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8. Field performance of sterile male mosquitoes released from an uncrewed aerial vehicle

Author

Bouyer, J., primary, Culbert, N. J., additional, Dicko, A. H., additional, Pacheco, M. Gomez, additional, Virginio, J., additional, Pedrosa, M. C., additional, Garziera, L., additional, Pinto, A. T. Macedo, additional, Klaptocz, A., additional, Germann, J., additional, Wallner, T., additional, Salvador-Herranz, G., additional, Herrero, R. Argiles, additional, Yamada, H., additional, Balestrino, F., additional, and Vreysen, M. J. B., additional

Published
2020
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11. P.097 Effect of stimulation site on brain network activity and phonemic verbal fluency: an fMRI study.

Author

Santyr, B, Cohn, M, Germann, J, Ajala, A, Qiu, J, Boutet, A, and Lozano, A

Abstract

Background: In Parkinson’s disease, deep brain stimulation (DBS) of the subthalamic nucleus (STN) or globus pallidus internus (GPi) produces comparable motor benefits. Although both increases the risk of cognition and verbal fluency (VF) decline, the risk is greater following STN-DBS. The consequences of stimulating these different sites on brain network activity is unknown. We use functional magnetic resonance imaging (fMRI) during in vivo stimulation to investigate differences between STN-DBS and GPi-DBS and correlate with change in VF. Methods: Left-sided, stimulation-cycling block-design fMRI was acquired at 3-Tesla in 51 STN-DBS and 15 GPi-DBS following routine clinical programming. Blood oxygen level-dependent (BOLD) response to stimulation was compared between groups. Phonemic VF was assessed pre- and postoperatively. Results: Voxel-wise t-test between STN-DBS and GPi-DBS BOLD response maps revealed areas of significant difference (p<0.001) in the left frontal operculum and the left caudate head. Stimulation BOLD response appears to show slight inverse correlation with postoperative VF decline. The trend is reversed at the left frontal operculum in STN-DBS compared to GPi-DBS. Conclusions: Decline in VF in PD-DBS seems associated with the stimulation BOLD response at the left frontal operculum and the left caudate head. The effect differs depending on stimulation site, suggesting differing effects on brain network activity.

Published
2023
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25. Preference for violent electronic games, self-concept, and gender differences in young children.

Author

Funk, Jeanne B., Buchman, Debra D., Funk, J B, Buchman, D D, and Germann, J N

Subjects
*ELECTRONIC games, *CHILDREN & violence, *PSYCHOLOGICAL adaptation in children, *PSYCHOLOGY, *VIOLENCE & psychology, *SELF-perception, *PERSONALITY development, *GENDER identity, *BEHAVIOR disorders in children, *DECISION making, *COMPULSIVE behavior, *PSYCHOLOGICAL factors
Abstract

Electronic game-playing has been linked to adjustment problems in player subgroups. This study examined relationships among time commitment, gender, preference for violent games, and self-concept in 364 fourth and fifth graders. Main effects were identified for game preference and gender, with stronger preference for violent games being associated with lower self-perceived behavioral conduct. Implications for future research are discussed. [ABSTRACT FROM AUTHOR]

Published
2000
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29. Lateralized Subthalamic Stimulation for Axial Dysfunction in Parkinson's Disease: Exploratory Outcomes and Open-Label Extension.

Author

Lizarraga KJ, Gnanamanogaran B, Al-Ozzi TM, Cohn M, Tomlinson G, Boutet A, Elias GJB, Germann J, Soh D, Kalia SK, Hodaie M, Munhoz RP, Marras C, Hutchison WD, Lozano AM, Lang AE, and Fasano A

Abstract

Background: A randomized trial suggested that reducing left-sided subthalamic stimulation amplitude could improve axial dysfunction., Objectives: To explore open-label tolerability and associations between trial outcomes and asymmetry data., Methods: We collected adverse events in trial participants treated with open-label lateralized settings for ≥3 months. We explored associations between trial outcomes, location of stimulation and motor asymmetry., Results: 14/17 participants tolerated unilateral amplitude reduction (left-sided = 10, right-sided = 4). Two hundred eighty-four left-sided and 1113 right-sided stimulated voxels were associated with faster gait velocity, 81 left-sided and 22 right-sided stimulated voxels were associated with slower gait velocity. Amplitude reduction contralateral to shorter step length was associated with 2.4-point reduction in axial MDS-UPDRS. Reduction contralateral to longer step length was associated with 10-point increase in MDS-UPDRS., Conclusions: Left-sided amplitude reduction is potentially more tolerable than right-sided amplitude reduction. Right-sided more than left-sided stimulation could be associated with faster gait velocity. Shortened step length might reflect contralateral overstimulation., (© 2024 The Author(s). Movement Disorders Clinical Practice published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published
2024
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30. Probabilistic Refinement of Focused Ultrasound Thalamotomy Targeting for Parkinson's Disease Tremor.

Author

Cheyuo C, Germann J, Yamamoto K, Zibly Z, Krishna V, Sarica C, Borges YFF, Vetkas A, Kalia SK, Hodaie M, Fasano A, Schwartz ML, Elias WJ, and Lozano AM

Abstract

Background: There remains high variability in clinical outcomes when the same magnetic resonance image-guided focused ultrasound (MRgFUS) thalamotomy target is used for both essential tremor (ET) and tremor-dominant Parkinson's disease (TDPD)., Objective: Our goal is to refine the MRgFUS thalamotomy target for TDPD versus ET., Methods: We retrospectively performed voxel-wise efficacy and structural connectivity mapping using 3-12-month post-procedure hand tremor scores for a multicenter cohort of 32 TDPD patients and a previously published cohort of 79 ET patients, and 24-hour T1-weighted post-MRgFUS brain images. We validated our findings using Unified Parkinson's Disease Rating Scale part III scores for an independent cohort of nine TDPD patients., Results: The post-MRgFUS clinical improvements were 45.9% ± 35.9%, 55.5% ± 36%, and 46.1% ± 18.6% for ET, multicenter TDPD and validation TDPD cohorts, respectively. The TDPD and ET efficacy maps differed significantly (p permute  < 0.05), with peak TDPD improvement (87%) at x = -13.5; y = -15.0; z = 1.5, ~3.5 mm anterior and 3 mm dorsal to the ET target. Discriminative connectivity projections were to the motor and premotor regions in TDPD, and to the motor and somatosensory regions in ET. The disorder-specific voxel-wise efficacy map could be used to estimate outcome in TDPD patients with high accuracy (R = 0.8; R 2  = 0.64; P < 0.0001). The model was validated using the independent cohort of nine TDPD patients (R = 0.73; R 2  = 0.53; P = 0.025-voxel analysis)., Conclusion: We demonstrated that the most effective MRgFUS thalamotomy target in TDPD is in the ventral intermediate nucleus/ventralis oralis posterior border region. This finding offers new insights into the thalamic regions instrumental in tremor control, with pivotal implications for improving treatment outcomes. © 2024 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society., (© 2024 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published
2024
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31. Field deployment of Wolbachia -infected Aedes aegypti using uncrewed aerial vehicle.

