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48 results on '"Di Achille, Paolo"'

1. Deep learning of left atrial structure and function provides link to atrial fibrillation risk.

Author

Pirruccello, James, Di Achille, Paolo, Choi, Seung, Rämö, Joel, Khurshid, Shaan, Nekoui, Mahan, Jurgens, Sean, Nauffal, Victor, Kany, Shinwan, Ng, Kenney, Friedman, Samuel, Batra, Puneet, Lunetta, Kathryn, Palotie, Aarno, Philippakis, Anthony, Ho, Jennifer, Lubitz, Steven, and Ellinor, Patrick

Subjects
Humans, Atrial Fibrillation, Deep Learning, Heart Atria, Genome-Wide Association Study, Male, Female, Middle Aged, Aged, Magnetic Resonance Imaging, Mendelian Randomization Analysis, Risk Factors, Atrial Function, Left, Stroke Volume, Stroke, United Kingdom, Genetic Loci, Genetic Predisposition to Disease
Abstract

Increased left atrial volume and decreased left atrial function have long been associated with atrial fibrillation. The availability of large-scale cardiac magnetic resonance imaging data paired with genetic data provides a unique opportunity to assess the genetic contributions to left atrial structure and function, and understand their relationship with risk for atrial fibrillation. Here, we use deep learning and surface reconstruction models to measure left atrial minimum volume, maximum volume, stroke volume, and emptying fraction in 40,558 UK Biobank participants. In a genome-wide association study of 35,049 participants without pre-existing cardiovascular disease, we identify 20 common genetic loci associated with left atrial structure and function. We find that polygenic contributions to increased left atrial volume are associated with atrial fibrillation and its downstream consequences, including stroke. Through Mendelian randomization, we find evidence supporting a causal role for left atrial enlargement and dysfunction on atrial fibrillation risk.

Published
2024

3. Large Language Models are Few-Shot Health Learners

Author

Liu, Xin, McDuff, Daniel, Kovacs, Geza, Galatzer-Levy, Isaac, Sunshine, Jacob, Zhan, Jiening, Poh, Ming-Zher, Liao, Shun, Di Achille, Paolo, and Patel, Shwetak

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Large language models (LLMs) can capture rich representations of concepts that are useful for real-world tasks. However, language alone is limited. While existing LLMs excel at text-based inferences, health applications require that models be grounded in numerical data (e.g., vital signs, laboratory values in clinical domains; steps, movement in the wellness domain) that is not easily or readily expressed as text in existing training corpus. We demonstrate that with only few-shot tuning, a large language model is capable of grounding various physiological and behavioral time-series data and making meaningful inferences on numerous health tasks for both clinical and wellness contexts. Using data from wearable and medical sensor recordings, we evaluate these capabilities on the tasks of cardiac signal analysis, physical activity recognition, metabolic calculation (e.g., calories burned), and estimation of stress reports and mental health screeners.

Published
2023

4. Genetic Susceptibility to Atrial Fibrillation Identified via Deep Learning of 12-Lead Electrocardiograms.

Author

Wang, Xin, Khurshid, Shaan, Choi, Seung, Friedman, Samuel, Weng, Lu-Chen, Reeder, Christopher, Pirruccello, James, Singh, Pulkit, Lau, Emily, Venn, Rachael, Diamant, Nate, Di Achille, Paolo, Philippakis, Anthony, Anderson, Christopher, Ho, Jennifer, Ellinor, Patrick, Batra, Puneet, and Lubitz, Steven

Subjects
algorithm, artificial intelligence, atrial fibrillation, morbidity, risk factor, Humans, Atrial Fibrillation, Genetic Predisposition to Disease, Artificial Intelligence, Genome-Wide Association Study, Deep Learning, Electrocardiography
Abstract

