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3,712 results on '"Dillon J."'

1. Oculomotor Plant Mathematical Model in Kalman Filter Form With Peak Velocity-Based Neural Pulse for Continuous Gaze Prediction

Author

Dmytro Katrychuk, Dillon J. Lohr, and Oleg V. Komogortsev

Subjects
Eye-tracking, gaze prediction, mathematical modeling, oculomotor plant, saccade simulation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

An oculomotor plant mathematical model (OPMM) employs physical and neurological characteristics of human visual system to define its dynamics. One of its most prominent applications in modern eye-tracking pipelines was hypothesized to be latency reduction via the means of eye movement prediction. However, this use case was only explored with OPMMs originally designed for saccade simulation. Such models typically relied on the neural pulse control being estimated from intended saccade amplitude - a property that becomes fully observed only after a saccade already ended, which greatly limits the model’s prediction capabilities. We present the first OPMM designed with the prediction task in mind. We draw our inspiration from a “peak velocity - amplitude” main sequence relationship and propose to use saccade’s peak velocity for neural pulse estimation. We additionally extend the prior work by evaluating the proposed model on the largest to date pool of 322 subjects against the naive zero displacement baseline and a long short-term memory (LSTM) neural network.

Published
2025
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2. A global overview of marine heatwaves in a changing climate

Author

Antonietta Capotondi, Regina R. Rodrigues, Alex Sen Gupta, Jessica A. Benthuysen, Clara Deser, Thomas L. Frölicher, Nicole S. Lovenduski, Dillon J. Amaya, Natacha Le Grix, Tongtong Xu, Juliet Hermes, Neil J. Holbrook, Cristian Martinez-Villalobos, Simona Masina, Mathew Koll Roxy, Amandine Schaeffer, Robert W. Schlegel, Kathryn E. Smith, and Chunzai Wang

Subjects
Geology, QE1-996.5, Environmental sciences, GE1-350
Abstract

Abstract Marine heatwaves have profoundly impacted marine ecosystems over large areas of the world oceans, calling for improved understanding of their dynamics and predictability. Here, we critically review the recent substantial advances in this active area of research, including the exploration of the three-dimensional structure and evolution of these extremes, their drivers, their connection with other extremes in the ocean and over land, future projections, and assessment of their predictability and current prediction skill. To make progress on predicting and projecting marine heatwaves and their impacts, a more complete mechanistic understanding of these extremes over the full ocean depth and at the relevant spatial and temporal scales is needed, together with models that can realistically capture the leading mechanisms at those scales. Sustained observing systems, as well as measuring platforms that can be rapidly deployed, are essential to achieve comprehensive event characterizations while also chronicling the evolving nature of these extremes and their impacts in our changing climate.

Published
2024
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3. Utilization of an undergraduate emergency department research associate program for the screening and recruitment of research subjects with heart failure into a clinical study

Author

Dillon J. Dzikowicz, Brenda Hernandez-Romero, Nancy Wood, Beau W. Abar, David H. Adler, Linwei Wang, and Wojciech Zareba

Subjects
Heart failure, Patient selection, Emergency Service, Hospital, Research Personnel, Informed consent, Medicine (General), R5-920
Abstract

Background: Enrolling heart failure (HF) patients in clinical studies is challenging. Emergency department (ED) may use students as research associates programs, such as the University of Rochester Medical Center (URMC) ED Research Associate (EDRA) program, to screen and consent patients for clinical studies. This manuscript examines the effectiveness of the URMC EDRA program in consenting HF patients into a clinical study. Methods: The URMC EDRA program recruited and consented HF patients presenting at URMC's ED. Research associates in the EDRA program identified potential patients based on age (>18 years) and chief complaints indicative of HF. After identifying potential patients, a thorough chart review was conducted, and any uncertainties were discussed with the patient and treating provider before patients were consented into the study. Descriptive statistics were used to assess the program's effectiveness. Results: Over one fiscal year, the URMC EDRA program screened 1669 unique patients, of whom 118 (7.1 %) were consented. Consented patients tended to be younger (65 ± 12 years) than those who refused consent (70 ± 14 years) (p = 0.007). Of the 1551 patients not consented, 1021 (65.8 %) were deemed ineligible. Compared to a full time research associate, the URMC EDRA program was cheaper and more productive. Conclusion: The URMC EDRA program was highly effective in screening and consenting HF patients, successfully consenting 118 patients (14 per month). This is a significant achievement, especially given the study's strict inclusion and exclusion criteria. Compared to other studies and a full time research associate, the URMC EDRA program demonstrated remarkable productivity.

