Cyberinfrastructure for Open Science at the Montreal Neurological Institute

Das, Samir; Glatard, Tristan; Rogers, C. F.; Saigle, John; Paiva, Santiago; MacIntyre, Leigh C.; Safi-Harab, Mouna; Rousseau, Marc-Étienne; Stirling, Jordan; Khalili-Mahani, Najmeh; MacFarlane, David; Kostopoulos, Penelope; Rioux, Pierre; Madjar, Cécile; Lecours-Boucher, Xavier; Vanamala, Sandeep; Adalat, Reza; Mohaddes, Zia; Fonov, Vladimir S.; Milot, Sylvain; Leppert, Ilana R.; Degroot, Clotilde; Durcan, Thomas M.; Campbell, Tara; Moreau, Jeremy T; Dagher, Alain; Collins, D. Louis; Karamchandani, Jason; Bar‐Or, Amit; Fon, Edward A.; Hoge, Rick; Baillet, Sylvain; Rouleau, Guy A.; Evans, Alan C.

doi:10.3389/fninf.2016.00053

Cited by 31 publications

(28 citation statements)

References 49 publications

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“…Recent large-scale projects for population genotyping and brain imaging such as the UK biobank represent a significant opportunity in this regard. 35,36 Additionally, efforts to provide curation, as well as streamlined consent 37 and de-identification 38,39 of data from electronic medical records and picture archiving communication systems, are another important step in this direction. [40][41][42][43] Allowing for the wealth of patient data already being recorded for routine care to be used to advance predictive disease modeling has the potential to simplify specific aspects of clinical decision making, as well as improve diagnostic and prognostic accuracy for future patients.…”

Section: Discussionmentioning

confidence: 99%

Individual-patient prediction of meningioma malignancy and survival using the Surveillance, Epidemiology, and End Results database

et al. 2020

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Meningiomas are known to have relatively lower aggressiveness and better outcomes than other central nervous system (CNS) tumors. However, there is considerable overlap between clinical and radiological features characterizing benign, atypical, and malignant tumors. In this study, we developed methods and a practical app designed to assist with the diagnosis and prognosis of meningiomas. Statistical learning models were trained and validated on 62,844 patients from the Surveillance, Epidemiology, and End Results database. We used balanced logistic regression-random forest ensemble classifiers and proportional hazards models to learn multivariate patterns of association between malignancy, survival, and a series of basic clinical variables-such as tumor size, location, and surgical procedure. We demonstrate that our models are capable of predicting meaningful individual-specific clinical outcome variables and show good generalizability across 16 SEER registries. A free smartphone and web application is provided for readers to access and test the predictive models (www.meningioma.app). Future model improvements and prospective replication will be necessary to demonstrate true clinical utility. Rather than being used in isolation, we expect that the proposed models will be integrated into larger and more comprehensive models that integrate imaging and molecular biomarkers. Whether for meningiomas or other tumors of the CNS, the power of these methods to make individual-patient predictions could lead to improved diagnosis, patient counseling, and outcomes.npj Digital Medicine (2020) 3:12 ; https://doi.

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Section: Discussionmentioning

confidence: 99%

Individual-patient prediction of meningioma malignancy and survival using the Surveillance, Epidemiology, and End Results database

et al. 2020

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“…In this way, the registry provides access to patients for investigators conducting research in PD. As the QPN Participant Registry continues to grow, the QPN is consolidating data collected through the questionnaire, patient medical records, and QPNfacilitated research studies, such as NeurO C-BIGR, in a centralized, open-access database (LORIS [Longitudinal Online Research and Imaging System]) [26][27][28]. All epidemiological, clinical, neuroimaging, neuropsychological, and biological data will then be made publicly accessible to promote data sharing throughout the PD research community, ultimately leading to new research projects and analyses.…”

Section: Initiating Studies With the Quebec Parkinson Network Data Anmentioning

confidence: 99%

The Quebec Parkinson Network: A Researcher-Patient Matching Platform and Multimodal Biorepository

Gan‐Or

Rao

Léveillé

et al. 2020

JPD

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Background: Genetic, biologic and clinical data suggest that Parkinson's disease (PD) is an umbrella for multiple disorders with clinical and pathological overlap, yet with different underlying mechanisms. To better understand these and to move towards neuroprotective treatment, we have established the Quebec Parkinson Network (QPN), an open-access patient registry, and data and bio-samples repository. Objective: To present the QPN and to perform preliminary analysis of the QPN data. Methods: A total of 1,070 consecutively recruited PD patients were included in the analysis. Demographic and clinical data were analyzed, including comparisons between males and females, PD patients with and without RBD, and stratified analyses comparing early and late-onset PD and different age groups. Results: QPN patients exhibit a male:female ratio of 1.8:1, an average age-at-onset of 58.6 years, an age-at-diagnosis of 60.4 years, and average disease duration of 8.9 years. REM-sleep behavior disorder (RBD) was more common among men, and RBD was associated with other motor and non-motor symptoms including dyskinesia, fluctuations, postural hypotension and hallucinations. Older patients had significantly higher rates of constipation and cognitive impairment, and longer disease duration was associated with higher rates of dyskinesia, fluctuations, freezing of gait, falls, hallucinations and cognitive impairment. Since QPN's creation, over 60 studies and 30 publications have included patients and data from the QPN. Conclusions: The QPN cohort displays typical PD demographics and clinical features. These data are open-access upon application (http://rpq-qpn.ca/en/), and will soon include genetic, imaging and bio-samples. We encourage clinicians and researchers to perform studies using these resources.

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“…For Human studies, to facilitate data storage, data sharing and data processing based on specific customized pipelines, different infrastructures have been proposed such as for instance COINS (Landis et al, 2016), LORIS+BRAIN (Das et al, 2016) or LONI (Rex et al, 2003) for…”

Section: Discussionmentioning

confidence: 99%

A Multicenter Preclinical MRI Study: Definition of Rat Brain Relaxometry Reference Maps

Deruelle¹,

Kober

Perles-Barbacaru

et al. 2020

Preprint

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Similarly to human population imaging, there are several well-founded motivations for animal population imaging, the most notable being the improvement of the validity of statistical results by pooling a sufficient number of animal data provided by different imaging centers. In this paper, we demonstrate the feasibility of such a multicenter animal study, sharing raw data from forty rats and processing pipelines between four imaging centers. As specific use case, we considered the estimation of T1 and T2 maps for the healthy rat brain at 7T. We quantitatively report about the variability observed across two data provider centers and evaluate the influence of image processing steps on the final maps, by using three fitting algorithms from three centers.Finally, to derive relaxation time values per brain area, two multi-atlas segmentation pipelines from different centers were executed on two different platforms. In this study, the impact of the acquisition was 2.21% (not significant) and 9.52% on T1 and T2 estimates while the impact of the data processing pipeline was not significant (1.04% and 3.33%, respectively). In addition, the computed normality values can serve as relaxometry reference maps to explore differences to animal models of pathologies.

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Cyberinfrastructure for Open Science at the Montreal Neurological Institute

Cited by 31 publications

References 49 publications

Individual-patient prediction of meningioma malignancy and survival using the Surveillance, Epidemiology, and End Results database

Individual-patient prediction of meningioma malignancy and survival using the Surveillance, Epidemiology, and End Results database

The Quebec Parkinson Network: A Researcher-Patient Matching Platform and Multimodal Biorepository

A Multicenter Preclinical MRI Study: Definition of Rat Brain Relaxometry Reference Maps

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