BACKGROUND: Artificial intelligence (AI) models applied to 12-lead ECG waveforms can predict atrial fibrillation (AF), a heritable and morbid arrhythmia. However, the factors forming the basis of risk predictions from AI models are usually not well understood. We hypothesized that there might be a genetic basis for an AI algorithm for predicting the 5-year risk of new-onset AF using 12-lead ECGs (ECG-AI)-based risk estimates. METHODS: We applied a validated ECG-AI model for predicting incident AF to ECGs from 39 986 UK Biobank participants without AF. We then performed a genome-wide association study (GWAS) of the predicted AF risk and compared it with an AF GWAS and a GWAS of risk estimates from a clinical variable model. RESULTS: In the ECG-AI GWAS, we identified 3 signals (P

Published
2023

5. Genetics of myocardial interstitial fibrosis in the human heart and association with disease.

Author

Nauffal, Victor, Di Achille, Paolo, Klarqvist, Marcus, Cunningham, Jonathan, Hill, Matthew, Pirruccello, James, Weng, Lu-Chen, Morrill, Valerie, Choi, Seung, Khurshid, Shaan, Friedman, Samuel, Nekoui, Mahan, Roselli, Carolina, Ng, Kenney, Philippakis, Anthony, Batra, Puneet, Ellinor, Patrick, and Lubitz, Steven

Subjects
Humans, Genome-Wide Association Study, Myocardium, Heart, Cardiomyopathies, Fibrosis
Abstract

Myocardial interstitial fibrosis is associated with cardiovascular disease and adverse prognosis. Here, to investigate the biological pathways that underlie fibrosis in the human heart, we developed a machine learning model to measure native myocardial T1 time, a marker of myocardial fibrosis, in 41,505 UK Biobank participants who underwent cardiac magnetic resonance imaging. Greater T1 time was associated with diabetes mellitus, renal disease, aortic stenosis, cardiomyopathy, heart failure, atrial fibrillation, conduction disease and rheumatoid arthritis. Genome-wide association analysis identified 11 independent loci associated with T1 time. The identified loci implicated genes involved in glucose transport (SLC2A12), iron homeostasis (HFE, TMPRSS6), tissue repair (ADAMTSL1, VEGFC), oxidative stress (SOD2), cardiac hypertrophy (MYH7B) and calcium signaling (CAMK2D). Using a transforming growth factor β1-mediated cardiac fibroblast activation assay, we found that 9 of the 11 loci consisted of genes that exhibited temporal changes in expression or open chromatin conformation supporting their biological relevance to myofibroblast cell state acquisition. By harnessing machine learning to perform large-scale quantification of myocardial interstitial fibrosis using cardiac imaging, we validate associations between cardiac fibrosis and disease, and identify new biologically relevant pathways underlying fibrosis.

Published
2023

6. Machine Learning to Understand Genetic and Clinical Factors Associated With the Pulse Waveform Dicrotic Notch.

Author

Cunningham, Jonathan, Di Achille, Paolo, Morrill, Valerie, Weng, Lu-Chen, Choi, Seung, Khurshid, Shaan, Nauffal, Victor, Solomon, Scott, Batra, Puneet, Ho, Jennifer, Philippakis, Anthony, Ellinor, Patrick, Lubitz, Steven, and Pirruccello, James

Subjects
Humans, Cardiovascular Diseases, Genome-Wide Association Study, Coronary Artery Disease, Risk Factors, Phenotype
Abstract

BACKGROUND: Absence of a dicrotic notch on finger photoplethysmography is an easily ascertainable and inexpensive trait that has been associated with age and prevalent cardiovascular disease. However, the trait exists along a continuum, and little is known about its genetic underpinnings or prognostic value for incident cardiovascular disease. METHODS: In 169 787 participants in the UK Biobank, we identified absent dicrotic notch on photoplethysmography and created a novel continuous trait reflecting notch smoothness using machine learning. Next, we determined the heritability, genetic basis, polygenic risk, and clinical relations for the binary absent notch trait and the newly derived continuous notch smoothness trait. RESULTS: Heritability of the continuous notch smoothness trait was 7.5%, compared with 5.6% for the binary absent notch trait. A genome-wide association study of notch smoothness identified 15 significant loci, implicating genes including NT5C2 (P=1.2×10-26), IGFBP3 (P=4.8×10-18), and PHACTR1 (P=1.4×10-13), compared with 6 loci for the binary absent notch trait. Notch smoothness stratified risk of incident myocardial infarction or coronary artery disease, stroke, heart failure, and aortic stenosis. A polygenic risk score for notch smoothness was associated with incident cardiovascular disease and all-cause death in UK Biobank participants without available photoplethysmography data. CONCLUSIONS: We found that a machine learning derived continuous trait reflecting dicrotic notch smoothness on photoplethysmography was heritable and associated with genes involved in vascular stiffness. Greater notch smoothness was associated with greater risk of incident cardiovascular disease. Raw digital phenotyping may identify individuals at risk for disease via specific genetic pathways.

