agreement of predicted and observed outcomes for both models. We show that simple algorithms, available as graphical nomograms and online tools (predictepilepsy.github.io), can provide probabilities of seizure outcomes after starting postoperative antiseizure medication withdrawal. These multicentre-validated models may assist clinicians when discussing antiseizure medication withdrawal after surgery with their patients.

Published

2022

10. Why won't it stop? The dynamics of benzodiazepine resistance in status epilepticus

Author

Richard J, Burman, Richard E, Rosch, Jo M, Wilmshurst, Arjune, Sen, Georgia, Ramantani, Colin J, Akerman, and Joseph V, Raimondo

Subjects

Adult, Benzodiazepines, Status Epilepticus, Humans, Anticonvulsants, Child, Receptors, GABA-A

Abstract

Status epilepticus is a life-threatening neurological emergency that affects both adults and children. Approximately 36% of episodes of status epilepticus do not respond to the current preferred first-line treatment, benzodiazepines. The proportion of episodes that are refractory to benzodiazepines is higher in low-income and middle-income countries (LMICs) than in high-income countries (HICs). Evidence suggests that longer episodes of status epilepticus alter brain physiology, thereby contributing to the emergence of benzodiazepine resistance. Such changes include alterations in GABA

Published

2022

11. The transition to status epilepticus: how the brain meets the demands of perpetual seizure activity

Author

Richard J Burman, Arjune Sen, John G. R. Jefferys, Joseph V Raimondo, and Colin J. Akerman

Subjects

Computer science, Receptor expression, Status epilepticus, 03 medical and health sciences, Epilepsy, Status Epilepticus, 0302 clinical medicine, Seizures, Network level, medicine, Animals, Humans, Seizure activity, Computational model, Transition (fiction), Brain, General Medicine, medicine.disease, Neurology, Disease Progression, Narrative review, Neurology (clinical), Nerve Net, medicine.symptom, Neuroscience, 030217 neurology & neurosurgery

Abstract

The pathophysiology leading to the development of status epilepticus (SE) remains a topic of significant scientific interest and clinical relevance. The use of multiple experimental and computational models has shown that SE relies on a complex interaction between mechanisms that operate at both a cellular and network level. In this narrative review, we will summarise the current knowledge on the factors that play a key role in allowing SE to develop and persist. These include pathological adaptations to changing ion dynamics, neuroenergetics, receptor expression and neurotransmission, which enable the brain to meet the extensive demands required to maintain ongoing synchronous hyperexcitability. We will examine how these processes converge to enable synapses to support seizure perpetuation. Lastly, we will use the concept of a perpetuating network to highlight how connections between brain regions can provide positive feedback loops that can serve to propagate seizure activity. We hope this review will collate the findings of previous research and help fuel further studies into the mechanisms that underlie how the brain can make the transition to SE.

Published

2020

12. Precision medicine for developmental and epileptic encephalopathies in Africa—strategies for a resource-limited setting

Author

Alina I. Esterhuizen, Nicki Tiffin, Gillian Riordan, Marie Wessels, Richard J. Burman, Miriam C. Aziz, Jeffrey D. Calhoun, Jonathan Gunti, Ezra E. Amiri, Aishwarya Ramamurthy, Michael J. Bamshad, Heather C. Mefford, Raj Ramesar, Jo M. Wilmshurst, Gemma L. Carvill, Suzanne M. Leal, Deborah A. Nickerson, Peter Anderson, Tamara J. Bacus, Elizabeth E. Blue, Katherine Brower, Kati J. Buckingham, Jessica X. Chong, Diana Cornejo Sánchez, Colleen P. Davis, Chayna J. Davis, Christian D. Frazar, Katherine Gomeztagle-Burgess, William W. Gordon, Martha Horike-Pyne, Jameson R. Hurless, Gail P. Jarvik, Eric Johanson, J. Thomas Kolar, Colby T. Marvin, Sean McGee, Daniel J. McGoldrick, Betselote Mekonnen, Patrick M. Nielsen, Karynne Patterson, Aparna Radhakrishnan, Matthew A. Richardson, Gwendolin T. Roote, Erica L. Ryke, Isabelle Schrauwen, Kathryn M. Shively, Joshua D. Smith, Monica Tackett, Gao Wang, Jeffrey M. Weiss, Marsha M. Wheeler, Qian Yi, and Xiaohong Zhang

Subjects

Genetics (clinical)

Abstract

Sub-Saharan Africa bears the highest burden of epilepsy worldwide. A presumed proportion is genetic, but this etiology is buried under the burden of infections and perinatal insults in a setting of limited awareness and few options for testing. Children with developmental and epileptic encephalopathies (DEEs) are most severely affected by this diagnostic gap in Africa, because the rate of actionable findings is highest in DEE-associated genes.We tested 234 genetically naive South African children diagnosed with/possible DEE using gene panels, exome sequencing, and chromosomal microarray. Statistical comparison of electroclinical features in children with and children without candidate variants was performed to identify characteristics most likely predictive of a positive genetic finding.Of the 41 (of 234) children with likely/pathogenic variants, 26 had variants supporting precision therapy. Multivariate regression modeling highlighted neonatal or infantile-onset seizures and movement abnormalities as predictive of a positive genetic finding. We used this, coupled with an emphasis on precision medicine outcomes, to propose the pragmatic "Think-Genetics" strategy for early recognition of a possible genetic etiology.Our findings emphasize the importance of an early genetic diagnosis in DEE. We designed the Think-Genetics strategy for early recognition, appropriate interim management, and genetic testing for DEE in resource-constrained settings.

