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3. Electroconvulsive therapy-induced volumetric brain changes converge on a common causal circuit in depression

Author

Argyelan, Miklos, Deng, Zhi-De, Ousdal, Olga Therese, Oltedal, Leif, Angulo, Brian, Baradits, Mate, Spitzberg, Andrew J., Kessler, Ute, Sartorius, Alexander, Dols, Annemiek, Narr, Katherine L., Espinoza, Randall, van Waarde, Jeroen A., Tendolkar, Indira, van Eijndhoven, Philip, van Wingen, Guido A., Takamiya, Akihiro, Kishimoto, Taishiro, Jorgensen, Martin B., Jorgensen, Anders, Paulson, Olaf B., Yrondi, Antoine, Péran, Patrice, Soriano-Mas, Carles, Cardoner, Narcis, Cano, Marta, van Diermen, Linda, Schrijvers, Didier, Belge, Jean-Baptiste, Emsell, Louise, Bouckaert, Filip, Vandenbulcke, Mathieu, Kiebs, Maximilian, Hurlemann, René, Mulders, Peter CR., Redlich, Ronny, Dannlowski, Udo, Kavakbasi, Erhan, Kritzer, Michael D., Ellard, Kristen K., Camprodon, Joan A., Petrides, Georgios, Malhotra, Anil K., and Abbott, Christopher C.

Published
2024
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4. Electroconvulsive therapy and cognitive performance from the Global ECT MRI Research Collaboration

Author

Kiebs, Maximilian, Farrar, Danielle C., Yrondi, Antoine, Cardoner, Narcis, Tuovinen, Noora, Redlich, Ronny, Dannlowski, Udo, Soriano-Mas, Carles, Dols, Annemiek, Takamiya, Akihiro, Tendolkar, Indira, Narr, Katherine L., Espinoza, Randall, Laroy, Maarten, van Eijndhoven, Philip, Verwijk, Esmée, van Waarde, Jeroen, Verdijk, Joey, Maier, Hannah B., Nordanskog, Pia, van Wingen, Guido, van Diermen, Linda, Emsell, Louise, Bouckaert, Filip, Repple, Jonathan, Camprodon, Joan A., Wade, Benjamin S.C., Donaldson, K. Tristan, Oltedal, Leif, Kessler, Ute, Hammar, Åsa, Sienaert, Pascal, Hebbrecht, Kaat, Urretavizcaya, Mikel, Belge, Jean-Baptiste, Argyelan, Miklos, Baradits, Mate, Obbels, Jasmien, Draganski, Bogdan, Philipsen, Alexandra, Sartorius, Alexander, Rhebergen, Didericke, Ousdal, Olga Therese, Hurlemann, René, McClintock, Shawn, Erhardt, Erik B., and Abbott, Christopher C.

Published
2024
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5. The Neurobiological Effects of Electroconvulsive Therapy Studied Through Magnetic Resonance: What Have We Learned, and Where Do We Go?

Author

Ousdal, Olga, Brancati, Giulio, Kessler, Ute, Erchinger, Vera, Dale, Anders, Abbott, Christopher, and Oltedal, Leif

Subjects
Antidepressant, Brain, Depression, Diffusion-weighted imaging, Electroconvulsive therapy (ECT), Magnetic resonance imaging (MRI), Magnetic resonance spectroscopy, Neuroimaging, Brain, Depressive Disorder, Treatment-Resistant, Electroconvulsive Therapy, Humans, Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy
Abstract

Electroconvulsive therapy (ECT) is an established treatment choice for severe, treatment-resistant depression, yet its mechanisms of action remain elusive. Magnetic resonance imaging (MRI) of the human brain before and after treatment has been crucial to aid our comprehension of the ECT neurobiological effects. However, to date, a majority of MRI studies have been underpowered and have used heterogeneous patient samples as well as different methodological approaches, altogether causing mixed results and poor clinical translation. Hence, an association between MRI markers and therapeutic response remains to be established. Recently, the availability of large datasets through a global collaboration has provided the statistical power needed to characterize whole-brain structural and functional brain changes after ECT. In addition, MRI technological developments allow new aspects of brain function and structure to be investigated. Finally, more recent studies have also investigated immediate and long-term effects of ECT, which may aid in the separation of the therapeutically relevant effects from epiphenomena. The goal of this review is to outline MRI studies (T1, diffusion-weighted imaging, proton magnetic resonance spectroscopy) of ECT in depression to advance our understanding of the ECT neurobiological effects. Based on the reviewed literature, we suggest a model whereby the neurobiological effects can be understood within a framework of disruption, neuroplasticity, and rewiring of neural circuits. An improved characterization of the neurobiological effects of ECT may increase our understanding of ECTs therapeutic effects, ultimately leading to improved patient care.

Published
2022

8. Longitudinal resting-state network connectivity changes in electroconvulsive therapy patients compared to healthy controls

Author

Verdijk, Joey P.A.J., van de Mortel, Laurens A., ten Doesschate, Freek, Pottkämper, Julia C.M., Stuiver, Sven, Bruin, Willem B., Abbott, Christopher C., Argyelan, Miklos, Ousdal, Olga T., Bartsch, Hauke, Narr, Katherine, Tendolkar, Indira, Calhoun, Vince, Lukemire, Joshua, Guo, Ying, Oltedal, Leif, van Wingen, Guido, and van Waarde, Jeroen A.

Published
2024
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9. Elevated body weight modulates subcortical volume change and associated clinical response following electroconvulsive therapy.

Author

Opel, Nils, Narr, Katherine, Abbott, Christopher, Argyelan, Miklos, Espinoza, Randall, Emsell, Louise, Bouckaert, Filip, Sienaert, Pascal, Vandenbulcke, Mathieu, Nordanskog, Pia, Repple, Jonathan, Kavakbasi, Erhan, Jorgensen, Martin, Paulson, Olaf, Hanson, Lars, Dols, Annemieke, van Exel, Eric, Oudega, Mardien, Takamiya, Akihiro, Kishimoto, Taishiro, Ousdal, Olga, Haavik, Jan, Hammar, Åsa, Oedegaard, Ketil, Kessler, Ute, Bartsch, Hauke, Dale, Anders, Baune, Bernhard, Dannlowski, Udo, Oltedal, Leif, and Redlich, Ronny

Subjects
Body Weight, Brain, Depressive Disorder, Major, Electroconvulsive Therapy, Female, Gray Matter, Humans, Male, Middle Aged
Abstract

