Your search keyword '"Isabella M. Young"' showing total 68 results

1. An agile, data driven approach for target selection in rTMS therapy for anxiety symptoms

Author

Isabella M. Young, Hugh M. Taylor, Peter J. Nicholas, Alana Mackenzie, Onur Tanglay, Nicholas B. Dadario, Karol Osipowicz, Stephane Doyen, Charles Teo, and Michael E. Sughrue

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

2. An agile, data‐driven approach for target selection in rTMS therapy for anxiety symptoms: Proof of concept and preliminary data for two novel targets

Author

Isabella M. Young, Hugh M. Taylor, Peter J. Nicholas, Alana Mackenzie, Onur Tanglay, Nicholas B. Dadario, Karol Osipowicz, Ethan Davis, Stephane Doyen, Charles Teo, and Michael E. Sughrue

Subjects

anxiety, brain stimulation, repetitive transcranial magnetic stimulation, treatment, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction Data‐driven approaches to transcranial magnetic stimulation (TMS) might yield more consistent and symptom‐specific results based on individualized functional connectivity analyses compared to previous traditional approaches due to more precise targeting. We provide a proof of concept for an agile target selection paradigm based on using connectomic methods that can be used to detect patient‐specific abnormal functional connectivity, guide treatment aimed at the most abnormal regions, and optimize the rapid development of new hypotheses for future study. Methods We used the resting‐state functional MRI data of 28 patients with medically refractory generalized anxiety disorder to perform agile target selection based on abnormal functional connectivity patterns between the Default Mode Network (DMN) and Central Executive Network (CEN). The most abnormal areas of connectivity within these regions were selected for subsequent targeted TMS treatment by a machine learning based on an anomalous functional connectivity detection matrix. Areas with mostly hyperconnectivity were stimulated with continuous theta burst stimulation and the converse with intermittent theta burst stimulation. An image‐guided accelerated theta burst stimulation paradigm was used for treatment. Results Areas 8Av and PGs demonstrated consistent abnormalities, particularly in the left hemisphere. Significant improvements were demonstrated in anxiety symptoms, and few, minor complications were reported (fatigue (n = 2) and headache (n = 1)). Conclusions Our study suggests that a left‐lateralized DMN is likely the primary functional network disturbed in anxiety‐related disorders, which can be improved by identifying and targeting abnormal regions with a rapid, data‐driven, agile aTBS treatment on an individualized basis.

Published

2023

3. Topology of the lateral visual system: The fundus of the superior temporal sulcus and parietal area H connect nonvisual cerebrum to the lateral occipital lobe

Author

Nicholas B. Dadario, Onur Tanglay, Jordan F. Stafford, Ethan J. Davis, Isabella M. Young, R. Dineth Fonseka, Robert G. Briggs, Jacky T. Yeung, Charles Teo, and Michael E. Sughrue

Subjects

dyslexia, FST, parcellation, PH, tractography, visual network, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background and Purpose Mapping the topology of the visual system is critical for understanding how complex cognitive processes like reading can occur. We aim to describe the connectivity of the visual system to understand how the cerebrum accesses visual information in the lateral occipital lobe. Methods Using meta‐analytic software focused on task‐based functional MRI studies, an activation likelihood estimation (ALE) of the visual network was created. Regions of interest corresponding to the cortical parcellation scheme previously published under the Human Connectome Project were co‐registered onto the ALE to identify the hub‐like regions of the visual network. Diffusion Spectrum Imaging‐based fiber tractography was performed to determine the structural connectivity of these regions with extraoccipital cortices. Results The fundus of the superior temporal sulcus (FST) and parietal area H (PH) were identified as hub‐like regions for the visual network. FST and PH demonstrated several areas of coactivation beyond the occipital lobe and visual network. Furthermore, these parcellations were highly interconnected with other cortical regions throughout extraoccipital cortices related to their nonvisual functional roles. A cortical model demonstrating connections to these hub‐like areas was created. Conclusions FST and PH are two hub‐like areas that demonstrate extensive functional coactivation and structural connections to nonvisual cerebrum. Their structural interconnectedness with language cortices along with the abnormal activation of areas commonly located in the temporo‐occipital region in dyslexic individuals suggests possible important roles of FST and PH in the integration of information related to language and reading. Future studies should refine our model by examining the functional roles of these hub areas and their clinical significance.

Published

2023

4. Interventional neurorehabilitation for promoting functional recovery post-craniotomy: a proof-of-concept

Author

Anujan Poologaindran, Christos Profyris, Isabella M. Young, Nicholas B. Dadario, Syed A. Ahsan, Kassem Chendeb, Robert G. Briggs, Charles Teo, Rafael Romero-Garcia, John Suckling, and Michael E. Sughrue

Subjects

Medicine, Science

Abstract

Abstract The human brain is a highly plastic ‘complex’ network—it is highly resilient to damage and capable of self-reorganisation after a large perturbation. Clinically, neurological deficits secondary to iatrogenic injury have very few active treatments. New imaging and stimulation technologies, though, offer promising therapeutic avenues to accelerate post-operative recovery trajectories. In this study, we sought to establish the safety profile for ‘interventional neurorehabilitation’: connectome-based therapeutic brain stimulation to drive cortical reorganisation and promote functional recovery post-craniotomy. In n = 34 glioma patients who experienced post-operative motor or language deficits, we used connectomics to construct single-subject cortical networks. Based on their clinical and connectivity deficit, patients underwent network-specific transcranial magnetic stimulation (TMS) sessions daily over five consecutive days. Patients were then assessed for TMS-related side effects and improvements. 31/34 (91%) patients were successfully recruited and enrolled for TMS treatment within two weeks of glioma surgery. No seizures or serious complications occurred during TMS rehabilitation and 1-week post-stimulation. Transient headaches were reported in 4/31 patients but improved after a single session. No neurological worsening was observed while a clinically and statistically significant benefit was noted in 28/31 patients post-TMS. We present two clinical vignettes and a video demonstration of interventional neurorehabilitation. For the first time, we demonstrate the safety profile and ability to recruit, enroll, and complete TMS acutely post-craniotomy in a high seizure risk population. Given the lack of randomisation and controls in this study, prospective randomised sham-controlled stimulation trials are now warranted to establish the efficacy of interventional neurorehabilitation following craniotomy.

Published

2022

5. Connectivity model of the anatomic substrates and network abnormalities in major depressive disorder: A coordinate meta-analysis of resting-state functional connectivity

Author

Isabella M. Young, Nicholas B. Dadario, Onur Tanglay, Emily Chen, Brennan Cook, Hugh M. Taylor, Lewis Crawford, Jacky T. Yeung, Peter J. Nicholas, Stéphane Doyen, and Michael E. Sughrue

Subjects

Depression, Resting-state fMRI, Connectome, Meta-analysis, Brain network, Mental healing, RZ400-408

Abstract

Increasing data suggests major depressive disorder (MDD) involves abnormal functional connectivity within a variety of large-scale brain networks. However, due to the use of unstandardized parcellation schemes, the interactions between these networks and the specific neuroanatomic substrates involved requires further review. We therefore sought to conduct a meta-analysis of functional connectivity changes encountered in MDD using a detailed and standardized parcellation scheme. A literature search for relevant resting-state fMRI studies related to MDD in PubMed was conducted. BrainMap's GingerALE 2.3.6 extracted the relevant fMRI data for creation of an activation likelihood estimation (ALE). A sphere was placed at the MNI coordinate of each ALE cluster and seed origin point, and the Human Connectome Project (HCP) parcellation schema was projected on these spheres. The parcellations most present in the ALE were analyzed based on their associated functional network and/or subcortical area to identify abnormal pairs based on the ALE and seed origin parcellation. Ultimately, 483 subjects across 15 studies were analyzed, wherein areas of decreased or increased functional connectivity compared to healthy controls were identified. Our MDD model most commonly implicated increased default mode network (DMN)-central executive network (CEN) pairs, while decreased paired networks commonly included the DMN with other brain networks. All intra DMN-DMN connections and salience network (SN) pairs showed decreased functional connectivity, while all intra CENCEN functional connectivity were increased compared to controls. We hypothesize that our findings of abnormal connectivity between the DMN, CEN, and SN core cognitive networks may demonstrate the inappropriate allocation of cognitive resources and cognitive depletion believed to cause persisting rumination in depression. Despite previous claims, DMN connectivity was found to be generally decreased, and we propose its connectivity direction is dependent on its interacting network partner and the specific parcellations involved. While both of these hypotheses remain speculative and require further validation, our work provides a comprehensive and anatomically precise model to be refined in future studies focusing on the functional connectivity underlying MDD pathophysiology.

Published

2023

6. Connectomic disturbances underlying insomnia disorder and predictors of treatment response

Author

Qian Lu, Wentong Zhang, Hailang Yan, Negar Mansouri, Onur Tanglay, Karol Osipowicz, Angus W. Joyce, Isabella M. Young, Xia Zhang, Stephane Doyen, Michael E. Sughrue, and Chuan He

Subjects

Insomnia, machine learning, functional connectivity, rTMS, treatment response, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

ObjectiveDespite its prevalence, insomnia disorder (ID) remains poorly understood. In this study, we used machine learning to analyze the functional connectivity (FC) disturbances underlying ID, and identify potential predictors of treatment response through recurrent transcranial magnetic stimulation (rTMS) and pharmacotherapy.Materials and methods51 adult patients with chronic insomnia and 42 healthy age and education matched controls underwent baseline anatomical T1 magnetic resonance imaging (MRI), resting-stage functional MRI (rsfMRI), and diffusion weighted imaging (DWI). Imaging was repeated for 24 ID patients following four weeks of treatment with pharmacotherapy, with or without rTMS. A recently developed machine learning technique, Hollow Tree Super (HoTS) was used to classify subjects into ID and control groups based on their FC, and derive network and parcel-based FC features contributing to each model. The number of FC anomalies within each network was also compared between responders and non-responders using median absolute deviation at baseline and follow-up.ResultsSubjects were classified into ID and control with an area under the receiver operating characteristic curve (AUC-ROC) of 0.828. Baseline FC anomaly counts were higher in responders than non-responders. Response as measured by the Insomnia Severity Index (ISI) was associated with a decrease in anomaly counts across all networks, while all networks showed an increase in anomaly counts when response was measured using the Pittsburgh Sleep Quality Index. Overall, responders also showed greater change in all networks, with the Default Mode Network demonstrating the greatest change.ConclusionMachine learning analysis into the functional connectome in ID may provide useful insight into diagnostic and therapeutic targets.

