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3. State-dependent effects of responsive neurostimulation depend on seizure localization.

Author

Chiang S, Khambhati AN, Tcheng TK, Loftman AP, Hasulak NR, Mirro EA, Morrell MJ, and Rao VR

Abstract

Brain-responsive neurostimulation is firmly ensconced among treatment options for drug-resistant focal epilepsy, but over a quarter of patients treated with the RNS System do not experience meaningful seizure reduction. Initial titration of RNS therapy is typically similar for all patients, raising the possibility that treatment response might be enhanced by consideration of patient-specific variables. Indeed, small, single-center studies have yielded preliminary evidence that RNS System effectiveness depends on the brain state during which stimulation is applied. The generalizability of these findings remains unclear, however, and it is unknown whether state-dependent effects of responsive neurostimulation are also stratified by location of the seizure onset zone where stimulation is delivered. We aimed to determine whether state-dependent effects of the RNS System are evident in the large, diverse, multi-center cohort of RNS System clinical trial participants and to test whether these effects differ between mesiotemporal and neocortical epilepsies. Eighty-one of 256 patients who were treated with the RNS System across 31 centers during clinical trials met criteria for inclusion in this retrospective study. Risk states were defined in relation to phases of daily and multi-day cycles of interictal epileptiform activity that are thought to determine seizure likelihood. We found that the probabilities of risk state transitions depended on the stimulation parameter being changed, the starting seizure risk state, and the stimulated brain region. Changes in two commonly adjusted stimulation parameters, charge density and stimulation frequency, produced opposite effects on risk state transitions depending on seizure localization. Greater variance in acute risk state transitions was explained by state-dependent responsive neurostimulation for bipolar stimulation for neocortical epilepsies and for monopolar stimulation for mesiotemporal epilepsies. Variability in effectiveness of RNS System therapy across individuals may relate, at least partly, to the fact that current treatment paradigms do not account fully for fluctuations in brain states or locations of simulation sites. State-dependence of electrical brain stimulation may inform development of next-generation closed-loop devices that can detect changes in brain state and deliver adaptive, localization-specific patterns of stimulation to maximize therapeutic effects., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published
2024
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4. Seizure Cycles under Pharmacotherapy.

Author

Friedrichs-Maeder C, Proix T, Tcheng TK, Skarpaas T, Rao VR, and Baud MO

Subjects
Adult, Humans, Retrospective Studies, Seizures drug therapy, Cognition, Anticonvulsants therapeutic use, Treatment Outcome, Electroencephalography, Epilepsies, Partial drug therapy
Abstract

Objective: This study was undertaken to determine the effects of antiseizure medications (ASMs) on multidien (multiday) cycles of interictal epileptiform activity (IEA) and seizures and evaluate their potential clinical significance., Methods: We retrospectively analyzed up to 10 years of data from 88 of the 256 total adults with pharmacoresistant focal epilepsy who participated in the clinical trials of the RNS System, an intracranial device that keeps records of IEA counts. Following adjunctive ASM trials, we evaluated changes over months in (1) rates of self-reported disabling seizures and (2) multidien IEA cycle strength (spectral power for periodicity between 4 and 40 days). We used a survival analysis and the receiver operating characteristics to assess changes in IEA as a predictor of seizure control., Results: Among 56 (33.3%) of the 168 adjunctive ASM trials suitable for analysis, ASM introduction was followed by an average 50 to 70% decrease in multidien IEA cycle strength and a concomitant 50 to 70% decrease in relative seizure rate for up to 12 months. Individuals with a ≥50% decrease in IEA cycle strength in the first 3 months of an ASM trial had a higher probability of remaining seizure responders (≥50% seizure rate reduction, p < 10 -7 ) or super-responders (≥90%, p < 10 -8 ) over the next 12 months., Interpretation: In this large cohort, a decrease in multidien IEA cycle strength following initiation of an adjunctive ASM correlated with seizure control for up to 12 months, suggesting that fluctuations in IEA mirror "disease activity" in pharmacoresistant focal epilepsy and may have clinical utility as a biomarker to predict treatment response. ANN NEUROL 2024;95:743-753., (© 2024 American Neurological Association.)

Published
2024
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5. Learning to generalize seizure forecasts.

Author

Leguia MG, Rao VR, Tcheng TK, Duun-Henriksen J, Kjaer TW, Proix T, and Baud MO

Subjects
Humans, Retrospective Studies, Electroencephalography, Electrocorticography, Seizures diagnosis, Epilepsy
Abstract

Objective: Epilepsy is characterized by spontaneous seizures that recur at unexpected times. Nonetheless, using years-long electroencephalographic (EEG) recordings, we previously found that patient-reported seizures consistently occur when interictal epileptiform activity (IEA) cyclically builds up over days. This multidien (multiday) interictal-ictal relationship, which is shared across patients, may bear phasic information for forecasting seizures, even if individual patterns of seizure timing are unknown. To test this rigorously in a large retrospective dataset, we pretrained algorithms on data recorded from a group of patients, and forecasted seizures in other, previously unseen patients., Methods: We used retrospective long-term data from participants (N = 159) in the RNS System clinical trials, including intracranial EEG recordings (icEEG), and from two participants in the UNEEG Medical clinical trial of a subscalp EEG system (sqEEG). Based on IEA detections, we extracted instantaneous multidien phases and trained generalized linear models (GLMs) and recurrent neural networks (RNNs) to forecast the probability of seizure occurrence at a 24-h horizon., Results: With GLMs and RNNs, seizures could be forecasted above chance in 79% and 81% of previously unseen subjects with a median discrimination of area under the curve (AUC) = .70 and .69 and median Brier skill score (BSS) = .07 and .08. In direct comparison, individualized models had similar median performance (AUC = .67, BSS = .08), but for fewer subjects (60%). Moreover, calibration of pretrained models could be maintained to accommodate different seizure rates across subjects., Significance: Our findings suggest that seizure forecasting based on multidien cycles of IEA can generalize across patients, and may drastically reduce the amount of data needed to issue forecasts for individuals who recently started collecting chronic EEG data. In addition, we show that this generalization is independent of the method used to record seizures (patient-reported vs. electrographic) or IEA (icEEG vs. sqEEG)., (© 2022 The Authors. Epilepsia published by Wiley Periodicals LLC on behalf of International League Against Epilepsy.)

Published
2023
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6. A High Accuracy Electrographic Seizure Classifier Trained Using Semi-Supervised Labeling Applied to a Large Spectrogram Dataset.