Published

2023

13. Intracellular chloride regulation mediates local sleep pressure in the cortex

Author

Hannah, Alfonsa, Richard J, Burman, Paul J N, Brodersen, Sarah E, Newey, Kashif, Mahfooz, Tomoko, Yamagata, Marios C, Panayi, David M, Bannerman, Vladyslav V, Vyazovskiy, and Colin J, Akerman

Abstract

Extended wakefulness is associated with reduced performance and the build-up of sleep pressure. In the cortex, this manifests as changes in network activity. These changes show local variation depending on the waking experience, and their underlying mechanisms represent targets for overcoming the effects of tiredness. Here, we reveal a central role for intracellular chloride regulation, which sets the strength of postsynaptic inhibition via GABA

Published

2021

14. Author Correction: Why won’t it stop? The dynamics of benzodiazepine resistance in status epilepticus

Author

Richard J. Burman, Richard E. Rosch, Jo M. Wilmshurst, Arjune Sen, Georgia Ramantani, Colin J. Akerman, and Joseph V. Raimondo

Subjects

Cellular and Molecular Neuroscience, Neurology (clinical)

Published

2022

15. The Widespread Network Effects of Focal Epilepsy

Author

R. Ryley Parrish and Richard J Burman

Subjects

0301 basic medicine, Epilepsy, Kainic Acid, business.industry, General Neuroscience, medicine.disease, Epileptogenesis, Mice, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Epilepsy, Temporal Lobe, Recurrent seizures, Animals, Medicine, Epilepsies, Partial, business, Neuroscience, Research Articles, 030217 neurology & neurosurgery

Abstract

Most research on focal epilepsy focuses on mechanisms of seizure generation in the primary epileptic focus (EF). However, neurological deficits that are not directly linked to seizure activity and that may persist after focus removal are frequent. The recruitment of remote brain regions of an epileptic network (EN) is recognized as a possible cause, but a profound lack of experimental evidence exists concerning their recruitment and the type of pathological activities they exhibit. We studied the development of epileptic activities at the large-scale in male mice of the kainate model of unilateral temporal lobe epilepsy using high-density surface EEG and multiple-site intracortical recordings. We show that, along with focal spikes and fast ripples that remain localized to the injected hippocampus (i.e., the EF), a subpopulation of spikes that propagate across the brain progressively emerges even before the expression of seizures. The spatiotemporal propagation of these generalized spikes (GSs) is highly stable within and across animals, defining a large-scale EN comprising both hippocampal regions and frontal cortices. Interestingly, GSs are often concomitant with muscular twitches. In addition, while fast ripples are, as expected, highly frequent in the EF, they also emerge in remote cortical regions and in particular in frontal regions where GSs propagate. Finally, we demonstrate that these remote interictal activities are dependent on the focus in the early phase of the disease but continue to be expressed after focus silencing at later stages. Our results provide evidence that neuronal networks outside the initial focus are progressively altered during epileptogenesis. SIGNIFICANCE STATEMENT It has long been held that the epileptic focus is responsible for triggering seizures and driving interictal activities. However, focal epilepsies are associated with heterogeneous symptoms, calling into question the concept of a strictly focal disease. Using the mouse model of hippocampal sclerosis, this work demonstrates that focal epilepsy leads to the development of pathological activities specific to the epileptic condition, notably fast ripples, that appear outside of the primary epileptic focus. Whereas these activities are dependent on the focus early in the disease, focus silencing fails to control them in the chronic stage. Thus, dynamical changes specific to the epileptic condition are built up outside of the epileptic focus along with disease progression, which provides supporting evidence for network alterations in focal epilepsy.

Published

2018

16. Training South African clinician-scientists: Lessons from the University of Cape Town's intercalated programme

Author

C L Rametse, Kira M Düsterwald, Arieh A. Katz, M Setshedi, Richard J Burman, T. J. de Wet, M Amoni, and David M Favara

Subjects

Program evaluation, Male, Medical education, Biomedical Research, Universities, business.industry, Appeal, MEDLINE, General Medicine, Institutional support, Training (civil), South Africa, Education, Medical, Graduate, Workforce, Cohort, Medicine, Humans, Female, business, Training programme, Education, Medical, Undergraduate, Program Evaluation

Abstract

In 2011, the Faculty of Health Sciences at the University of Cape Town, South Africa (SA), established the Clinician-Scientist Training Programme (UCTCSTP), consisting of intercalated BMedSci Hons/MB ChB and integrated MB ChB/MSc/PhD tracks. We report and reflect on the programme's performance and challenges. The UCTCSTP has so far enrolled 71 students: 51 have received BMedSci Hons degrees and 4 have received Master's degrees, while there are 14 BMedSci Hons, 4 MSc and 4 PhD candidates. Graduates have produced significant research outputs, and many remain actively engaged in research. The UCTCSTP has been successful in encouraging a cohort of future clinician-scientists, but should aim to broaden and improve its appeal to address the need to transform and grow the SA clinical academic workforce. As graduates progress with their postgraduate clinical training, they require institutional support and guidance, which may necessitate policy reform.