Published

2022

7. Parcellation‐based tractographic modeling of the salience network through meta‐analysis

Author

Robert G. Briggs, Isabella M. Young, Nicholas B. Dadario, R. Dineth Fonseka, Jorge Hormovas, Parker Allan, Micah L. Larsen, Yueh‐Hsin Lin, Onur Tanglay, B. David Maxwell, Andrew K. Conner, Jordan F. Stafford, Chad A. Glenn, Charles Teo, and Michael E. Sughrue

Subjects

anatomy, parcellation, salience network, tractography, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background The salience network (SN) is a transitory mediator between active and passive states of mind. Multiple cortical areas, including the opercular, insular, and cingulate cortices have been linked in this processing, though knowledge of network connectivity has been devoid of structural specificity. Objective The current study sought to create an anatomically specific connectivity model of the neural substrates involved in the salience network. Methods A literature search of PubMed and BrainMap Sleuth was conducted for resting‐state and task‐based fMRI studies relevant to the salience network according to PRISMA guidelines. Publicly available meta‐analytic software was utilized to extract relevant fMRI data for the creation of an activation likelihood estimation (ALE) map and relevant parcellations from the human connectome project overlapping with the ALE data were identified for inclusion in our SN model. DSI‐based fiber tractography was then performed on publicaly available data from healthy subjects to determine the structural connections between cortical parcellations comprising the network. Results Nine cortical regions were found to comprise the salience network: areas AVI (anterior ventral insula), MI (middle insula), FOP4 (frontal operculum 4), FOP5 (frontal operculum 5), a24pr (anterior 24 prime), a32pr (anterior 32 prime), p32pr (posterior 32 prime), and SCEF (supplementary and cingulate eye field), and 46. The frontal aslant tract was found to connect the opercular‐insular cluster to the middle cingulate clusters of the network, while mostly short U‐fibers connected adjacent nodes of the network. Conclusion Here we provide an anatomically specific connectivity model of the neural substrates involved in the salience network. These results may serve as an empiric basis for clinical translation in this region and for future study which seeks to expand our understanding of how specific neural substrates are involved in salience processing and guide subsequent human behavior.

Published

2022

8. Machine Learning Decomposition of the Anatomy of Neuropsychological Deficit in Alzheimer’s Disease and Mild Cognitive Impairment

Author

Ningxin Dong, Changyong Fu, Renren Li, Wei Zhang, Meng Liu, Weixin Xiao, Hugh M. Taylor, Peter J. Nicholas, Onur Tanglay, Isabella M. Young, Karol Z. Osipowicz, Michael E. Sughrue, Stephane P. Doyen, and Yunxia Li

Subjects

cognitive impairment, neuropsychological tests, MRI, neural networks, machine learning, neuroimaging markers, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

ObjectiveAlzheimer’s Disease (AD) is a progressive condition characterized by cognitive decline. AD is often preceded by mild cognitive impairment (MCI), though the diagnosis of both conditions remains a challenge. Early diagnosis of AD, and prediction of MCI progression require data-driven approaches to improve patient selection for treatment. We used a machine learning tool to predict performance in neuropsychological tests in AD and MCI based on functional connectivity using a whole-brain connectome, in an attempt to identify network substrates of cognitive deficits in AD.MethodsNeuropsychological tests, baseline anatomical T1 magnetic resonance imaging (MRI), resting-state functional MRI, and diffusion weighted imaging scans were obtained from 149 MCI, and 85 AD patients; and 140 cognitively unimpaired geriatric participants. A novel machine learning tool, Hollow Tree Super (HoTS) was utilized to extract feature importance from each machine learning model to identify brain regions that were associated with deficit and absence of deficit for 11 neuropsychological tests.Results11 models attained an area under the receiver operating curve (AUC-ROC) greater than 0.65, while five models had an AUC-ROC ≥ 0.7. 20 parcels of the Human Connectome Project Multimodal Parcelation Atlas matched to poor performance in at least two neuropsychological tests, while 14 parcels were associated with good performance in at least two tests. At a network level, most parcels predictive of both presence and absence of deficit were affiliated with the Central Executive Network, Default Mode Network, and the Sensorimotor Networks. Segregating predictors by the cognitive domain associated with each test revealed areas of coherent overlap between cognitive domains, with the parcels providing possible markers to screen for cognitive impairment.ConclusionApproaches such as ours which incorporate whole-brain functional connectivity and harness feature importance in machine learning models may aid in identifying diagnostic and therapeutic targets in AD.

Published

2022

9. Comparison of consistency between image guided and craniometric transcranial magnetic stimulation coil placement

Author

Isabella M. Young, Karol Osipowicz, Alana Mackenzie, Oliver Clarke, Hugh Taylor, Peter Nicholas, Mark Ryan, Jonas Holle, Onur Tanglay, Stephane Doyen, and Michael E. Sughrue

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2022

10. Akinetic mutism reversed by inferior parietal lobule repetitive theta burst stimulation: Can we restore default mode network function for therapeutic benefit?

Author

Tressie M. Stephens, Isabella M. Young, Christen M. O'Neal, Nicholas B. Dadario, Robert G. Briggs, Charles Teo, and Michael E. Sughrue

Subjects

default mode network, glioblastoma, right frontal tumor, theta burst stimulation, transcranial magnetic stimulation, tumor resection, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background Transcranial magnetic stimulation is a noninvasive treatment used to modulate cortical excitability. Its use over the last two decades has expanded, ranging from psychiatric disorders to traumatic brain injury and poststroke rehabilitation. Objectives We present the case of a 59‐year‐old male patient who presented in a decreased state of consciousness due to a right frontal glioblastoma, wherein his state was not improved by a successful surgery and could not be explained by any other condition. Due to his poor prognosis, we examine the benefits of receiving transcranial magnetic stimulation treatment to improve his akinetic mutism. Methods We utilized independent component analysis with resting‐state functional magnetic resonance imaging (rsfMRI) to better understand his cortical functionality. The imaging suggested absence of the default mode network (DMN). The patient underwent five sessions of navigated intermittent theta burst stimulation to the ipsilesional inferior parietal lobule and inferior frontal gyrus, with the aim of improving his default mode network functionality. Results No other treatments resulted in an improvement of this patient's condition; however, 3 weeks following transcranial magnetic stimulation treatment, the patient was more alert and interactive, and his follow‐up rsfMRI scan demonstrated a partially intact default mode network. Conclusion This case raises important questions regarding the clinical utility of transcranial magnetic stimulation to improve the connectivity of important cerebral networks and subsequent related functional recovery.

Published

2021

11. Parcellation‐based anatomic model of the semantic network

Author

Camille K. Milton, Vukshitha Dhanaraj, Isabella M. Young, Hugh M. Taylor, Peter J. Nicholas, Robert G. Briggs, Michael Y. Bai, Rannulu D. Fonseka, Jorge Hormovas, Yueh‐Hsin Lin, Onur Tanglay, Andrew K. Conner, Chad A. Glenn, Charles Teo, Stéphane Doyen, and Michael E. Sughrue

Subjects

dual stream, language network, parcellation, tractography, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction The semantic network is an important mediator of language, enabling both speech production and the comprehension of multimodal stimuli. A major challenge in the field of neurosurgery is preventing semantic deficits. Multiple cortical areas have been linked to semantic processing, though knowledge of network connectivity has lacked anatomic specificity. Using attentional task‐based fMRI studies, we built a neuroanatomical model of this network. Methods One hundred and fifty‐five task‐based fMRI studies related to categorization of visual words and objects, and auditory words and stories were used to generate an activation likelihood estimation (ALE). Cortical parcellations overlapping the ALE were used to construct a preliminary model of the semantic network based on the cortical parcellation scheme previously published under the Human Connectome Project. Deterministic fiber tractography was performed on 25 randomly chosen subjects from the Human Connectome Project, to determine the connectivity of the cortical parcellations comprising the network. Results The ALE analysis demonstrated fourteen left hemisphere cortical regions to be a part of the semantic network: 44, 45, 55b, IFJa, 8C, p32pr, SFL, SCEF, 8BM, STSdp, STSvp, TE1p, PHT, and PBelt. These regions showed consistent interconnections between parcellations. Notably, the anterior temporal pole, a region often implicated in semantic function, was absent from our model. Conclusions We describe a preliminary cortical model for the underlying structural connectivity of the semantic network. Future studies will further characterize the neurotractographic details of the semantic network in the context of medical application.

Published

2021

12. Parcellation‐based anatomic modeling of the default mode network

Author

Zainab Sandhu, Onur Tanglay, Isabella M. Young, Robert G. Briggs, Michael Y. Bai, Micah L. Larsen, Andrew K. Conner, Vukshitha Dhanaraj, Yueh‐Hsin Lin, Jorge Hormovas, Rannulu Dineth Fonseka, Chad A. Glenn, and Michael E. Sughrue

Subjects

ALE, anatomy, default mode network, parcellation, tractography, white matter, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background The default mode network (DMN) is an important mediator of passive states of mind. Multiple cortical areas, such as the anterior cingulate cortex, posterior cingulate cortex, and lateral parietal lobe, have been linked in this processing, though knowledge of network connectivity had limited tractographic specificity. Methods Using resting‐state fMRI studies related to the DMN, we generated an activation likelihood estimation (ALE). We built a tractographical model of this network based on the cortical parcellation scheme previously published under the Human Connectome Project. DSI‐based fiber tractography was performed to determine the structural connections between cortical parcellations comprising the network. Results Seventeen cortical regions were found to be part of the DMN: 10r, 31a, 31pd, 31pv, a24, d23ab, IP1, p32, POS1, POS2, RSC, PFm, PGi, PGs, s32, TPOJ3, and v23ab. These regions showed consistent interconnections between adjacent parcellations, and the cingulum was found to connect the anterior and posterior cingulate clusters within the network. Conclusions We present a preliminary anatomic model of the default mode network. Further studies may refine this model with the ultimate goal of clinical application.