Author

Barry W, Arcot Desai S, Tcheng TK, and Morrell MJ

Abstract

The objective of this study was to explore using ECoG spectrogram images for training reliable cross-patient electrographic seizure classifiers, and to characterize the classifiers' test accuracy as a function of amount of training data. ECoG channels in ∼138,000 time-series ECoG records from 113 patients were converted to RGB spectrogram images. Using an unsupervised spectrogram image clustering technique, manual labeling of 138,000 ECoG records (each with up to 4 ECoG channels) was completed in 320 h, which is an estimated 5 times faster than manual labeling without ECoG clustering. For training supervised classifier models, five random folds of data were created; with each fold containing 72, 18, and 23 patients' data for model training, validation and testing respectively. Five convolutional neural network (CNN) architectures, including two with residual connections, were trained. Cross-patient classification accuracies and F 1 scores improved with model complexity, with the shallowest 6-layer model (with ∼1.5 million trainable parameters) producing a class-balanced seizure/non-seizure classification accuracy of 87.9% on ECoG channels and the deepest ResNet50-based model (with ∼23.5 million trainable parameters) producing a classification accuracy of 95.7%. The trained ResNet50-based model additionally had 93.5% agreement in scores with an independent expert labeller. Visual inspection of gradient-based saliency maps confirmed that the models' classifications were based on relevant portions of the spectrogram images. Further, by repeating training experiments with data from varying number of patients, it was found that ECoG spectrogram images from just 10 patients were sufficient to train ResNet50-based models with 88% cross-patient accuracy, while at least 30 patients' data was required to produce cross-patient classification accuracies of >90%., Competing Interests: WB, TT, and SA have equity ownership/stock options with NeuroPace and was current employee of NeuroPace. MM has equity ownership/stock options with NeuroPace and is currently employed as Chief Medical Officer of NeuroPace., (Copyright © 2021 Barry, Arcot Desai, Tcheng and Morrell.)

Published
2021
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7. Acute effects of brain-responsive neurostimulation in drug-resistant partial onset epilepsy.

Author

Rønborg SN, Esteller R, Tcheng TK, Greene DA, Morrell MJ, Wesenberg Kjaer T, and Arcot Desai S

Subjects
Electroencephalography, Humans, Retrospective Studies, Brain physiopathology, Deep Brain Stimulation, Drug Resistant Epilepsy physiopathology, Epilepsies, Partial physiopathology
Abstract

Objective: Understanding the acute effects of responsive stimulation (AERS) based on intracranial EEG (iEEG) recordings in ambulatory patients with drug-resistant partial epilepsy, and correlating these with changes in clinical seizure frequency, may help clinicians more efficiently optimize responsive stimulation settings., Methods: In patients implanted with the NeuroPace® RNS® System, acute changes in iEEG spectral power following active and sham stimulation periods were quantified and compared within individual iEEG channels. Additionally, acute stimulation-induced acute iEEG changes were compared within iEEG channels before and after patients experienced substantial reductions in clinical seizure frequency., Results: Responsive stimulation resulted in a 20.7% relative decrease in spectral power in the 2-4 second window following active stimulation, compared to sham stimulation. On several detection channels, the AERS features changed when clinical outcomes improved but were relatively stable otherwise. AERS change direction associated with clinical improvement was generally consistent within detection channels., Conclusions: In this retrospective analysis, patients with drug-resistant partial epilepsy treated with direct brain-responsive neurostimulation showed an acute stimulation related reduction in iEEG spectral power that was associated with reductions in clinical seizure frequency., Significance: Identifying favorable stimulation related changes in iEEG activity could help physicians to more rapidly optimize stimulation settings for each patient., Competing Interests: Declaration of Competing Interest Authors SD, TT, MM and DG are employees of NeuroPace. Author RE was an employee at NeuroPace when performing analyses for this paper. Authors SR and TK have no conflicts of interest, (Copyright © 2021 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2021
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8. Seizure Cycles in Focal Epilepsy.

Author

Leguia MG, Andrzejak RG, Rummel C, Fan JM, Mirro EA, Tcheng TK, Rao VR, and Baud MO

Subjects
Adolescent, Adult, Aged, Cohort Studies, Epilepsies, Partial diagnosis, Epilepsies, Partial therapy, Female, Humans, Implantable Neurostimulators, Male, Middle Aged, Retrospective Studies, Seizures diagnosis, Seizures therapy, Young Adult, Circadian Rhythm physiology, Electrocorticography methods, Epilepsies, Partial physiopathology, Seizures physiopathology
Abstract

Importance: Focal epilepsy is characterized by the cyclical recurrence of seizures, but, to our knowledge, the prevalence and patterns of seizure cycles are unknown., Objective: To establish the prevalence, strength, and temporal patterns of seizure cycles over timescales of hours to years., Design, Setting, and Participants: This retrospective cohort study analyzed data from continuous intracranial electroencephalography (cEEG) and seizure diaries collected between January 19, 2004, and May 18, 2018, with durations up to 10 years. A total of 222 adults with medically refractory focal epilepsy were selected from 256 total participants in a clinical trial of an implanted responsive neurostimulation device. Selection was based on availability of cEEG and/or self-reports of disabling seizures., Exposures: Antiseizure medications and responsive neurostimulation, based on clinical indications., Main Outcomes and Measures: Measures involved (1) self-reported daily seizure counts, (2) cEEG-based hourly counts of electrographic seizures, and (3) detections of interictal epileptiform activity (IEA), which fluctuates in daily (circadian) and multiday (multidien) cycles. Outcomes involved descriptive characteristics of cycles of IEA and seizures: (1) prevalence, defined as the percentage of patients with a given type of seizure cycle; (2) strength, defined as the degree of consistency with which seizures occur at certain phases of an underlying cycle, measured as the phase-locking value (PLV); and (3) seizure chronotypes, defined as patterns in seizure timing evident at the group level., Results: Of the 222 participants, 112 (50%) were male, and the median age was 35 years (range, 18-66 years). The prevalence of circannual (approximately 1 year) seizure cycles was 12% (24 of 194), the prevalence of multidien (approximately weekly to approximately monthly) seizure cycles was 60% (112 of 186), and the prevalence of circadian (approximately 24 hours) seizure cycles was 89% (76 of 85). Strengths of circadian (mean [SD] PLV, 0.34 [0.18]) and multidien (mean [SD] PLV, 0.34 [0.17]) seizure cycles were comparable, whereas circannual seizure cycles were weaker (mean [SD] PLV, 0.17 [0.10]). Across individuals, circadian seizure cycles showed 5 peaks: morning, mid-afternoon, evening, early night, and late night. Multidien cycles of IEA showed peak periodicities centered around 7, 15, 20, and 30 days. Independent of multidien period length, self-reported and electrographic seizures consistently occurred during the days-long rising phase of multidien cycles of IEA., Conclusions and Relevance: Findings in this large cohort establish the high prevalence of plural seizure cycles and help explain the natural variability in seizure timing. The results have the potential to inform the scheduling of diagnostic studies, the delivery of time-varying therapies, and the design of clinical trials in epilepsy.

Published
2021
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9. Forecasting seizure risk in adults with focal epilepsy: a development and validation study.