BACKGROUND: Obesity is a frequent somatic comorbidity of major depression, and it has been associated with worse clinical outcomes and brain structural abnormalities. Converging evidence suggests that electroconvulsive therapy (ECT) induces both clinical improvements and increased subcortical grey matter volume in patients with depression. However, it remains unknown whether increased body weight modulates the clinical response and structural neuroplasticity that occur with ECT. METHODS: To address this question, we conducted a longitudinal investigation of structural MRI data from the Global ECT-MRI Research Collaboration (GEMRIC) in 223 patients who were experiencing a major depressive episode (10 scanning sites). Structural MRI data were acquired before and after ECT, and we assessed change in subcortical grey matter volume using FreeSurfer and Quarc. RESULTS: Higher body mass index (BMI) was associated with a significantly lower increase in subcortical grey matter volume following ECT. We observed significant negative associations between BMI and change in subcortical grey matter volume, with pronounced effects in the thalamus and putamen, where obese participants showed increases in grey matter volume that were 43.3% and 49.6%, respectively, of the increases found in participants with normal weight. As well, BMI significantly moderated the association between subcortical grey matter volume change and clinical response to ECT. We observed no significant association between BMI and clinical response to ECT. LIMITATIONS: Because only baseline BMI values were available, we were unable to study BMI changes during ECT and their potential association with clinical and grey matter volume change. CONCLUSION: Future studies should take into account the relevance of body weight as a modulator of structural neuroplasticity during ECT treatment and aim to further explore the functional relevance of this novel finding.

Published
2021

11. Depressive Symptom Dimensions in Treatment-Resistant Major Depression and Their Modulation With Electroconvulsive Therapy.

Author

Wade, Benjamin SC, Hellemann, Gerhard, Espinoza, Randall T, Woods, Roger P, Joshi, Shantanu H, Redlich, Ronny, Jørgensen, Anders, Abbott, Christopher C, Oedegaard, Ketil J, McClintock, Shawn M, Oltedal, Leif, and Narr, Katherine L

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Mental Health, Depression, Brain Disorders, Mental health, Adult, Aged, Aged, 80 and over, Antidepressive Agents, Benzodiazepines, Combined Modality Therapy, Depressive Disorder, Major, Depressive Disorder, Treatment-Resistant, Electroconvulsive Therapy, Factor Analysis, Statistical, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Psychiatric Status Rating Scales, Treatment Outcome, major depressive disorder, symptom heterogeneity, electroconvulsive therapy, Hamilton Depression Rating Scale, factor analysis, Neurosciences, Psychiatry, Clinical sciences, Clinical and health psychology
Abstract

ObjectiveSymptom heterogeneity in major depressive disorder obscures diagnostic and treatment-responsive biomarker identification. Whether symptom constellations are differentially changed by electroconvulsive therapy (ECT) remains unknown. We investigate the clustering of depressive symptoms over the ECT index and whether ECT differentially influences symptom clusters.MethodsThe 17-item Hamilton Depression Rating Scale (HDRS-17) was collected from 111 patients with current depressive episode before and after ECT from 4 independent participating sites of the Global ECT-MRI Research Collaboration. Exploratory factor analysis of HDRS-17 items pre- and post-ECT treatment identified depressive symptom dimensions before and after ECT. A 2-way analysis of covariance was used to determine whether baseline symptom clusters were differentially changed by ECT between treatment remitters (defined as patients with posttreatment HDRS-17 total score ≤8) and nonremitters while controlling for pulse width, titration method, concurrent antidepressant treatment, use of benzodiazepine, and demographic variables.ResultsA 3-factor solution grouped pretreatment HDRS-17 items into core mood/anhedonia, somatic, and insomnia dimensions. A 2-factor solution best described the symptoms at posttreatment despite poorer separation of items. Among remitters, core mood/anhedonia symptoms were significantly more reduced than somatic and insomnia dimensions. No differences in symptom dimension trajectories were observed among nonremitting patients.ConclusionsElectroconvulsive therapy targets the underlying source of depressive symptomatology and may confer differential degrees of improvement in certain core depressive symptoms. Our findings of differential trajectories of symptom clusters over the ECT index might help related predictive biomarker studies to refine their approaches by identifying predictors of change along each latent symptom dimension.

Published
2020

12. Electroconvulsive therapy treatment responsive multimodal brain networks

Author

Qi, Shile, Abbott, Christopher C, Narr, Katherine L, Jiang, Rongtao, Upston, Joel, McClintock, Shawn M, Espinoza, Randall, Jones, Tom, Zhi, Dongmei, Sun, Hailun, Yang, Xiao, Sui, Jing, and Calhoun, Vince D

Subjects
Neurosciences, Mental Health, Clinical Research, Brain Disorders, Depression, Mental health, Neurological, Adolescent, Adult, Aged, Aged, 80 and over, Algorithms, Brain Mapping, Depressive Disorder, Major, Depressive Disorder, Treatment-Resistant, Electroconvulsive Therapy, Female, Humans, Magnetic Resonance Imaging, Male, Memory Disorders, Middle Aged, Multimodal Imaging, Nerve Net, Psychiatric Status Rating Scales, Treatment Outcome, Young Adult, depressive episodes, electroconvulsive therapy, multimodal fusion, treatment response, Cognitive Sciences, Experimental Psychology
Abstract

Electroconvulsive therapy is regarded as the most effective antidepressant treatment for severe and treatment-resistant depressive episodes. Despite the efficacy of electroconvulsive therapy, the neurobiological underpinnings and mechanisms underlying electroconvulsive therapy induced antidepressant effects remain unclear. The objective of this investigation was to identify electroconvulsive therapy treatment responsive multimodal biomarkers with the 17-item Hamilton Depression Rating Scale guided brain structure-function fusion in 118 patients with depressive episodes and 60 healthy controls. Results show that reduced fractional amplitude of low frequency fluctuations in the prefrontal cortex, insula and hippocampus, linked with increased gray matter volume in anterior cingulate, medial temporal cortex, insula, thalamus, caudate and hippocampus represent electroconvulsive therapy responsive covarying functional and structural brain networks. In addition, relative to nonresponders, responder-specific electroconvulsive therapy related brain networks occur in frontal-limbic network and are associated with successful therapeutic outcomes. Finally, electroconvulsive therapy responsive brain networks were unrelated to verbal declarative memory. Using a data-driven, supervised-learning method, we demonstrated that electroconvulsive therapy produces a remodeling of brain functional and structural covariance that was unique to antidepressant symptom response, but not linked to memory impairment.