Published

2021

13. Using a ResNet-18 Network to Detect Features of Alzheimer’s Disease on Functional Magnetic Resonance Imaging: A Failed Replication. Comment on Odusami et al. Analysis of Features of Alzheimer’s Disease: Detection of Early Stage from Functional Brain Changes in Magnetic Resonance Images Using a Finetuned ResNet18 Network. Diagnostics 2021, 11, 1071

Author

Peter J. Nicholas, Alex To, Onur Tanglay, Isabella M. Young, Michael E. Sughrue, and Stéphane Doyen

Subjects

n/a, Medicine (General), R5-920

Abstract

There is considerable interest in developing effective tools to detect Alzheimer’s Disease (AD) early in its course, prior to clinical progression [...]

Published

2022

14. Functional connectivity analysis of the depression connectome provides potential markers and targets for transcranial magnetic stimulation

Author

Hugh Taylor, Peter Nicholas, Kate Hoy, Neil Bailey, Onur Tanglay, Isabella M. Young, Lewis Dobbin, Stephane Doyen, Michael E. Sughrue, and Paul B. Fitzgerald

Subjects

Psychiatry and Mental health, Clinical Psychology

Published

2023

15. Functional connectivity reveals different brain networks underlying the idiopathic foreign accent syndrome

Author

Nicholas B. Dadario, Keaton Piper, Isabella M Young, Jonathan H. Sherman, and Michael E. Sughrue

Subjects

Psychiatry and Mental health, Neurology (clinical), Dermatology, General Medicine

Published

2023

16. Eigenvector PageRank difference as a measure to reveal topological characteristics of the brain connectome for neurosurgery

Author

Onur Tanglay, Isabella M. Young, Nicholas B. Dadario, Hugh M. Taylor, Peter J. Nicholas, Stéphane Doyen, and Michael E. Sughrue

Subjects

Cancer Research, Neurology, Oncology, Neurology (clinical)

Published

2022

17. Author response for 'Topology of the lateral visual system: The fundus of the superior temporal sulcus and parietal area H connect nonvisual cerebrum to the lateral occipital lobe'

Author

null Nicholas B. Dadario, null Onur Tanglay, null Jordan F. Stafford, null Ethan J. Davis, null Isabella M. Young, null R. Dineth Fonseka, null Robert G. Briggs, null Jacky T. Yeung, null Charles Teo, and null Michael E. Sughrue

Published

2023

18. Delayed, Progressive Multivessel Occlusion After Resection of a Recurrent Glioma

Author

Onur Tanglay, Nicholas B Dadario, Isabella M Young, Jacky T Yeung, Charles Teo, and Michael E Sughrue

Subjects

General Engineering

Published

2022

19. Author response for 'An agile, data‐driven approach for target selection in rTMS therapy for anxiety symptoms: Proof of concept and preliminary data for two novel targets'

Author

null Isabella M. Young, null Hugh M. Taylor, null Peter J. Nicholas, null Alana Mackenzie, null Onur Tanglay, null Nicholas B. Dadario, null Karol Osipowicz, null Ethan Davis, null Stephane Doyen, null Charles Teo, and null Michael E. Sughrue

Published

2022

20. Using Quicktome for Intracerebral Surgery: Early Retrospective Study and Proof of Concept

Author

Isabella M. Young, Michael E. Sughrue, Peter J. Nicholas, Jacky T. Yeung, Hugh M. Taylor, Stéphane Doyen, Ivy Jiang, and Charles Teo

Subjects

Adult, Male, medicine.medical_specialty, Neuronavigation, media_common.quotation_subject, Proof of Concept Study, Surgical planning, Neglect, Meningioma, Leukoencephalopathy, Postoperative stroke, medicine, Humans, Default mode network, Aged, Retrospective Studies, media_common, Brain Mapping, Brain Neoplasms, business.industry, Retrospective cohort study, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Surgery, Treatment Outcome, Female, Neurology (clinical), business, Craniotomy

Abstract

Background Neurosurgeons have limited tools in their armamentarium to visualize critical brain networks during surgical planning. Quicktome was designed using machine-learning to generate robust visualization of important brain networks that can be used with standard neuronavigation to minimize those deficits. We sought to see whether Quicktome could help localize important cerebral networks and tracts during intracerebral surgery. Methods We report on all patients who underwent keyhole intracranial surgery with available Quicktome-enabled neuronavigation. We retrospectively analyzed the locations of the lesions and determined functional networks at risks, including chief executive network, default mode network, salience, corticospinal/sensorimotor, language, neglect, and visual networks. We report on the postoperative neurologic outcomes of the patients and retrospectively determined whether the outcomes could be explained by Quicktome’s functional localizations. Results Fifteen high-risk patients underwent craniotomies for intra-axial tumors, with the exception of one meningioma and one case of leukoencephalopathy. Eight patients were male. The median age was 49.6 years. Quicktome was readily integrated in our existing navigation system in every case. New postoperative neurologic deficits occurred in 8 patients. All new deficits, except for one resulting from a postoperative stroke, were expected and could be explained by preoperative findings by Quicktome. In addition, in those who did not have new neurologic deficits, Quicktome offered explanations for their outcomes. Conclusions Quicktome helps to visualize complex functional connectomic networks and tracts by seamlessly integrating into existing neuronavigation platforms. The added information may assist in reducing neurological deficits and offer explanations for postsurgical outcomes.

Published

2021

21. Anatomy and white-matter connections of the precuneus

Author

Isabella M. Young, Jorge Hormovas, R. Dineth Fonseka, Robert G. Briggs, Yueh-Hsin Lin, Onur Tanglay, Michael E. Sughrue, Vukshitha Dhanaraj, and Nicholas B. Dadario

Subjects

Human Connectome Project, Cognitive Neuroscience, Precuneus, Superior parietal lobule, Anatomy, behavioral disciplines and activities, Temporal lobe, Behavioral Neuroscience, Psychiatry and Mental health, Cellular and Molecular Neuroscience, Superior temporal gyrus, medicine.anatomical_structure, nervous system, Neurology, Frontal lobe, medicine, Radiology, Nuclear Medicine and imaging, Neurology (clinical), Psychology, human activities, psychological phenomena and processes, Default mode network, Tractography

Abstract

Purpose Advances in neuroimaging have provided an understanding of the precuneus’(PCu) involvement in functions such as visuospatial processing and cognition. While the PCu has been previously determined to be apart of a higher-order default mode network (DMN), recent studies suggest the presence of possible dissociations from this model in order to explain the diverse functions the PCu facilitates, such as in episodic memory. An improved structural model of the white-matter anatomy of the PCu can demonstrate its unique cerebral connections with adjacent regions which can provide additional clarity on its role in integrating information across higher-order cerebral networks like the DMN. Furthermore, this information can provide clinically actionable anatomic information that can support clinical decision making to improve neurologic outcomes such as during cerebral surgery. Here, we sought to derive the relationship between the precuneus and underlying major white-mater bundles by characterizing its macroscopic connectivity. Methods Structural tractography was performed on twenty healthy adult controls from the Human Connectome Project (HCP) utilizing previously demonstrated methodology. All precuneus connections were mapped in both cerebral hemispheres and inter-hemispheric differences in resultant tract volumes were compared with an unpaired, corrected Mann–Whitney U test and a laterality index (LI) was completed. Ten postmortem dissections were then performed to serve as ground truth by using a modified Klingler technique with careful preservation of relevant white matter bundles. Results The precuneus is a heterogenous cortical region with five major types of connections that were present bilaterally. (1) Short association fibers connect the gyri of the precuneus and connect the precuneus to the superior parietal lobule and the occipital cortex. (2) Four distinct parts of the cingulum bundle connect the precuneus to the frontal lobe and the temporal lobe. (3) The middle longitudinal fasciculus from the precuneus connects to the superior temporal gyrus and the dorsolateral temporal pole. (4) Parietopontine fibers travel as part of the corticopontine fibers to connect the precuneus to pontine regions. (5) An extensive commissural bundle connects the precuneus bilaterally. Conclusion We present a summary of the anatomic connections of the precuneus as part of an effort to understand the function of the precuneus and highlight key white-matter pathways to inform surgical decision-making. Our findings support recent models suggesting unique fiber connections integrating at the precuneus which may suggest finer subsystems of the DMN or unique networks, but further study is necessary to refine our model in greater quantitative detail.

Published

2021

22. Anatomy and White Matter Connections of the Superior Parietal Lobule

Author

Onur Tanglay, Luke R Fletcher, Ali H. Palejwala, Jorge Hormovas, Andrew K. Conner, Isabella M. Young, Daniel L. O'Donoghue, Yueh-Hsin Lin, Alana E. Mackenzie, Sihyong J. Kim, R. Dineth Fonseka, Carol J. Abraham, Robert G. Briggs, Michael E. Sughrue, and Nicholas B. Dadario

Subjects

Adult, Superior parietal lobule, behavioral disciplines and activities, 050105 experimental psychology, Lateralization of brain function, 03 medical and health sciences, 0302 clinical medicine, Parietal Lobe, Neural Pathways, Fasciculus, Connectome, medicine, Humans, 0501 psychology and cognitive sciences, Vertical occipital fasciculus, Inferior longitudinal fasciculus, biology, business.industry, 05 social sciences, Extreme capsule, Superior longitudinal fasciculus, Anatomy, biology.organism_classification, White Matter, medicine.anatomical_structure, Surgery, Neurology (clinical), Nerve Net, business, psychological phenomena and processes, 030217 neurology & neurosurgery, Tractography

Abstract

Background The superior parietal lobule (SPL) is involved in somatosensory and visuospatial integration with additional roles in attention, written language, and working memory. A detailed understanding of the exact location and nature of associated white matter tracts could improve surgical decisions and subsequent postoperative morbidity related to surgery in and around this gyrus. Objective To characterize the fiber tracts of the SPL based on relationships to other well-known neuroanatomic structures through diffusion spectrum imaging (DSI)-based fiber tracking validated by gross anatomical dissection as ground truth. Methods Neuroimaging data of 10 healthy, adult control subjects was obtained from a publicly accessible database published in Human Connectome Project for subsequent tractographic analyses. White matter tracts were mapped between both cerebral hemispheres, and a lateralization index was calculated based on resultant tract volumes. Post-mortem dissections of 10 cadavers identified the location of major tracts and validated our tractography results based on qualitative visual agreement. Results We identified 9 major connections of the SPL: U-fiber, superior longitudinal fasciculus, inferior longitudinal fasciculus, inferior fronto-occipital fasciculus, middle longitudinal fasciculus, extreme capsule, vertical occipital fasciculus, cingulum, and corpus callosum. There was no significant fiber lateralization detected. Conclusion The SPL is an important region implicated in a variety of tasks involving visuomotor and visuospatial integration. Improved understanding of the fiber bundle anatomy elucidated in this study can provide invaluable information for surgical treatment decisions related to this region.

