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1. Interpretable video-based tracking and quantification of parkinsonism clinical motor states.

Author

Deng, Daniel, Ostrem, Jill, Nguyen, Vy, Cummins, Daniel, Sun, Julia, Pathak, Anupam, Little, Simon, and Abbasi-Asl, Reza

Abstract

Quantification of motor symptom progression in Parkinsons disease (PD) patients is crucial for assessing disease progression and for optimizing therapeutic interventions, such as dopaminergic medications and deep brain stimulation. Cumulative and heuristic clinical experience has identified various clinical signs associated with PD severity, but these are neither objectively quantifiable nor robustly validated. Video-based objective symptom quantification enabled by machine learning (ML) introduces a potential solution. However, video-based diagnostic tools often have implementation challenges due to expensive and inaccessible technology, and typical black-box ML implementations are not tailored to be clinically interpretable. Here, we address these needs by releasing a comprehensive kinematic dataset and developing an interpretable video-based framework that predicts high versus low PD motor symptom severity according to MDS-UPDRS Part III metrics. This data driven approach validated and robustly quantified canonical movement features and identified new clinical insights, not previously appreciated as related to clinical severity, including pinkie finger movements and lower limb and axial features of gait. Our framework is enabled by retrospective, single-view, seconds-long videos recorded on consumer-grade devices such as smartphones, tablets, and digital cameras, thereby eliminating the requirement for specialized equipment. Following interpretable ML principles, our framework enforces robustness and interpretability by integrating (1) automatic, data-driven kinematic metric evaluation guided by pre-defined digital features of movement, (2) combination of bi-domain (body and hand) kinematic features, and (3) sparsity-inducing and stability-driven ML analysis with simple-to-interpret models. These elements ensure that the proposed framework quantifies clinically meaningful motor features useful for both ML predictions and clinical analysis.

Published
2024

3. ABOUT THE IIHA

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

5. ABOUT THE CIHC

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

8. Conclusion

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

9. ABOUT THE AUTHORS

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

14. Introduction

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

15. FOREWORD

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

16. Acknowledgments

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

17. Title Page, Copyright

Author

Deng, Francis Mading, Deng, Daniel J., and Cahill M.D., Kevin M.

Published
2016

18. Deep Learning-based Prediction of Electrical Arrhythmia Circuits from Cardiac Motion: An In-Silico Study

Author

Lebert, Jan, Deng, Daniel, Fan, Lei, Lee, Lik Chuan, and Christoph, Jan

Subjects
Physics - Medical Physics, Computer Science - Computer Vision and Pattern Recognition, Physics - Biological Physics
Abstract

The heart's contraction is caused by electrical excitation which propagates through the heart muscle. It was recently shown that the electrical excitation can be computed from the contractile motion of a simulated piece of heart muscle tissue using deep learning. In cardiac electrophysiology, a primary diagnostic goal is to identify electrical triggers or drivers of heart rhythm disorders. However, using electrical mapping techniques, it is currently impossible to map the three-dimensional morphology of the electrical waves throughout the entire heart muscle, especially during ventricular arrhythmias. Therefore, the approach to calculate or predict electrical excitation from the hearts motion could be a promising alternative diagnostic approach. Here, we demonstrate in computer simulations that it is possible to predict three-dimensional electrical wave dynamics from ventricular deformation mechanics using deep learning. We performed thousands of simulations of electromechanical activation dynamics in ventricular geometries and used the data to train a neural network which subsequently predicts the three-dimensional electrical wave pattern that caused the deformation. We demonstrate that, next to focal wave patterns, even complicated three-dimensional electrical wave patterns can be reconstructed, even if the network has never seen the particular arrhythmia. We show that the deep learning model has the ability to generalize by training it on data generated with the smoothed particle hydrodynamics (SPH) method and subsequently applying it to data generated with the finite element method (FEM). Predictions can be performed in the presence of scars and with significant heterogeneity. Our results suggest that, deep neural networks could be used to calculate intramural action potential wave patterns from imaging data of the motion of the heart muscle.

Published
2023

19. Burden, risk factors, neurosurgical evacuation outcomes, and predictors of mortality among traumatic brain injury patients with expansive intracranial hematomas in Uganda: a mixed methods study design

Author

Kamabu, Larrey Kasereka, Bbosa, Godfrey S., Lekuya, Hervé Monka, Cho, Eugene J., Kyaruzi, Victor Meza, Nyalundja, Arsene Daniel, Deng, Daniel, Sekabunga, Juliet Nalwanga, Kataka, Louange Maha, Obiga, Doomwin Oscar Deogratius, Kiryabwire, Joel, Kaddumukasa, Martin N., Kaddumukasa, Mark, Fuller, Anthony T., and Galukande, Moses

Published
2023
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21. Critical Livelihood Assets and Conflict Perceptions of Aweil and Yambio, South Sudan.