Published
2020

14. Effective resting-state connectivity in severe unipolar depression before and after electroconvulsive therapy

Author

ten Doesschate, Freek, Bruin, Willem, Zeidman, Peter, Abbott, Christopher C., Argyelan, Miklos, Dols, Annemieke, Emsell, Louise, van Eijndhoven, Philip F.P., van Exel, Eric, Mulders, Peter C.R., Narr, Katherine, Tendolkar, Indira, Rhebergen, Didi, Sienaert, Pascal, Vandenbulcke, Mathieu, Verdijk, Joey, van Verseveld, Mike, Bartsch, Hauke, Oltedal, Leif, van Waarde, Jeroen A., and van Wingen, Guido A.

Published
2023
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15. Correction: Electroconvulsive therapy-induced volumetric brain changes converge on a common causal circuit in depression

Author

Argyelan, Miklos, Deng, Zhi-De, Ousdal, Olga Therese, Oltedal, Leif, Angulo, Brian, Baradits, Mate, Spitzberg, Andrew J., Kessler, Ute, Sartorius, Alexander, Dols, Annemiek, Narr, Katherine L., Espinoza, Randall, van Waarde, Jeroen A., Tendolkar, Indira, van Eijndhoven, Philip, van Wingen, Guido A., Takamiya, Akihiro, Kishimoto, Taishiro, Jorgensen, Martin B., Jorgensen, Anders, Paulson, Olaf B., Yrondi, Antoine, Péran, Patrice, Soriano-Mas, Carles, Cardoner, Narcis, Cano, Marta, van Diermen, Linda, Schrijvers, Didier, Belge, Jean-Baptiste, Emsell, Louise, Bouckaert, Filip, Vandenbulcke, Mathieu, Kiebs, Maximilian, Hurlemann, René, Mulders, Peter CR., Redlich, Ronny, Dannlowski, Udo, Kavakbasi, Erhan, Kritzer, Michael D., Ellard, Kristen K., Camprodon, Joan A., Petrides, Georgios, Malhotra, Anil K., and Abbott, Christopher C.

Published
2024
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16. Preliminary prediction of individual response to electroconvulsive therapy using whole-brain functional magnetic resonance imaging data

Author

Sun, Hailun, Jiang, Rongtao, Qi, Shile, Narr, Katherine L, Wade, Benjamin SC, Upston, Joel, Espinoza, Randall, Jones, Tom, Calhoun, Vince D, Abbott, Christopher C, and Sui, Jing

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Depression, Neurosciences, Brain Disorders, Mental Health, Mental health, Good Health and Well Being, Adult, Brain, Connectome, Depressive Disorder, Major, Electroconvulsive Therapy, Female, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Middle Aged, Nerve Net, Outcome Assessment, Health Care, Individualized prediction, Electroconvulsive therapy, Functional connectivity, Major depressive disorder, Resting-state fMRI, HDRS, Treatment response, Biological psychology, Clinical and health psychology
Abstract

Electroconvulsive therapy (ECT) works rapidly and has been widely used to treat depressive disorders (DEP). However, identifying biomarkers predictive of response to ECT remains a priority to individually tailor treatment and understand treatment mechanisms. This study used a connectome-based predictive modeling (CPM) approach in 122 patients with DEP to determine if pre-ECT whole-brain functional connectivity (FC) predicts depressive rating changes and remission status after ECT (47 of 122 total subjects or 38.5% of sample), and whether pre-ECT and longitudinal changes (pre/post-ECT) in regional brain network biomarkers are associated with treatment-related changes in depression ratings. Results show the networks with the best predictive performance of ECT response were negative (anti-correlated) FC networks, which predict the post-ECT depression severity (continuous measure) with a 76.23% accuracy for remission prediction. FC networks with the greatest predictive power were concentrated in the prefrontal and temporal cortices and subcortical nuclei, and include the inferior frontal (IFG), superior frontal (SFG), superior temporal (STG), inferior temporal gyri (ITG), basal ganglia (BG), and thalamus (Tha). Several of these brain regions were also identified as nodes in the FC networks that show significant change pre-/post-ECT, but these networks were not related to treatment response. This study design has limitations regarding the longitudinal design and the absence of a control group that limit the causal inference regarding mechanism of post-treatment status. Though predictive biomarkers remained below the threshold of those recommended for potential translation, the analysis methods and results demonstrate the promise and generalizability of biomarkers for advancing personalized treatment strategies.

Published
2020

17. Electric field causes volumetric changes in the human brain.

Author

Argyelan, Miklos, Oltedal, Leif, Deng, Zhi-De, Wade, Benjamin, Bikson, Marom, Joanlanne, Andrea, Sanghani, Sohag, Bartsch, Hauke, Cano, Marta, Dale, Anders M, Dannlowski, Udo, Dols, Annemiek, Enneking, Verena, Espinoza, Randall, Kessler, Ute, Narr, Katherine L, Oedegaard, Ketil J, Oudega, Mardien L, Redlich, Ronny, Stek, Max L, Takamiya, Akihiro, Emsell, Louise, Bouckaert, Filip, Sienaert, Pascal, Pujol, Jesus, Tendolkar, Indira, van Eijndhoven, Philip, Petrides, Georgios, Malhotra, Anil K, and Abbott, Christopher

Subjects
Amygdala, Hippocampus, Temporal Lobe, Humans, Antidepressive Agents, Magnetic Resonance Imaging, Organ Size, Brain Mapping, Depression, Electroconvulsive Therapy, Adult, Aged, Middle Aged, Female, Male, Electromagnetic Radiation, ECT, depression, electric field modeling, human, human biology, medicine, neuroimaging, volume change, Biochemistry and Cell Biology
Abstract

Recent longitudinal neuroimaging studies in patients with electroconvulsive therapy (ECT) suggest local effects of electric stimulation (lateralized) occur in tandem with global seizure activity (generalized). We used electric field (EF) modeling in 151 ECT treated patients with depression to determine the regional relationships between EF, unbiased longitudinal volume change, and antidepressant response across 85 brain regions. The majority of regional volumes increased significantly, and volumetric changes correlated with regional electric field (t = 3.77, df = 83, r = 0.38, p=0.0003). After controlling for nuisance variables (age, treatment number, and study site), we identified two regions (left amygdala and left hippocampus) with a strong relationship between EF and volume change (FDR corrected p

Published
2019

18. Effects of fMRI neurofeedback of right inferior frontal cortex on inhibitory brain activation in children with ADHD.

Author

Lukito, Steve, Lam, Sheut-Ling, Criaud, Marion, Westwood, Samuel, Kowalczyk, Olivia S., Curran, Sarah, Barrett, Nadia, Abbott, Christopher, Liang, Holan, Simonoff, Emily, Barker, Gareth J., Giampietro, Vincent, and Rubia, Katya

Subjects
FUNCTIONAL magnetic resonance imaging, FRONTAL lobe, ATTENTION-deficit hyperactivity disorder, CONTINUOUS performance test, SELF-control, NEUROMODULATION, BIOFEEDBACK training
Abstract