Published

2021

23. Anatomy and White Matter Connections of the Lingual Gyrus and Cuneus

Author

Ali H. Palejwala, Kyle P. O'Connor, Andrew K. Conner, Nicholas B. Dadario, Robert G. Briggs, Michael E. Sughrue, Daniel L. O'Donoghue, and Isabella M. Young

Subjects

Cuneus, Temporal lobe, Lingual gyrus, 03 medical and health sciences, 0302 clinical medicine, Neural Pathways, Fasciculus, Connectome, Humans, Medicine, Inferior longitudinal fasciculus, biology, business.industry, Anatomy, biology.organism_classification, White Matter, Diffusion Tensor Imaging, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Surgery, Occipital Lobe, Neurology (clinical), Verbal memory, business, Occipital lobe, 030217 neurology & neurosurgery, Tractography

Abstract

Background The medial occipital lobe, composed of the lingual gyrus and cuneus, is necessary for both basic and higher level visual processing. It is also known to facilitate cross-modal, nonvisual functions, such as linguistic processing and verbal memory, after the loss of the visual senses. A detailed cortical model elucidating the white matter connectivity associated with this area could improve our understanding of the interacting brain networks that underlie complex human processes and postoperative outcomes related to vision and language. Methods Generalized q-sampling imaging tractography, validated by gross anatomic dissection for qualitative visual agreement, was performed on 10 healthy adult controls obtained from the Human Connectome Project. Results Major white matter connections were identified by tractography and validated by gross dissection, which connected the medial occipital lobe with itself and the adjacent cortices, especially the temporal lobe. The short- and long-range connections identified consisted mainly of U-shaped association fibers, intracuneal fibers, and inferior fronto-occipital fasciculus, inferior longitudinal fasciculus, middle longitudinal fasciculus, and lingual–fusiform connections. Conclusions The medial occipital lobe is an extremely interconnected system, supporting its ability to perform coordinated basic visual processing, but also serves as a center for many long-range association fibers, supporting its importance in nonvisual functions, such as language and memory. The presented data represent clinically actionable anatomic information that can be used in multimodal navigation of white matter lesions in the medial occipital lobe to prevent neurologic deficits and improve patients' quality of life after cerebral surgery.

Published

2021

24. Radical Exenteration of the Skull Base for End-Stage, Locally Advanced Sinonasal Malignancies: Challenging the Dictum of Unresectability

Author

Jacky T. Yeung, David M. Caminer, Michael E. Sughrue, Charles Teo, and Isabella M. Young

Subjects

Adult, Male, medicine.medical_specialty, Palliative care, Adolescent, Maxillary Sinus Neoplasms, medicine.medical_treatment, Nose Neoplasms, Locally advanced, Esthesioneuroblastoma, Olfactory, Disease, Neurosurgical Procedures, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Stage (cooking), Child, Neoplasm Staging, Salvage Therapy, Skull Base, Osteosarcoma, Chemotherapy, Nasopharyngeal Carcinoma, Squamous Cell Carcinoma of Head and Neck, business.industry, Carcinoma, Sarcoma, Perioperative, Middle Aged, Carcinoma, Adenoid Cystic, Progression-Free Survival, Surgery, Survival Rate, Radiation therapy, Skull, medicine.anatomical_structure, Neurofibrosarcoma, 030220 oncology & carcinogenesis, Female, Neurology (clinical), business, Paranasal Sinus Neoplasms, 030217 neurology & neurosurgery

Abstract

Background The role of surgery is not well defined in locally advanced sinonasal cancers with intracranial involvement after all medical options have been exhausted. We hypothesize that patients whose tumors are deemed unresectable and referred to palliative care may benefit from radical salvage surgery. Methods We performed a single-center retrospective review of patients with malignant, locally advanced (stage T4b) sinonasal cancers with intracranial involvement from 2000 to 2020, inclusive. Data were collected on the patient demographics, details of chemotherapy, radiation, histology, perioperative complications, surgical approaches, and survival. We compared the survival outcomes of patients with different duration of disease before presentation. Results We identified 17 patients who had undergone salvage surgical resection of treatment-recalcitrant, locally advanced sinonasal tumors. Almost all patients had undergone prior surgery, radiotherapy, and chemotherapy. Perioperative complications occurred in 6 of 17 patients with 1 death. Patients with clinically less aggressive disease had significantly longer progression-free and overall survival compared with the more aggressive group. Conclusions Salvage surgery for locally advanced sinonasal cancers with intracranial invasion that is recalcitrant to all other therapies should be considered for patients who otherwise have no other treatment options.

Published

2021

25. Resection of Symptomatic Pineal Cysts Provides Durable Clinical Improvement: A Breakdown of Presenting Symptoms and Lessons Learned

Author

Isabella M. Young, Christos Profyris, Michael E. Sughrue, Jacky T. Yeung, Charles Teo, and Konstantinos Katsos

Subjects

Adult, Male, medicine.medical_specialty, Conservative management, Photophobia, Radiography, Neurosurgical Procedures, Resection, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Central Nervous System Cysts, Retrospective Studies, business.industry, Headache, Middle Aged, medicine.disease, Symptomatic relief, Hydrocephalus, Surgery, Treatment Outcome, 030220 oncology & carcinogenesis, Cerebral aqueduct, Female, Neurology (clinical), Headaches, medicine.symptom, business, Pinealoma, 030217 neurology & neurosurgery

Abstract

Background Surgical resection of symptomatic pineal cysts without hydrocephalus remains controversial because patients can present with variable symptoms. Hesitancies in surgical decision-making include determining surgical candidacy and whether results would be durable. Methods We performed a retrospective analysis on patients who underwent resection of their pineal cysts in our practice. We examined the presenting symptomology and investigated the radiographic changes to the morphology of the cerebral aqueduct found on follow-up imaging. We examined the clinical outcomes and complications following surgical resection of symptomatic pineal cysts. Results A total of 97 patients underwent resection of pineal cysts, with 84 patients who had adequate follow-up (mean: 30.5 months). The patient population were predominantly female (76%) presenting at a mean of 24 years of age. Almost half of the patients had headaches that were positional, with 82% being bilateral; 39% and 19% of patients presented with photophobia and sonophobia, respectively, concurrent with their headaches. Many patients presented with visual disturbance (73%) along with other non-headache symptoms. Surgery resulted in 89% of patients with clinical improvements of their headaches. Conclusions Pineal cysts can present with variable headache symptomatology. Surgical resection of pineal cysts in carefully selected symptomatic patients after exhaustive conservative management can be performed safely and result in durable symptomatic relief.

Published

2021

26. Anatomy and White Matter Connections of the Middle Frontal Gyrus

Author

Yueh-Hsin Lin, Michael E. Sughrue, Isabella M. Young, Carol J. Abraham, Jorge Hormovas, Sihyong J. Kim, Christopher D. Anderson, Vukshitha Dhanaraj, Andrew K. Conner, Arpan R. Chakraborty, Daniel L. O'Donoghue, R. Dineth Fonseka, Onur Tanglay, Ty M Milligan, Nicholas B. Dadario, Ali H. Palejwala, Michael Y. Bai, and Robert G. Briggs

Subjects

Prefrontal Cortex, Lateralization of brain function, Lingual gyrus, White matter, 03 medical and health sciences, 0302 clinical medicine, Neural Pathways, Fasciculus, medicine, Humans, Middle frontal gyrus, biology, business.industry, Superior longitudinal fasciculus, Anatomy, biology.organism_classification, White Matter, Diffusion Tensor Imaging, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Connectome, Surgery, Neurology (clinical), business, 030217 neurology & neurosurgery, Tractography

Abstract

Background The middle frontal gyrus (MFG) is involved in attention, working memory, and language-related processing. A detailed understanding of the subcortical white matter tracts connected within the MFG can facilitate improved navigation of white matter lesions in and around this gyrus and explain the postoperative morbidity after surgery. We aimed to characterize the fiber tracts within the MFG according to their connection to neuroanatomic structures through the use of diffusion spectrum imaging-based fiber tractography and validate the findings by gross anatomic dissection for qualitative visual agreement. Methods Tractography analysis was completed using diffusion imaging data from 10 healthy, adult subjects enrolled in the Human Connectome Project. We assessed the MFG as a whole component according to its fiber connectivity with other neural regions. Mapping was completed on all tracts within both hemispheres, with the resultant tract volumes used to calculate a lateralization index. A modified Klingler technique was used on 10 postmortem dissections to demonstrate the location and orientation of the major tracts. Results Two major connections of the MFG were identified: the superior longitudinal fasciculus, which connects the MFG to parts of the inferior parietal lobule, posterior temporal lobe, and lateral occipital cortex; and the inferior fronto-occipital fasciculus, which connected the MFG to the lingual gyrus and cuneus. Intra- and intergyral short association, U-shaped fibers were also identified. Conclusions Subcortical white matter pathways integrated within the MFG include the superior longitudinal fasciculus and inferior fronto-occipital fasciculus. The MFG is implicated in a variety of tasks involving attention and memory, making it an important cortical region. The postoperative neurologic outcomes related to surgery in and around the MFG could be clarified in the context of the anatomy of the fiber bundles highlighted in the present study.