Author

Proix T, Truccolo W, Leguia MG, Tcheng TK, King-Stephens D, Rao VR, and Baud MO

Subjects
Adult, Electroencephalography, Feasibility Studies, Female, Humans, Male, Middle Aged, Models, Statistical, Periodicity, Predictive Value of Tests, Probability, Reproducibility of Results, Retrospective Studies, Self Report, Treatment Outcome, Epilepsies, Partial diagnosis, Seizures diagnosis
Abstract

Background: People with epilepsy are burdened with the apparent unpredictability of seizures. In the past decade, converging evidence from studies using chronic EEG (cEEG) revealed that epileptic brain activity shows robust cycles, operating over hours (circadian) and days (multidien). We hypothesised that these cycles can be leveraged to estimate future seizure probability, and we tested the feasibility of forecasting seizures days in advance., Methods: We did a feasibility study in distinct development and validation cohorts, involving retrospective analysis of cEEG data recorded with an implanted device in adults (age ≥18 years) with drug-resistant focal epilepsy followed at 35 centres across the USA between Jan 19, 2004, and May 18, 2018. Patients were required to have had 20 or more electrographic seizures (development cohort) or self-reported seizures (validation cohort). In all patients, the device recorded interictal epileptiform activity (IEA; ≥6 months of continuous hourly data), the fluctuations in which helped estimate varying seizure risk. Point process statistical models trained on initial portions of each patient's cEEG data (both cohorts) generated forecasts of seizure probability that were tested on subsequent unseen seizure data and evaluated against surrogate time-series. The primary outcome was the percentage of patients with forecasts showing improvement over chance (IoC)., Findings: We screened 72 and 256 patients, and included 18 and 157 patients in the development and validation cohorts, respectively. Models incorporating information about multidien IEA cycles alone generated daily seizure forecasts for the next calendar day with IoC in 15 (83%) patients in the development cohort and 103 (66%) patients in the validation cohort. The forecasting horizon could be extended up to 3 days while maintaining IoC in two (11%) of 18 patients and 61 (39%) of 157 patients. Forecasts with a shorter horizon of 1 h, possible only for electrographic seizures in the development cohort, showed IoC in all 18 (100%) patients., Interpretation: This study shows that seizure probability can be forecasted days in advance by leveraging multidien IEA cycles recorded with an implanted device. This study will serve as a basis for prospective clinical trials to establish how people with epilepsy might benefit from seizure forecasting over long horizons., Funding: None. VIDEO ABSTRACT., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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10. Cues for seizure timing.

Author

Rao VR, G Leguia M, Tcheng TK, and Baud MO

Subjects
Data Analysis, Humans, Sleep Stages physiology, Time Factors, Circadian Rhythm physiology, Cues, Electroencephalography methods, Seizures diagnosis, Seizures physiopathology
Abstract

The cyclical organization of seizures in epilepsy has been described since antiquity. However, historical explanations for seizure cycles-based on celestial, hormonal, and environmental factors-have only recently become testable with the advent of chronic electroencephalography (cEEG) and modern statistical techniques. Here, factors purported over millennia to influence seizure timing are viewed through a contemporary lens. We discuss the emerging concept that seizures are organized over multiple timescales, each involving differential influences of external and endogenous rhythm generators. Leveraging large cEEG datasets and circular statistics appropriate for cyclical phenomena, we present new evidence for circadian (day-night), multidien (multi-day), and circannual (about-yearly) variation in seizure activity. Modulation of seizure timing by multiscale temporal variables has implications for diagnosis and therapy in clinical epilepsy. Uncovering the mechanistic basis for seizure cycles, particularly the factors that govern multidien periodicity, will be a major focus of future work., (© 2020 International League Against Epilepsy.)

Published
2021
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11. Brain-Responsive Neurostimulation for Loss of Control Eating: Early Feasibility Study.

Author

Wu H, Adler S, Azagury DE, Bohon C, Safer DL, Barbosa DAN, Bhati MT, Williams NR, Dunn LB, Tass PA, Knutson BD, Yutsis M, Fraser A, Cunningham T, Richardson K, Skarpaas TL, Tcheng TK, Morrell MJ, Roberts LW, Malenka RC, Lock JD, and Halpern CH

Subjects
Feasibility Studies, Nucleus Accumbens, Randomized Controlled Trials as Topic, Humans, Brain, Deep Brain Stimulation, Obesity therapy
Abstract

Background: Loss of control (LOC) is a pervasive feature of binge eating, which contributes significantly to the growing epidemic of obesity; approximately 80 million US adults are obese. Brain-responsive neurostimulation guided by the delta band was previously found to block binge-eating behavior in mice. Following novel preclinical work and a human case study demonstrating an association between the delta band and reward anticipation, the US Food and Drug Administration approved an Investigational Device Exemption for a first-in-human study., Objective: To assess feasibility, safety, and nonfutility of brain-responsive neurostimulation for LOC eating in treatment-refractory obesity., Methods: This is a single-site, early feasibility study with a randomized, single-blinded, staggered-onset design. Six subjects will undergo bilateral brain-responsive neurostimulation of the nucleus accumbens for LOC eating using the RNS® System (NeuroPace Inc). Eligible participants must have treatment-refractory obesity with body mass index ≥ 45 kg/m2. Electrophysiological signals of LOC will be characterized using real-time recording capabilities coupled with synchronized video monitoring. Effects on other eating disorder pathology, mood, neuropsychological profile, metabolic syndrome, and nutrition will also be assessed., Expected Outcomes: Safety/feasibility of brain-responsive neurostimulation of the nucleus accumbens will be examined. The primary success criterion is a decrease of ≥1 LOC eating episode/week based on a 28-d average in ≥50% of subjects after 6 mo of responsive neurostimulation., Discussion: This study is the first to use brain-responsive neurostimulation for obesity; this approach represents a paradigm shift for intractable mental health disorders., (Copyright © 2020 by the Congress of Neurological Surgeons.)

Published
2020
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12. Sleep disruption is not observed with brain-responsive neurostimulation for epilepsy.

Author

Ruoff L, Jarosiewicz B, Zak R, Tcheng TK, Neylan TC, and Rao VR

Abstract

Objective: Neurostimulation devices that deliver electrical impulses to the nervous system are widely used to treat seizures in patients with medically refractory epilepsy, but the effects of these therapies on sleep are incompletely understood. Vagus nerve stimulation can contribute to obstructive sleep apnea, and thalamic deep brain stimulation can cause sleep disruption. A device for brain-responsive neurostimulation (RNS ® System, NeuroPace, Inc) is well tolerated in clinical trials, but potential effects on sleep are unknown., Methods: Six adults with medically refractory focal epilepsy treated for at least six months with the RNS System underwent a single night of polysomnography (PSG). RNS System lead locations included mesial temporal and neocortical targets. Sleep stages and arousals were scored according to standard guidelines. Stimulations delivered by the RNS System in response to detections of epileptiform activity were identified by artifacts on scalp electroencephalography., Results: One subject was excluded for technical reasons related to unreliable identification of stimulation artifact on EEG during PSG. In the remaining five subjects, PSG showed fragmented sleep with frequent arousals. Arousal histograms aligned to stimulations revealed a significant peak in arousals just before stimulation. In one of these subjects, the arousal peak began before stimulation and extended ~1 seconds after stimulation. A peak in arousals occurring only after stimulation was not observed., Significance: In this small cohort of patients, brain-responsive neurostimulation does not appear to disrupt sleep. If confirmed in larger studies, this could represent a potential clinical advantage of brain-responsive neurostimulation over other neurostimulation modalities., Competing Interests: BJ and TKT are employees of, and hold stock options at, NeuroPace, Inc. VRR is a paid consultant for NeuroPace, Inc, but does not have equity or ownership in the company. Other authors declare no relevant conflicts of interest. We confirm that we have read the Journal's position on issues involved in ethical publication and affirm that this report is consistent with those guidelines., (© 2020 The Authors. Epilepsia Open published by Wiley Periodicals Inc. on behalf of International League Against Epilepsy.)