We aimed to replicate previous effects of functional magnetic resonance imaging neurofeedback (fMRI-NF) in right inferior frontal cortex (rIFC) on IFC activation during a Stop Task in a larger group of boys with attention-deficit/hyperactivity disorder (ADHD). The present double-blind, randomized controlled trial tested the effects of 15 runs of active versus sham fMRI-NF of rIFC on performance and activation associated with successful and failed inhibition versus Go trials during a tracking Stop task in 88 boys with ADHD (44 active; 44 sham), controlling for age and medication status. No significant group-by-time interaction effects were observed for performance or brain activation during the successful stop trials, and post hoc analysis showed very low numbers of active fMRI-NF learners. Nevertheless, during error monitoring, there was a significant group-by-time interaction effect on post-error reaction time slowing and in left IFC activation, which were both increased after active compared to sham fMRI-NF. The findings are in line with our previous observation of left IFC upregulation after fMRI-NF of rIFC relative to active fMRI-NF of parahippocampal gyrus. This highlights the potentially wider regional effects that fMRI-NF of a particular self-control target region has on other self-regulatory regions in ADHD. This article is part of the theme issue 'Neurofeedback: new territories and neurocognitive mechanisms of endogenous neuromodulation'. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Volume of the Human Hippocampus and Clinical Response Following Electroconvulsive Therapy

Author

Oltedal, Leif, Narr, Katherine L, Abbott, Christopher, Anand, Amit, Argyelan, Miklos, Bartsch, Hauke, Dannlowski, Udo, Dols, Annemieke, van Eijndhoven, Philip, Emsell, Louise, Erchinger, Vera Jane, Espinoza, Randall, Hahn, Tim, Hanson, Lars G, Hellemann, Gerhard, Jorgensen, Martin Balslev, Kessler, Ute, Oudega, Mardien L, Paulson, Olaf B, Redlich, Ronny, Sienaert, Pascal, Stek, Max L, Tendolkar, Indira, Vandenbulcke, Mathieu, Oedegaard, Ketil J, and Dale, Anders M

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Mental Health, Neurosciences, Clinical Trials and Supportive Activities, Clinical Research, Depression, Brain Disorders, Mental Illness, Adult, Aged, Biomarkers, Case-Control Studies, Depressive Disorder, Major, Electroconvulsive Therapy, Female, Functional Laterality, Hippocampus, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Neuroimaging, Organ Size, Psychiatric Status Rating Scales, Treatment Outcome, Antidepressant response, Biomarker, Brain, ECT, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Biological sciences, Biomedical and clinical sciences
Abstract

BackgroundHippocampal enlargements are commonly reported after electroconvulsive therapy (ECT). To clarify mechanisms, we examined if ECT-induced hippocampal volume change relates to dose (number of ECT sessions and electrode placement) and acts as a biomarker of clinical outcome.MethodsLongitudinal neuroimaging and clinical data from 10 independent sites participating in the Global ECT-Magnetic Resonance Imaging Research Collaboration (GEMRIC) were obtained for mega-analysis. Hippocampal volumes were extracted from structural magnetic resonance images, acquired before and after patients (n = 281) experiencing a major depressive episode completed an ECT treatment series using right unilateral and bilateral stimulation. Untreated nondepressed control subjects (n = 95) were scanned twice.ResultsThe linear component of hippocampal volume change was 0.28% (SE 0.08) per ECT session (p < .001). Volume change varied by electrode placement in the left hippocampus (bilateral, 3.3 ± 2.2%, d = 1.5; right unilateral, 1.6 ± 2.1%, d = 0.8; p < .0001) but not the right hippocampus (bilateral, 3.0 ± 1.7%, d = 1.8; right unilateral, 2.7 ± 2.0%, d = 1.4; p = .36). Volume change for electrode placement per ECT session varied similarly by hemisphere. Individuals with greater treatment-related volume increases had poorer outcomes (Montgomery-Åsberg Depression Rating Scale change -1.0 [SE 0.35], per 1% volume increase, p = .005), although the effects were not significant after controlling for ECT number (slope -0.69 [SE 0.38], p = .069).ConclusionsThe number of ECT sessions and electrode placement impacts the extent and laterality of hippocampal enlargement, but volume change is not positively associated with clinical outcome. The results suggest that the high efficacy of ECT is not explained by hippocampal enlargement, which alone might not serve as a viable biomarker for treatment outcome.

Published
2018

22. SMRI Biomarkers Predict Electroconvulsive Treatment Outcomes: Accuracy with Independent Data Sets

Author

Jiang, Rongtao, Abbott, Christopher C, Jiang, Tianzi, Du, Yuhui, Espinoza, Randall, Narr, Katherine L, Wade, Benjamin, Yu, Qingbao, Song, Ming, Lin, Dongdong, Chen, Jiayu, Jones, Thomas, Argyelan, Miklos, Petrides, Georgios, Sui, Jing, and Calhoun, Vince D

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Major Depressive Disorder, Mental Health, Brain Disorders, Depression, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies, 4.1 Discovery and preclinical testing of markers and technologies, Adult, Aged, Aged, 80 and over, Biomarkers, Datasets as Topic, Depressive Disorder, Major, Electroconvulsive Therapy, Female, Gray Matter, Humans, Hypertrophy, Magnetic Resonance Imaging, Male, Middle Aged, Neuroimaging, Predictive Value of Tests, Treatment Outcome, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Neurosciences, Biological psychology
Abstract

Owing to the rapid and robust clinical effects, electroconvulsive therapy (ECT) represents an optimal model to develop and test treatment predictors for major depressive disorders (MDDs), whereas imaging markers can be informative in identifying MDD patients who will respond to a specific antidepressant treatment or not. Here we aim to predict post-ECT depressive rating changes and remission status using pre-ECT gray matter (GM) in 38 MDD patients and validate in two independent data sets. Six GM regions including the right hippocampus/parahippocampus, right orbitofrontal gyrus, right inferior temporal gyrus (ITG), left postcentral gyrus/precuneus, left supplementary motor area, and left lingual gyrus were identified as predictors of ECT response, achieving accuracy of 89, 90 and 86% for remission prediction in three independent, age-matched data sets, respectively. For MDD patients, GM density increases only in the left supplementary motor cortex and left postcentral gyrus/precuneus after ECT. These results suggest that treatment-predictive and treatment-responsive regions may be anatomically different but functionally related in the context of ECT response. To the best of our knowledge, this is the first attempt to quantitatively identify and validate the ECT treatment biomarkers using multi-site GM data. We address a major clinical challenge and provide potential opportunities for more effective and timely interventions for electroconvulsive treatment.