Published
2025
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4. Physiological and behavioral variation by urbanization and climate in an urban-tolerant toad

Author

Dillon J. Monroe, Veronika Bókony, and Caitlin R. Gabor

Subjects
corticosterone, locomotor performance, glucocorticoid, lipid storage, urbanization, Zoology, QL1-991
Abstract

The distribution of a species is best understood by examining the organism-environment interaction. Climate and anthropogenic habitat degradation, including urbanization, are salient features of the environment that can limit species distributions, especially for ectotherms. Comparative studies of the capacity of individuals to cope with rapid environmental change can help us understand the future success or failure of local populations or even the species. Studies of the glucocorticoid stress response are commonly used to understand how species cope with environmental stressors. Glucocorticoids modulate many aspects of physiological homeostasis including changes in energetic allocation and behavior. In a time of global amphibian decline the Gulf Coast Toad (Incilius nebulifer) is increasing its distribution and abundance. To understand how this species deals with thermal and urban stressors, we studied glucocorticoid regulation, hop performance, and lipid storage in I. nebulifer juveniles across nine populations that differed in average annual temperature and level of imperviousness (as an indication of urbanization). We measured corticosterone release rates at baseline, during agitation stress, and during recovery; then measured locomotor performance and whole-body lipids. We tested if I. nebulifer in hotter temperatures and more urbanized habitats exhibits elevated baseline corticosterone levels and either a reduced corticosterone stress response (“stress resistance” hypothesis) or quick post-stress recovery by negative feedback (“on again, off again” hypothesis). We also tested whether they exhibit reduced fat stores and decreased locomotor performance as costs of dealing with thermal and urban stressors. We found that I. nebulifer showed elevated baseline and agitation (stressed-induced) corticosterone release rates, and higher lipid storage with increasing urbanization. Climate had quadratic effects on these traits, such that populations living at the lowest and highest temperatures had the lowest corticosterone release rates and lipid stores, and the highest hop performance was observed in the least urbanized site at the warmest climate. Additionally, the rate of glucocorticoid recovery after agitation (negative feedback) decreased with increasing temperature and increased with increasing urbanization. These results indicate that I. nebulifer follows the “on again, off again” hypothesis in an adaptive pattern, which may help them cope with environmental change in terms of urbanization and climatic differences.

Published
2024
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5. Publisher Correction: A global overview of marine heatwaves in a changing climate

Author

Antonietta Capotondi, Regina R. Rodrigues, Alex Sen Gupta, Jessica A. Benthuysen, Clara Deser, Thomas L. Frölicher, Nicole S. Lovenduski, Dillon J. Amaya, Natacha Le Grix, Tongtong Xu, Juliet Hermes, Neil J. Holbrook, Cristian Martinez-Villalobos, Simona Masina, Mathew Koll Roxy, Amandine Schaeffer, Robert W. Schlegel, Kathryn E. Smith, and Chunzai Wang

Subjects
Geology, QE1-996.5, Environmental sciences, GE1-350
Published
2024
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6. Fast and slow myofiber nuclei, satellite cells, and size distribution with lifelong endurance exercise in men and women

Author

Cristhian F. Montenegro, Chad Skiles, Dillon J. Kuszmaul, Aaron Gouw, Kiril Minchev, Toby L. Chambers, Ulrika Raue, Todd A. Trappe, and Scott Trappe

Subjects
aging, cross‐sectional area, fiber type specific, masters athletes, myonuclei, satellite cells, Physiology, QP1-981
Abstract