Published
2023

10. Genetic analysis of right heart structure and function in 40,000 people

Author

Pirruccello, James P., Di Achille, Paolo, Nauffal, Victor, Nekoui, Mahan, Friedman, Samuel F., Klarqvist, Marcus D. R., Chaffin, Mark D., Weng, Lu-Chen, Cunningham, Jonathan W., Khurshid, Shaan, Roselli, Carolina, Lin, Honghuang, Koyama, Satoshi, Ito, Kaoru, Kamatani, Yoichiro, Komuro, Issei, Jurgens, Sean J., Benjamin, Emelia J., Batra, Puneet, Natarajan, Pradeep, Ng, Kenney, Hoffmann, Udo, Lubitz, Steven A., Ho, Jennifer E., Lindsay, Mark E., Philippakis, Anthony A., and Ellinor, Patrick T.

Published
2022
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12. Deep learning on resting electrocardiogram to identify impaired heart rate recovery

Author

Diamant, Nathaniel, Di Achille, Paolo, Weng, Lu-Chen, Lau, Emily S., Khurshid, Shaan, Friedman, Samuel, Reeder, Christopher, Singh, Pulkit, Wang, Xin, Sarma, Gopal, Ghadessi, Mercedeh, Mielke, Johanna, Elci, Eren, Kryukov, Ivan, Eilken, Hanna M., Derix, Andrea, Ellinor, Patrick T., Anderson, Christopher D., Philippakis, Anthony A., Batra, Puneet, Lubitz, Steven A., and Ho, Jennifer E.

Published
2022
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13. Cohort design and natural language processing to reduce bias in electronic health records research

Author

Khurshid, Shaan, Reeder, Christopher, Harrington, Lia X., Singh, Pulkit, Sarma, Gopal, Friedman, Samuel F., Di Achille, Paolo, Diamant, Nathaniel, Cunningham, Jonathan W., Turner, Ashby C., Lau, Emily S., Haimovich, Julian S., Al-Alusi, Mostafa A., Wang, Xin, Klarqvist, Marcus D. R., Ashburner, Jeffrey M., Diedrich, Christian, Ghadessi, Mercedeh, Mielke, Johanna, Eilken, Hanna M., McElhinney, Alice, Derix, Andrea, Atlas, Steven J., Ellinor, Patrick T., Philippakis, Anthony A., Anderson, Christopher D., Ho, Jennifer E., Batra, Puneet, and Lubitz, Steven A.

Published
2022
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17. Deep learned representations of the resting 12-lead electrocardiogram to predict at peak exercise

Author

Khurshid, Shaan, primary, Churchill, Timothy W, additional, Diamant, Nathaniel, additional, Di Achille, Paolo, additional, Reeder, Christopher, additional, Singh, Pulkit, additional, Friedman, Samuel F, additional, Wasfy, Meagan M, additional, Alba, George A, additional, Maron, Bradley A, additional, Systrom, David M, additional, Wertheim, Bradley M, additional, Ellinor, Patrick T, additional, Ho, Jennifer E, additional, Baggish, Aaron L, additional, Batra, Puneet, additional, Lubitz, Steven A, additional, and Guseh, J Sawalla, additional

Published
2023
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18. Genetic Susceptibility to Atrial Fibrillation Identified via Deep Learning of 12-Lead Electrocardiograms