Author

Lin YH, Joubert DA, Kaeser S, Dowd C, Germann J, Khalid A, Denton JA, Retski K, Tavui A, Simmons CP, O'Neill SL, and Gilles JRL

Subjects
Animals, Indonesia, Female, Dengue prevention & control, Dengue transmission, Humans, Robotics instrumentation, Male, Pest Control, Biological methods, Aedes microbiology, Wolbachia physiology, Mosquito Control methods, Mosquito Vectors microbiology
Abstract

Over the past 50 years, there has been a marked increase in diseases like dengue fever, chikungunya, and Zika. The World Mosquito Program (WMP) has developed an approach that, instead of attempting to eliminate vector species, introduces Wolbachia into native Aedes aegypti populations through the release of Wolbachia -infected mosquitoes. Using this approach, a randomized controlled study recently demonstrated a 77% reduction in dengue across a treatment area within Yogyakarta, Indonesia. Existing release methods use the ground-based release of mosquito eggs or adults that are labor-intensive, are logistically challenging to scale up, and can be restrictive in areas where staff safety is a concern. To overcome these limitations, we developed a fully automated mosquito dosing release system that released smaller cohorts of mosquitoes over a wide area and integrated it into an uncrewed aerial vehicle. We established the effectiveness of this system using an aerial mark, release, and recapture approach. We then demonstrated that using only the aerial release method, we can establish Wolbachia infection in a naive Ae. aegypti population. In both cases, the use of aerial releases demonstrated comparable outcomes to ground-based releases without the required labor or risk. These two trials demonstrated the feasibility of using an aerial release approach for large-scale mosquito releases.

Published
2024
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32. Assessing the Emergence and Evolution of Artificial Intelligence and Machine Learning Research in Neuroradiology.

Author

Boutet A, Haile SS, Yang AZ, Son HJ, Malik M, Pai V, Nasralla M, Germann J, Vetkas A, Khalvati F, and Ertl-Wagner BB

Abstract

Background and Purpose: Interest in artificial intelligence (AI) and machine learning (ML) has been growing in neuroradiology, but there is limited knowledge on how this interest has manifested into research and specifically, its qualities and characteristics. This study aims to characterize the emergence and evolution of AI/ML articles within neuroradiology and provide a comprehensive overview of the trends, challenges, and future directions of the field., Materials and Methods: We performed a bibliometric analysis of the American Journal of Neuroradiology ; the journal was queried for original research articles published since inception (January 1, 1980) to December 3, 2022 that contained any of the following key terms: "machine learning," "artificial intelligence," "radiomics," "deep learning," "neural network," "generative adversarial network," "object detection," or "natural language processing." Articles were screened by 2 independent reviewers, and categorized into statistical modeling (type 1), AI/ML development (type 2), both representing developmental research work but without a direct clinical integration, or end-user application (type 3), which is the closest surrogate of potential AI/ML integration into day-to-day practice. To better understand the limiting factors to type 3 articles being published, we analyzed type 2 articles as they should represent the precursor work leading to type 3., Results: A total of 182 articles were identified with 79% being nonintegration focused (type 1 n = 53, type 2 n = 90) and 21% ( n = 39) being type 3. The total number of articles published grew roughly 5-fold in the last 5 years, with the nonintegration focused articles mainly driving this growth. Additionally, a minority of type 2 articles addressed bias (22%) and explainability (16%). These articles were primarily led by radiologists (63%), with most (60%) having additional postgraduate degrees., Conclusions: AI/ML publications have been rapidly increasing in neuroradiology with only a minority of this growth being attributable to end-user application. Areas identified for improvement include enhancing the quality of type 2 articles, namely external validation, and addressing both bias and explainability. These results ultimately provide authors, editors, clinicians, and policymakers important insights to promote a shift toward integrating practical AI/ML solutions in neuroradiology., (© 2024 by American Journal of Neuroradiology.)

Published
2024
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33. Postoperative cerebellar mutism syndrome is an acquired autism-like network disturbance.

Author

Suresh H, Morgan BR, Mithani K, Warsi NM, Yan H, Germann J, Boutet A, Loh A, Gouveia FV, Young J, Quon J, Morgado F, Lerch J, Lozano AM, Al-Fatly B, Kühn AA, Laughlin S, Dewan MC, Mabbott D, Gorodetsky C, Bartels U, Huang A, Tabori U, Rutka JT, Drake JM, Kulkarni AV, Dirks P, Taylor MD, Ramaswamy V, and Ibrahim GM

Subjects
Humans, Male, Child, Female, Child, Preschool, Adolescent, Postoperative Complications etiology, Adult, Autism Spectrum Disorder etiology, Autism Spectrum Disorder pathology, Infratentorial Neoplasms surgery, Infratentorial Neoplasms pathology, Infratentorial Neoplasms complications, Follow-Up Studies, Case-Control Studies, Young Adult, Connectome, Magnetic Resonance Imaging, Nerve Net pathology, Mutism etiology, Mutism pathology, Cerebellar Neoplasms surgery, Cerebellar Neoplasms pathology, Medulloblastoma surgery, Medulloblastoma pathology
Abstract