Abstract We previously observed lifelong endurance exercise (LLE) influenced quadriceps whole‐muscle and myofiber size in a fiber‐type and sex‐specific manner. The current follow‐up exploratory investigation examined myofiber size regulators and myofiber size distribution in vastus lateralis biopsies from these same LLE men (n = 21, 74 ± 1 years) and women (n = 7, 72 ± 2 years) as well as old, healthy nonexercisers (OH; men: n = 10, 75 ± 1 years; women: n = 10, 75 ± 1 years) and young exercisers (YE; men: n = 10, 25 ± 1 years; women: n = 10, 25 ± 1 years). LLE exercised ~5 days/week, ~7 h/week for the previous 52 ± 1 years. Slow (myosin heavy chain (MHC) I) and fast (MHC IIa) myofiber nuclei/fiber, myonuclear domain, satellite cells/fiber, and satellite cell density were not influenced (p > 0.05) by LLE in men and women. The aging groups had ~50%–60% higher proportion of large (>7000 μm2) and small (

Published
2024
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7. Misfolded protein oligomers: mechanisms of formation, cytotoxic effects, and pharmacological approaches against protein misfolding diseases

Author

Dillon J. Rinauro, Fabrizio Chiti, Michele Vendruscolo, and Ryan Limbocker

Subjects
Aggregation kinetics, Secondary nucleation, Protofibrils, Lecanemab, Cellular interactions, Amyloid toxicity, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6
Abstract

Abstract The conversion of native peptides and proteins into amyloid aggregates is a hallmark of over 50 human disorders, including Alzheimer’s and Parkinson’s diseases. Increasing evidence implicates misfolded protein oligomers produced during the amyloid formation process as the primary cytotoxic agents in many of these devastating conditions. In this review, we analyze the processes by which oligomers are formed, their structures, physicochemical properties, population dynamics, and the mechanisms of their cytotoxicity. We then focus on drug discovery strategies that target the formation of oligomers and their ability to disrupt cell physiology and trigger degenerative processes.

Published
2024
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8. Non-invasive suppression of the human nucleus accumbens (NAc) with transcranial focused ultrasound (tFUS) modulates the reward network: a pilot study

Author

Xiaolong Peng, Dillon J. Connolly, Falon Sutton, John Robinson, Brenna Baker-Vogel, Edward B. Short, and Bashar W. Badran

Subjects
focused ultrasound, tFUS, nucleus accumbens, reward network, fMRI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

BackgroundThe nucleus accumbens (NAc) is a key node of the brain reward circuit driving reward-related behavior. Dysregulation of NAc has been demonstrated to contribute to pathological markers of addiction in substance use disorder (SUD) making it a potential therapeutic target for brain stimulation. Transcranial focused ultrasound (tFUS) is an emerging non-invasive brain stimulation approach that can modulate deep brain regions with a high spatial resolution. However, there is currently no evidence showing how the brain activity of NAc and brain functional connectivity within the reward network neuromodulated by tFUS on the NAc.MethodsIn this pilot study, we carried out a single-blind, sham-controlled clinical trial using functional magnetic resonance imaging (fMRI) to investigate the underlying mechanism of tFUS neuromodulating the reward network through NAc in ten healthy adults. Specifically, the experiment consists of a 20-min concurrent tFUS/fMRI scan and two 24-min resting-state fMRI before and after the tFUS session.ResultsFirstly, our results demonstrated the feasibility and safety of 20-min tFUS on NAc. Additionally, our findings demonstrated that bilateral NAc was inhibited during tFUS on the left NAc compared to sham. Lastly, increased functional connectivity between the NAc and medial prefrontal cortex (mPFC) was observed after tFUS on the left NAc, but no changes for the sham group.ConclusionDelivering tFUS to the NAc can modulate brain activations and functional connectivity within the reward network. These preliminary findings suggest that tFUS could be potentially a promising neuromodulation tool for the direct and non-invasive management of the NAc and shed new light on the treatment for SUD and other brain diseases that involve reward processing.