Author

Wang, Xin, primary, Khurshid, Shaan, additional, Choi, Seung Hoan, additional, Friedman, Samuel, additional, Weng, Lu-Chen, additional, Reeder, Christopher, additional, Pirruccello, James P., additional, Singh, Pulkit, additional, Lau, Emily S., additional, Venn, Rachael, additional, Diamant, Nate, additional, Di Achille, Paolo, additional, Philippakis, Anthony, additional, Anderson, Christopher D., additional, Ho, Jennifer E., additional, Ellinor, Patrick T., additional, Batra, Puneet, additional, and Lubitz, Steven A., additional

Published
2023
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21. Deep learned representations of the resting 12-lead electrocardiogram to predict at peak exercise

Author

Khurshid, Shaan, Churchill, Timothy W, Diamant, Nathaniel, Di Achille, Paolo, Reeder, Christopher, Singh, Pulkit, Friedman, Samuel F, Wasfy, Meagan M, Alba, George A, Maron, Bradley A, Systrom, David M, Wertheim, Bradley M, Ellinor, Patrick T, Ho, Jennifer E, Baggish, Aaron L, Batra, Puneet, Lubitz, Steven A, and Guseh, J Sawalla

Abstract

Researchers here present data describing a method of estimating exercise capacity from the resting electrocardiogram. Electrocardiogram estimation of exercise capacity was accurate and was found to predict the onset of the wide range of cardiovascular diseases including heart attacks, heart failure, arrhythmia, and death.This approach offers the ability to estimate exercise capacity without dedicated exercise testing and may enable efficient risk stratification of cardiac patients at scale.Graphical Abstract

Published
2024
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22. ECG-Based Deep Learning and Clinical Risk Factors to Predict Atrial Fibrillation

Author

Khurshid, Shaan, primary, Friedman, Samuel, additional, Reeder, Christopher, additional, Di Achille, Paolo, additional, Diamant, Nathaniel, additional, Singh, Pulkit, additional, Harrington, Lia X., additional, Wang, Xin, additional, Al-Alusi, Mostafa A., additional, Sarma, Gopal, additional, Foulkes, Andrea S., additional, Ellinor, Patrick T., additional, Anderson, Christopher D., additional, Ho, Jennifer E., additional, Philippakis, Anthony A., additional, Batra, Puneet, additional, and Lubitz, Steven A., additional

Published
2022
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23. Abstract 12922: Electrocardiogram-Based Deep Learning and Clinical Risk Factors to Predict Incident Atrial Fibrillation

Author

Khurshid, Shaan, primary, Friedman, Samuel, additional, Reeder, Christopher, additional, Di Achille, Paolo, additional, Diamant, Nathaniel, additional, Singh, Pulkit, additional, Harrington, Lia, additional, Wang, Xin, additional, Al-alusi, Mostafa, additional, Sarma, Gopal, additional, Ellinor, Patrick T, additional, Anderson, Christopher D, additional, Ho, Jennifer E, additional, Philippakis, Anthony A, additional, Batra, Puneet, additional, and Lubitz, Steven A, additional

Published
2021
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24. Abstract 10587: Frequency and Outcomes of Bradyarrhythmias in the Community

Author

Haimovich, Julian, primary, Khurshid, Shaan, additional, Di Achille, Paolo, additional, Nauffal, Victor, additional, Singh, Pulkit, additional, Reeder, Christopher, additional, Harrington, Lia, additional, Wang, Xin, additional, Sarma, Gopal, additional, Kornej, Jelena, additional, Benjamin, Emelia J, additional, Philippakis, Anthony A, additional, Batra, Puneet, additional, Ellinor, Patrick T, additional, and Lubitz, Steven A, additional

Published
2021
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25. Genetics of Myocardial Interstitial Fibrosis in the Human Heart and Association with Disease