Published
2020
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13. Treatment of drug-resistant epilepsy in patients with periventricular nodular heterotopia using RNS® System: Efficacy and description of chronic electrophysiological recordings.

Author

Nune G, Arcot Desai S, Razavi B, Agostini MA, Bergey GK, Herekar AA, Hirsch LJ, Lee RW, Rutecki PA, Srinivasan S, Van Ness PC, Tcheng TK, and Morrell MJ

Subjects
Adult, Aged, Deep Brain Stimulation adverse effects, Deep Brain Stimulation instrumentation, Drug Resistant Epilepsy complications, Drug Resistant Epilepsy physiopathology, Female, Hippocampus physiopathology, Humans, Male, Middle Aged, Neocortex physiopathology, Periventricular Nodular Heterotopia physiopathology, Brain Waves, Deep Brain Stimulation methods, Drug Resistant Epilepsy therapy, Periventricular Nodular Heterotopia complications
Abstract

Objectives: Describe changes in clinical seizure frequency and electrophysiological data recorded in patients with medically-intractable seizures and periventricular nodular heterotopias (PVNH) treated with the RNS® System (NeuroPace, Inc., Mountain View, CA)., Methods: Clinical seizures from eight patients (mean follow-up of 10.1 years) were analyzed pre- and post-treatment. Chronic ambulatory electrocorticograms (ECoGs) recorded from PVNHs, hippocampus and neocortex were evaluated to identify the earliest electrographic seizure onset type, pattern of spread, and interictal characteristics., Results: Mean reduction in disabling seizures was 85.7 % (n = 8); seven patients had >50% seizure reduction and two were seizure-free in the final year of analysis. Seizure rate showed a progressive reduction over the course of the study with the highest rate of improvement in the first two to three years after implantation. Four of seven patients with one PVNH lead and a second lead in the hippocampus or neocortex had some electrographic seizures first recorded at either lead location, suggesting two foci or seizure propagation patterns. Low voltage fast type activity was the prominent seizure onset pattern. Interictal ECoG power was lower in PVNH than hippocampus., Conclusions: RNS® System treatment substantially reduced clinical seizure frequency in patients with PVNH. Analysis of ictal ECoG records suggests PVNH may be involved in seizure generation., Significance: Chronic ECoG recordings suggest PVNH tissue can actively participate in epileptogenic networks. Direct brain-responsive neurostimulation is a safe and effective treatment option in such patients, progressively reducing seizure rate over a period of years., (Copyright © 2019 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2019
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14. Quantitative electrocorticographic biomarkers of clinical outcomes in mesial temporal lobe epileptic patients treated with the RNS® system.

Author

Arcot Desai S, Tcheng TK, and Morrell MJ

Subjects
Adult, Epilepsy, Temporal Lobe therapy, Female, Humans, Male, Middle Aged, Treatment Outcome, Brain Waves, Deep Brain Stimulation methods, Electrocorticography methods, Epilepsy, Temporal Lobe diagnosis
Abstract

Objectives: Find interictal electrocorticographic (ECoG) biomarkers of clinical outcomes in mesiotemporal lobe (MTL) epilepsy patients., Methods: In the NeuroPace® RNS® System clinical trials with 256 patients, 20 MTL patients with the most reduction in clinical seizures at Year 7 compared to baseline (upper response quartile; -96.5% median change) and 20 with the least reduction in clinical seizures (lower response quartile; -17.4% median change) were evaluated. Clinical and interictal ECoG features from the two response quartiles were compared., Results: Demographic and clinical features were similar in the upper and lower response quartiles. Interictal spike rate (ISR) was substantially lower (p < 0.0001) in the upper quartile patients, while normalized theta (4-8 Hz) and normalized gamma (>25 Hz) were also different (p < 0.05) between the two response quartiles. ISR was positively correlated (p < 0.05) with clinical seizure rates in 71% of the channels analyzed. ECoG records captured during months with no clinical seizures had the lowest ISR., Conclusions: ISR is a strong differentiator of clinical response in MTL patients. Normalized theta and gamma also differentiates clinical response., Significance: In MTL patients, the interictal spike rate along with spectral power computed from chronic ambulatory baseline ECoGs may serve as biomarkers of clinical outcomes and maybe used as treatment endpoints., (Copyright © 2019 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2019
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15. Cognitive tasks and human ambulatory electrocorticography using the RNS System.

Author

Meisenhelter S, Testorf ME, Gorenstein MA, Hasulak NR, Tcheng TK, Aronson JP, and Jobst BC

Subjects
Adult, Algorithms, Electrodes, Implanted, Hippocampus physiopathology, Humans, Mental Recall physiology, Middle Aged, Neuropsychological Tests, Problem Solving physiology, Spatial Navigation physiology, Brain physiology, Electrocorticography instrumentation, Electrocorticography methods, Implantable Neurostimulators, Mental Processes physiology
Abstract

Background: Electrocorticography studies are typically conducted in patients undergoing video EEG monitoring, but these studies are subject to confounds such as the effects of pain, recent anesthesia, analgesics, drug changes, antibiotics, and implant effects., New Method: Techniques were developed to obtain electrocorticographic (ECoG) data from freely moving subjects performing navigational tasks using the RNS ® System (NeuroPace, Inc., Mountain View, CA), a brain-responsive neurostimulation medical device used to treat focal onset epilepsy, and to align data from the RNS System with cognitive task events with high precision. These subjects had not had recent surgery, and were therefore not confounded by the perioperative variables that affect video EEG studies., Results: Task synchronization using the synchronization marker technique provides a quantitative measure of clock uncertainty, and can align data to task events with less than 4 ms of uncertainty. Hippocampal ECoG activity was found to change immediately before an incorrect response to a math problem compared to hippocampal activity before a correct response. In addition, subjects were found to have variable but significant changes in theta band power in the hippocampus during navigation compared to when subjects were not navigating. We found that there is theta-gamma phase-amplitude coupling in the right hippocampus while subjects stand still during a navigation task., Comparison With Existing Methods: An alignment technique described in this study improves the upper bound on task-ECoG alignment uncertainty from approximately 30 ms to under 4 ms. The RNS System is one of the first platforms capable of providing untethered ambulatory ECoG recording in humans, allowing for the study of real world instead of virtual navigation. Compared to intracranial video EEG studies, studies using the RNS System platform are not subject to confounds caused by the drugs and recent surgery inherent to the perioperative environment. Furthermore, these subjects provide the opportunity to record from the same electrodes over the course of many years., Conclusions: The RNS System enables us to study human navigation with unprecedented clarity. While RNS System patients have fewer electrodes implanted than video EEG patients, the lack of external artifact and confounds from recent surgery make this system a useful tool to further human electrophysiology research., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2019
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16. Clinical and electrocorticographic response to antiepileptic drugs in patients treated with responsive stimulation.