Background: Cerebellar mutism syndrome (CMS) is a common and debilitating complication of posterior fossa tumor surgery in children. Affected children exhibit communication and social impairments that overlap phenomenologically with subsets of deficits exhibited by children with Autism spectrum disorder (ASD). Although both CMS and ASD are thought to involve disrupted cerebro-cerebellar circuitry, they are considered independent conditions due to an incomplete understanding of their shared neural substrates., Methods: In this study, we analyzed postoperative cerebellar lesions from 90 children undergoing posterior fossa resection of medulloblastoma, 30 of whom developed CMS. Lesion locations were mapped to a standard atlas, and the networks functionally connected to each lesion were computed in normative adult and pediatric datasets. Generalizability to ASD was assessed using an independent cohort of children with ASD and matched controls (n = 427)., Results: Lesions in children who developed CMS involved the vermis and inferomedial cerebellar lobules. They engaged large-scale cerebellothalamocortical circuits with a preponderance for the prefrontal and parietal cortices in the pediatric and adult connectomes, respectively. Moreover, with increasing connectomic age, CMS-associated lesions demonstrated stronger connectivity to the midbrain/red nuclei, thalami and inferior parietal lobules and weaker connectivity to the prefrontal cortex. Importantly, the CMS-associated lesion network was independently reproduced in ASD and correlated with communication and social deficits, but not repetitive behaviors., Conclusions: Our findings indicate that CMS-associated lesions may result in an ASD-like network disturbance that occurs during sensitive windows of brain development. A common network disturbance between CMS and ASD may inform improved treatment strategies for affected children., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society for Neuro-Oncology. 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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34. Neural signatures of indirect pathway activity during subthalamic stimulation in Parkinson's disease.

Author

Steiner LA, Crompton D, Sumarac S, Vetkas A, Germann J, Scherer M, Justich M, Boutet A, Popovic MR, Hodaie M, Kalia SK, Fasano A, Hutchison Wd WD, Lozano AM, Lankarany M, Kühn AA, and Milosevic L

Subjects
Humans, Basal Ganglia physiology, Neurons physiology, Parkinson Disease therapy, Deep Brain Stimulation methods, Subthalamic Nucleus physiology
Abstract

Deep brain stimulation (DBS) of the subthalamic nucleus (STN) produces an electrophysiological signature called evoked resonant neural activity (ERNA); a high-frequency oscillation that has been linked to treatment efficacy. However, the single-neuron and synaptic bases of ERNA are unsubstantiated. This study proposes that ERNA is a subcortical neuronal circuit signature of DBS-mediated engagement of the basal ganglia indirect pathway network. In people with Parkinson's disease, we: (i) showed that each peak of the ERNA waveform is associated with temporally-locked neuronal inhibition in the STN; (ii) characterized the temporal dynamics of ERNA; (iii) identified a putative mesocircuit architecture, embedded with empirically-derived synaptic dynamics, that is necessary for the emergence of ERNA in silico; (iv) localized ERNA to the dorsal STN in electrophysiological and normative anatomical space; (v) used patient-wise hotspot locations to assess spatial relevance of ERNA with respect to DBS outcome; and (vi) characterized the local fiber activation profile associated with the derived group-level ERNA hotspot., (© 2024. The Author(s).)

Published
2024
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35. A large normative connectome for exploring the tractographic correlates of focal brain interventions.

Author

Elias GJB, Germann J, Joel SE, Li N, Horn A, Boutet A, and Lozano AM

Subjects
Humans, Brain diagnostic imaging, Diffusion Magnetic Resonance Imaging methods, Neuroimaging, Connectome methods, White Matter diagnostic imaging
Abstract

Diffusion-weighted MRI (dMRI) is a widely used neuroimaging modality that permits the in vivo exploration of white matter connections in the human brain. Normative structural connectomics - the application of large-scale, group-derived dMRI datasets to out-of-sample cohorts - have increasingly been leveraged to study the network correlates of focal brain interventions, insults, and other regions-of-interest (ROIs). Here, we provide a normative, whole-brain connectome in MNI space that enables researchers to interrogate fiber streamlines that are likely perturbed by given ROIs, even in the absence of subject-specific dMRI data. Assembled from multi-shell dMRI data of 985 healthy Human Connectome Project subjects using generalized Q-sampling imaging and multispectral normalization techniques, this connectome comprises ~12 million unique streamlines, the largest to date. It has already been utilized in at least 18 peer-reviewed publications, most frequently in the context of neuromodulatory interventions like deep brain stimulation and focused ultrasound. Now publicly available, this connectome will constitute a useful tool for understanding the wider impact of focal brain perturbations on white matter architecture going forward., (© 2024. The Author(s).)

Published
2024
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36. Enlarging and shrinking focal perivascular spaces.

Author

Boutet A, Son HJ, Malik M, Haile S, Yang AZ, Pai V, Germann J, and Mandell DM

Abstract

Background and Purpose: Perivascular spaces (PVS) are interstitial fluid-filled spaces surrounding blood vessels traversing the deep gray nuclei and white matter of the brain. These are commonly encountered on CT and MR imaging and are generally asymptomatic and of no clinical significance. However, occasional changes in the size of focal PVS, for example, when enlarging, may mimic pathologies including neoplasms and infections, hence potentially confounding radiological interpretation. Given these potential diagnostic issues, we sought to better characterize common clinical and imaging features of focal PVS demonstrating size fluctuations., Materials and Methods: Upon institutional approval, we retrospectively identified 4 cases demonstrating PVS with size changes at our institution. To supplement our cases, we also performed a literature review, which identified an additional 14 cases. Their clinical and imaging data were analyzed to identify characteristic features., Results: Of the 18 total cases (including the 4 institutional cases), 10 cases increased and 8 decreased in size. These focal PVS ranged from 0.4-4.5 cm in size. Whereas a decrease in size did not represent a diagnostic issue, focal increase in size of PVS led to concerning differential diagnoses in at least 30% of the radiology reports. These enlarging PVS were most found in the basal ganglia and temporal lobe, and in patients with previous brain radiation treatment., Conclusion: Focal size change of PVS can occur, especially years after brain radiation treatment. Being cognizant of this benign finding is important to consider in the differential diagnosis to avoid undue patient anxiety or unnecessary medical intervention., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published
2024
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37. Deep brain stimulation for Alzheimer's disease - current status and next steps.