Author

Nauffal, Victor, primary, Di Achille, Paolo, additional, Klarqvist, Marcus. D. R., additional, Cunningham, Jonathan W., additional, Pirruccello, James P., additional, Weng, Lu-Chen, additional, Morrill, Valerie N., additional, Choi, Seung Hoan, additional, Khurshid, Shaan, additional, Friedman, Samuel F., additional, Nekoui, Mahan, additional, Roselli, Carolina, additional, Ng, Kenney, additional, Philippakis, Anthony A., additional, Batra, Puneet, additional, Ellinor, Patrick T., additional, and Lubitz, Steven A., additional

Published
2021
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26. Using Machine Learning to Elucidate the Spatial and Genetic Complexity of the Ascending Aorta

Author

Nekoui, Mahan, primary, Pirruccello, James P., additional, Di Achille, Paolo, additional, Choi, Seung Hoan, additional, Friedman, Samuel N., additional, Nauffal, Victor, additional, Ng, Kenney, additional, Batra, Puneet, additional, Ho, Jennifer E., additional, Philippakis, Anthony A., additional, Lubitz, Steven A., additional, Lindsay, Mark E., additional, and Ellinor, Patrick T., additional

Published
2021
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27. Deep Learning of Left Atrial Structure and Function Provides Link to Atrial Fibrillation Risk

Author

Pirruccello, James P., primary, Di Achille, Paolo, additional, Choi, Seung Hoan, additional, Khurshid, Shaan, additional, Nekoui, Mahan, additional, Jurgens, Sean J., additional, Nauffal, Victor, additional, Ng, Kenney, additional, Friedman, Samuel F., additional, Lunetta, Kathryn L., additional, Philippakis, Anthony A., additional, Ho, Jennifer E., additional, Lubitz, Steven A., additional, and Ellinor, Patrick T., additional

Published
2021
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28. Deep Learning to Predict Cardiac Magnetic Resonance–Derived Left Ventricular Mass and Hypertrophy From 12-Lead ECGs

Author

Khurshid, Shaan, primary, Friedman, Samuel, additional, Pirruccello, James P., additional, Di Achille, Paolo, additional, Diamant, Nathaniel, additional, Anderson, Christopher D., additional, Ellinor, Patrick T., additional, Batra, Puneet, additional, Ho, Jennifer E., additional, Philippakis, Anthony A., additional, and Lubitz, Steven A., additional

Published
2021
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29. CRIMSON: An open-source software framework for cardiovascular integrated modelling and simulation

Author

Arthurs, Christopher J., primary, Khlebnikov, Rostislav, additional, Melville, Alex, additional, Marčan, Marija, additional, Gomez, Alberto, additional, Dillon-Murphy, Desmond, additional, Cuomo, Federica, additional, Silva Vieira, Miguel, additional, Schollenberger, Jonas, additional, Lynch, Sabrina R., additional, Tossas-Betancourt, Christopher, additional, Iyer, Kritika, additional, Hopper, Sara, additional, Livingston, Elizabeth, additional, Youssefi, Pouya, additional, Noorani, Alia, additional, Ben Ahmed, Sabrina, additional, Nauta, Foeke J. H., additional, van Bakel, Theodorus M. J., additional, Ahmed, Yunus, additional, van Bakel, Petrus A. J., additional, Mynard, Jonathan, additional, Di Achille, Paolo, additional, Gharahi, Hamid, additional, Lau, Kevin D., additional, Filonova, Vasilina, additional, Aguirre, Miquel, additional, Nama, Nitesh, additional, Xiao, Nan, additional, Baek, Seungik, additional, Garikipati, Krishna, additional, Sahni, Onkar, additional, Nordsletten, David, additional, and Figueroa, C. Alberto, additional

Published
2021
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31. Physiology as a Lingua Franca for Clinical Machine Learning