Published
2018

24. Inter and intra-hemispheric structural imaging markers predict depression relapse after electroconvulsive therapy: a multisite study.

Author

Wade, Benjamin SC, Sui, Jing, Hellemann, Gerhard, Leaver, Amber M, Espinoza, Randall T, Woods, Roger P, Abbott, Christopher C, Joshi, Shantanu H, and Narr, Katherine L

Subjects
Brain, Humans, Recurrence, Organ Size, Treatment Outcome, Treatment Failure, Predictive Value of Tests, Depressive Disorder, Electroconvulsive Therapy, Image Processing, Computer-Assisted, Aged, Middle Aged, Female, Male, Biomarkers, Image Processing, Computer-Assisted, Clinical Sciences, Public Health and Health Services, Psychology
Abstract

Relapse of depression following treatment is high. Biomarkers predictive of an individual's relapse risk could provide earlier opportunities for prevention. Since electroconvulsive therapy (ECT) elicits robust and rapidly acting antidepressant effects, but has a >50% relapse rate, ECT presents a valuable model for determining predictors of relapse-risk. Although previous studies have associated ECT-induced changes in brain morphometry with clinical response, longer-term outcomes have not been addressed. Using structural imaging data from 42 ECT-responsive patients obtained prior to and directly following an ECT treatment index series at two independent sites (UCLA: n = 17, age = 45.41±12.34 years; UNM: n = 25; age = 65.00±8.44), here we test relapse prediction within 6-months post-ECT. Random forests were used to predict subsequent relapse using singular and ratios of intra and inter-hemispheric structural imaging measures and clinical variables from pre-, post-, and pre-to-post ECT. Relapse risk was determined as a function of feature variation. Relapse was well-predicted both within site and when cohorts were pooled where top-performing models yielded balanced accuracies of 71-78%. Top predictors included cingulate isthmus asymmetry, pallidal asymmetry, the ratio of the paracentral to precentral cortical thickness and the ratio of lateral occipital to pericalcarine cortical thickness. Pooling cohorts and predicting relapse from post-treatment measures provided the best classification performances. However, classifiers trained on each age-disparate cohort were less informative for prediction in the held-out cohort. Post-treatment structural neuroimaging measures and the ratios of connected regions commonly implicated in depression pathophysiology are informative of relapse risk. Structural imaging measures may have utility for devising more personalized preventative medicine approaches.

Published
2017

26. Structural changes induced by electroconvulsive therapy are associated with clinical outcome

Author

Mulders, Peter C.R., Llera, Alberto, Beckmann, Christian F., Vandenbulcke, Mathieu, Stek, Max, Sienaert, Pascal, Redlich, Ronny, Petrides, Georgios, Oudega, Mardien Leoniek, Oltedal, Leif, Oedegaard, Ketil J., Narr, Katherine L., Magnusson, Peter O., Kessler, Ute, Jorgensen, Anders, Espinoza, Randall, Enneking, Verena, Emsell, Louise, Dols, Annemieke, Dannlowski, Udo, Bolwig, Tom G., Bartsch, Hauke, Argyelan, Miklos, Anand, Amit, Abbott, Christopher C., van Eijndhoven, Philip F.P., and Tendolkar, Indira

Published
2020
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27. Brain Changes Induced by Electroconvulsive Therapy Are Broadly Distributed

Author

Erchinger, Vera Jane, Haavik, Jan, Evjenth Sørhaug, Ole Johan, Jørgensen, Martin B., Bolwig, Tom G., Magnusson, Peter, Cano, Marta, Pujol, Jesús, Menchón, José M., Petrides, Georgios, Sienaert, Pascal, Ousdal, Olga Therese, Argyelan, Miklos, Narr, Katherine L., Abbott, Christopher, Wade, Benjamin, Vandenbulcke, Mathieu, Urretavizcaya, Mikel, Tendolkar, Indira, Takamiya, Akihiro, Stek, Max L., Soriano-Mas, Carles, Redlich, Ronny, Paulson, Olaf B., Oudega, Mardien L., Opel, Nils, Nordanskog, Pia, Kishimoto, Taishiro, Kampe, Robin, Jorgensen, Anders, Hanson, Lars G., Hamilton, J. Paul, Espinoza, Randall, Emsell, Louise, van Eijndhoven, Philip, Dols, Annemieke, Dannlowski, Udo, Cardoner, Narcis, Bouckaert, Filip, Anand, Amit, Bartsch, Hauke, Kessler, Ute, Oedegaard, Ketil J., Dale, Anders M., and Oltedal, Leif

Published
2020
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28. The Global ECT-MRI Research Collaboration (GEMRIC): Establishing a multi-site investigation of the neural mechanisms underlying response to electroconvulsive therapy.

Author

Oltedal, Leif, Bartsch, Hauke, Sørhaug, Ole Johan Evjenth, Kessler, Ute, Abbott, Christopher, Dols, Annemieke, Stek, Max L, Ersland, Lars, Emsell, Louise, van Eijndhoven, Philip, Argyelan, Miklos, Tendolkar, Indira, Nordanskog, Pia, Hamilton, Paul, Jorgensen, Martin Balslev, Sommer, Iris E, Heringa, Sophie M, Draganski, Bogdan, Redlich, Ronny, Dannlowski, Udo, Kugel, Harald, Bouckaert, Filip, Sienaert, Pascal, Anand, Amit, Espinoza, Randall, Narr, Katherine L, Holland, Dominic, Dale, Anders M, and Oedegaard, Ketil J

Subjects
Brain, Humans, Magnetic Resonance Imaging, Brain Mapping, Retrospective Studies, Depressive Disorder, Major, Electroconvulsive Therapy, Psychiatric Status Rating Scales, Time Factors, International Cooperation, Image Processing, Computer-Assisted, Databases, Factual, Adult, Aged, Aged, 80 and over, Middle Aged, Female, Male, Young Adult, Electroconvulsive therapy, Longitudinal, MRI, Mega analysis, Multi-site, Neurosciences
Abstract

Major depression, currently the world's primary cause of disability, leads to profound personal suffering and increased risk of suicide. Unfortunately, the success of antidepressant treatment varies amongst individuals and can take weeks to months in those who respond. Electroconvulsive therapy (ECT), generally prescribed for the most severely depressed and when standard treatments fail, produces a more rapid response and remains the most effective intervention for severe depression. Exploring the neurobiological effects of ECT is thus an ideal approach to better understand the mechanisms of successful therapeutic response. Though several recent neuroimaging studies show structural and functional changes associated with ECT, not all brain changes associate with clinical outcome. Larger studies that can address individual differences in clinical and treatment parameters may better target biological factors relating to or predictive of ECT-related therapeutic response. We have thus formed the Global ECT-MRI Research Collaboration (GEMRIC) that aims to combine longitudinal neuroimaging as well as clinical, behavioral and other physiological data across multiple independent sites. Here, we summarize the ECT sample characteristics from currently participating sites, and the common data-repository and standardized image analysis pipeline developed for this initiative. This includes data harmonization across sites and MRI platforms, and a method for obtaining unbiased estimates of structural change based on longitudinal measurements with serial MRI scans. The optimized analysis pipeline, together with the large and heterogeneous combined GEMRIC dataset, will provide new opportunities to elucidate the mechanisms of ECT response and the factors mediating and predictive of clinical outcomes, which may ultimately lead to more effective personalized treatment approaches.