Author

Davidson B, Vetkas A, Germann J, Tang-Wai D, and Lozano AM

Abstract

Introduction: Alzheimer's disease (AD) requires novel therapeutic approaches due to limited efficacy of current treatments., Areas Covered: This article explores AD as a manifestation of neurocircuit dysfunction and evaluates deep brain stimulation (DBS) as a potential intervention. Focusing on fornix-targeted stimulation (DBS-f), the article summarizes safety, feasibility, and outcomes observed in phase 1/2 trials, highlighting findings such as cognitive improvement, increased metabolism, and hippocampal growth. Topics for further study include optimization of electrode placement, and the role of stimulation-induced autobiographical-recall. Nucleus basalis of Meynert (DBS-NBM) DBS is also discussed and compared with DBS-f. Challenges with both DBS-f and DBS-NBM are identified, emphasizing the need for further research on optimal stimulation parameters. The article also reviews alternative DBS targets, including medial temporal lobe structures and the ventral capsule/ventral striatum., Expert Opinion: Looking ahead, a phase-3 DBS-f trial, and the prospect of closed-loop stimulation using EEG-derived biomarkers or hippocampal theta activity are highlighted. Recent FDA-approved therapies and other neuromodulation techniques like temporal interference and low-intensity ultrasound are considered. The article concludes by underscoring the importance of imaging-based diagnosis and staging to allow for circuit-targeted therapies, given the heterogeneity of AD and varied stages of neurocircuit dysfunction.

Published
2024
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38. Uncovering neuroanatomical correlates of impaired coordinated movement after pallidal deep brain stimulation.

Author

Santyr B, Loh A, Vetkas A, Gwun D, Fung WK, Qazi S, Germann J, Boutet A, Sarica C, Yang A, Elias G, Kalia SK, Fasano A, and Lozano AM

Subjects
Humans, Treatment Outcome, Magnetic Resonance Imaging, Globus Pallidus diagnostic imaging, Globus Pallidus physiology, Deep Brain Stimulation adverse effects, Deep Brain Stimulation methods
Abstract

Background: The loss of the ability to swim following deep brain stimulation (DBS), although rare, poses a worrisome risk of drowning. It is unclear what anatomic substrate and neural circuitry underlie this phenomenon. We report a case of cervical dystonia with lost ability to swim and dance during active stimulation of globus pallidus internus. We investigated the anatomical underpinning of this phenomenon using unique functional and structural imaging analysis., Methods: Tesla (3T) functional MRI (fMRI) of the patient was used during active DBS and compared with a cohort of four matched patients without this side effect. Structural connectivity mapping was used to identify brain network engagement by stimulation., Results: fMRI during stimulation revealed significant (P bonferroni <0.0001) stimulation-evoked responses (DBS ON

Published
2024
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39. Comparative neural correlates of DBS and MRgFUS lesioning for tremor control in essential tremor.

Author

Germann J, Santyr B, Boutet A, Sarica C, Chow CT, Elias GJB, Vetkas A, Yang A, Hodaie M, Fasano A, Kalia SK, Schwartz ML, and Lozano AM

Subjects
Humans, Magnetic Resonance Imaging, Thalamus diagnostic imaging, Thalamus surgery, Treatment Outcome, Tremor, Deep Brain Stimulation, Essential Tremor therapy
Abstract

Background: Given high rates of early complications and non-reversibility, refined targeting is necessitated for magnetic resonance-guided focused ultrasound (MRgFUS) thalamotomy for essential tremor (ET). Selection of lesion location can be informed by considering optimal stimulation area from deep brain stimulation (DBS)., Methods: 118 patients with ET who received DBS (39) or MRgFUS (79) of the ventral intermediate nucleus (VIM) underwent stimulation/lesion mapping, probabilistic mapping of clinical efficacy and normative structural connectivity analysis. The efficacy maps were compared, which depict the relationship between stimulation/lesion location and clinical outcome., Results: Efficacy maps overlap around the VIM ventral border and encompass the dentato-rubro-thalamic tract. While the MRgFUS map extends inferiorly into the posterior subthalamic area, the DBS map spreads inside the VIM antero-superiorly., Conclusion: Comparing the efficacy maps of DBS and MRgFUS suggests a potential alternative location for lesioning, more antero-superiorly. This may reduce complications, without sacrificing efficacy, and individualise targeting., Trial Registration Number: NCT02252380., Competing Interests: Competing interests: AML is a consultant to Abbott, Boston Scientific, Insightec and Medtronic and Scientific Director at Functional Neuromodulation. SKK holds honoraria, speakers fees and/or indirect support Abbott/Boston/Medtronic. AF holds honoraria, speakers fees and/or indirect support Abbott/Boston/Medtronic., (© Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2024
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40. WarpDrive: Improving spatial normalization using manual refinements.

Author

Oxenford S, Ríos AS, Hollunder B, Neudorfer C, Boutet A, Elias GJB, Germann J, Loh A, Deeb W, Salvato B, Almeida L, Foote KD, Amaral R, Rosenberg PB, Tang-Wai DF, Wolk DA, Burke AD, Sabbagh MN, Salloway S, Chakravarty MM, Smith GS, Lyketsos CG, Okun MS, Anderson WS, Mari Z, Ponce FA, Lozano A, Neumann WJ, Al-Fatly B, and Horn A

Subjects
Humans, Brain diagnostic imaging, Imaging, Three-Dimensional, Brain Mapping methods, Magnetic Resonance Imaging methods, Image Processing, Computer-Assisted methods, Alzheimer Disease diagnostic imaging
Abstract