Published

2019

17. Excitatory GABAergic signalling is associated with benzodiazepine resistance in status epilepticus

Author

Colin J. Akerman, Maurits van den Burg, Richard J Burman, R. Ryley Parrish, Arieh A. Katz, Alexandru Călin, Jo M. Wilmshurst, Neela K. Codadu, Andrew J. Trevelyan, John Hamin Lee, JS Selfe, Joseph V Raimondo, Sarah E. Newey, and Rebecca Wright

Subjects

0301 basic medicine, Benzodiazepine, business.industry, medicine.drug_class, GABAA receptor, Stimulation, Status epilepticus, Original Articles, Pharmacology, gamma-Aminobutyric acid, nervous system diseases, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, nervous system, Barbiturate, medicine, Phenobarbital, Neurology (clinical), medicine.symptom, business, Diazepam, 030217 neurology & neurosurgery, medicine.drug

Abstract

Status epilepticus is defined as a state of unrelenting seizure activity. Generalized convulsive status epilepticus is associated with a rapidly rising mortality rate, and thus constitutes a medical emergency. Benzodiazepines, which act as positive modulators of chloride (Cl(−)) permeable GABA(A) receptors, are indicated as first-line treatment, but this is ineffective in many cases. We found that 48% of children presenting with status epilepticus were unresponsive to benzodiazepine treatment, and critically, that the duration of status epilepticus at the time of treatment is an important predictor of non-responsiveness. We therefore investigated the cellular mechanisms that underlie acquired benzodiazepine resistance, using rodent organotypic and acute brain slices. Removing Mg(2+) ions leads to an evolving pattern of epileptiform activity, and eventually to a persistent state of repetitive discharges that strongly resembles clinical EEG recordings of status epilepticus. We found that diazepam loses its antiseizure efficacy and conversely exacerbates epileptiform activity during this stage of status epilepticus-like activity. Interestingly, a low concentration of the barbiturate phenobarbital had a similar exacerbating effect on status epilepticus-like activity, while a high concentration of phenobarbital was effective at reducing or preventing epileptiform discharges. We then show that the persistent status epilepticus-like activity is associated with a reduction in GABA(A) receptor conductance and Cl(−) extrusion capability. We explored the effect on intraneuronal Cl(−) using both gramicidin, perforated-patch clamp recordings and Cl(−) imaging. This showed that during status epilepticus-like activity, reduced Cl(−) extrusion capacity was further exacerbated by activity-dependent Cl(−) loading, resulting in a persistently high intraneuronal Cl(−). Consistent with these results, we found that optogenetic stimulation of GABAergic interneurons in the status epilepticus-like state, actually enhanced epileptiform activity in a GABA(A)R dependent manner. Together our findings describe a novel potential mechanism underlying benzodiazepine-resistant status epilepticus, with relevance to how this life-threatening condition should be managed in the clinic.

Published

2019

18. Divergent paths to seizure‐like events

Author

R. T. Jackson-Taylor, R T Graham, R. Ryley Parrish, Neela K. Codadu, Joseph V Raimondo, Richard J Burman, and Andrew J. Trevelyan

Subjects

Male, Central Nervous System, Physiology, Local field potential, 030204 cardiovascular system & hematology, Biology, lcsh:Physiology, Neurological Conditions, Disorders and Treatments, 03 medical and health sciences, Glutamatergic, Epilepsy, Bursting, Mice, Cellular and Molecular Neuroscience, 0302 clinical medicine, Organ Culture Techniques, Seizures, Physiology (medical), medicine, Animals, interictal events, Ictal, Magnesium, 4-Aminopyridine, Original Research, Resting state fMRI, lcsh:QP1-981, interneurons, Brain, medicine.disease, Mice, Inbred C57BL, Disease Models, Animal, GABAergic, Female, ictal events, Epileptic seizure, medicine.symptom, Neuroscience, 030217 neurology & neurosurgery

Abstract

Much debate exists about how the brain transitions into an epileptic seizure. One source of confusion is that there are likely to be critical differences between experimental seizure models. To address this, we have compared the evolving activity patterns in two widely used in vitro models of epileptic discharges. Brain slices from young adult mice were prepared in the same way and bathed either in 0 Mg2+ or 100 µmol/L 4AP artificial cerebrospinal fluid. We have found that while local field potential recordings of epileptiform discharges in the two models appear broadly similar, patch‐clamp analysis reveals an important difference in the relative degree of glutamatergic involvement. 4AP affects parvalbumin‐expressing interneurons more than other cortical populations, destabilizing their resting state and inducing spontaneous bursting behavior. Consequently, the most prominent pattern of transient discharge (“interictal event”) in this model is almost purely GABAergic, although the transition to seizure‐like events (SLEs) involves pyramidal recruitment. In contrast, interictal discharges in 0 Mg2+ are only maintained by a very large glutamatergic component that also involves transient discharges of the interneurons. Seizure‐like events in 0 Mg2+ have significantly higher power in the high gamma frequency band (60–120Hz) than these events do in 4AP, and are greatly delayed in onset by diazepam, unlike 4AP events. We, therefore, conclude that the 0 Mg2+ and 4AP models display fundamentally different levels of glutamatergic drive, demonstrating how ostensibly similar pathological discharges can arise from different sources. We contend that similar interpretative issues will also be relevant to clinical practice.

Published

2019

19. The battle against stem cell hype: are we doing enough? can the medical and scientific community do more to support regulatory boards in advocating ethical evidence-based medicine?