Published
2024
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9. The Pacific Decadal Oscillation modulated marine heatwaves in the Northeast Pacific during past decades

Author

Xianglin Ren, Wei Liu, Antonietta Capotondi, Dillon J. Amaya, and Neil J. Holbrook

Subjects
Geology, QE1-996.5, Environmental sciences, GE1-350
Abstract

Abstract The Pacific Decadal Oscillation has been suggested to play an important role in driving marine heatwaves in the Northeast Pacific during recent decades. Here we combine observations and climate model simulations to show that marine heatwaves became longer, stronger and more frequent off the Northeast Pacific coast under a positive Pacific Decadal Oscillation scenario, unlike what is found during a negative Pacific Decadal Oscillation scenario. This primarily results from the different mean-state sea surface temperatures between the two Pacific Decadal Oscillation phases. Compared to the cool (negative) phase of the Pacific Decadal Oscillation, warmer coastal sea surface temperatures occur during the positive Pacific Decadal Oscillation phase due to reduced coastal cold upwelling and increased net downward surface heat flux. Model results show that, relative to the background anthropogenic global warming, the positive Pacific Decadal Oscillation in the period 2013–2022 prolongs marine heatwaves duration by up to 43% and acts to increase marine heatwaves annual frequency by up to 32% off the Northeast Pacific coast.

Published
2023
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10. Bottom marine heatwaves along the continental shelves of North America

Author

Dillon J. Amaya, Michael G. Jacox, Michael A. Alexander, James D. Scott, Clara Deser, Antonietta Capotondi, and Adam S. Phillips

Subjects
Science
Abstract

The authors investigate marine heatwaves on the ocean bottom in the shallow waters surrounding North America. Relative to their surface counterparts, bottom marine heatwaves are often more intense, more persistent, and can occur independently.

Published
2023
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12. An integrated physiological perspective on anthropogenic stressors in the Gulf coast toad (Incilius nebulifer)

Author

Dillon J. Monroe, Lea A. Barny, Alice Wu, Kevin P. C. Minbiole, and Caitlin R. Gabor

Subjects
amphibian, behavior, bufadienolide, Bufonidae, corticosterone, physiology, Evolution, QH359-425, Ecology, QH540-549.5
Abstract

Anthropogenic environmental change, including climate change and urbanization, results in warmer temperatures in both terrestrial and aquatic habitats and changes in community assemblages including invasive species introductions, among many other alterations. Anurans are particularly susceptible to these changes because generally they have a biphasic lifecycle and rely on aquatic and terrestrial habitats for survival. Changes such as warmer water temperature can result in direct and carryover effects, after metamorphosis that decrease fitness. However, Gulf Coast toads (Incilius (Bufo) nebulifer) are expanding their range, including into anthropogenically disturbed areas. We hypothesize that I. nebulifer copes with warmer water, reduced water levels, and invasive species by altering their physiology and/or behavior. Corticosterone is the primary glucocorticoid in amphibians, and it modulates many aspects of physiology and behavior, potentially including lipid storage and hop performance, during unpredictable (stressful) events. As a true toad, I. nebulifer also produces bufadienolide toxins that aid in its antipredator defense and may have tradeoffs with corticosterone. In a fully factorial design, we measured baseline corticosterone levels in tadpoles in response to two treatments: decreased water levels and increased water temperatures. After metamorphosis, we measured the corticosterone profile and other associated responses to exposure to the predatory red imported fire ant (Solenopsis invicta; RIFA). We found that tadpoles had elevated baseline corticosterone release rates when reared in warmer water and reduced water levels. Toadlets also had elevated baseline corticosterone release rates when exposed to any combination of two of the three treatments but when exposed to all three treatments toadlets instead showed elevated magnitude of their stress response. Predator avoidance (as measured by hop performance) was reduced after exposure to RIFA. Tadpoles from warmer water developed more quickly and were smaller in mass after metamorphosis. Toadlets had reduced production of two of the three detected bufadienolides and increased energy storage (lipids) after exposure to warmer water and reduced growth after exposure to reduced water levels. We found direct and carryover effects of common anthropogenic changes in I. nebulifer that may aid in their ability to persist despite these changes.