Spatial normalization-the process of mapping subject brain images to an average template brain-has evolved over the last 20+ years into a reliable method that facilitates the comparison of brain imaging results across patients, centers & modalities. While overall successful, sometimes, this automatic process yields suboptimal results, especially when dealing with brains with extensive neurodegeneration and atrophy patterns, or when high accuracy in specific regions is needed. Here we introduce WarpDrive, a novel tool for manual refinements of image alignment after automated registration. We show that the tool applied in a cohort of patients with Alzheimer's disease who underwent deep brain stimulation surgery helps create more accurate representations of the data as well as meaningful models to explain patient outcomes. The tool is built to handle any type of 3D imaging data, also allowing refinements in high-resolution imaging, including histology and multiple modalities to precisely aggregate multiple data sources together., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: A.H. reports a relationship with Boston Scientific Corporation that includes: speaking and lecture fees. L.A. reports a relationship with Boston Scientific Corporation that includes: consulting or advisory. L.A. reports a relationship with Medtronic that includes: consulting or advisory. K.F. reports a relationship with Medtronic that includes: consulting or advisory. K.F. reports a relationship with Boston Scientific Corporation that includes: consulting or advisory. K.F. reports a relationship with Abbott that includes: funding grants. K.F. reports a relationship with Functional Neuromodulation that includes: funding grants. D.W. reports a relationship with Functional Neuromodulation that includes: funding grants. D.W. reports a relationship with Avid Lily that includes: funding grants. D.W. reports a relationship with Merck that includes: funding grants. D.W. reports a relationship with Jannsen that includes: consulting or advisory. D.W. reports a relationship with GE Healthcare that includes: consulting or advisory. D.W. reports a relationship with Biogen that includes: consulting or advisory. D.W. reports a relationship with Neuronix that includes: consulting or advisory. S.S. reports a relationship with Elsai that includes: consulting or advisory. S.S. reports a relationship with Lilly that includes: consulting or advisory. S.S. reports a relationship with Roche that includes: consulting or advisory. S.S. reports a relationship with Novartis that includes: consulting or advisory. S.S. reports a relationship with Biogen that includes: consulting or advisory. G.S. reports a relationship with NIH that includes: funding grants. M.S. reports a relationship with Allergan that includes: consulting or advisory. M.S. reports a relationship with Biogen that includes: consulting or advisory. M.S. reports a relationship with Roche that includes: consulting or advisory. M.S. reports a relationship with Cortexyme that includes: consulting or advisory. M.S. reports a relationship with Bracket that includes: consulting or advisory. M.S. reports a relationship with Brain Health Inc that includes: consulting or advisory. M.S. reports a relationship with uMethod Health that includes: consulting or advisory. C.L. reports a relationship with Functional Neuromodulation that includes: funding grants. C.L. reports a relationship with Avanir that includes: funding grants. C.L. reports a relationship with Eli Lily that includes: funding grants. C.L. reports a relationship with NFL Benefits Office that includes: funding grants. M.O. reports a relationship with NIH that includes: funding grants. M.O. reports a relationship with Tourette Association of America Grant that includes: funding grants. M.O. reports a relationship with Parkinson's Alliance that includes: funding grants. M.O. reports a relationship with Smallwood Foundation that includes: funding grants. M.O. reports a relationship with Parkinson's Foundation Medical Director that includes: consulting or advisory. M.O. reports a relationship with Books4Patients that includes: consulting or advisory. M.O. reports a relationship with American Academy of Neurology that includes: consulting or advisory. M.O. reports a relationship with Peerview that includes: consulting or advisory. M.O. reports a relationship with WebMD Medscape that includes: consulting or advisory. M.O. reports a relationship with Mededicus that includes: consulting or advisory. M.O. reports a relationship with Movement Disorders Society that includes: consulting or advisory. M.O. reports a relationship with Taylor and Francis that includes: consulting or advisory. M.O. reports a relationship with Demos that includes: consulting or advisory. M.O. reports a relationship with Robert Rose that includes: consulting or advisory. M.O. reports a relationship with Medtronic that includes: non-financial support. A.L. reports a relationship with Medtronic that includes: funding grants. A.L. reports a relationship with Functional Neuromodulation that includes: funding grants. A.L. reports a relationship with Medtronic that includes: consulting or advisory. A.L. reports a relationship with St. Jude that includes: consulting or advisory. A.L. reports a relationship with Boston Scientific that includes: consulting or advisory. A.L. has patent #US Patent 8346,365 licensed to Functional Neuromodulation., (Copyright © 2023. Published by Elsevier B.V.)

Published
2024
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41. Deep Brain Stimulation of the Globus Pallidus Internus and Externus in Multiple System Atrophy.

Author

Di Luca DG, Ramirez-Gomez C, Germann J, Santyr B, Boutet A, Milosevic L, Lang AE, Kalia SK, Lozano AM, and Fasano A

Subjects
Humans, Globus Pallidus surgery, Treatment Outcome, Subthalamic Nucleus surgery, Deep Brain Stimulation adverse effects, Multiple System Atrophy therapy, Multiple System Atrophy etiology, Parkinson Disease drug therapy
Abstract

Background: Multiple system atrophy with parkinsonism (MSA-P) is a progressive condition with no effective treatment., Objective: The aim of this study was to describe the safety and efficacy of deep brain stimulation (DBS) of globus pallidus pars interna and externa in a cohort of patients with MSA-P., Methods: Six patients were included. Changes in Movement Disorders Society Unified Parkinson's Disease Rating Scale Part III (MDS-UPDRS III), Parkinson's Disease Questionnaire (PDQ-39) scores, and levodopa equivalent daily dose were compared before and after DBS. Electrode localization and volume tissue activation were calculated., Results: DBS surgery did not result in any major adverse events or intraoperative complications. Overall, no differences in MDS-UPDRS III scores were demonstrated (55.2 ± 17.6 preoperatively compared with 67.3 ± 19.2 at 1 year after surgery), although transient improvement in mobility and dyskinesia was reported in some subjects., Conclusions: Globus pallidus pars interna and externa DBS for patients with MSA-P did not result in major complications, although it did not provide significant clinical benefit as measured by MDS-UPDRS III. © 2023 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society., (© 2023 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published
2023
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42. Dissociable default-mode subnetworks subserve childhood attention and cognitive flexibility: Evidence from deep learning and stereotactic electroencephalography.

Author

Warsi NM, Wong SM, Germann J, Boutet A, Arski ON, Anderson R, Erdman L, Yan H, Suresh H, Gouveia FV, Loh A, Elias GJB, Kerr E, Smith ML, Ochi A, Otsubo H, Sharma R, Jain P, Donner E, Lozano AM, Snead OC, and Ibrahim GM

Subjects
Humans, Child, Brain Mapping, Neural Pathways diagnostic imaging, Neural Pathways physiology, Brain physiology, Attention physiology, Electroencephalography, Magnetic Resonance Imaging, Cognition physiology, Deep Learning, Connectome
Abstract

Cognitive flexibility encompasses the ability to efficiently shift focus and forms a critical component of goal-directed attention. The neural substrates of this process are incompletely understood in part due to difficulties in sampling the involved circuitry. We leverage stereotactic intracranial recordings to directly resolve local-field potentials from otherwise inaccessible structures to study moment-to-moment attentional activity in children with epilepsy performing a flexible attentional task. On an individual subject level, we employed deep learning to decode neural features predictive of task performance indexed by single-trial reaction time. These models were subsequently aggregated across participants to identify predictive brain regions based on AAL atlas and FIND functional network parcellations. Through this approach, we show that fluctuations in beta (12-30 Hz) and gamma (30-80 Hz) power reflective of increased top-down attentional control and local neuronal processing within relevant large-scale networks can accurately predict single-trial task performance. We next performed connectomic profiling of these highly predictive nodes to examine task-related engagement of distributed functional networks, revealing exclusive recruitment of the dorsal default mode network during shifts in attention. The identification of distinct substreams within the default mode system supports a key role for this network in cognitive flexibility and attention in children. Furthermore, convergence of our results onto consistent functional networks despite significant inter-subject variability in electrode implantations supports a broader role for deep learning applied to intracranial electrodes in the study of human attention., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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43. Trends and disparities in deep brain stimulation utilization in the United States: a Nationwide Inpatient Sample analysis from 1993 to 2017.