Author

Richard J Burman

Subjects

medicine.medical_specialty, lcsh:R723-726, Battle, business.industry, media_common.quotation_subject, education, lcsh:R, Public Health, Environmental and Occupational Health, Alternative medicine, Medicine (miscellaneous), lcsh:Medicine, lcsh:Medical legislation, lcsh:K3601-3611, Evidence-based medicine, Health Professions (miscellaneous), medicine, Ethical concerns, Engineering ethics, Stem cell, business, lcsh:Medical philosophy. Medical ethics, Law, media_common

Abstract

This article highlights the current controversies around stem cell research and its application in clinical medicine. It aims to discuss the ethical concerns around how corporate involvement is corrupting the ethical progression in this field of research. The author appeals to medical and scientific communities to take cognisance of current practices and to facilitate the regulation of new stem cell therapies being advertised to the public.

Published

2019

20. Divergent paths to seizure-like events

Author

R T Graham, Richard J Burman, R. Ryley Parrish, Joseph V Raimondo, Neela K. Codadu, R. T. Jackson-Taylor, and Andrew J. Trevelyan

Subjects

0303 health sciences, Resting state fMRI, Local field potential, Biology, 03 medical and health sciences, Bursting, Glutamatergic, 0302 clinical medicine, medicine, GABAergic, Ictal, Epileptic seizure, medicine.symptom, Artificial cerebrospinal fluid, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

AimMuch debate exists about how the brain transitions into an epileptic seizure. One source of confusion is that there are likely to be critical differences between experimental seizure models. To address this, we compared the evolving activity patterns in two, widely used, in vitro models of epileptic discharges.MethodsWe compared brain slices, prepared in the same way from young adult mice, that were bathed either in 0 Mg2+, or 100µM 4AP, artificial cerebrospinal fluid.ResultsWe find that while local field potential recordings of epileptiform discharges in the two models appear broadly similar, patch-clamp analysis reveals an important difference in the relative degree of glutamatergic involvement. 4AP affects parvalbumin-expressing interneurons more than other cortical populations, destabilizing their resting state and inducing spontaneous bursting behavior. Consequently, the most prominent pattern of transient discharge (“interictal event”) in this model is almost purely GABAergic, although the transition to seizure-like events (SLEs) involves pyramidal recruitment. In contrast, interictal discharges in 0 Mg2+ are only maintained by a very large glutamatergic component that also involves transient discharges of the interneurons. Seizure-like events in 0 Mg2+ have significantly higher power in the high gamma frequency band (60-120Hz) than these events do in 4AP, and are greatly delayed in onset by diazepam, unlike 4AP events.ConclusionsThe 0 Mg2+ and 4AP models display fundamentally different levels of glutamatergic drive, demonstrating how ostensibly similar pathological discharges can arise from different sources. We contend that similar interpretative issues will also be relevant to clinical practice.

Published

2019

21. Seizures in Children with HIV infection in South Africa: A retrospective case control study

Author

Jo M. Wilmshurst, L. Weise, Richard J Burman, S. Gebauer, Kathleen Walker, Kirsten A. Donald, and Faculteit Medische Wetenschappen/UMCG

Subjects

Male, Pediatrics, HIV Infections, Comorbidities, Epilepsy, South Africa, 0302 clinical medicine, ANTIRETROVIRAL THERAPY, Interquartile range, Risk Factors, Epidemiology, Medicine, Child, education.field_of_study, COMPLICATIONS, Antiretrovirals, ENCEPHALOPATHY, General Medicine, Neurology, Child, Preschool, HIV/AIDS, Anticonvulsants, Female, DRUG-INTERACTIONS, medicine.medical_specialty, Adolescent, Population, Neuroimaging, Antiviral Agents, Tuberculous meningitis, Statistics, Nonparametric, 03 medical and health sciences, EFAVIRENZ, Acquired immunodeficiency syndrome (AIDS), QUESTIONS, Seizures, Humans, education, business.industry, ILAE, Case-control study, HIV, Infant, Paediatrics, medicine.disease, Case-Control Studies, Etiology, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

Purpose Data relating to the role that Human immunodeficiency virus (HIV) contributes towards seizures in HIV-infected children is limited. The management of seizures in this group is complex due to potential interactions between antiseizure medication and antiretroviral therapies. This study explores the seizure semiology and course of a population of affected children based on questions raised from a previous epidemiological study. Methods A retrospective case-control study of all patients presenting to an HIV neurology clinic between 2008–2015 was conducted. A multinomial logistic regression model was used to identify risk factors for seizure occurrence in HIV-infected children, as well as factors associated with seizure control. Results Of 227 HIV-infected children (median 82 months, interquartile range 41–109), 52 (23%) reported a past or present history of seizures. Prior bacterial meningitis (p = 0.03, OR 12.5, 95% CI 1.2–136.1), cerebrovascular accident (CVA, p = 0. 005, OR 8.1, 95% CI 1.9–34.9) and or tuberculous meningitis (TBM, p = 0.0004) was associated with an increased risk of seizures in HIV-infected children. Generalised tonic-clonic seizures were the predominant seizure type (64%) with the majority caused by an infectious aetiology (62%). Thirty-two (62%) of these patients had epilepsy in-line with the latest diagnostic criteria. HIV-infected children with epilepsy who were treated with efavirenz were more likely to have poor seizure control (OR 23.1 95% CI 3.4–159.6, p = 0.0001). Conclusions This study provides new data highlighting the complex clinical presentation and management challenges of HIV-infected children with seizures.