Published

2021

27. Anatomy and White Matter Connections of the Parahippocampal Gyrus

Author

Isabella M. Young, Vukshitha Dhanaraj, Yueh-Hsin Lin, Sihyong J. Kim, Jorge Hormovas, Arpan R. Chakraborty, Michael E. Sughrue, Robert G. Briggs, Charles Teo, R. Dineth Fonseka, Jacky T. Yeung, Alana E. Mackenzie, and Onur Tanglay

Subjects

Adult, Male, Context (language use), Lateralization of brain function, White matter, 03 medical and health sciences, 0302 clinical medicine, Connectome, medicine, Humans, Cingulum (brain), Inferior longitudinal fasciculus, business.industry, Anatomy, Middle Aged, White Matter, Diffusion Tensor Imaging, medicine.anatomical_structure, nervous system, 030220 oncology & carcinogenesis, Parahippocampal Gyrus, Female, Surgery, Neurology (clinical), Nerve Net, business, 030217 neurology & neurosurgery, Parahippocampal gyrus, Diffusion MRI, Tractography

Abstract

Background The parahippocampal gyrus is understood to have a role in high cognitive functions including memory encoding and retrieval and visuospatial processing. A detailed understanding of the exact location and nature of associated white tracts could significantly improve postoperative morbidity related to declining capacity. Through diffusion tensor imaging−based fiber tracking validated by gross anatomic dissection as ground truth, we have characterized these connections based on relationships to other well-known structures. Methods Diffusion imaging from the Human Connectome Project for 10 healthy adult controls was used for tractography analysis. We evaluated the parahippocampal gyrus as a whole based on connectivity with other regions. All parahippocampal gyrus tracts were mapped in both hemispheres, and a lateralization index was calculated with resultant tract volumes. Results We identified 2 connections of the parahippocampal gyrus: inferior longitudinal fasciculus and cingulum. Lateralization of the cingulum was detected (P Conclusions The parahippocampal gyrus is an important center for memory processing. Subtle differences in executive functioning following surgery for limbic tumors may be better understood in the context of the fiber-bundle anatomy highlighted by this study.

Published

2021

28. Machine Learning Decomposition of the Depression Connectome Provides Potential Markers and Targets for Transcranial Magnetic Stimulation

Author

Hugh Taylor, Peter Nicholas, Onur Tanglay, Isabella M. Young, Stephane Doyen, Michael E. Sughrue, and Paul B. Fitzgerald

Abstract

Despite efforts to improve targeting of the dorsolateral prefrontal cortex (DLPFC) in repetitive transcranial magnetic stimulation (rTMS) for Major Depressive Disorder (MDD), the heterogeneity in clinical response remains unexplained. We compared patterns of functional connectivity from the DLPFC in patients with MDD between responders and non-responders to rTMS. Baseline anatomical T1 magnetic resonance imaging (MRI), resting-state functional MRI, and diffusion weighted imaging scans were obtained from 37 participants. A machine learning method was utilized to identify brain regions associated with each item of the Beck’s Depression Inventory II (BDI-II), and for 26 participants who underwent rTMS over the left Brodmann area 46, identify brain regions differentiating responders and non-responders. Nine parcels of the Human Connectome Project Multimodal Parcellation Atlas matched to at least three items of the BDI-II as predictors of response to rTMS, with many in the temporal, parietal and cingulate cortices. Pre-treatment mapping for 17 items of the BDI-II demonstrated significant variability in symptom to parcel mapping. When parcels associated with symptom presence and symptom resolution were compared, 15 were uniquely associated with resolution, and 12 with both symptom presence and resolution. Machine learning approaches show promise for the development of pathoanatomical diagnosis and treatment algorithms for MDD.

Published

2022

29. The Surgical Resection of Brainstem Glioma: Outcomes and Prognostic Factors

Author

Isabella M. Young, Charles Teo, Reid Hoshide, Michael E. Sughrue, Harrison Faulkner, Omar Arnaout, and Jacky T. Yeung

Subjects

Male, Neoplasm, Residual, Multivariate analysis, Radiography, Kaplan-Meier Estimate, Neurosurgical Procedures, Machine Learning, Postoperative Complications, 0302 clinical medicine, Brainstem glioma, Brain Stem Neoplasms, Child, Cerebrospinal Fluid Leak, medicine.diagnostic_test, Headache, Nausea, Glioma, Middle Aged, Prognosis, Magnetic Resonance Imaging, Tumor Burden, Survival Rate, Ependymoma, Child, Preschool, 030220 oncology & carcinogenesis, Cohort, Fatal disease, Female, Radiology, Brainstem, Hydrocephalus, Adult, Surgical resection, medicine.medical_specialty, Adolescent, Vomiting, Astrocytoma, Young Adult, 03 medical and health sciences, Diplopia, medicine, Humans, Karnofsky Performance Status, Retrospective Studies, business.industry, Infant, Newborn, Infant, Magnetic resonance imaging, medicine.disease, Multivariate Analysis, Ataxia, Surgery, Neurology (clinical), Neoplasm Grading, Glioblastoma, business, 030217 neurology & neurosurgery

Abstract

Background The management of brainstem glioma remains controversial, with increasing evidence supporting surgical resection as the primary treatment for a select subgroup of tumors. However, there remains no consensus on the specific benefits and risks, the selection of surgical candidates, and prognostic factors that may further refine surgical indications. Methods A retrospective single-surgeon chart review was performed for all patients who underwent surgical treatment for radiographically suspected brainstem glioma between 2000 and 2017. Preoperative and postoperative radiographic evaluations on magnetic resonance imaging were conducted. Survival outcomes were collected, and machine-learning techniques were used for multivariate analysis. Results Seventy-seven patients with surgical treatment of brainstem glioma were identified, with a median age of 9 years (range, 0–58 years). The cohort included 64% low-grade (I and II) and 36% high-grade (III and IV) tumors. For all patients, the 1-year and 5-year overall survival were 76.4% and 62.3%, respectively. Transient neurologic deficit was present in 34% of cases, and permanent deficit in a further 29%. Conclusions The radical surgical resection of brainstem gliomas can be performed with acceptable risk in well-selected cases and likely confers survival advantage for what is otherwise a rapidly and universally fatal disease. Various radiographic features are useful during patient selection and may guide treatment selection.

Published

2021

30. Unexpected hubness: a proof-of-concept study of the human connectome using pagerank centrality and implications for intracerebral neurosurgery

Author

Jacky T. Yeung, Isabella M. Young, Stéphane Doyen, Michael E. Sughrue, Hugh M. Taylor, and Peter J. Nicholas

Subjects

Cancer Research, Connectomics, medicine.medical_specialty, business.industry, Human Connectome, 03 medical and health sciences, 0302 clinical medicine, Neurology, Oncology, Neuroimaging, Quartile, 030220 oncology & carcinogenesis, Cohort, Connectome, Medicine, Neurology (clinical), Neurosurgery, Centrality, business, 030217 neurology & neurosurgery, Demography

Abstract

Understanding the human connectome by parcellations allows neurosurgeons to foretell the potential effects of lesioning parts of the brain during intracerebral surgery. However, it is unclear whether there exist variations among individuals such that brain regions that are thought to be dispensable may serve as important networking hubs. We obtained diffusion neuroimaging data from two healthy cohorts (OpenNeuro and SchizConnect) and applied a parcellation scheme to them. We ranked the parcellations on average using PageRank centrality in each cohort. Using the OpenNeuro cohort, we focused on parcellations in the lower 50% ranking that displayed top quartile ranking at the individual level. We then queried whether these select parcellations with over 3% prevalence would be reproducible in the same manner in the SchizConnect cohort. In the OpenNeuro (n = 68) and SchizConnect cohort (n = 195), there were 27.9% and 43.1% of parcellations, respectively, in the lower half of all ranks that displayed top quartile ranks. We noted three outstanding parcellations (L_V6, L_a10p, and L_7PL) in the OpenNeuro cohort that also appeared in the SchizConnect cohort. In the larger Schizconnect cohort, L_V6, L_a10p, and L_7PL had unexpected hubness in 3.08%, 5.13%, and 8.21% of subjects, respectively. We demonstrated that lowly-ranked parcellations may serve as important hubs in a subset of individuals, highlighting the importance of studying parcellation ranks at the personalized level in planning supratentorial neurosurgery.

Published

2020

31. Anatomy and White Matter Connections of the Inferior Temporal Gyrus

Author

Chad A. Glenn, Michael Y. Bai, R. Dineth Fonseka, Jorge Hormovas, Onur Tanglay, Arpan R. Chakraborty, Yueh-Hsin Lin, Vukshitha Dhanaraj, Michael E. Sughrue, Robert G. Briggs, Isabella M. Young, Cameron E. Nix, and Andrew K. Conner

Subjects

Adult, Male, Uncinate fasciculus, Lateralization of brain function, 03 medical and health sciences, 0302 clinical medicine, Inferior temporal gyrus, Connectome, Humans, Medicine, Arcuate fasciculus, Vertical occipital fasciculus, Inferior longitudinal fasciculus, Human Connectome Project, business.industry, Anatomy, White Matter, Temporal Lobe, Diffusion Magnetic Resonance Imaging, medicine.anatomical_structure, nervous system, 030220 oncology & carcinogenesis, Female, Surgery, Neurology (clinical), Nerve Net, business, 030217 neurology & neurosurgery, Tractography

Abstract

Background The inferior temporal gyrus (ITG) is known to be involved in high-cognitive functions, including visual and language comprehensions and emotion regulation. A detailed understanding of the nature of association fibers could significantly improve postoperative morbidity related to declining capacity. Through diffusion spectrum imaging−based fiber tracking, we have characterized these connections on the basis of their relationships to other cortical areas. Methods Diffusion spectrum images from 10 healthy adults of the Human Connectome Project were randomly selected and used for tractography analysis. We evaluated the ITG as a whole based on connectivity with other regions. All ITG tracts were mapped in both hemispheres, and a lateralization index was calculated with resultant tract volumes. Results We identified 5 major connections of the ITG: U-fiber, inferior longitudinal fasciculus, vertical occipital fasciculus, arcuate fasciculus, and uncinate fasciculus. There was no fiber lateralization detected. Conclusions This study highlights the principal white-matter pathways of the ITG and demonstrates key underlying connections. We present a summary of the relevant clinical anatomy for this region of the cerebrum as part of a larger effort to understand it in its entirety.