Author

Sarica C, Conner CR, Yamamoto K, Yang A, Germann J, Lannon MM, Samuel N, Colditz M, Santyr B, Chow CT, Iorio-Morin C, Aguirre-Padilla DH, Lang ST, Vetkas A, Cheyuo C, Loh A, Darmani G, Flouty O, Milano V, Paff M, Hodaie M, Kalia SK, Munhoz RP, Fasano A, and Lozano AM

Abstract

Background: Deep brain stimulation (DBS) is an approved treatment option for Parkinson's Disease (PD), essential tremor (ET), dystonia, obsessive-compulsive disorder and epilepsy in the United States. There are disparities in access to DBS, and clear understanding of the contextual factors driving them is important. Previous studies aimed at understanding these factors have been limited by single indications or small cohort sizes. The aim of this study is to provide an updated and comprehensive analysis of DBS utilization for multiple indications to better understand the factors driving disparities in access., Methods: The United States based National Inpatient Sample (NIS) database was utilized to analyze the surgical volume and trends of procedures based on indication, using relevant ICD codes. Predictors of DBS use were analyzed using a logistic regression model. DBS-implanted patients in each indication were compared based on the patient-, hospital-, and outcome-related variables., Findings: Our analysis of 104,356 DBS discharges from 1993 to 2017 revealed that the most frequent indications for DBS were PD (67%), ET (24%), and dystonia (4%). Although the number of DBS procedures has consistently increased over the years, radiofrequency ablation utilization has significantly decreased to only a few patients per year since 2003. Negative predictors for DBS utilization in PD and ET cohorts included age increase and female sex, while African American status was a negative predictor across all cohorts. Significant differences in patient-, hospital-, and outcome-related variables between DBS indications were also determined., Interpretation: Demographic and socioeconomic-based disparities in DBS use are evident. Although racial disparities are present across all indications, other disparities such as age, sex, wealth, and insurance status are only relevant in certain indications., Funding: This work was supported by Alan & Susan Hudson Cornerstone Chair in Neurosurgery at University Health Network., Competing Interests: CS has been receiving fellowship grants from Michael and Amira Dan Foundation and Turkish Neurosurgical Society. STL is a recipient of the Parkinson Canada Clinical Movement Disorder Fellowship. AML is scientific director for Functional Neuromodulation and a consultant to Medtronic, Abbott, Boston Scientific, Insightec and Focused Ultrasound Foundation. AF reports the following: consultancies from Abbvie, Medtronic, Boston Scientific, Sunovion, Merz, UCB and Ipsen; membership in advisory boards of Abbvie, Boston Scientific, Ceregate, Inbrain and Inbrain Pharma; receiving honoraria from Abbvie, Medtronic, Boston Scientific, Sunovion, Merz, UCB and Ipsen; receiving grants from Dystonia Medical Research Foundation, MSA coalition, University of Toronto, Weston foundation, Abbvie, Medtronic and Boston Scientific. SKK receives honoraria, consulting, and/or speaker fees from Abbott, Boston Scientific, inBrain, Medtronic, Novo Nordisk, Parkinson Canada, and Movement Disorders Society; and research support from Parkinson Canada, CIHR, MJFF, FUS Foundation, MitoO2, Toronto Western Hospital Foundation, Weston Foundation, and RR Tasker Chair in Stereotactic and Functional Neurosurgery. KY received a consulting fee from Insightec. DHAP received payment or honoraria from Boston Scientific Corporation. All other authors report no disclosures relevant to the manuscript., (© 2023 The Author(s).)

Published
2023
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44. Deep Brain Stimulation for Refractory Status Dystonicus in Children: Multicenter Case Series and Systematic Review.

Author

Vogt LM, Yan H, Santyr B, Breitbart S, Anderson M, Germann J, Lizarraga KJ, Hewitt AL, Fasano A, Ibrahim GM, and Gorodetsky C

Abstract

Objective: We sought to better understand the workflow, outcomes, and complications of deep brain stimulation (DBS) for pediatric status dystonicus (SD). We present a systematic review, alongside a multicenter case series of pediatric patients with SD treated with DBS., Methods: We collected individual data regarding treatment, stimulation parameters, and dystonia severity for a multicenter case series (n = 8) and all previously published cases (n = 77). Data for case series were used to create probabilistic voxelwise maps of stimulated tissue associated with dystonia improvement., Results: In our institutional series, DBS was implanted a mean of 25 days after SD onset. Programming began a mean of 1.6 days after surgery. All 8 patients in our case series and 73 of 74 reported patients in the systematic review had resolution of their SD with DBS, most within 2 to 4 weeks of surgery. Mean follow-up for patients in the case series was 16 months. DBS target for all patients in the case series and 68 of 77 in our systematic review was the globus pallidus pars interna (GPi). In our case series, stimulation of the posterior-ventrolateral GPi was associated with improved dystonia. Mean dystonia improvement was 32% and 51% in our institutional series and systematic review, respectively. Mortality was 4% in the review, which is lower than reported for treatment with pharmacotherapy alone (10-12.5%)., Interpretation: DBS is a feasible intervention with potential to reverse refractory pediatric SD and improve survival. More work is needed to increase awareness of DBS in this setting, so that it can be implemented in a timely manner. ANN NEUROL 2023., (© 2023 American Neurological Association.)

Published
2023
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45. Local neuroanatomical and tract-based proxies of optimal subcallosal cingulate deep brain stimulation.