Published

2019

22. Excitatory GABAergic signalling is associated with acquired benzodiazepine resistance in status epilepticus

Author

Richard J. Burman, Joshua S. Selfe, John Hamin Lee, Maurits van den Burg, Alexandru Calin, Neela K. Codadu, Rebecca Wright, Sarah E. Newey, R. Ryley Parrish, Arieh A. Katz, Joanne M. Wilmshurst, Colin J. Akerman, Andrew J. Trevelyan, and Joseph V. Raimondo

Subjects

0303 health sciences, Benzodiazepine, GABAA receptor, Chemistry, medicine.drug_class, Stimulation, Status epilepticus, Optogenetics, 03 medical and health sciences, 0302 clinical medicine, Excitatory postsynaptic potential, medicine, GABAergic, medicine.symptom, Receptor, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Status epilepticus (SE) is defined as a state of unrelenting seizure activity. Generalised convulsive SE is associated with a rapidly rising mortality rate, and thus constitutes a medical emergency. Benzodiazepines, which act as positive modulators of chloride (Cl-) permeable GABAA receptors, are indicated as first-line treatment, but this is ineffective in many cases. We found that 48% of children presenting with SE were unresponsive to benzodiazepine treatment, and critically, that the duration of SE at the time of treatment is an important predictor of non-responsiveness. We therefore investigated the cellular mechanisms that underlie acquired benzodiazepine resistance, using rodent organotypic and acute brain slices. Removing Mg2+ ions leads to an evolving pattern of epileptiform activity, and eventually to a persistent state of repetitive discharges that strongly resembles clinical EEG recordings of SE. We found that diazepam loses its antiseizure efficacy and conversely exacerbates epileptiform activity during this stage of SE-like activity. Interestingly, a low concentration of the barbiturate phenobarbital had a similar exacerbating effect on SE-like activity, whilst a high concentration of phenobarbital was effective at reducing or preventing epileptiform discharges. We then show that the persistent SE-like activity is associated with a reduction in GABAA receptor conductance and Cl- extrusion capability. We explored the effect on intraneuronal Cl- using both gramicidin, perforated-patch clamp recordings and Cl- imaging. This showed that during SE-like activity, reduced Cl- extrusion capacity was further exacerbated by activity-dependent Cl- loading, resulting in a persistently high intraneuronal Cl-. Consistent with these results, we found that optogenetic stimulation of GABAergic interneurons in the SE-like state, actually enhanced epileptiform activity in a GABAAR dependent manner. Together our findings describe a novel potential mechanism underlying benzodiazepine-resistant SE, with relevance to how this life-threatening condition should be managed in the clinic.

Published

2018

23. Author response: Biophysical models reveal the relative importance of transporter proteins and impermeant anions in chloride homeostasis

Author

Richard J Burman, Colin J. Akerman, Christopher B. Currin, Kira M Düsterwald, Alan R. Kay, and Joseph V Raimondo

Subjects

Chemistry, medicine, Biophysics, Transporter, Chloride, Homeostasis, medicine.drug

Published

2018

24. Molecular and electrophysiological features of spinocerebellar ataxia type seven in induced pluripotent stem cells

Author

Leslie J. Greenberg, Robea Ballo, Janine Scholefield, Susan H. Kidson, Sally A. Cowley, Lauren M Watson, Richard J Burman, Danielle C. Smith, Matthew J.A. Wood, and Joseph V Raimondo

Subjects

Photoreceptors, 0301 basic medicine, Sensory Receptors, Physiology, Cellular differentiation, Action Potentials, Social Sciences, Disease, Pathogenesis, South Africa, 0302 clinical medicine, Animal Cells, Medicine and Health Sciences, Psychology, Induced pluripotent stem cell, Cells, Cultured, Histone Acetyltransferases, Connective Tissue Cells, Neurons, 0303 health sciences, Multidisciplinary, Stem Cells, Cell Differentiation, Cellular Reprogramming, Phenotype, 3. Good health, Electrophysiology, Connective Tissue, Spinocerebellar ataxia, Medicine, Sensory Perception, Cellular Types, Anatomy, Neuronal Differentiation, Research Article, Signal Transduction, Genetic Markers, Pluripotency, Cell Potency, Science, Induced Pluripotent Stem Cells, Primary Cell Culture, Neurophysiology, Biology, Models, Biological, Membrane Potential, Retina, 03 medical and health sciences, Heat shock protein, medicine, Humans, Spinocerebellar Ataxias, HSP70 Heat-Shock Proteins, 030304 developmental biology, Ataxin-7, Cognitive Psychology, Biology and Life Sciences, Afferent Neurons, Cell Biology, HSP40 Heat-Shock Proteins, Fibroblasts, medicine.disease, Electrophysiological Phenomena, Biological Tissue, 030104 developmental biology, Gene Expression Regulation, Cellular Neuroscience, Cognitive Science, Perception, Trinucleotide repeat expansion, Neuroscience, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Spinocerebellar ataxia type 7 (SCA7) is an inherited neurodegenerative disease caused by a polyglutamine repeat expansion in the ATXN7 gene. Patients with this disease suffer from a degeneration of their cerebellar Purkinje neurons and retinal photoreceptors that result in a progressive ataxia and loss of vision. As with many neurodegenerative diseases, studies of pathogenesis have been hindered by a lack of disease-relevant models. To this end, we have generated induced pluripotent stem cells (iPSCs) from a cohort of SCA7 patients in South Africa. First, we differentiated the SCA7 affected iPSCs into neurons which showed evidence of a transcriptional phenotype affecting components of STAGA (ATXN7 and KAT2A) and the heat shock protein pathway (DNAJA1 and HSP70). We then performed electrophysiology on the SCA7 iPSC-derived neurons and found that these cells show features of functional aberrations. Lastly, we were able to differentiate the SCA7 iPSCs into retinal photoreceptors that also showed similar transcriptional aberrations to the SCA7 neurons. Our findings give technical insights on how iPSC-derived neurons and photoreceptors can be derived from SCA7 patients and demonstrate that these cells express molecular and electrophysiological differences that may be indicative of impaired neuronal health. We hope that these findings will contribute towards the ongoing efforts to establish the cell-derived models of neurodegenerative diseases that are needed to develop patient-specific treatments.