Published

2020

32. A connectivity model of the anatomic substrates underlying Gerstmann syndrome

Author

Qazi S. Shahab, Isabella M. Young, Nicholas B. Dadario, Onur Tanglay, Peter J. Nicholas, Yueh-Hsin Lin, R. Dineth Fonseka, Jacky T. Yeung, Michael Y. Bai, Charles Teo, Stephane Doyen, and Michael E. Sughrue

Subjects

General Engineering

Abstract

The Gerstmann syndrome is a constellation of neurological deficits that include agraphia, acalculia, left–right discrimination and finger agnosia. Despite a growing interest in this clinical phenomenon, there remains controversy regarding the specific neuroanatomic substrates involved. Advancements in data-driven, computational modelling provides an opportunity to create a unified cortical model with greater anatomic precision based on underlying structural and functional connectivity across complex cognitive domains. A literature search was conducted for healthy task-based functional MRI and PET studies for the four cognitive domains underlying Gerstmann’s tetrad using the electronic databases PubMed, Medline, and BrainMap Sleuth (2.4). Coordinate-based, meta-analytic software was utilized to gather relevant regions of interest from included studies to create an activation likelihood estimation (ALE) map for each cognitive domain. Machine-learning was used to match activated regions of the ALE to the corresponding parcel from the cortical parcellation scheme previously published under the Human Connectome Project (HCP). Diffusion spectrum imaging-based tractography was performed to determine the structural connectivity between relevant parcels in each domain on 51 healthy subjects from the HCP database. Ultimately 102 functional MRI studies met our inclusion criteria. A frontoparietal network was found to be involved in the four cognitive domains: calculation, writing, finger gnosis, and left–right orientation. There were three parcels in the left hemisphere, where the ALE of at least three cognitive domains were found to be overlapping, specifically the anterior intraparietal area, area 7 postcentral (7PC) and the medial intraparietal sulcus. These parcels surround the anteromedial portion of the intraparietal sulcus. Area 7PC was found to be involved in all four domains. These regions were extensively connected in the intraparietal sulcus, as well as with a number of surrounding large-scale brain networks involved in higher-order functions. We present a tractographic model of the four neural networks involved in the functions which are impaired in Gerstmann syndrome. We identified a ‘Gerstmann Core’ of extensively connected functional regions where at least three of the four networks overlap. These results provide clinically actionable and precise anatomic information which may help guide clinical translation in this region, such as during resective brain surgery in or near the intraparietal sulcus, and provides an empiric basis for future study.

Published

2022

33. Symptom-circuit mappings of the schizophrenia connectome

Author

Yingchan Wang, Jijun Wang, Wenjun Su, Hao Hu, Mengqing Xia, Tianhong Zhang, Lihua Xu, Xia Zhang, Hugh Taylor, Karol Osipowicz, Isabella M. Young, Yueh-Hsin Lin, Peter Nicholas, Onur Tanglay, Michael E. Sughrue, Yingying Tang, and Stephane Doyen

Subjects

Psychiatry and Mental health, Biological Psychiatry

Published

2023

34. Real world demonstration of hand motor mapping using the structural connectivity atlas

Author

Karol Osipowicz, Christos Profyris, Alana Mackenzie, Peter Nicholas, Peter Rudder, Hugh M. Taylor, Isabella M. Young, Angus W. Joyce, Lewis Dobbin, Onur Tanglay, Lerroy Thompson, Tshimollo Mashilwane, Michael E. Sughrue, and Stephane Doyen

Subjects

Surgery, Neurology (clinical), General Medicine

Published

2023

35. Cover Image

Author

Stephane Doyen, Peter Nicholas, Anujan Poologaindran, Lewis Crawford, Isabella M. Young, Rafeael Romero‐Garcia, and Michael E. Sughrue

Subjects

Neurology, Radiological and Ultrasound Technology, Radiology, Nuclear Medicine and imaging, Neurology (clinical), Anatomy

Published

2022

36. Author response for 'Parcellation‐based tractographic modeling of the salience network through meta‐analysis'

Author

null Robert G. Briggs, null Isabella M. Young, null Nicholas B. Dadario, null R. Dineth Fonseka, null Jorge Hormovas, null Parker Allan, null Micah L. Larsen, null Yueh‐Hsin Lin, null Onur Tanglay, null B. David Maxwell, null Andrew K. Conner, null Jordan F. Stafford, null Chad A. Glenn, null Charles Teo, and null Michael E. Sughrue

Published

2022

37. Graph Theory Measures and Their Application to Neurosurgical Eloquence

Author

Onur Tanglay, Nicholas B. Dadario, Elizabeth H. N. Chong, Si Jie Tang, Isabella M. Young, and Michael E. Sughrue

Subjects

Cancer Research, Oncology

Abstract

Improving patient safety and preserving eloquent brain are crucial in neurosurgery. Since there is significant clinical variability in post-operative lesions suffered by patients who undergo surgery in the same areas deemed compensable, there is an unknown degree of inter-individual variability in brain ‘eloquence’. Advances in connectomic mapping efforts through diffusion tractography allow for utilization of non-invasive imaging and statistical modeling to graphically represent the brain. Extending the definition of brain eloquence to graph theory measures of hubness and centrality may help to improve our understanding of individual variability in brain eloquence and lesion responses. While functional deficits cannot be immediately determined intra-operatively, there has been potential shown by emerging technologies in mapping of hub nodes as an add-on to existing surgical navigation modalities to improve individual surgical outcomes. This review aims to outline and review current research surrounding novel graph theoretical concepts of hubness, centrality, and eloquence and specifically its relevance to brain mapping for pre-operative planning and intra-operative navigation in neurosurgery.

Published

2023

38. Eigenvector PageRank difference as a measure to reveal topological characteristics of the brain connectome for neurosurgery

Author

Onur, Tanglay, Isabella M, Young, Nicholas B, Dadario, Hugh M, Taylor, Peter J, Nicholas, Stéphane, Doyen, and Michael E, Sughrue

Subjects

Connectome, Neurosurgery, Brain, Humans, Neuroimaging, Magnetic Resonance Imaging, Neurosurgical Procedures

Abstract

Applying graph theory to the human brain has the potential to help prognosticate the impacts of intracerebral surgery. Eigenvector (EC) and PageRank (PR) centrality are two related, but uniquely different measures of nodal centrality which may be utilized together to reveal varying neuroanatomical characteristics of the brain connectome.We obtained diffusion neuroimaging data from a healthy cohort (UCLA consortium for neuropsychiatric phenomics) and applied a personalized parcellation scheme to them. We ranked parcels based on weighted EC and PR, and then calculated the difference (EP difference) and correlation between the two metrics. We also compared the difference between the two metrics to the clustering coefficient.While EC and PR were consistent for top and bottom ranking parcels, they differed for mid-ranking parcels. Parcels with a high EC centrality but low PR tended to be in the medial temporal and temporooccipital regions, whereas PR conferred greater importance to multi-modal association areas in the frontal, parietal and insular cortices. The EP difference showed a weak correlation with clustering coefficient, though there was significant individual variation.The relationship between PageRank and eigenvector centrality can identify distinct topological characteristics of the brain connectome such as the presence of unimodal or multimodal association cortices. These results highlight how different graph theory metrics can be used alone or in combination to reveal unique neuroanatomical features for further clinical study.

Published

2021

39. Akinetic mutism reversed by inferior parietal lobule repetitive theta burst stimulation: Can we restore default mode network function for therapeutic benefit?

Author

Robert G. Briggs, Christen M. O'Neal, Charles Teo, Isabella M. Young, Tressie M. Stephens, Michael E. Sughrue, and Nicholas B. Dadario

Subjects

Male, Traumatic brain injury, Akinetic mutism, medicine.medical_treatment, Inferior frontal gyrus, Stimulation, Neurosciences. Biological psychiatry. Neuropsychiatry, 050105 experimental psychology, 03 medical and health sciences, Behavioral Neuroscience, default mode network, 0302 clinical medicine, Parietal Lobe, transcranial magnetic stimulation, Medicine, Humans, 0501 psychology and cognitive sciences, Default mode network, Original Research, theta burst stimulation, medicine.diagnostic_test, business.industry, 05 social sciences, glioblastoma, Brain, Inferior parietal lobule, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Transcranial magnetic stimulation, Akinetic Mutism, right frontal tumor, tumor resection, business, Functional magnetic resonance imaging, Neuroscience, 030217 neurology & neurosurgery, RC321-571

Abstract

Background Transcranial magnetic stimulation is a noninvasive treatment used to modulate cortical excitability. Its use over the last two decades has expanded, ranging from psychiatric disorders to traumatic brain injury and poststroke rehabilitation. Objectives We present the case of a 59‐year‐old male patient who presented in a decreased state of consciousness due to a right frontal glioblastoma, wherein his state was not improved by a successful surgery and could not be explained by any other condition. Due to his poor prognosis, we examine the benefits of receiving transcranial magnetic stimulation treatment to improve his akinetic mutism. Methods We utilized independent component analysis with resting‐state functional magnetic resonance imaging (rsfMRI) to better understand his cortical functionality. The imaging suggested absence of the default mode network (DMN). The patient underwent five sessions of navigated intermittent theta burst stimulation to the ipsilesional inferior parietal lobule and inferior frontal gyrus, with the aim of improving his default mode network functionality. Results No other treatments resulted in an improvement of this patient's condition; however, 3 weeks following transcranial magnetic stimulation treatment, the patient was more alert and interactive, and his follow‐up rsfMRI scan demonstrated a partially intact default mode network. Conclusion This case raises important questions regarding the clinical utility of transcranial magnetic stimulation to improve the connectivity of important cerebral networks and subsequent related functional recovery., We present the case of a 59‐year‐old male patient who presented in a decreased state of consciousness due to a right frontal glioblastoma, wherein his state was not improved by a successful surgery and could not be explained by any other condition. Due to his poor prognosis, we utilized independent component analysis with resting state functional magnetic resonance imaging to better understand his cortical functionality which suggested an absence of a default mode network. The patient underwent five sessions of navigated intermittent theta burst stimulation to the ipsilesional inferior parietal lobule and inferior frontal gyrus, with the aim of improving his default mode network functionality, within 3 weeks of treatment, the patient was more alert and interactive, and his follow‐up scan demonstrated a partially intact default mode network.