Author

Skarpaas TL, Tcheng TK, and Morrell MJ

Subjects
Adolescent, Adult, Anticonvulsants pharmacology, Clobazam pharmacology, Clobazam therapeutic use, Electrocorticography trends, Epilepsy diagnosis, Female, Humans, Lacosamide pharmacology, Lacosamide therapeutic use, Levetiracetam pharmacology, Levetiracetam therapeutic use, Male, Middle Aged, Pregabalin pharmacology, Pregabalin therapeutic use, Prospective Studies, Retrospective Studies, Treatment Outcome, Young Adult, Anticonvulsants therapeutic use, Electrocorticography drug effects, Epilepsy drug therapy, Epilepsy physiopathology
Abstract

Objective: The objective of this study was to explore whether chronic electrocorticographic (ECoG) data recorded by a responsive neurostimulation system could be used to assess clinical responses to antiepileptic drugs (AEDs)., Methods: Antiepileptic drugs initiated and maintained for ≥3 months by patients participating in clinical trials of the RNS ® System were identified. Such "AED Starts" that produced an additional ≥50% reduction in patient-reported clinical seizure frequency were categorized as clinically beneficial, and the remaining as not beneficial. Electrocorticographic features recorded by the RNS ® Neurostimulator were analyzed during three periods: 3 months before the AED Start, first month after the AED Start, and the first 3 months after the AED Start., Results: The most commonly added medications were clobazam (n = 41), lacosamide (n = 96), levetiracetam (n = 31), and pregabalin (n = 25). Across all four medications, there were sufficient clinical data for 193 AED Starts to be included in the analyses, and 59 AED Starts were considered clinically beneficial. The proportion of AED Starts that qualified as clinically beneficial was higher for clobazam (53.7%) and levetiracetam (51.6%) than for lacosamide (18.8%) and pregabalin (12%). Across all AED Starts for which RNS ECoG detection settings were held constant, the clinically beneficial AED Starts were associated with a significantly greater reduction in the detection of epileptiform activity (p < 0.001) at 1 (n = 33) and 3 months (n = 30) compared with AED Starts that were not beneficial at 1 (n = 71) and 3 months (n = 60). Furthermore, there was a significant reduction in interictal spike rate and spectral power (1-125 Hz) associated with a clinically beneficial response to an AED Start at 1 (n = 32) and 3 months (n = 35) (p < 0.001). These reductions were not observed at either 1 (n = 59) or 3 months (n = 60) for AED Starts that were not clinically beneficial., Conclusions: Significant quantitative changes in ECoG data recorded by the RNS System were observed in patients who experienced an additional clinical response to a new AED. While there was variability across patients in the changes observed, the results suggest that quantitative ECoG data may provide useful information when assessing whether a patient may have a favorable clinical response to an AED., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2018
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17. Changes in the electrocorticogram after implantation of intracranial electrodes in humans: The implant effect.

Author

Sun FT, Arcot Desai S, Tcheng TK, and Morrell MJ

Subjects
Drug Resistant Epilepsy surgery, Electrodes, Implanted, Electroencephalography, Humans, Electrocorticography, Stereotaxic Techniques
Abstract

Objective: Subacute and long-term electrocorticographic (ECoG) changes in ambulatory patients with depth and cortical strip electrodes were evaluated in order to determine the length of the implant effect., Methods: ECoG records were assessed in patients with medically intractable epilepsy who had depth and/or strip leads implanted in order to be treated with brain-responsive stimulation. Changes in total spectral power, band-limited spectral power, and spike rate were assessed., Results: 121 patients participating in trials of the RNS® System had a total of 93994 ECoG records analyzed. Significant changes in total spectral power occurred from the first to second months after implantation, involving 55% of all ECoG channels (68% of strip and 47% of depth lead channels). Significant, but less pronounced, changes continued over the 2nd to 5th post-implant months, after which total power became more stable. Similar patterns of changes were observed within frequency bands and spike rate., Conclusions: ECoG spectral power and spike rates are not stable in the first 5 months after implantation, presumably due to neurophysiological and electrode-tissue interface changes., Significance: ECoG data collected in the first 5 months after implantation of intracranial electrodes may not be fully representative of chronic cortical electrophysiology., (Copyright © 2017 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2018
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18. Theta Oscillations in the Human Medial Temporal Lobe during Real-World Ambulatory Movement.

Author

M Aghajan Z, Schuette P, Fields TA, Tran ME, Siddiqui SM, Hasulak NR, Tcheng TK, Eliashiv D, Mankin EA, Stern J, Fried I, and Suthana N

Subjects
Adult, Electrocorticography, Female, Humans, Implantable Neurostimulators, Male, Middle Aged, Temporal Lobe physiology, Theta Rhythm physiology, Walking physiology
Abstract

The theta rhythm-a slow (6-12 Hz) oscillatory component of the local field potential-plays a critical role in spatial navigation and memory by coordinating the activity of neuronal ensembles within the medial temporal lobe (MTL). Although theta has been extensively studied in freely moving rodents, its presence in humans has been elusive and primarily investigated in stationary subjects. Here we used a unique clinical opportunity to examine theta within the human MTL during untethered, real-world ambulatory movement. We recorded intracranial electroencephalographic activity from participants chronically implanted with the wireless NeuroPace responsive neurostimulator (RNS) and tracked their motion with sub-millimeter precision. Our data revealed that movement-related theta oscillations indeed exist in humans, such that theta power is significantly higher during movement than immobility. Unlike in rodents, however, theta occurs in short bouts, with average durations of ∼400 ms, which are more prevalent during fast versus slow movements. In a rare opportunity to study a congenitally blind participant, we found that both the prevalence and duration of theta bouts were increased relative to the sighted participants. These results provide critical support for conserved neurobiological characteristics of theta oscillations during ambulatory spatial navigation, while highlighting some fundamental differences across species in these oscillations between humans and rodents., (Published by Elsevier Ltd.)

Published
2017
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19. Day-Night Patterns of Epileptiform Activity in 65 Patients With Long-Term Ambulatory Electrocorticography.