Published

2018

25. Treatment of infants with epilepsy: Common practices around the world

Author

William D. Gaillard, J. Helen Cross, Jo M. Wilmshurst, and Richard J Burman

Subjects

Pediatrics, medicine.medical_specialty, Evidence-based practice, medicine.medical_treatment, Global Health, Epilepsy, Dravet syndrome, medicine, Humans, Epilepsy surgery, Psychiatry, Oxcarbazepine, business.industry, Data Collection, Infant, Newborn, Infant, Carbamazepine, medicine.disease, Neurology, Anticonvulsants, Neurology (clinical), Levetiracetam, business, Ketogenic diet, medicine.drug

Abstract

SummaryObjectives High quality data to guide recommendations for infants with epilepsy are lacking. This study aimed to develop an understanding of common practice and regional variations in the treatment interventions of infants with epilepsy, and also to identify areas for further study and to highlight where common practice occurs without sound evidence. Method A survey addressed clinical treatment practice for infants with epilepsy. Alternative interventions were included. Results The survey found that most regions had similar practice for first-line interventions, except for North America, where more levetiracetam was prescribed. There was a preference for valproate as first-line therapy for generalized seizures, myoclonic seizures, and Dravet syndrome; only Oceania differed for generalized and myoclonic seizures. Phenobarbital was used for generalized and focal seizures in resource-poor and resource-equipped regions. Carbamazepine and oxcarbazepine were the preferred agents for focal seizures from all regions except North America, which uses more levetiracetam. For second- and third-line interventions, the range of choices was diverse, often with little correlation across regions. The ketogenic diet, vagus nerve stimulation, and epilepsy surgery were considered viable choices in most settings, but usually only once seizures were considered medically refractory. The survey highlighted the marked discrepancy in Africa, the one region that consistently confirmed a lack of access to these alternative interventions and to the newer antiepileptic drugs. Significance More randomized controlled trials in infants with seizures are needed to permit useful recommendations. The survey identified widespread use of levetiracetam in North America, which may be the result of effective marketing or based on good clinical practice. The widespread use of valproate may have safety implications. The lack of access to care in the African region highlighted the need for more sustained resources. Although the survey was not evidence based, the findings could be useful to support additional well-designed studies.

Published

2015

26. Biophysical models reveal the relative importance of transporter proteins and impermeant anions in chloride homeostasis

Author

Richard J Burman, Alan R. Kay, Kira M Düsterwald, Joseph V Raimondo, Colin J. Akerman, and Christopher B. Currin

Subjects

Anions, 0301 basic medicine, Mouse, chloride, QH301-705.5, KCC2, Science, Systems biology, Presynaptic inhibition, Inhibitory postsynaptic potential, Models, Biological, Chloride, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Chlorides, medicine, Homeostasis, Biology (General), 030304 developmental biology, NaK-ATPase, Neurons, 0303 health sciences, General Immunology and Microbiology, impermeant anions, Chemistry, General Neuroscience, Membrane Transport Proteins, Transporter, General Medicine, Experimental validation, synaptic inhibition, Transmembrane flux, 030104 developmental biology, cation-chloride cotransport, Biochemistry, Biophysics, Rat, Medicine, Cotransporter, 030217 neurology & neurosurgery, Research Article, Computational and Systems Biology, Neuroscience, medicine.drug