Published

2021

40. Interventional Neurorehabilitation for Promoting Functional Recovery Post-Craniotomy: A Proof-of-Concept

Author

John Suckling, Michael E. Sughrue, Nicholas B. Dadario, Christos Profyris, Charles Teo, Syed A. Ahsan, Isabella M. Young, Robert G. Briggs, Kassem Chendeb, Rafael Romero-Garcia, and Anujan Poologaindran

Subjects

medicine.medical_specialty, education.field_of_study, Rehabilitation, business.industry, medicine.medical_treatment, Population, medicine.disease, Transcranial magnetic stimulation, Physical medicine and rehabilitation, Glioma, Brain stimulation, Medicine, Headaches, medicine.symptom, business, education, Neurorehabilitation, Craniotomy

Abstract

PurposeThe human brain is a highly plastic ‘complex’ network –it is highly resilient to damage and capable of self-reorganisation after a large perturbation. Clinically, neurological deficits secondary to iatrogenic injury have very few active treatments. New imaging and stimulation technologies, though, offer promising therapeutic avenues to accelerate post-operative recovery trajectories. In this study, we sought to establish the safety profile for ‘interventional neurorehabilitation’: connectome-based therapeutic brain stimulation to drive cortical reorganisation and promote functional recovery post-craniotomy.MethodsIn n=34 glioma patients who experienced post-operative motor or language deficits, we used connectomics to construct single-subject cortical networks. Based on their clinical and connectivity deficit, patients underwent network-specific Transcranial Magnetic Stimulation (TMS) sessions daily over five consecutive days. Patients were then assessed for TMS-related side effects and improvements.Results31/34 (91%) patients were successfully recruited and enrolled for TMS treatment within two weeks of glioma surgery. No seizures or serious complications occurred during TMS rehabilitation and one-week post-stimulation. Transient headaches were reported in 4/31 patients but improved after a single session. No neurological worsening was observed while a benefit was noted in 28/31 patients post-TMS. We present two clinical vignettes and a video demonstration of interventional neurorehabilitation.ConclusionsFor the first time, we demonstrate the safety profile and ability to recruit, enrol, and complete TMS acutely post-craniotomy in a high seizure risk population. Given the lack of randomisation and controls in this study, prospective randomised sham-controlled stimulation trials are now warranted to establish the efficacy of interventional neurorehabilitation following craniotomy.

Published

2021

41. Anatomy and white-matter connections of the precuneus

Author

Onur, Tanglay, Isabella M, Young, Nicholas B, Dadario, Robert G, Briggs, R Dineth, Fonseka, Vukshitha, Dhanaraj, Jorge, Hormovas, Yueh-Hsin, Lin, and Michael E, Sughrue

Subjects

Adult, Parietal Lobe, Neural Pathways, Connectome, Humans, Magnetic Resonance Imaging, White Matter

Abstract

Purpose Advances in neuroimaging have provided an understanding of the precuneus'(PCu) involvement in functions such as visuospatial processing and cognition. While the PCu has been previously determined to be apart of a higher-order default mode network (DMN), recent studies suggest the presence of possible dissociations from this model in order to explain the diverse functions the PCu facilitates, such as in episodic memory. An improved structural model of the white-matter anatomy of the PCu can demonstrate its unique cerebral connections with adjacent regions which can provide additional clarity on its role in integrating information across higher-order cerebral networks like the DMN. Furthermore, this information can provide clinically actionable anatomic information that can support clinical decision making to improve neurologic outcomes such as during cerebral surgery. Here, we sought to derive the relationship between the precuneus and underlying major white-mater bundles by characterizing its macroscopic connectivity. Methods Structural tractography was performed on twenty healthy adult controls from the Human Connectome Project (HCP) utilizing previously demonstrated methodology. All precuneus connections were mapped in both cerebral hemispheres and inter-hemispheric differences in resultant tract volumes were compared with an unpaired, corrected Mann-Whitney U test and a laterality index (LI) was completed. Ten postmortem dissections were then performed to serve as ground truth by using a modified Klingler technique with careful preservation of relevant white matter bundles. Results The precuneus is a heterogenous cortical region with five major types of connections that were present bilaterally. (1) Short association fibers connect the gyri of the precuneus and connect the precuneus to the superior parietal lobule and the occipital cortex. (2) Four distinct parts of the cingulum bundle connect the precuneus to the frontal lobe and the temporal lobe. (3) The middle longitudinal fasciculus from the precuneus connects to the superior temporal gyrus and the dorsolateral temporal pole. (4) Parietopontine fibers travel as part of the corticopontine fibers to connect the precuneus to pontine regions. (5) An extensive commissural bundle connects the precuneus bilaterally. Conclusion We present a summary of the anatomic connections of the precuneus as part of an effort to understand the function of the precuneus and highlight key white-matter pathways to inform surgical decision-making. Our findings support recent models suggesting unique fiber connections integrating at the precuneus which may suggest finer subsystems of the DMN or unique networks, but further study is necessary to refine our model in greater quantitative detail.

Published

2021

42. Parcellation‐based anatomic model of the semantic network

Author

Yueh-Hsin Lin, Rannulu Dineth Fonseka, Jorge Hormovas, Andrew K. Conner, Camille K Milton, Michael Y. Bai, Chad A. Glenn, Onur Tanglay, Vukshitha Dhanaraj, Robert G. Briggs, Stéphane Doyen, Michael E. Sughrue, Isabella M. Young, Peter J. Nicholas, Hugh M. Taylor, and Charles Teo

Subjects

Models, Anatomic, Speech production, Computer science, tractography, Context (language use), computer.software_genre, 050105 experimental psychology, Lateralization of brain function, Semantic network, lcsh:RC321-571, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Connectome, Semantic memory, Humans, Speech, 0501 psychology and cognitive sciences, dual stream, language network, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Semantic Web, Original Research, Brain Mapping, Human Connectome Project, business.industry, 05 social sciences, Magnetic Resonance Imaging, Semantics, Categorization, parcellation, Artificial intelligence, business, computer, 030217 neurology & neurosurgery, Natural language processing, Tractography

Abstract

Introduction The semantic network is an important mediator of language, enabling both speech production and the comprehension of multimodal stimuli. A major challenge in the field of neurosurgery is preventing semantic deficits. Multiple cortical areas have been linked to semantic processing, though knowledge of network connectivity has lacked anatomic specificity. Using attentional task‐based fMRI studies, we built a neuroanatomical model of this network. Methods One hundred and fifty‐five task‐based fMRI studies related to categorization of visual words and objects, and auditory words and stories were used to generate an activation likelihood estimation (ALE). Cortical parcellations overlapping the ALE were used to construct a preliminary model of the semantic network based on the cortical parcellation scheme previously published under the Human Connectome Project. Deterministic fiber tractography was performed on 25 randomly chosen subjects from the Human Connectome Project, to determine the connectivity of the cortical parcellations comprising the network. Results The ALE analysis demonstrated fourteen left hemisphere cortical regions to be a part of the semantic network: 44, 45, 55b, IFJa, 8C, p32pr, SFL, SCEF, 8BM, STSdp, STSvp, TE1p, PHT, and PBelt. These regions showed consistent interconnections between parcellations. Notably, the anterior temporal pole, a region often implicated in semantic function, was absent from our model. Conclusions We describe a preliminary cortical model for the underlying structural connectivity of the semantic network. Future studies will further characterize the neurotractographic details of the semantic network in the context of medical application., Using 155 attentional task‐based fMRI studies, we built a neuroanatomical model of the semantic network described in the HCP parcellation scheme. Fourteen left hemisphere cortical regions were found to be part of the semantic network: 44, 45, 55b, IFJa, 8C, p32pr, SFL, SCEF, 8BM, STSdp, STSvp, TE1p, PHT, and PBelt. Notably, the anterior temporal pole, a region often implicated in semantic function, was absent from our model.

Published

2021

43. Author response for 'Akinetic mutism reversed by inferior parietal lobule repetitive theta burst stimulation: Can we restore default mode network function for therapeutic benefit?'

Author

Michael E. Sughrue, Isabella M. Young, Tressie M. Stephens, Nicholas B. Dadario, Christen M. O'Neal, Robert G. Briggs, and Charles Teo

Subjects

Theta burst, business.industry, Akinetic mutism, medicine, Stimulation, Inferior parietal lobule, medicine.disease, business, Neuroscience, Default mode network

Published

2021

44. A Cortical Parcellation Based Analysis of Ventral Premotor Area Connectivity

Author

Cordell M Baker, Nicholas B. Dadario, Anujan Poologaindran, John R. Sheets, Robert G. Briggs, Michael Y. Bai, Andrew K. Conner, Michael E. Sughrue, and Isabella M. Young

Subjects

0301 basic medicine, Connectomics, Computer science, Movement, Functional Laterality, Premotor cortex, 03 medical and health sciences, 0302 clinical medicine, Neural Pathways, medicine, Humans, Brain Mapping, Human Connectome Project, Supplementary motor area, Motor Cortex, Motor control, General Medicine, Magnetic Resonance Imaging, 030104 developmental biology, medicine.anatomical_structure, Diffusion Tensor Imaging, Neurology, Laterality, Neurology (clinical), Primary motor cortex, Neuroscience, 030217 neurology & neurosurgery, Tractography

Abstract

Introduction. The ventral premotor area (VPM) plays a crucial role in executing various aspects of motor control. These include hand reaching, joint coordination, and direction of movement in space. While many studies discuss the VPM and its relationship to the rest of the motor network, there is minimal literature examining the connectivity of the VPM outside of the motor network. Using region-based fMRI studies, we built a neuroanatomical model to account for these extra-motor connections.Methods. Thirty region-based fMRI studies were used to generate an activation likelihood estimation (ALE) using BrainMap software. Cortical parcellations overlapping the ALE were used to construct a preliminary model of the VPM connections outside the motor network. Diffusion spectrum imaging (DSI)-based fiber tractography was performed to determine the connectivity between cortical parcellations in both hemispheres, and a laterality index (LI) was calculated with resultant tract volumes. The resulting connections were described using the cortical parcellation scheme developed by the Human Connectome Project (HCP).Results. Four cortical regions were found to comprise the VPM. These four regions included 6v, 4, 3b, and 3a. Across mapped brains, these areas showed consistent interconnections between each other. Additionally, ipsilateral connections to the primary motor cortex, supplementary motor area, and dorsal premotor cortex were demonstrated. Inter-hemispheric asymmetries were identified, especially with areas 1, 55b, and MI connecting to the ipsilateral VPM regions.Conclusion. We describe a preliminary cortical model for the underlying connectivity of the ventral premotor area. Future studies should further characterize the neuroanatomic underpinnings of this network for neurosurgical applications.