Published
2017

31. Electroconvulsive therapy modulates loudness dependence of auditory evoked potentials: a pilot MEG study.

Author

Dib, Michael, Lewine, Jeffrey David, Abbott, Christopher C., and Deng, Zhi-De

Subjects
AUDITORY evoked response, HAMILTON Depression Inventory, ELECTROCONVULSIVE therapy, BRAIN-derived neurotrophic factor, MENTAL depression
Abstract

Introduction: Electroconvulsive therapy (ECT) remains a critical intervention for treatment-resistant depression (MDD), yet its neurobiological underpinnings are not fully understood. This pilot study aims to investigate changes in loudness dependence of auditory evoked potentials (LDAEP), a proposed biomarker of serotonergic activity, in patients undergoing ECT. Methods: High-resolution magnetoencephalography (MEG) was utilized to measure LDAEP in nine depressed patients receiving right unilateral ECT. We hypothesized that ECT would reduce the LDAEP slope, reflecting enhanced serotonergic neurotransmission. Depression severity and cognitive performance were assessed using the 24-item Hamilton Depression Rating Scale (HDRS24) and the Repeatable Battery for the Assessment of Neuropsychological Status (RBANS), respectively. Results: Contrary to our hypothesis, findings indicated a significant increase in LDAEP post-ECT (t8 = 3.17, p = .013). The increase in LDAEP was not associated with changes in depression severity or cognitive performance. Discussion: The observed increase in LDAEP suggests a more complex interaction between ECT and neurobiological systems, rather than a direct reflection of serotonergic neurotransmission. Potential mechanisms for this increase include ECT’s impact on serotonergic, dopaminergic, glutamatergic, and GABAergic receptor activity, neuroplasticity involving brain-derived neurotrophic factor (BDNF), and inflammatory modulators such as TNF-α. Our results highlight the multifaceted effects of ECT on brain function, necessitating further research to elucidate these interactions. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Correction: Electroconvulsive therapy-induced volumetric brain changes converge on a common causal circuit in depression

Author

Argyelan, Miklos, primary, Deng, Zhi-De, additional, Ousdal, Olga Therese, additional, Oltedal, Leif, additional, Angulo, Brian, additional, Baradits, Mate, additional, Spitzberg, Andrew J., additional, Kessler, Ute, additional, Sartorius, Alexander, additional, Dols, Annemiek, additional, Narr, Katherine L., additional, Espinoza, Randall, additional, van Waarde, Jeroen A., additional, Tendolkar, Indira, additional, van Eijndhoven, Philip, additional, van Wingen, Guido A., additional, Takamiya, Akihiro, additional, Kishimoto, Taishiro, additional, Jorgensen, Martin B., additional, Jorgensen, Anders, additional, Paulson, Olaf B., additional, Yrondi, Antoine, additional, Péran, Patrice, additional, Soriano-Mas, Carles, additional, Cardoner, Narcis, additional, Cano, Marta, additional, van Diermen, Linda, additional, Schrijvers, Didier, additional, Belge, Jean-Baptiste, additional, Emsell, Louise, additional, Bouckaert, Filip, additional, Vandenbulcke, Mathieu, additional, Kiebs, Maximilian, additional, Hurlemann, René, additional, Mulders, Peter CR., additional, Redlich, Ronny, additional, Dannlowski, Udo, additional, Kavakbasi, Erhan, additional, Kritzer, Michael D., additional, Ellard, Kristen K., additional, Camprodon, Joan A., additional, Petrides, Georgios, additional, Malhotra, Anil K., additional, and Abbott, Christopher C., additional

Published
2023
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33. Longitudinal resting-state network connectivity changes in electroconvulsive therapy patients compared to healthy controls

Author

Verdijk, Joey P.A.J., primary, van de Mortel, Laurens A., additional, ten Doesschate, Freek, additional, Pottkämper, Julia C.M., additional, Stuiver, Sven, additional, Bruin, Willem B., additional, Abbott, Christopher C., additional, Argyelan, Miklos, additional, Ousdal, Olga T., additional, Bartsch, Hauke, additional, Narr, Katherine, additional, Tendolkar, Indira, additional, Calhoun, Vince, additional, Lukemire, Joshua, additional, Guo, Ying, additional, Oltedal, Leif, additional, van Wingen, Guido, additional, and van Waarde, Jeroen A., additional

Published
2023
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34. FTC Announces 2024 HSR Thresholds

Author

Abbott, Christopher

Subjects
United States. Federal Trade Commission -- Public relations, Antitrust law, Acquisitions and mergers -- Finance -- Laws, regulations and rules, Company public relations, Government regulation, Antitrust issue, Company financing, Business, international, Hart-Scott-Rodino Antitrust Improvements Act of 1976
Abstract

The annual revisions to the Hart-Scott-Rodino (HSR) Act reporting thresholds have arrived. The new thresholds for notification will apply to all transactions that close on or after the effective date [...]