Author

Furukawa, Mitsuaki and Deng, Daniel

Subjects
*POLITICAL trust (in government), *ETHNIC groups, *NATION building, *HUNGER
Abstract

Since South Sudan's independence, complex conflicts across the country have eroded trust, challenged nation-building, and displaced 4 million people, with hunger threatening millions more, continuing a long tradition of war inherited from the Sudan. This article examines people's perceptions of conflict in Aweil and Yambio and found that for trust in the government to return, citizens must believe that development is ethnically and politically inclusive and coherent. In addition to a credible program, government's effective communication of a "peace through development policy" could rebuild the torn social fabric within and across ethnic groups, and between them and Government. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Predictive models for occurrence of expansive intracranial hematomas and surgical evacuation outcomes in traumatic brain injury patients in Uganda: A prospective cohort study

Author

Kamabu, Larrey Kasereka, primary, Oboth, Ronald, additional, Bbosa, Godfrey, additional, Baptist, Ssenyondwa John, additional, Kaddumukasa, Martin N., additional, Deng, Daniel, additional, Lekuya, Hervé Monka, additional, Kataka, Louange Maha, additional, Kiryabwire, Joel, additional, Moses, Galukande, additional, Sajatovic, Martha, additional, Kaddumukasa, Mark, additional, and Fuller, Anthony T., additional

Published
2023
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45. Three Essays on Electricity Spot and Financial Derivative Prices at the Nordic Power Exchange

Author

Deng, Daniel

Subjects
Hsieh’s third order moment test, cointegration, Nord Pool, call option, Economics, market efficiency, rational expectation competitive storage model, nonlinear causality, BDS test, EGARCH, convenience yield
Abstract

Essay I examines the market efficiency issues at the Nord Pool power exchange in the September 1995 – July 2002 period. A unique characteristic of this electricity exchange is the high hydropower proportion in the traded electricity; water in the hydro reservoir acting as hydropower inventory therefore plays an important role in the pricing of electricity. Inventory holding and the seasonality of both the supply and demand of hydropower generate inter- and intra-year autocorrelation in power prices. I present a theoretical discussion on why power price persistence invalidates the applicability of a market efficiency concept based on the random walk theory. To lend support for the theoretical argument, I conduct an empirical investigation consisting of various unit roots and cointegration methods to tackle the data problems/properties, and results show that weekly spot and futures prices are cointegrated. Philips-Loretan’s nonlinear least square is applied in testing the restriction of the coefficient according to the market efficiency hypothesis. The Wald statistic shows that the cointegration vector being (1, -1) is not binding. Residual testing using a Ljung-Box Q-statistic confirms serial correlation. These findings are consistent with the theoretical prediction. Essay II models electricity prices in the context of the Nord Pool power exchange which has a considerable proportion of hydropower supply. Since hydropower is storable in a producer perspective and the system price is a uniform price for all sources of electricity supply, the applicability of the rational expectation competitive commodity storage model to characterize the spot and futures/forward prices is validated. I further show the nonlinearity between futures/forward prices and water reservoir content as inventory. I perform a BDS test (a test for nonlinearity), Hsieh’s third-order moment test (a test that discriminates between different types of nonlinearities) and a nonlinear causality test to portray the nonlinear relationship using short/long maturities contracts. Empirical evidence shows that futures/forward prices are nonlinearly connected with water reservoir content via variance changes, and that the detection of causality varies as maturities change from short to long. These findings provide strong support for the credibility of the arbitrage argument and in a certain case verify the existence of the non-arbitrage condition. Essay III investigates convenience yield behavior at the Nord Pool power exchange given the considerable storable hydropower being traded. Several hypotheses are tested concerning the behavior and determinants of convenience yield from holding hydropower as inventory. The results reveal that 1) convenience yield has a negative relationship with hydro reservoir content as inventory, 2) convenience yield behavior can be statistically explained within a standard financial call option framework and the call option component can explain a large portion of variability in convenience yield, 3) convenience yield varies on both a yearly and a monthly basis, and 4) there is an asymmetry of volatility of convenience yield during high/low hydro inventory periods.

Published
2006

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