Author

Elias GJB, Germann J, Boutet A, Beyn ME, Giacobbe P, Song HN, Choi KS, Mayberg HS, Kennedy SH, and Lozano AM

Subjects
Humans, Diffusion Tensor Imaging, Gyrus Cinguli diagnostic imaging, Gyrus Cinguli physiology, Corpus Callosum, Magnetic Resonance Imaging, Deep Brain Stimulation, White Matter diagnostic imaging, White Matter physiology, Depressive Disorder, Treatment-Resistant therapy
Abstract

Background: Deep brain stimulation of the subcallosal cingulate area (SCC-DBS) is a promising neuromodulatory therapy for treatment-resistant depression (TRD). Biomarkers of optimal target engagement are needed to guide surgical targeting and stimulation parameter selection and to reduce variance in clinical outcome., Objective/hypothesis: We aimed to characterize the relationship between stimulation location, white matter tract engagement, and clinical outcome in a large (n = 60) TRD cohort treated with SCC-DBS. A smaller cohort (n = 22) of SCC-DBS patients with differing primary indications (bipolar disorder/anorexia nervosa) was utilized as an out-of-sample validation cohort., Methods: Volumes of tissue activated (VTAs) were constructed in standard space using high-resolution structural MRI and individual stimulation parameters. VTA-based probabilistic stimulation maps (PSMs) were generated to elucidate voxelwise spatial patterns of efficacious stimulation. A whole-brain tractogram derived from Human Connectome Project diffusion-weighted MRI data was seeded with VTA pairs, and white matter streamlines whose overlap with VTAs related to outcome ('discriminative' streamlines; P uncorrected < 0.05) were identified using t-tests. Linear modelling was used to interrogate the potential clinical relevance of VTA overlap with specific structures., Results: PSMs varied by hemisphere: high-value left-sided voxels were located more anterosuperiorly and squarely in the lateral white matter, while the equivalent right-sided voxels fell more posteroinferiorly and involved a greater proportion of grey matter. Positive discriminative streamlines localized to the bilateral (but primarily left) cingulum bundle, forceps minor/rostrum of corpus callosum, and bilateral uncinate fasciculus. Conversely, negative discriminative streamlines mostly belonged to the right cingulum bundle and bilateral uncinate fasciculus. The best performing linear model, which utilized information about VTA volume overlap with each of the positive discriminative streamline bundles as well as the negative discriminative elements of the right cingulum bundle, explained significant variance in clinical improvement in the primary TRD cohort (R = 0.46, P < 0.001) and survived repeated 10-fold cross-validation (R = 0.50, P = 0.040). This model was also able to predict outcome in the out-of-sample validation cohort (R = 0.43, P = 0.047)., Conclusion(s): These findings reinforce prior indications of the importance of white matter engagement to SCC-DBS treatment success while providing new insights that could inform surgical targeting and stimulation parameter selection decisions., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: A.M.L. is the co-founder of Functional Neuromodulation (a DBS-related company) and is a consultant for Boston Scientific, Medtronic and Abbott (companies that produce DBS hardware). H.S.M., P.G., and S.H.K. are consultants for Abbott. G.J.B.E., A.B., H.S.M, and A.M.L. have intellectual property in the field of DBS. All other authors report no conflicts of interest., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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46. Successful magnetic resonance-guided focused ultrasound treatment of tremor in patients with a skull density ratio of 0.4 or less.

Author

Vetkas A, Boutet A, Sarica C, Germann J, Gwun D, Yamamoto K, Jung HH, Alkhotani A, Samuel N, Lang S, Conner CR, Elias GJB, Cheyuo C, Chow C, Santyr B, Iorio-Morin C, Yang AZ, Candeias da Silva C, Fasano A, Kalia SK, and Lozano AM

Subjects
Humans, Retrospective Studies, Head, Magnetic Resonance Spectroscopy, Tremor diagnostic imaging, Tremor therapy, Skull
Abstract

Objective: The use of magnetic resonance-guided focused ultrasound (MRgFUS) for the treatment of tremor-related disorders and other novel indications has been limited by guidelines advocating treatment of patients with a skull density ratio (SDR) above 0.45 ± 0.05 despite reports of successful outcomes in patients with a low SDR (LSDR). The authors' goal was to retrospectively analyze the sonication strategies, adverse effects, and clinical and imaging outcomes in patients with SDR ≤ 0.4 treated for tremor using MRgFUS., Methods: Clinical outcomes and adverse effects were assessed at 3 and 12 months after MRgFUS. Outcomes and lesion location, volume, and shape characteristics (elongation and eccentricity) were compared between the SDR groups., Results: A total of 102 consecutive patients were included in the analysis, of whom 39 had SDRs ≤ 0.4. No patient was excluded from treatment because of an LSDR, with the lowest being 0.22. Lesioning temperatures (> 52°C) and therapeutic ablations were achieved in all patients. There were no significant differences in clinical outcome, adverse effects, lesion location, and volume between the high SDR group and the LSDR group. SDR was significantly associated with total energy (rho = -0.459, p < 0.001), heating efficiency (rho = 0.605, p < 0.001), and peak temperature (rho = 0.222, p = 0.025)., Conclusions: The authors' results show that treatment of tremor in patients with an LSDR using MRgFUS is technically possible, leading to a safe and lasting therapeutic effect. Limiting the number of sonications and adjusting the energy and duration to achieve the required temperature early during the treatment are suitable strategies in LSDR patients.

Published
2023
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47. Deviations from a typical development of the cerebellum in youth are associated with psychopathology, executive functions and educational outcomes.

Author

Borges MS, Hoffmann MS, Simioni A, Axelrud LK, Teixeira DS, Zugman A, Jackowski A, Pan PM, Bressan RA, Parker N, Germann J, Bado PP, Satterthwaite TD, Milham MP, Chakravarty MM, Paim Rohde LA, Constantino Miguel E, Paus T, and Salum GA

Subjects
Child, Humans, Adolescent, Cohort Studies, Cross-Sectional Studies, Cerebellum diagnostic imaging, Executive Function, Mental Disorders
Abstract

Background: Understanding deviations from typical brain development is a promising approach to comprehend pathophysiology in childhood and adolescence. We investigated if cerebellar volumes different than expected for age and sex could predict psychopathology, executive functions and academic achievement., Methods: Children and adolescents aged 6-17 years from the Brazilian High-Risk Cohort Study for Mental Conditions had their cerebellar volume estimated using Multiple Automatically Generated Templates from T1-weighted images at baseline ( n = 677) and at 3-year follow-up ( n = 447). Outcomes were assessed using the Child Behavior Checklist and standardized measures of executive functions and school achievement. Models of typically developing cerebellum were based on a subsample not exposed to risk factors and without mental-health conditions ( n = 216). Deviations from this model were constructed for the remaining individuals ( n = 461) and standardized variation from age and sex trajectory model was used to predict outcomes in cross-sectional, longitudinal and mediation analyses., Results: Cerebellar volumes higher than expected for age and sex were associated with lower externalizing specific factor and higher executive functions. In a longitudinal analysis, deviations from typical development at baseline predicted inhibitory control at follow-up, and cerebellar deviation changes from baseline to follow-up predicted changes in reading and writing abilities. The association between deviations in cerebellar volume and academic achievement was mediated by inhibitory control., Conclusions: Deviations in the cerebellar typical development are associated with outcomes in youth that have long-lasting consequences. This study highlights both the potential of typical developing models and the important role of the cerebellum in mental health, cognition and education.