Abstract

Fast synaptic inhibition in the nervous system depends on the transmembrane flux of Cl- ions based on the neuronal Cl- driving force. Established theories regarding the determinants of Cl- driving force have recently been questioned. Here, we present biophysical models of Cl- homeostasis using the pump-leak model. Using numerical and novel analytic solutions, we demonstrate that the Na+/K+-ATPase, ion conductances, impermeant anions, electrodiffusion, water fluxes and cation-chloride cotransporters (CCCs) play roles in setting the Cl- driving force. Our models, together with experimental validation, show that while impermeant anions can contribute to setting [Cl-]i in neurons, they have a negligible effect on the driving force for Cl- locally and cell-wide. In contrast, we demonstrate that CCCs are well-suited for modulating Cl- driving force and hence inhibitory signaling in neurons. Our findings reconcile recent experimental findings and provide a framework for understanding the interplay of different chloride regulatory processes in neurons., eLife digest Cells called neurons in the brain communicate by triggering or inhibiting electrical activity in other neurons. To inhibit electrical activity, a signal from one neuron usually triggers specific receptors on the second neuron to open, which allows particles called chloride ions to flow into or out of the neuron. The force that moves chloride ions (the so-called ‘chloride driving force’) depends on two main factors. Firstly, chloride ions, like other particles, tend to move from an area where they are plentiful to areas where they are less abundant. Secondly, chloride ions are negatively charged and are therefore attracted to areas where the net charge (determined by the mix of positively and negatively charged particles) is more positive than their current position. It was previously believed that a group of proteins known as CCCs, which transport chloride ions and positive ions together across the membranes surrounding cells, sets the chloride driving force. However, it has recently been suggested that negatively charged ions that are unable to cross the membrane (or ‘impermeant anions’ for short) may set the driving force instead by contributing to the net charge across the membrane. Düsterwald et al. used a computational model of the neuron to explore these two possibilities. In the simulations, altering the activity of the CCCs led to big changes in the chloride driving force. Changing the levels of impermeant anions altered the volume of cells, but did not drive changes in the chloride driving force. This was because the flow of chloride ions across the membrane led to a compensatory change in the net charge across the membrane. Düsterwald et al. then used an experimental technique called patch-clamping in mice and rats to confirm the model’s predictions. Defects in controlling the chloride driving force in brain cells have been linked with epilepsy, stroke and other neurological diseases. Therefore, a better knowledge of these mechanisms may in future help to identify the best targets for drugs to treat such conditions.

Published

2017

27. Openspritzer: an open hardware pressure ejection system for reliably delivering picolitre volumes

Author

Buchule Mbobo, Chris Forman, Muazzam Jacobs, Hayley Tomes, Joseph V Raimondo, Richard J Burman, and Tom Baden

Subjects

0301 basic medicine, Multidisciplinary, Computer science, business.industry, Science, Channelrhodopsin, Optogenetics, Article, 3. Good health, 03 medical and health sciences, 030104 developmental biology, Medicine, business, Computer hardware

Abstract

The ability to reliably and precisely deliver picolitre volumes is an important component of biological research. Here we describe a high-performance, low-cost, open hardware pressure ejection system (Openspritzer), which can be constructed from off the shelf components. When connected to a standard micro-pipette via suitable pneumatic tubing, the device is capable of delivering minute doses of reagents to a wide range of biological and chemical systems. In this work, we characterise the performance of the device and compare it to a popular commercial system using two-photon fluorescence microscopy. We found that Openspritzer provides the same level of control over delivered reagent dose as the commercial system. Next, we demonstrate the utility of Openspritzer in a series of standard neurobiological applications. First, we used Openspritzer to deliver precise amounts of the neurotransmitters glutamate and GABA to hippocampal neurons to elicit time- and dose-precise excitatory and inhibitory responses, respectively. Second, we used Openspritzer to deliver infectious viral and bacterial agents to living tissue. Viral transfection of hippocampal interneurons with channelrhodopsin allowed for the optogenetic manipulation of hippocampal circuitry with light. Finally, we successfully used Openspritzer to infect organotypic hippocampal slice cultures with fluorescent Mycobacterium bovis bacilli. We anticipate that due to its high performance and low cost Openspritzer will be of interest to a broad range of researchers working in the life and physical sciences.

Published

2017

28. Time-Dependent, HIV-Tat-Induced Perturbation of Human Neurons

Author

Kim T, Gurwitz, Richard J, Burman, Brandon D, Murugan, Shaun, Garnett, Tariq, Ganief, Nelson C, Soares, Joseph V, Raimondo, and Jonathan M, Blackburn

Subjects

HIV-Tat, intrinsic neuronal properties, proteomics, HIV-associated neurocognitive disorders, whole-cell patch clamp, neuronal cell culture, Neuroscience, Original Research, mass spectrometry

Abstract

A significant proportion of human immunodeficiency virus type 1 (HIV)-positive individuals are affected by the cognitive, motor and behavioral dysfunction that characterizes HIV-associated neurocognitive disorders (HAND). While the molecular etiology of HAND remains largely uncharacterized, HIV transactivator of transcription (HIV-Tat) is thought to be an important etiological cause. Here we have used mass spectrometry (MS)-based discovery proteomics to identify the quantitative, cell-wide changes that occur when non-transformed, differentiated human neurons are treated with HIV-Tat over time. We identified over 4000 protein groups (false discovery rate

Published

2016

29. The attitudes of medical students to research

Author

S Randera-Rees, Daan Nel, Richard J Burman, and R. Hoffman

Subjects

Adult, Male, medicine.medical_specialty, Biomedical Research, Students, Medical, Medical psychology, Adolescent, Cross-sectional study, education, Population, Alternative medicine, MEDLINE, Likert scale, Surveys and Questionnaires, Humans, Medicine, education.field_of_study, Medical education, business.industry, General Medicine, Research opportunities, Cross-Sectional Studies, Attitude, Workforce, Female, business

Abstract

BACKGROUND: The workforce of 'physician-scientists' is ageing and decreasing in numbers. The responsibility to combat this trend rests on future generations of healthcare professionals and it is therefore valuable to evaluate medical students' attitudes towards research. OBJECTIVE: To establish the attitudes of University of Cape Town (UCT) medical students towards research and to investigate the factors influencing these attitudes. METHODS: An anonymous, cross-sectional, self-administered questionnaire was administered to medical students from years 1 to 6 studying medicine at UCT in 2011. Questions were primarily closed-ended and consisted of Likert scales. RESULTS: Out of a population of 1 195 medical students, 733 were sampled (63%); 65% were female, 53% were preclinical students (years 1 - 3) and 47% were in their clinical years (year 4 - 6). Overall, 61% of students had a positive attitude towards research and 74% felt that participation in research was important to their medical school education; 22% had been involved in voluntarily extracurricular research, 4% had presented at a scientific meeting and 3% had published in peer-reviewed journals. A number of perceived barriers to student research were identified including a lack of adequate training, time and research opportunities. CONCLUSION: Students believed that research was important and had a positive attitude towards it. However, few had been involved in voluntary research and produced work worthy of presentation and/or publication. Addressing identified barriers and improving students' attitudes may begin to reverse the trend in declining numbers of physician-scientists.