Published
2023
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13. Neutralizing the pathological effects of extracellular histones with small polyanions

Author

Connor H. O’ Meara, Lucy A. Coupland, Farzaneh Kordbacheh, Benjamin J. C. Quah, Chih-Wei Chang, David A. Simon Davis, Anna Bezos, Anna M. Browne, Craig Freeman, Dillon J. Hammill, Pradeep Chopra, Gergely Pipa, Paul D. Madge, Esther Gallant, Courtney Segovis, Angela F. Dulhunty, Leonard F. Arnolda, Imogen Mitchell, Levon M. Khachigian, Ross W. Stephens, Mark von Itzstein, and Christopher R. Parish

Subjects
Science
Abstract

Histones, proteins that bind DNA, are toxic for pathogens outside cells but can also cause multi-organ damage as seen in sepsis. Here the authors develop small negatively charged molecules that can be used as histone antidotes, and show that they improve the phenotype in mouse models with histone-related pathologies.

Published
2020
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14. Physical drivers of the summer 2019 North Pacific marine heatwave

Author

Dillon J. Amaya, Arthur J. Miller, Shang-Ping Xie, and Yu Kosaka

Subjects
Science
Abstract

Marine heatwaves are threatening ocean ecosystems with increasing frequency, but their seasonal drivers are unknown. Here, the authors determine that summertime blobs of warm temperature anomalies in the Pacific occur as a result of prolonged weakening in the North Pacific High-Pressure System.

Published
2020
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15. Mitigating calibration errors from mutual coupling with time-domain filtering of 21 cm cosmological radio observations

Author

Charles, N., Kern, N. S., Pascua, R., Bernardi, G., Bester, L., Smirnov, O., Acedo, E. d. L., Abdurashidova, Z., Adams, T., Aguirre, J. E., Baartman, R., Beardsley, A. P., Berkhout, L. M., Billings, T. S., Bowman, J. D., Bull, P., Burba, J., Byrne, R., Carey, S., Chen, K., Choudhuri, S., Cox, T., DeBoer, D. R., Dexter, M., Dillon, J. S., Dynes, S., Eksteen, N., Ely, J., Ewall-Wice, A., Fritz, R., Furlanetto, S. R., Gale-Sides, K., Garsden, H., Gehlot, B. K., Ghosh, A., Gorce, A., Gorthi, D., Halday, Z., Hazelton, B. J., Hewitt, J. N., Hickish, J., Huang, T., Jacobs, D. C., Josaitis, A., Kerrigan, J., Kittiwisit, P., Kolopanis, M., Lanman, A., Liu, A., Ma, Y. -Z., MacMahon, D. H. E., Malan, L., Malgas, K., Malgas, C., Marero, B., Martinot, Z. E., McBride, L., Mesinger, A., Mohamed-Hinds, N., Molewa, M., Morales, M. F., Murray, S., Nikolic, B., Nuwegeld, H., Parsons, A. R., Patra, N., Plante, P. L., Qin, Y., Rath, E., Razavi-Ghods, N., Riley, D., Robnett, J., Rosie, K., Santos, M. G., Sims, P., Singh, S., Storer, D., Swarts, H., Tan, J., Wilensky, M. J., Williams, P. K. G., Wyngaarden, P. v., and Zheng, H.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

The 21 cm transition from neutral Hydrogen promises to be the best observational probe of the Epoch of Reionisation (EoR). This has led to the construction of low-frequency radio interferometric arrays, such as the Hydrogen Epoch of Reionization Array (HERA), aimed at systematically mapping this emission for the first time. Precision calibration, however, is a requirement in 21 cm radio observations. Due to the spatial compactness of HERA, the array is prone to the effects of mutual coupling, which inevitably lead to non-smooth calibration errors that contaminate the data. When unsmooth gains are used in calibration, intrinsically spectrally-smooth foreground emission begins to contaminate the data in a way that can prohibit a clean detection of the cosmological EoR signal. In this paper, we show that the effects of mutual coupling on calibration quality can be reduced by applying custom time-domain filters to the data prior to calibration. We find that more robust calibration solutions are derived when filtering in this way, which reduces the observed foreground power leakage. Specifically, we find a reduction of foreground power leakage by 2 orders of magnitude at k=0.5.