Published
2024

36. Electroconvulsive therapy-induced volumetric brain changes converge on a common causal circuit in depression

Author

Argyelan, Miklos, primary, Deng, Zhi-De, additional, Ousdal, Olga Therese, additional, Oltedal, Leif, additional, Angulo, Brian, additional, Baradits, Mate, additional, Spitzberg, Andrew J., additional, Kessler, Ute, additional, Sartorius, Alexander, additional, Dols, Annemiek, additional, Narr, Katherine L., additional, Espinoza, Randall, additional, van Waarde, Jeroen A., additional, Tendolkar, Indira, additional, van Eijndhoven, Philip, additional, van Wingen, Guido A., additional, Takamiya, Akihiro, additional, Kishimoto, Taishiro, additional, Jorgensen, Martin B., additional, Jorgensen, Anders, additional, Paulson, Olaf B., additional, Yrondi, Antoine, additional, Péran, Patrice, additional, Soriano-Mas, Carles, additional, Cardoner, Narcis, additional, Cano, Marta, additional, van Diermen, Linda, additional, Schrijvers, Didier, additional, Belge, Jean-Baptiste, additional, Emsell, Louise, additional, Bouckaert, Filip, additional, Vandenbulcke, Mathieu, additional, Kiebs, Maximilian, additional, Hurlemann, René, additional, Mulders, Peter CR., additional, Redlich, Ronny, additional, Dannlowski, Udo, additional, Kavakbasi, Erhan, additional, Kritzer, Michael D., additional, Ellard, Kristen K., additional, Camprodon, Joan A., additional, Petrides, Georgios, additional, Malhotra, Anil K., additional, and Abbott, Christopher C., additional

Published
2023
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38. Thought Chart: Tracking Dynamic EEG Brain Connectivity with Unsupervised Manifold Learning

Author

Xing, Mengqi, Ajilore, Olusola, Wolfson, Ouri E., Abbott, Christopher, MacNamara, Annmarie, Tadayonnejad, Reza, Forbes, Angus, Phan, K. Luan, Klumpp, Heide, Leow, Alex, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Ascoli, Giorgio A., editor, Hawrylycz, Michael, editor, Ali, Hesham, editor, Khazanchi, Deepak, editor, and Shi, Yong, editor

Published
2016
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39. On assumptions and key issues in electric field modeling in ECT

Author

Deng, Zhi-De, primary, Argyelan, Miklos, additional, Miller, Jeremy, additional, Quinn, Davin, additional, Lloyd, Megan, additional, Jones, Thomas, additional, Upston, Joel, additional, Erhardt, Erik, additional, McClintock, Shawn, additional, Datta, Abhishek, additional, and Abbott, Christopher, additional

Published
2023
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40. Electric field distribution predicts efficacy of accelerated intermittent theta burst stimulation for late-life depression

Author

Quinn, Davin K., primary, Upston, Joel, additional, Jones, Thomas R., additional, Gibson, Benjamin C., additional, Olmstead, Tessa A., additional, Yang, Justine, additional, Price, Allison M., additional, Bowers-Wu, Dorothy H., additional, Durham, Erick, additional, Hazlewood, Shawn, additional, Farrar, Danielle C., additional, Miller, Jeremy, additional, Lloyd, Megan O., additional, Garcia, Crystal A., additional, Ojeda, Cesar J., additional, Hager, Brant W., additional, Vakhtin, Andrei A., additional, and Abbott, Christopher C., additional

Published
2023
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41. Electroconvulsive therapy-induced volumetric brain changes converge on a common causal circuit in depression

Author

Deng, Zhi-De, primary, Ousdal, Olga Theresa, additional, Oltedal, Leif, additional, Angulo, Brian, additional, Baradits, Mate, additional, Spitzberg, Andrew, additional, Kessler, Ute, additional, Sartorius, Alexander, additional, Dols, Annemiek, additional, Narr, Katherine, additional, Espinoza, Randall, additional, Waarde, Jeroen Van, additional, Tendolkar, Indira, additional, Eijndhoven, Philip van, additional, Wingen, Guido van, additional, Takamiya, Akihiro, additional, Kishimoto, Taishiro, additional, Jorgensen, Martin, additional, Jorgensen, Anders, additional, Paulson, Olaf, additional, Yrondi, Antoine, additional, Peran, Patrice, additional, Soriano-Mas, Carles, additional, Cardoner, Narcís, additional, Cano, Marta, additional, Diermen, Linda van, additional, Schrijvers, Didier, additional, Belge, Jean-Baptiste, additional, Emsell, Louise, additional, Bouckaert, Filip, additional, Vandenbulcke, Mathieu, additional, Kiebs, Maximilian, additional, Hurlemann, Rene, additional, Mulders, Peter, additional, Redlich, Ronny, additional, Dannlowski, Udo, additional, Kavakbasi, Erhan, additional, Kritzer, Michael, additional, Ellard, Kristen, additional, Camprodon, Joan, additional, Petrides, Georgios, additional, Maholtra, Anil, additional, Abbott, Christopher, additional, and Argyelan, Miklos, additional

Published
2023
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44. Electroconvulsive therapy-induced volumetric brain changes converge on a common causal circuit in depression

Author

Deng, Zhi-De, Ousdal, Olga Theresa, Oltedal, Leif, Angulo, Brian, Baradits, Mate, Spitzberg, Andrew, Kessler, Ute, Sartorius, Alexander, Dols, Annemiek, Narr, Katherine, Espinoza, Randall, Waarde, Jeroen Van, Tendolkar, Indira, van Eijndhoven, Philip, van Wingen, Guido, Takamiya, Akihiro, Kishimoto, Taishiro, Jorgensen, Martin, Jorgensen, Anders, Paulson, Olaf, Yrondi, Antoine, Peran, Patrice, Soriano-Mas, Carles, Cardoner, Narcís, Cano, Marta, van Diermen, Linda, Schrijvers, Didier, Belge, Jean-Baptiste, Emsell, Louise, Bouckaert, Filip, Vandenbulcke, Mathieu, Kiebs, Maximilian, Hurlemann, Rene, Mulders, Peter, Redlich, Ronny, Dannlowski, Udo, Kavakbasi, Erhan, Kritzer, Michael, Ellard, Kristen, Camprodon, Joan, Petrides, Georgios, Maholtra, Anil, Abbott, Christopher, Argyelan, Miklos, Deng, Zhi-De, Ousdal, Olga Theresa, Oltedal, Leif, Angulo, Brian, Baradits, Mate, Spitzberg, Andrew, Kessler, Ute, Sartorius, Alexander, Dols, Annemiek, Narr, Katherine, Espinoza, Randall, Waarde, Jeroen Van, Tendolkar, Indira, van Eijndhoven, Philip, van Wingen, Guido, Takamiya, Akihiro, Kishimoto, Taishiro, Jorgensen, Martin, Jorgensen, Anders, Paulson, Olaf, Yrondi, Antoine, Peran, Patrice, Soriano-Mas, Carles, Cardoner, Narcís, Cano, Marta, van Diermen, Linda, Schrijvers, Didier, Belge, Jean-Baptiste, Emsell, Louise, Bouckaert, Filip, Vandenbulcke, Mathieu, Kiebs, Maximilian, Hurlemann, Rene, Mulders, Peter, Redlich, Ronny, Dannlowski, Udo, Kavakbasi, Erhan, Kritzer, Michael, Ellard, Kristen, Camprodon, Joan, Petrides, Georgios, Maholtra, Anil, Abbott, Christopher, and Argyelan, Miklos