Author

Anderson CT, Tcheng TK, Sun FT, and Morrell MJ

Subjects
Adolescent, Adult, Aged, Drug Resistant Epilepsy therapy, Electric Stimulation Therapy, Electrocorticography, Epilepsies, Partial therapy, Female, Humans, Male, Middle Aged, Monitoring, Ambulatory methods, Seizures therapy, Young Adult, Circadian Rhythm physiology, Drug Resistant Epilepsy physiopathology, Epilepsies, Partial physiopathology, Seizures physiopathology
Abstract

Purpose: To characterize cyclic day-night patterns of electrocorticographic epileptiform activity (EA) in patients with focal onset seizures., Methods: Epileptiform events as defined by the physician (also termed more generally as "epileptiform activity" or EA) were recorded in 65 patients with partial onset (also referred to as "focal onset") seizures using the RNS System, which includes a cranially implanted neurostimulator connected to 1 or two 4-contact leads placed at the seizure focus. The neurostimulator is programmed to detect specific patterns of electrocorticographic activity and to provide responsive stimulation. The 24-hour periodicity of detections of EA was analyzed for individual patients and for subgroups of patients according to the type of EA, laterality, lobe of onset, and whether the onset was neocortical or hippocampal. The time of day when peaks in EA occurred was also analyzed., Results: There were robust circadian patterns of detections of EA in most patients, with a primary peak in detections at night and a secondary peak in the late afternoon in some cases. Subset analyses were performed by lobe, region of the brain, and type of cortex (neocortical vs. hippocampal); significant circadian rhythmicity was present in all subsets., Conclusions: This is the first report of circadian cycles of EA as assessed through chronic ambulatory electrocorticographic recordings in adults with focal onset seizures. Epileptiform activity displayed circadian patterns in the majority of these patients. These findings suggest that epilepsy therapies might be optimized by adjusting the timing of therapy according to each patient's unique circadian pattern of EA.

Published
2015
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20. Daily variation in an intracranial EEG feature in humans detected by a responsive neurostimulator system.

Author

Duckrow RB and Tcheng TK

Subjects
Adolescent, Adult, Brain Mapping, Electric Stimulation Therapy adverse effects, Electric Stimulation Therapy methods, Electrodes, Implanted, Epilepsy prevention & control, Equipment Safety, Evaluation Studies as Topic, Feedback physiology, Female, Humans, Male, Middle Aged, Temporal Lobe physiopathology, Cerebral Cortex physiopathology, Circadian Rhythm physiology, Electric Stimulation Therapy instrumentation, Electroencephalography statistics & numerical data, Epilepsy diagnosis, Epilepsy physiopathology
Abstract

Purpose: Based on the observation that epileptic seizures can occur at specific times of the day, we looked for daily variation in an intracranial electrographic feature used by a responsive neurostimulator system to detect seizures., Methods: A computationally efficient measure of intracranial EEG energy or complexity, the line length baseline, was calculated and reported by an external responsive neurostimulator during a clinical trial of device safety. Data were obtained from 24 consecutive patients with medically intractable epilepsy undergoing intracranial monitoring over 2 to 54 days to localize the seizure onset zone. Measurements from individual subjects made at different times of day over many days were displayed on a single 24-h cycle and fit with a cosine function to characterize the time of the maximum value. The timing of epileptic seizures was also noted., Results: The time of the maximum line length baseline value had a bimodal distribution with relative peaks at 05:30 and 15:00 hours. The time of the maximum value did not associate with specific brain regions, except that a nocturnal peak was not measured from temporal neocortex. The temporal distribution of maximum values was similar to the timing of epileptic seizures., Conclusion: The line length baseline feature of the intracranial EEG shows daily variation with location specific characteristics within individual subjects.

Published
2007
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21. Preemptive low-frequency stimulation decreases the incidence of amygdala-kindled seizures.

Author

Goodman JH, Berger RE, and Tcheng TK

Subjects
Animals, Cross-Over Studies, Electric Stimulation Therapy, Electrodes, Implanted, Epilepsy prevention & control, Humans, Incidence, Male, Rats, Rats, Sprague-Dawley, Seizures etiology, Amygdala physiology, Electric Stimulation methods, Kindling, Neurologic physiology, Seizures epidemiology
Abstract

Purpose: The use of electrical stimulation as a therapy for epilepsy is currently being studied in experimental animals and in patients with epilepsy. This study examined the effect of preemptive, low-frequency, 1-Hz sine wave stimulation (LFS) on the incidence of amygdala-kindled seizures in the rat., Methods: Electrodes were implanted into the basolateral amygdalae of adult male rats. All animals received a kindling stimulus of 60-Hz, 400-microA, sine wave for 1 s twice a day. Experimental animals received an additional LFS consisting of 1 Hz, 50 microA for 30 s immediately before the kindling stimulus. Afterdischarge (AD) duration, behavioral seizure score, the number of stimulations required to elicit the first stage five seizure and to become fully kindled were measured. After 20 stimulations, a crossover procedure was performed. Fully kindled rats from each group were switched, so that the original controls received LFS plus the kindling stimulus, and the original experimental rats received only the kindling stimulus., Results: During kindling acquisition, LFS induced a significant decrease in AD duration. A significant increase in the number of times the kindling stimulus failed to elicit an AD was noted. Control rats exhibited an AD 99% of the time compared with 70% in experimental rats (p < 0.0001; Fisher's Exact test). In fully kindled animals, the incidence of stage five seizures in the original controls significantly decreased from 98% to 42% (p < 0.0001) when the LFS was added to the kindling paradigm., Conclusions: The dramatic decrease in the incidence of stage 5 seizures in fully kindled animals after preemptive LFS strongly suggests that LFS may be an effective therapy for the prevention of seizures in patients with epilepsy.

Published
2005
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22. Stereotactically guided thalamotomy for treatment of parkinsonian tremor isolated to the lower extremity. Case report.

Author

Keller TM, Tcheng TK, Burkhard PR, Richard H, and Tamas LB

Subjects
Aged, Brain Mapping, Electrosurgery, Female, Humans, Microelectrodes, Parkinson Disease diagnostic imaging, Thalamus diagnostic imaging, Tomography, X-Ray Computed, Treatment Outcome, Leg, Parkinson Disease surgery, Stereotaxic Techniques, Thalamus surgery, Tremor surgery
Abstract

The authors present a case of tremor isolated to the lower extremity that was treated with stereotactically guided thalamotomy in a patient with Parkinson's disease. The technology that makes this procedure effective for this particular manifestation of parkinsonism is discussed.

Published
1998
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23. A novel carbon fiber bundle microelectrode and modified brain slice chamber for recording long-term multiunit activity from brain slices.

Author

Tcheng TK and Gillette MU

Subjects
Animals, Electrophysiology methods, Female, Male, Organ Culture Techniques, Rats, Rats, Inbred Strains, Carbon, Electrophysiology instrumentation, Microelectrodes, Suprachiasmatic Nucleus physiology
Abstract

The fabrication and characteristics of a novel multiunit recording electrode and modified brain slice chamber suitable for long-term recording from brain slices are described. The electrode consisted of an electrolyte-filled glass micropipette with a 20-50 microns thick wax-coated bundle of 5-micron diameter carbon fibers extending 2.5 cm from the tapered end and an AgCl-coated silver wire inserted into the open end and connected to a preamplifier. Both ends of the electrode were sealed with wax to prevent evaporation of the electrolyte. The brain slice was maintained over this extended period in an interface-type brain slice chamber modified to completely surround the slice with medium. Using this electrode, regular 24-h oscillations of spontaneous multiunit activity were recorded for 3 days from a single location in a 500 microns thick rat suprachiasmatic nucleus brain slice. Preliminary data suggest that this novel carbon fiber bundle electrode will be a favorable alternative to traditional metal electrodes for long-term recording of multiunit activity from brain slices.