Author

Sarma, Gopal P., primary, Reinertsen, Erik, additional, Aguirre, Aaron, additional, Anderson, Chris, additional, Batra, Puneet, additional, Choi, Seung-Hoan, additional, Di Achille, Paolo, additional, Diamant, Nathaniel, additional, Ellinor, Patrick, additional, Emdin, Connor, additional, Fahed, Akl C., additional, Friedman, Samuel, additional, Harrington, Lia, additional, Ho, Jennifer E., additional, Khera, Amit V., additional, Khurshid, Shaan, additional, Klarqvist, Marcus, additional, Lubitz, Steve, additional, Philippakis, Anthony, additional, Pirruccello, James, additional, Reeder, Christopher, additional, Stultz, Collin, additional, and Westover, Brandon, additional

Published
2020
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40. Physiology as a Lingua Franca for Clinical Machine Learning

Author

Aguirre, Aaron, Anderson, Chris, Batra, Puneet, Choi, Seung-Hoan, Di Achille, Paolo, Diamant, Nathaniel, Ellinor, Patrick, Emdin, Connor, Fahed, Akl C., Friedman, Samuel, Harrington, Lia, Ho, Jennifer E., Khera, Amit V., Khurshid, Shaan, Klarqvist, Marcus, Lubitz, Steve, Philippakis, Anthony, Pirruccello, James, Reeder, Christopher, Stultz, Collin, Westover, Brandon, Sarma, Gopal P., and Reinertsen, Erik

Published
2020
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41. A Biochemomechanical Role of Thrombus in Abdominal Aortic Aneurysm

Author

Di Achille, Paolo, Wilson, John, Virag, Lana, Karšaj, Igor, and Humphrey, Jay

Subjects
cardiovascular system, cardiovascular diseases, abdominal aortic aneurysm, thrombus, biochemomechanical
Abstract

Abdominal aortic aneurysms (AAAs) are localized dilatations of the infrarenal aorta ; they typically present in older men and are responsible for increasing morbidity and mortality in our aging population. The vast majority of these lesions develop an intraluminal thrombus, which often occupies most of the dilated region of the lesion. There continues to be significant debate as to whether thrombus is protective or detrimental in terms of mechanical and biological factors. Some suggest that thrombus reduces mechanical stress within the wall of the aneurysm, which could be protective. Others suggest that the thrombus leads to hypoxia within the inner portion of the aneurysmal wall while others suggest that thrombus creates a chronic inflammatory state characterized by increased proteolytic activity ; both of these possibilities would obviously be detrimental to lesion integrity. One of the reasons that debate continues is that thrombus volume does not correlate with aneurysm rupture risk. In this presentation, we will put forth results of a computational model that focuses on where, when, and how much thrombus is expected to form within particular classes of AAAs. Given such information, we will then put forth a hypothesis that it is not thrombus volume that is important, but rather the regions wherein biologically active thrombus contact the aneurysmal wall. Hence, by combining results from a computational fluid dynamics model of thrombus formation and deposition with a computational growth and remodeling model of aneurysmal expansion, we will present new results on the possible bio-chemo- mechanical remodeling of an AAA.

Published
2016

48. Toward large-scale computational fluid-solid-growth models of intracranial aneurysms.

Author

Di Achille P and Humphrey JD

Subjects
Arteries pathology, Arteries physiopathology, Biomechanical Phenomena, Blood Flow Velocity, Hemodynamics, Humans, Computer Simulation, Intracranial Aneurysm pathology, Intracranial Aneurysm physiopathology, Models, Cardiovascular
Abstract

Complementary advances in medical imaging, vascular biology, genetics, biomechanics, and computational methods promise to enable the development of mathematical models of the enlargement and possible rupture of intracranial aneurysms that can help inform clinical decisions. Nevertheless, this ultimate goal is extremely challenging given the many diverse and complex factors that control the natural history of these lesions. As it should be expected, therefore, predictive models continue to develop in stages, with new advances incorporated as data and computational methods permit. In this paper, we submit that large-scale, patient-specific, fluid-solid interaction models of the entire circle of Willis and included intracranial aneurysm are both computationally tractable and necessary as a critical step toward fluid-solid-growth (FSG) models that can address the evolution of a lesion while incorporating information on the genetically and mechanobiologically determined microstructure of the wall.

Published
2012

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