Published

2013

30. Towards guidelines for informed consent for prospective stem cell research

Author

Richard J Burman, Danielle C. Smith, Robea Ballo, Jacquie Greenberg, and Susan H. Kidson

Subjects

medicine.medical_specialty, lcsh:R723-726, business.industry, lcsh:R, Public Health, Environmental and Occupational Health, Alternative medicine, Medicine (miscellaneous), lcsh:Medicine, Legislation, lcsh:Medical legislation, lcsh:K3601-3611, Bioethics, Permission, Health Professions (miscellaneous), Clinical trial, Informed consent, Medicine, Engineering ethics, Stem cell, business, Induced pluripotent stem cell, lcsh:Medical philosophy. Medical ethics, Law

Abstract

Stem cell science is advancing at an unprecedented rate, with thousands of research papers being published every year and many clinical trials for a wide range of conditions underway as registered on ClinicalTrials.gov. This rapidly expanding and alluring field has brought with it ever more complex and multifaceted ethical issues, many of which require new guidelines, consent protocols and even change in legislation, since they do not fit comfortably in the existing bioethical regulations and protocols. Keeping up with the ethical implications of stem cell research is daunting to the expert and non-expert. We review the various types of stem cells and then focus on multipotent and pluripotent cell types, since it is these cell types that bring with them the greatest research and therapeutic potential, while concurrently delivering novel ethical conundrums. Certain key considerations are currently lacking and what is needed is how to obtain permission from individuals who donate their biological material for both scientific inquiry and eventually, for their potential therapeutic utility.

Published

2015

31. Molecular and electrophysiological features of spinocerebellar ataxia type seven in induced pluripotent stem cells.

Author

Richard J Burman, Lauren M Watson, Danielle C Smith, Joseph V Raimondo, Robea Ballo, Janine Scholefield, Sally A Cowley, Matthew J A Wood, Susan H Kidson, and Leslie J Greenberg

Subjects

Medicine, Science

Abstract

Spinocerebellar ataxia type 7 (SCA7) is an inherited neurodegenerative disease caused by a polyglutamine repeat expansion in the ATXN7 gene. Patients with this disease suffer from a degeneration of their cerebellar Purkinje neurons and retinal photoreceptors that result in a progressive ataxia and loss of vision. As with many neurodegenerative diseases, studies of pathogenesis have been hindered by a lack of disease-relevant models. To this end, we have generated induced pluripotent stem cells (iPSCs) from a cohort of SCA7 patients in South Africa. First, we differentiated the SCA7 affected iPSCs into neurons which showed evidence of a transcriptional phenotype affecting components of STAGA (ATXN7 and KAT2A) and the heat shock protein pathway (DNAJA1 and HSP70). We then performed electrophysiology on the SCA7 iPSC-derived neurons and found that these cells show features of functional aberrations. Lastly, we were able to differentiate the SCA7 iPSCs into retinal photoreceptors that also showed similar transcriptional aberrations to the SCA7 neurons. Our findings give technical insights on how iPSC-derived neurons and photoreceptors can be derived from SCA7 patients and demonstrate that these cells express molecular and electrophysiological differences that may be indicative of impaired neuronal health. We hope that these findings will contribute towards the ongoing efforts to establish the cell-derived models of neurodegenerative diseases that are needed to develop patient-specific treatments.

Published

2021

32. Biophysical models reveal the relative importance of transporter proteins and impermeant anions in chloride homeostasis

Author

Kira M Düsterwald, Christopher B Currin, Richard J Burman, Colin J Akerman, Alan R Kay, and Joseph V Raimondo

Subjects

chloride, KCC2, impermeant anions, cation-chloride cotransport, NaK-ATPase, synaptic inhibition, Medicine, Science, Biology (General), QH301-705.5

Abstract

Fast synaptic inhibition in the nervous system depends on the transmembrane flux of Cl- ions based on the neuronal Cl- driving force. Established theories regarding the determinants of Cl- driving force have recently been questioned. Here, we present biophysical models of Cl- homeostasis using the pump-leak model. Using numerical and novel analytic solutions, we demonstrate that the Na+/K+-ATPase, ion conductances, impermeant anions, electrodiffusion, water fluxes and cation-chloride cotransporters (CCCs) play roles in setting the Cl- driving force. Our models, together with experimental validation, show that while impermeant anions can contribute to setting [Cl-]i in neurons, they have a negligible effect on the driving force for Cl- locally and cell-wide. In contrast, we demonstrate that CCCs are well-suited for modulating Cl- driving force and hence inhibitory signaling in neurons. Our findings reconcile recent experimental findings and provide a framework for understanding the interplay of different chloride regulatory processes in neurons.

Published

2018