Published
1996
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24. Intrinsic neuronal rhythms in the suprachiasmatic nuclei and their adjustment.

Author

Gillette MU, Medanic M, McArthur AJ, Liu C, Ding JM, Faiman LE, Weber ET, Tcheng TK, and Gallman EA

Subjects
Animals, Neurons physiology, Circadian Rhythm physiology, Suprachiasmatic Nucleus physiology
Abstract

The central role of the suprachiasmatic nuclei in regulating mammalian circadian rhythms is well established. We study the temporal organization of neuronal properties in the suprachiasmatic nucleus (SCN) using a rat hypothalamic brain slice preparation. Electrical properties of single neurons are monitored by extra-cellular and whole-cell patch recording techniques. The ensemble of neurons in the SCN undergoes circadian changes in spontaneous activity, membrane properties and sensitivity to phase adjustment. At any point in this cycle, diversity is observed in individual neurons' electrical properties, including firing rate, firing pattern and response to injected current. Nevertheless, the SCN generate stable, near 24 h oscillations in ensemble neuronal firing rate for at least three days in vitro. The rhythm is sinusoidal, with peak activity, a marker of phase, appearing near midday. In addition to these electrophysiological changes, the SCN undergoes sequential changes in vitro in sensitivities to adjustment. During subjective day, the SCN progresses through periods of sensitivity to cyclic AMP, serotonin, neuropeptide Y, and then to melatonin at dusk. During the subjective night, sensitivities to glutamate, cyclic GMP and then neuropeptide Y are followed by a second period of sensitivity to melatonin at dawn. Because the SCN, when maintained in vitro, is under constant conditions and isolated from afferents, these changes must be generated within the clock in the SCN. The changing sensitivities reflect underlying temporal domains that are characterized by specific sets of biochemical and molecular relationships which occur in an ordered sequence over the circadian cycle.

Published
1995
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25. Do the suprachiasmatic nuclei oscillate in old rats as they do in young ones?

Author

Satinoff E, Li H, Tcheng TK, Liu C, McArthur AJ, Medanic M, and Gillette MU

Subjects
Animals, Brain growth & development, Computer Graphics, Female, Homeostasis, In Vitro Techniques, Male, Rats, Suprachiasmatic Nucleus growth & development, Aging physiology, Body Temperature, Brain physiology, Circadian Rhythm physiology, Drinking Behavior, Motor Activity, Suprachiasmatic Nucleus physiology
Abstract

The basis of the decline in circadian rhythms with aging was addressed by comparing the patterns of three behavioral rhythms in young and old rats with the in vitro rhythm of neuronal activity in the suprachiasmatic nuclei (SCN), the primary circadian pacemaker. In some old rats, rhythms of body temperature, drinking, and activity retained significant 24-h periodicities in entraining light-dark cycles; in others, one or two of the rhythms became aperiodic. When these rats were 23-27.5 mo old they were killed, and single-unit firing rates in SCN brain slices were recorded continuously for 30 h. There was significant damping of mean peak neuronal firing rates in old rats compared with young. SCN neuronal activities were analyzed with reference to previous entrained behavioral rhythm patterns of individual rats as well. Neuronal activity from rats with prior aperiodic behavioral rhythms was erratic, as expected. Neuronal activity from rats that were still maintaining significant 24-h behavioral rhythmicity at the time they were killed was erratic in most cases but normally rhythmic in others. Thus there was no more congruence between the behavioral rhythms and the brain slice rhythms than there was among the behavioral rhythms alone. These results, the first to demonstrate aberrant SCN firing patterns and a decrease in amplitude in old rats, imply that aging could either disrupt coupling between SCN pacemaker cells or their output, or cause deterioration of the pacemaking properties of SCN cells.

Published
1993
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26. The organization of the suprachiasmatic circadian pacemaker of the rat and its regulation by neurotransmitters and modulators.

Author

Gillette MU, DeMarco SJ, Ding JM, Gallman EA, Faiman LE, Liu C, McArthur AJ, Medanic M, Richard D, and Tcheng TK

Subjects
Animals, Rats, Suprachiasmatic Nucleus cytology, Circadian Rhythm physiology, Neurotransmitter Agents physiology, Suprachiasmatic Nucleus physiology
Abstract

The long-term goal of our research is to understand how cells of the suprachiasmatic nucleus (SCN) are organized to form a 24-hr biological clock, and what roles specific neurotransmitters and modulators play in timekeeping and resetting processes. We have been addressing these questions by assessing the pattern of spontaneous neuronal activity, using extracellular and whole-cell patch recording techniques in long-lived SCN brain slices from rats. We have observed that a robust pacemaker persists in the ventrolateral region of microdissected SCN, and have begun to define the electrophysiological properties of neurons in this region. Furthermore, we are investigating changing sensitivities of the SCN to resetting by exogenous neurotransmitters, such as glutamate, serotonin, and neuropeptide Y, across the circadian cycle. Our findings emphasize the complexity of organization and control of mammalian circadian timing.

Published
1993
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27. Midwest wrestling study: prediction of minimal weight for high school wrestlers.

Author

Thorland WG, Tipton CM, Lohman TG, Bowers RW, Housh TJ, Johnson GO, Kelly JM, Oppliger RA, and Tcheng TK

Subjects
Adolescent, Anthropometry, Body Composition, Body Height, Humans, Midwestern United States, Reproducibility of Results, Schools, Body Weight, Wrestling
Abstract

This study determined the validity of previously published or newly derived equations to predict fat-free body mass (FFB) in high school wrestlers from the midwestern United States. Five laboratories participated in the data-pooling study (total sample of 860 subjects). Measures included body composition by underwater weighing and anthropometric measurements of body mass, stature, and selected circumferences, diameters, and skinfolds. Cross-validation of selected equations to predict FFB revealed the lowest levels of error from the equations of Lohman, Thorland et al., Katch and McArdle, and Behnke and Wilmore. Modification of the constants in these equations or generation of new equations did not substantially reduce prediction error. Overall, total error for these top equations ranged from 2.44 to 2.59 kg. However, based on observed trends, this error was of lower magnitude with the younger and lighter subjects and of higher magnitude with the older and heavier subjects. We conclude that these equations could be used singularly or collectively to determine FFB, and a minimal weight could then be derived and assigned to a scholastic wrestler.