Published
2023
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48. Adolescent and Young Adult (AYA) Oncology, Version 2.2024, NCCN Clinical Practice Guidelines in Oncology.

Author

Bhatia S, Pappo AS, Acquazzino M, Allen-Rhoades WA, Barnett M, Borinstein SC, Casey R, Choo S, Chugh R, Dinner S, Ermoian R, Fair D, Federman N, Folbrecht J, Gandhi S, Germann J, Goldsby R, Hayashi R, Huang AY, Huang MS, Jacobs LA, Lee-Miller C, Link MP, Livingston JA, Lustberg M, Malogolowkin M, Oeffinger KC, Pratilas CA, Reed D, Skiles J, von Mehren M, Yeager N, Montgomery S, and Hang L

Subjects
Humans, Adolescent, Young Adult, Aged, Counseling, Survivorship, Risk Factors, Medical Oncology, Neoplasms diagnosis, Neoplasms therapy, Neoplasms psychology
Abstract

This selection from the NCCN Guidelines for Adolescent and Young Adult (AYA) Oncology focuses on considerations for the comprehensive care of AYA patients with cancer. Compared with older adults with cancer, AYA patients have unique needs regarding treatment, fertility counseling, psychosocial and behavioral issues, and supportive care services. The complete version of the NCCN Guidelines for Adolescent and Young Adult (AYA) Oncology addresses additional aspects of caring for AYA patients, including risk factors, screening, diagnosis, and survivorship.

Published
2023
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49. Multi-centre analysis of networks and genes modulated by hypothalamic stimulation in patients with aggressive behaviours.

Author

Gouveia FV, Germann J, Elias GJB, Boutet A, Loh A, Lopez Rios AL, Torres Diaz C, Contreras Lopez WO, Martinez RCR, Fonoff ET, Benedetti-Isaac JC, Giacobbe P, Arango Pava PM, Yan H, Ibrahim GM, Lipsman N, Lozano A, and Hamani C

Subjects
Child, Humans, Brain, Aggression psychology, Hypothalamus, Posterior physiology, Treatment Outcome, Magnetic Resonance Imaging, Deep Brain Stimulation methods
Abstract

Deep brain stimulation targeting the posterior hypothalamus (pHyp-DBS) is being investigated as a treatment for refractory aggressive behavior, but its mechanisms of action remain elusive. We conducted an integrated imaging analysis of a large multi-centre dataset, incorporating volume of activated tissue modeling, probabilistic mapping, normative connectomics, and atlas-derived transcriptomics. Ninety-one percent of the patients responded positively to treatment, with a more striking improvement recorded in the pediatric population. Probabilistic mapping revealed an optimized surgical target within the posterior-inferior-lateral region of the posterior hypothalamic area. Normative connectomic analyses identified fiber tracts and functionally connected with brain areas associated with sensorimotor function, emotional regulation, and monoamine production. Functional connectivity between the target, periaqueductal gray and key limbic areas - together with patient age - were highly predictive of treatment outcome. Transcriptomic analysis showed that genes involved in mechanisms of aggressive behavior, neuronal communication, plasticity and neuroinflammation might underlie this functional network., Competing Interests: FG, JG, GE, AB, AL, AL, CT, WC, RM, EF, JB, PG, PA, HY, GI, NL, AL, CH No competing interests declared, (© 2023, Gouveia, Germann et al.)

Published
2023
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50. Use of cortical volume to predict response to temporary CSF drainage in patients with idiopathic normal pressure hydrocephalus.

Author

Lang S, Dimond D, Isaacs AM, Dronyk J, Vetkas A, Conner CR, Germann J, Fasano A, Kalia S, Lozano A, and Hamilton MG

Subjects
Humans, Retrospective Studies, Magnetic Resonance Imaging, Brain, Drainage, Hydrocephalus, Normal Pressure diagnostic imaging, Hydrocephalus, Normal Pressure surgery, Hydrocephalus, Normal Pressure complications
Abstract

Objective: Temporary drainage of CSF with lumbar puncture or lumbar drainage has a high predictive value for identifying patients with suspected idiopathic normal pressure hydrocephalus (iNPH) who may benefit from ventriculoperitoneal shunt insertion. However, it is unclear what differentiates responders from nonresponders. The authors hypothesized that nonresponders to temporary CSF drainage would have patterns of reduced regional gray matter volume (GMV) as compared with those of responders. The objective of the current investigation was to compare regional GMV between temporary CSF drainage responders and nonresponders. Machine learning using extracted GMV was then used to predict outcomes., Methods: This retrospective cohort study included 132 patients with iNPH who underwent temporary CSF drainage and structural MRI. Demographic and clinical variables were examined between groups. Voxel-based morphometry was used to calculate GMV across the brain. Group differences in regional GMV were assessed and correlated with change in results on the Montreal Cognitive Assessment (MoCA) and gait velocity. A support vector machine (SVM) model that used extracted GMV values and was validated with leave-one-out cross-validation was used to predict clinical outcome., Results: There were 87 responders and 45 nonresponders. There were no group differences in terms of age, sex, baseline MoCA score, Evans index, presence of disproportionately enlarged subarachnoid space hydrocephalus, baseline total CSF volume, or baseline white matter T2-weighted hyperintensity volume (p > 0.05). Nonresponders demonstrated decreased GMV in the right supplementary motor area (SMA) and right posterior parietal cortex as compared with responders (p < 0.001, p < 0.05 with false discovery rate cluster correction). GMV in the posterior parietal cortex was associated with change in MoCA (r2 = 0.075, p < 0.05) and gait velocity (r2 = 0.076, p < 0.05). Response status was classified by the SVM with 75.8% accuracy., Conclusions: Decreased GMV in the SMA and posterior parietal cortex may help identify patients with iNPH who are unlikely to benefit from temporary CSF drainage. These patients may have limited capacity for recovery due to atrophy in these regions that are known to be important for motor and cognitive integration. This study represents an important step toward improving patient selection and predicting clinical outcomes in the treatment of iNPH.

Published
2023
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