Abstract

Neurostimulation is a mainstream treatment option for major depression. Neuromodulation techniques apply repetitive magnetic or electrical stimulation to some neural target but significantly differ in their invasiveness, spatial selectivity, mechanism of action, and efficacy. Despite these differences, recent analyses of transcranial magnetic stimulation (TMS) and deep brain stimulation (DBS)-treated individuals converged on a common neural network that might have a causal role in treatment response. We set out to investigate if the neuronal underpinnings of electroconvulsive therapy (ECT) are similarly associated with this common causal network (CCN). Our aim here is to provide a comprehensive analysis in three cohorts of patients segregated by electrode placement (N = 246 with right unilateral, 79 with bitemporal, and 61 with mixed) who underwent ECT. We conducted a data-driven, unsupervised multivariate neuroimaging analysis (Principal Component Analysis, PCA) of the cortical and subcortical volume changes and electric field (EF) distribution to explore changes within the CCN associated with antidepressant outcomes. Despite the different treatment modalities (ECT vs TMS and DBS) and methodological approaches (structural vs functional networks), we found a highly similar pattern of change within the CCN in the three cohorts of patients (spatial similarity across 85 regions: r = 0.65, 0.58, 0.40, df = 83). Most importantly, the expression of this pattern correlated with clinical outcomes. This evidence further supports that treatment interventions converge on a CCN in depression. Optimizing modulation of this network could serve to improve the outcome of neurostimulation in depression.

Published
2023

45. Development and validation of a multimodal neuroimaging biomarker for electroconvulsive therapy outcome in depression: a multicenter machine learning analysis.

Author

Bruin, Willem Benjamin, Oltedal, Leif, Bartsch, Hauke, Abbott, Christopher, Argyelan, Miklos, Barbour, Tracy, Camprodon, Joan, Chowdhury, Samadrita, Espinoza, Randall, Mulders, Peter, Narr, Katherine, Oudega, Mardien, Rhebergen, Didi, ten Doesschate, Freek, Tendolkar, Indira, van Eijndhoven, Philip, van Exel, Eric, van Verseveld, Mike, Wade, Benjamin, and van Waarde, Jeroen

Subjects
DIAGNOSIS of mental depression, PATIENT selection, ELECTROCONVULSIVE therapy, RESEARCH funding, CLINICAL decision support systems, DISEASE remission, TREATMENT effectiveness, MAGNETIC resonance imaging, DESCRIPTIVE statistics, GRAY matter (Nerve tissue), RESEARCH, NEURORADIOLOGY, COMPARATIVE studies, MACHINE learning, MENTAL depression, BIOMARKERS
Abstract

Background: Electroconvulsive therapy (ECT) is the most effective intervention for patients with treatment resistant depression. A clinical decision support tool could guide patient selection to improve the overall response rate and avoid ineffective treatments with adverse effects. Initial small-scale, monocenter studies indicate that both structural magnetic resonance imaging (sMRI) and functional MRI (fMRI) biomarkers may predict ECT outcome, but it is not known whether those results can generalize to data from other centers. The objective of this study was to develop and validate neuroimaging biomarkers for ECT outcome in a multicenter setting. Methods: Multimodal data (i.e. clinical, sMRI and resting-state fMRI) were collected from seven centers of the Global ECT-MRI Research Collaboration (GEMRIC). We used data from 189 depressed patients to evaluate which data modalities or combinations thereof could provide the best predictions for treatment remission (HAM-D score ⩽7) using a support vector machine classifier. Results: Remission classification using a combination of gray matter volume and functional connectivity led to good performing models with average 0.82–0.83 area under the curve (AUC) when trained and tested on samples coming from the three largest centers (N = 109), and remained acceptable when validated using leave-one-site-out cross-validation (0.70–0.73 AUC). Conclusions: These results show that multimodal neuroimaging data can be used to predict remission with ECT for individual patients across different treatment centers, despite significant variability in clinical characteristics across centers. Future development of a clinical decision support tool applying these biomarkers may be feasible. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Recent US Antitrust M&A Developments - February 2023

Author

Abbott, Christopher

Subjects
United States. Federal Trade Commission -- Powers and duties, United States. Department of Justice -- Powers and duties, Antitrust law -- Interpretation and construction -- Cases, Acquisitions and mergers -- Laws, regulations and rules, Company legal issue, Government regulation, Antitrust issue, Business, international, Sherman Act, Clayton Act
Abstract

Aggressive merger enforcement continued through the end of 2022, with the agencies having mixed results in the courts. With several high-profile investigations still pending, the expectation is for aggressive enforcement [...]

Published
2023

50. Predictive signature of static and dynamic functional connectivity for ECT clinical outcomes

Author

Fu, Zening, Abbott, Christopher C., Sui, Jing, and Calhoun, Vince D.

Subjects
Pharmacology, Pharmacology (medical)
Abstract

Introduction: Electroconvulsive therapy (ECT) remains one of the most effective approaches for treatment-resistant depressive episodes, despite the potential cognitive impairment associated with this treatment. As a potent stimulator of neuroplasticity, ECT might normalize aberrant depression-related brain function via the brain’s reconstruction by forming new neural connections. Multiple lines of evidence have demonstrated that functional connectivity (FC) changes are reliable indicators of antidepressant efficacy and cognitive changes from static and dynamic perspectives. However, no previous studies have directly ascertained whether and how different aspects of FC provide complementary information in terms of neuroimaging-based prediction of clinical outcomes.Methods: In this study, we implemented a fully automated independent component analysis framework to an ECT dataset with subjects (n = 50, age = 65.54 ± 8.92) randomized to three treatment amplitudes (600, 700, or 800 milliamperes [mA]). We extracted the static functional network connectivity (sFNC) and dynamic FNC (dFNC) features and employed a partial least square regression to build predictive models for antidepressant outcomes and cognitive changes.Results: We found that both antidepressant outcomes and memory changes can be robustly predicted by the changes in sFNC (permutation test p < 5.0 × 10−3). More interestingly, by adding dFNC information, the model achieved higher accuracy for predicting changes in the Hamilton Depression Rating Scale 24-item (HDRS24, t = 9.6434, p = 1.5 × 10−21). The predictive maps of clinical outcomes show a weakly negative correlation, indicating that the ECT-induced antidepressant outcomes and cognitive changes might be associated with different functional brain neuroplasticity.Discussion: The overall results reveal that dynamic FC is not redundant but reflects mechanisms of ECT that cannot be captured by its static counterpart, especially for the prediction of antidepressant efficacy. Tracking the predictive signatures of static and dynamic FC will help maximize antidepressant outcomes and cognitive safety with individualized ECT dosing.

Published
2023
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