Published
1991

28. Iowa wrestling study: urinary profiles of state finalists prior to competition.

Author

Zambraski EJ, Tipton CM, Jordon HR, Palmer WK, and Tcheng TK

Subjects
Anthropometry, Body Weight, Creatinine urine, Dehydration, Fasting, Humans, Hydrogen-Ion Concentration, Iowa, Ketones urine, Male, Osmolar Concentration, Potassium urine, Proteinuria, Sodium urine, Specific Gravity, Time Factors, Water Deprivation, Sports Medicine, Urine analysis
Published
1974

29. Response of immunosympathectomized rats to training.

Author

Paynter DE, Tipton CM, and Tcheng TK

Subjects
Animals, Blood Pressure drug effects, Body Temperature, Epinephrine pharmacology, Epinephrine urine, Heart Rate, Immune Sera pharmacology, Male, Nerve Growth Factors immunology, Norepinephrine pharmacology, Norepinephrine urine, Rats, Physical Conditioning, Animal, Sympathetic Nervous System physiology
Abstract

The influence of chronic exercise was investigated with male rats assigned to normal (N) and sympathectomized (IS) groups. Animals in the latter group were injected daily for 5 days with the antiserum to the nerve growth factor beginning 24 h after birth. Training was introduced when the animals were 35--45 days old and lasted for 12 wk. The exercise program used by both groups was progressive in nature and modified in accordance with the performance capability of the IS animals. When IS and N rats performed a standardized treadmill test, the IS rats had significantly higher rectal temperatures than normal animals. Significant training differences were observed in resting heart rate and in mean blood pressures, but only in the N animals. However, both trained groups exhibited significantly less vasoconstricting ability to conditions of lower body negative pressure than their nontrained controls. Varied doses of epinephrine and norepinephrine were injected into both groups and training per se had no significant influence on the responses recorded. However, both IS group had changes which indicated that a supersensitivity to catecholamines had occurred. Although selective training adaptations can occur without sympathetic nerves, it was concluded that an intact nervous system was essential for maximal training effects to occur.

Published
1977
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30. Physical activity and hypophysectomy on the aerobic capacity of ligaments and tendons.

Author

Vailas AC, Tipton CM, Laughlin HL, Tcheng TK, and Matthes RD

Subjects
Animals, Body Weight, Dogs, Electron Transport Complex IV metabolism, Immobilization, Ligaments blood supply, Male, Muscles metabolism, Rats, Regional Blood Flow, Hypophysectomy, Ligaments metabolism, Oxygen Consumption, Physical Conditioning, Animal, Tendons metabolism
Abstract

Traditionally, ligaments and tendons (L and T) have been regarded as metabolically inert structures. However, sufficient biochemical evidence on the metabolism of collagen has indicated that such a concept is no longer tenable. To determine whether L and T respond to increased or decreased levels of chronic exercise, studies were undertaken to measure their aerobic capacities. For comparative purposes, similar measurements were obtained from liver and skeletal muscles secured from normal and hypophysectomized male rats. Oxygen consumption and cytochrome oxidase (CO) activity was recorded from cell suspensions that had been prepared with the inclusion of collagenase and with elastase added to the medium. The O2 results showed that L and T had values that were approximately 10 times lower than liver tissue and 7.5 times less than the means from skeletal muscles. Hypophysectomy caused marked reductions in O2 uptake of liver and muscle tissues; but had no impact on L and T. When CO activity of these connective tissues were evaluated, immobilization and hypophysectomy caused significant reductions that ranged from -36% to -59% respectively. Training, on the other hand, resulted in increases of less than 10% in the activity of this enzyme within L and T while being elevated in muscle tissue by 58%. It was concluded that the metabolic activity of L and T was lowered with decreased levels of physical activity but it was unclear why chronic exercise did not produce the opposite effect.

Published
1978
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31. The use of the Langendorff preparation to study the bardycardia of training.

Author

Tipton CM, Matthes RD, Tcheng TK, Dowell RT, and Vailas AC

Subjects
Acetylcholine analysis, Animals, Atropine pharmacology, Depression, Chemical, Male, Myocardium analysis, Neostigmine pharmacology, Perfusion, Propranolol pharmacology, Rats, Receptors, Adrenergic, beta, Stimulation, Chemical, Heart Rate drug effects, Physical Conditioning, Animal
Published
1977

32. Iowa wrestling study: weight classification systems.

Author

Tipton CM, Tcheng TK, and Zambraski EJ

Subjects
Body Composition, Humans, Weights and Measures, Body Weight, Classification, Sports, Sports Medicine, Wrestling
Abstract

Many wrestlers lose a large amount of weight in a relatively short period of time to become certified for interscholastic competition. In most states, there are twelve certified weight classes with intervals ranging from 6 to 18 pounds. Using anthropometric data obtained from 834 "average" wrestlers that were measured 5-8 weeks before competition, we predicted their "minimal" body weights and assigned them into arbitrarily designated weight classes of 6, 8 and 10 pound intervals. In addition, the 1973-74 and the 1974-75 certifying records for Iowa wrestlers were examined with regard to frequency distribution patterns. The results indicated that the majority of students were certifying for a weight classes. In fast, forty percent of the more than 8900 students were certified for the 119-138 classes and 57% of the population were located within the 112-145 weight classes. Inspection of the frequency distribution patterns of wrestlers assigned to the arbitrary classes also showed a marked concentration of wrestlers who weighed between 120 and 140 pounds and this relationship became more apparent when ten pound intervals were considered. From these findings we recommended that state high school associations consider: 1) allowing more than one wrestler per team to compete in a single weight class; 2) porviding more weight classes than the current twelve; and 3) promoting body composition assessments during the pre-season period in order to minimize the problems created by the "making of weight."

Published
1976

34. Iowa wrestling study: changes in the urinary profiles of wrestlers prior to and after competition.

Author

Zambraski EJ, Tipton CM, Tcheng TK, Jordon HR, Vailas AC, and Callahan AK

Subjects
Dehydration, Evaluation Studies as Topic, Glycosuria, Humans, Hydrogen-Ion Concentration, Iowa, Kidney physiology, Osmolar Concentration, Potassium urine, Proteinuria, Specific Gravity, Sports Medicine, Physical Exertion, Sports, Urine analysis, Wrestling
Abstract

During the 1973 and 1974 state high school wrestling championships, urine samples were obtained from wrestlers prior to the weigh-in, immediately before they wrestled, and immediately after the subjects had completed their match. Specific gravity, osmolarity, pH, sodium and potassium determinations, as well as qualitative tests for protein and ketones, indicated that the wrestlers were in a dehydrated state at the time of weigh-in. After the five hour interim between the weigh-in and the first match, all but the pH measure remained essentially unchanged. This absence of significant changes in the urinary profile suggests that the wrestlers were unable to rehydrate during the five hour time period between the weigh-in and the first match and that they were competing in a dehydrated state. Urine samples collected after competition were significantly lower in specific gravity, osmolarity and potassium concentration than samples obtained before the match. The urinary potassium levels were of interest because at the three conditions (weigh-in, before the first match, after competition) they were 73-182% higher than values reported for high school students who were nonwrestlers.

Published
1975

37. Influence of physical training, aortic constriction and exogenous anterior pituitary hormones on the heart weights of hypophysectomized rats.

Author

Tipton CM and Tcheng TK

Subjects
Adrenocorticotropic Hormone pharmacology, Animals, Body Weight, Cardiomegaly etiology, Constriction, Desoxycorticosterone pharmacology, Heart drug effects, Hypophysectomy, Luteinizing Hormone pharmacology, Male, Organ Size, Rats, Thyrotropin pharmacology, Aorta physiology, Growth Hormone pharmacology, Heart anatomy & histology, Physical Exertion, Pituitary Hormones, Anterior pharmacology
Published
1971
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