Arijit Sehanobish scite author profile

Arijit Sehanobish

5Publications

58Citation Statements Received

103Citation Statements Given

How they've been cited

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101

Affiliations

Yale University

Publications

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Disease state prediction from single-cell data using graph attention networks

Ravindra

Sehanobish

Pappalardo

et al. 2020

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Single-cell RNA sequencing (scRNA-seq) has revolutionized biological discovery, providing an unbiased picture of cellular heterogeneity in tissues. While scRNA-seq has been used extensively to provide insight into both healthy systems and diseases, it has not been used for disease prediction or diagnostics. Graph Attention Networks (GAT) have proven to be versatile for a wide range of tasks by learning from both original features and graph structures.Here we present a graph attention model for predicting disease state from single-cell data on a large dataset of Multiple Sclerosis (MS) patients. MS is a disease of the central nervous system that can be difficult to diagnose. We train our model on single-cell data obtained from blood and cerebrospinal fluid (CSF) for a cohort of seven MS patients and six healthy adults (HA), resulting in 66,667 individual cells. We achieve 92 % accuracy in predicting MS, outperforming other state-of-the-art methods such as a graph convolutional network and a random forest classifier. Further, we use the learned graph attention model to get insight into the features (cell types and genes) that are important for this prediction. The graph attention model also allow us to infer a new feature space for the cells that emphasizes the differences between the two conditions. Finally we use the attention weights to learn a new low-dimensional embedding that can be visualized. To the best of our knowledge, this is the first effort to use graph attention, and deep learning in general, to predict disease state from single-cell data. We envision applying this method to single-cell data for other diseases. * Both authors contributed equally to this research.

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Patient factors associated with SARS‐CoV‐2 in an admitted emergency department population

et al. 2020

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Background The SARS‐CoV‐2 (COVID‐19) virus has wide community spread. The aim of this study was to describe patient characteristics and to identify factors associated with COVID‐19 among emergency department (ED) patients under investigation for COVID‐19 who were admitted to the hospital. Methods This was a retrospective observational study from 8 EDs within a 9‐hospital health system. Patients with COVID‐19 testing around the time of hospital admission were included. The primary outcome measure was COVID‐19 test result. Patient characteristics were described and a multivariable logistic regression model was used to identify factors associated with a positive COVID‐19 test. Results During the study period from March 1, 2020 to April 8, 2020, 2182 admitted patients had a test resulted for COVID‐19. Of these patients, 786 (36%) had a positive test result. For COVID‐19‐positive patients, 63 (8.1%) died during hospitalization. COVID‐19‐positive patients had lower pulse oximetry (0.91 [95% confidence interval, CI], [0.88–0.94]), higher temperatures (1.36 [1.26–1.47]), and lower leukocyte counts than negative patients (0.78 [0.75–0.82]). Chronic lung disease (odds ratio [OR] 0.68, [0.52–0.90]) and histories of alcohol (0.64 [0.42—0.99]) or substance abuse (0.39 [0.25—0.62]) were less likely to be associated with a positive COVID‐19 result. Conclusion We observed a high percentage of positive results among an admitted ED cohort under investigation for COVID‐19. Patient factors may be useful in early differentiation of patients with COVID‐19 from similarly presenting respiratory illnesses although no single factor will serve this purpose.

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Learning Potentials of Quantum Systems using Deep Neural Networks

Sehanobish¹,

Corzo²,

Kara³

et al. 2020

Preprint

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Machine Learning has wide applications in a broad range of subjects, including physics. Recent works have shown that neural networks can learn classical Hamiltonian mechanics. The results of these works motivate the following question: Can we endow neural networks with inductive biases coming from quantum mechanics and provide insights for quantum phenomena? In this work, we try answering these questions by investigating possible approximations for reconstructing the Hamiltonian of a quantum system given one of its wave-functions. Instead of handcrafting the Hamiltonian and a solution of the Schrödinger equation, we design neural networks that aim to learn it directly from our observations. We show that our method, termed Quantum Potential Neural Networks (QPNN), can learn potentials in an unsupervised manner with remarkable accuracy for a wide range of quantum systems, such as the quantum harmonic oscillator, particle in a box perturbed by an external potential, hydrogen atom, Pöschl-Teller potential, and a solitary wave system. Furthermore, in the case of a particle perturbed by an external force, we also learn the perturbed wave function in a joint end-to-end manner. * Equal contribution Preprint. Under review.

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Using Chinese Glyphs for Named Entity Recognition (Student Abstract)

Song

Sehanobish

2020

AAAI

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Most Named Entity Recognition (NER) systems use additional features like part-of-speech (POS) tags, shallow parsing, gazetteers, etc. Adding these external features to NER systems have been shown to have a positive impact. However, creating gazetteers or taggers can take a lot of time and may require extensive data cleaning. In this work instead of using these traditional features we use lexicographic features of Chinese characters. Chinese characters are composed of graphical components called radicals and these components often have some semantic indicators. We propose CNN based models that incorporate this semantic information and use them for NER. Our models show an improvement over the baseline BERT-BiLSTM-CRF model. We present one of the first studies on Chinese OntoNotes v5.0 and show an improvement of + .64 F1 score over the baseline. We present a state-of-the-art (SOTA) F1 score of 71.81 on the Weibo dataset, show a competitive improvement of + 0.72 over baseline on the ResumeNER dataset, and a SOTA F1 score of 96.49 on the MSRA dataset.

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From block-Toeplitz matrices to differential equations on graphs: towards a general theory for scalable masked Transformers

Choromański¹,

Lin²,

Chen³

et al. 2021

Preprint

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