Published

2021

45. The Frontal Aslant Tract and Supplementary Motor Area Syndrome: Moving towards a Connectomic Initiation Axis

Author

Robert G. Briggs, Michael E. Sughrue, Parker G. Allan, Syed A. Ahsan, Isabella M. Young, Charles Teo, Anujan Poologaindran, Nicholas B. Dadario, Briggs, Robert G [0000-0001-9329-4471], Allan, Parker G [0000-0002-6302-4793], Dadario, Nicholas B [0000-0002-8657-187X], Young, Isabella M [0000-0001-7639-6679], and Apollo - University of Cambridge Repository

Subjects

Cancer Research, medicine.medical_specialty, glioma surgery, tractography, lcsh:RC254-282, Surgical planning, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, frontal aslant tract, medicine, neurosurgery, connectomics, SMA syndrome, Supplementary motor area, business.industry, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, SMA, medicine.anatomical_structure, Oncology, Frontal lobe, Superior frontal gyrus, parcellation, Neurosurgery, Radiology, business, Complication, neuro-oncology, 030217 neurology & neurosurgery, Tractography

Abstract

Connectomics is the use of big data to map the brain’s neural infrastructure, employing such technology to improve surgical planning may improve neuro-oncological outcomes. Supplementary motor area (SMA) syndrome is a well-known complication of medial frontal lobe surgery. The ‘localizationist’ view posits that damage to the posteromedial bank of the superior frontal gyrus (SFG) is the basis of SMA syndrome. However, surgical experience within the frontal lobe suggests that this is not entirely true. In a study on n = 45 patients undergoing frontal lobe glioma surgery, we sought to determine if a ‘connectomic’ or network-based approach can decrease the likelihood of SMA syndrome. The control group (n = 23) underwent surgery avoiding the posterior bank of the SFG while the treatment group (n = 22) underwent mapping of the SMA network and Frontal Aslant Tract (FAT) using network analysis and DTI tractography. Patient outcomes were assessed post operatively and in subsequent follow-ups. Fewer patients (8.3%) in the treatment group experienced transient SMA syndrome compared to the control group (47%) (p = 0.003). There was no statistically significant difference found between the occurrence of permanent SMA syndrome between control and treatment groups. We demonstrate how utilizing tractography and a network-based approach decreases the likelihood of transient SMA syndrome during medial frontal glioma surgery. We found that not transecting the FAT and the SMA system improved outcomes which may be important for functional outcomes and patient quality of life.

Published

2021

46. Aggressive Progression of a WHO Grade I Meningioma of the Posterior Clinoid Process: An Illustration of the Risks Associated With Observation of Skull Base Meningiomas

Author

Isabella M. Young, Chad A. Glenn, Michael E. Sughrue, Jacky T. Yeung, and Charles Teo

Subjects

medicine.medical_specialty, observation, Posterior clinoid processes, medicine.medical_treatment, Neurosurgery, 030204 cardiovascular system & hematology, Asymptomatic, meningioma, Radiosurgery, Meningioma, 03 medical and health sciences, 0302 clinical medicine, medicine, otorhinolaryngologic diseases, neoplasms, medicine.diagnostic_test, business.industry, General Engineering, Magnetic resonance imaging, WHO Grade I Meningioma, medicine.disease, nervous system diseases, Radiation therapy, who, Skull, medicine.anatomical_structure, Radiology, progression, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Benign, small, and asymptomatic World Health Organization grade I meningiomas are usually managed expectantly with surveillance imaging with the assumption that they are predictably slowing growing. In this paper, we report the case of an incidentally discovered small, right-sided posterior clinoid meningioma in a 53-year-old female. The tumor was managed conservatively but an annual surveillance magnetic resonance imaging demonstrated that the meningioma had an unexpected significant growth impinging on the brainstem, requiring surgical resection and radiosurgery for residual tumor. Despite histopathological confirmation of a grade I meningioma, the tumor recurred significantly and incurred substantial neurological deficits, requiring further surgery and radiotherapy. This report illustrates the potential pitfall for expectant management of small meningiomas in anatomically precarious locations and draws attention to the need for detailed informed discussions with patients regarding the management of these tumors.

Published

2021

47. The Unique Fiber Anatomy of Middle Temporal Gyrus Default Mode Connectivity

Author

Adam Bouvette, Vukshitha Dhanaraj, Sihyong J. Kim, Carol J. Abraham, Jorge Hormovas, Nicholas B. Dadario, Yueh-Hsin Lin, Onur Tanglay, Christopher D. Anderson, Arpan R. Chakraborty, Isabella M. Young, Michael E. Sughrue, Ty M Milligan, R. Dineth Fonseka, Daniel L. O'Donoghue, and Robert G. Briggs

Subjects

Adult, Middle temporal gyrus, 050105 experimental psychology, Temporal lobe, 03 medical and health sciences, 0302 clinical medicine, Neural Pathways, medicine, Connectome, Humans, 0501 psychology and cognitive sciences, Inferior longitudinal fasciculus, Default mode network, Surgical Anatomy and Technique, business.industry, 05 social sciences, Superior longitudinal fasciculus, Anatomy, White Matter, Temporal Lobe, medicine.anatomical_structure, Cerebral hemisphere, Surgery, Neurology (clinical), Nerve Net, business, 030217 neurology & neurosurgery, Tractography, Diffusion MRI

Abstract

Background The middle temporal gyrus (MTG) is understood to play a role in language-related tasks such as lexical comprehension and semantic cognition. However, a more specific understanding of its key white matter connections could promote the preservation of these functions during neurosurgery. Objective To provide a detailed description of the underlying white matter tracts associated with the MTG to improve semantic preservation during neurosurgery. Methods Tractography was performed using diffusion imaging obtained from 10 healthy adults from the Human Connectome Project. All tracts were mapped between cerebral hemispheres with a subsequent laterality index calculated based on resultant tract volumes. Ten postmortem dissections were performed for ex vivo validation of the tractography based on qualitative visual agreement. Results We identified 2 major white matter bundles leaving the MTG: the inferior longitudinal fasciculus and superior longitudinal fasciculus. In addition to long association fibers, a unique linear sequence of U-shaped fibers was identified, possibly representing a form of visual semantic transfer down the temporal lobe. Conclusion We elucidate the underlying fiber-bundle anatomy of the MTG, an area highly involved in the brain's language network. Improved understanding of the unique, underlying white matter connections in and around this area may augment our overall understanding of language processing as well as the involvement of higher order cerebral networks like the default mode network in these functions.

Published

2021

48. Hollow-tree super: A directional and scalable approach for feature importance in boosted tree models

Author

Hugh M. Taylor, Peter J. Nicholas, Isabella M. Young, Lewis Crawford, Stéphane Doyen, and Michael E. Sughrue

Subjects

FOS: Computer and information sciences, Computer Science - Machine Learning, Decision Analysis, Databases, Factual, Computer science, Social Sciences, Plant Science, Sepals, Machine Learning (cs.LG), Machine Learning, Cognition, Statistics - Machine Learning, Medicine and Health Sciences, Psychology, Flower Anatomy, Multidisciplinary, Plant Anatomy, Applied Mathematics, Simulation and Modeling, Boosting Algorithms, Software Engineering, Brain, 62-08, Tree (data structure), Feature (computer vision), Scalability, Physical Sciences, Engineering and Technology, Medicine, Management Engineering, Algorithms, Research Article, Computer and Information Sciences, Scale (ratio), Permutation, Imaging Techniques, Science, Decision Making, Decision tree, Machine Learning (stat.ML), Neuroimaging, Research and Analysis Methods, Iris flower data set, Methodology (stat.ME), Machine Learning Algorithms, Data visualization, Artificial Intelligence, Mental Health and Psychiatry, Humans, Statistics - Methodology, Models, Statistical, business.industry, Discrete Mathematics, Software Tools, Decision Trees, Cognitive Psychology, Biology and Life Sciences, Computational Biology, Pattern recognition, Combinatorics, Schizophrenia, Cognitive Science, Artificial intelligence, business, Decision tree model, Mathematics, Neuroscience

Abstract

Current limitations in boosted tree modelling prevent the effective scaling to datasets with a large feature number, particularly when investigating the magnitude and directionality of various features on classification. We present a novel methodology, Hollow-tree Super (HOTS), to resolve and visualize feature importance in boosted tree models involving a large number of features. Further, HOTS allows for investigation of the directionality and magnitude various features have on classification. Using the Iris dataset, we first compare HOTS to Gini Importance, Partial Dependence Plots, and Permutation Importance, and demonstrate how HOTS resolves the weaknesses present in these methods. We then show how HOTS can be utilized in high dimensional neuroscientific data, by taking 60 Schizophrenic subjects and applying the method to determine which brain regions were most important for classification of schizophrenia as determined by the PANSS. HOTS effectively replicated and supported the findings of Gini importance, Partial Dependence Plots and Permutation importance within the Iris dataset. When applied to the schizophrenic brain dataset, HOTS was able to resolve the top 10 most important features for classification, as well as their directionality for classification and magnitude compared to other features. Cross-validation supported that these same 10 features were consistently used in the decision-making process across multiple trees, and these features were localised primarily to the occipital and parietal cortices, commonly disturbed brain regions in those with Schizophrenia. It is imperative that a methodology is developed that is able to handle the demands of working with large datasets that contain a large number of features. HOTS represents a unique way to investigate both the directionality and magnitude of feature importance when working at scale with boosted-tree modelling., Comment: 28 pages, 1 table, 7 figures, PDF format - Submitted to PLOSONE pending review

Published

2021

49. Author response for 'Parcellation‐based anatomic model of the semantic network'

Author

Stéphane Doyen, Onur Tanglay, Yueh-Hsin Lin, Isabella M. Young, Camille K Milton, Michael Y. Bai, Hugh M. Taylor, Rannulu Dineth Fonseka, Jorge Hormovas, Peter J. Nicholas, Vukshitha Dhanaraj, Michael E. Sughrue, Chad A. Glenn, Andrew K. Conner, Charles Teo, and Robert G. Briggs

Subjects

business.industry, Computer science, Artificial intelligence, computer.software_genre, business, computer, Natural language processing, Semantic network

Published

2020

50. Author response for 'Parcellation‐based anatomic modeling of the default mode network'

Author

Chad A. Glenn, Michael Y. Bai, Andrew K. Conner, Micah L. Larsen, Robert G. Briggs, Michael E. Sughrue, Zainab Sandhu, Yueh-Hsin Lin, Rannulu Dineth Fonseka, Jorge Hormovas, Isabella M. Young, Onur Tanglay, and Vukshitha Dhanaraj

Subjects

Computer science, Data mining, computer.software_genre, computer, Default mode network

Published

2020