Published
2024

16. Investigating Mutual Coupling in the Hydrogen Epoch of Reionization Array and Mitigating its Effects on the 21-cm Power Spectrum

Author

Rath, E., Pascua, R., Josaitis, A. T., Ewall-Wice, A., Fagnoni, N., Acedo, E. de Lera, Martinot, Z. E., Abdurashidova, Z., Adams, T., Aguirre, J. E., Baartman, R., Beardsley, A. P., Berkhout, L. M., Bernardi, G., Billings, T. S., Bowman, J. D., Bull, P., Burba, J., Byrne, R., Carey, S., Chen, K. -F., Choudhuri, S., Cox, T., DeBoer, D. R., Dexter, M., Dillon, J. S., Dynes, S., Eksteen, N., Ely, J., Fritz, R., Furlanetto, S. R., Gale-Sides, K., Garsden, H., Gehlot, B. K., Ghosh, A., Gorce, A., Gorthi, D., Halday, Z., Hazelton, B. J., Hewitt, J. N., Hickish, J., Huang, T., Jacobs, D. C., Kern, N. S., Kerrigan, J., Kittiwisit, P., Kolopanis, M., Lanman, A., Liu, A., Ma, Y. -Z., MacMahon, D. H. E., Malan, L., Malgas, C., Malgas, K., Marero, B., McBride, L., Mesinger, A., Mohamed-Hinds, N., Molewa, M., Morales, M. F., Murray, S. G., Nikolic, B., Nuwegeld, H., Parsons, A. R., Patra, N., La Plante, P., Qin, Y., Razavi-Ghods, N., Riley, D., Robnett, J., Rosie, K., Santos, M. G., Sims, P., Singh, S., Storer, D., Swarts, H., Tan, J., Wilensky, M. J., Williams, P. K. G., van Wyngaarden, P., and Zheng, H.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Interferometric experiments designed to detect the highly redshifted 21-cm signal from neutral hydrogen are producing increasingly stringent constraints on the 21-cm power spectrum, but some k-modes remain systematics-dominated. Mutual coupling is a major systematic that must be overcome in order to detect the 21-cm signal, and simulations that reproduce effects seen in the data can guide strategies for mitigating mutual coupling. In this paper, we analyse 12 nights of data from the Hydrogen Epoch of Reionization Array and compare the data against simulations that include a computationally efficient and physically motivated semi-analytic treatment of mutual coupling. We find that simulated coupling features qualitatively agree with coupling features in the data; however, coupling features in the data are brighter than the simulated features, indicating the presence of additional coupling mechanisms not captured by our model. We explore the use of fringe-rate filters as mutual coupling mitigation tools and use our simulations to investigate the effects of mutual coupling on a simulated cosmological 21-cm power spectrum in a "worst case" scenario where the foregrounds are particularly bright. We find that mutual coupling contaminates a large portion of the "EoR Window", and the contamination is several orders-of-magnitude larger than our simulated cosmic signal across a wide range of cosmological Fourier modes. While our fiducial fringe-rate filtering strategy reduces mutual coupling by roughly a factor of 100 in power, a non-negligible amount of coupling cannot be excised with fringe-rate filters, so more sophisticated mitigation strategies are required., Comment: 19 pages, 12 figures, submitted to MNRAS

Published
2024

17. Evaluating Eye Movement Biometrics in Virtual Reality: A Comparative Analysis of VR Headset and High-End Eye-Tracker Collected Dataset

Author

Raju, Mehedi Hasan, Lohr, Dillon J, and Komogortsev, Oleg V

Subjects
Computer Science - Human-Computer Interaction
Abstract

Previous studies have shown that eye movement data recorded at 1000 Hz can be used to authenticate individuals. This study explores the effectiveness of eye movement-based biometrics (EMB) by utilizing data from an eye-tracking (ET)-enabled virtual reality (VR) headset (GazeBaseVR) and compares it to the performance using data from a high-end eye tracker (GazeBase) that has been downsampled to 250 Hz. The research also aims to assess the biometric potential of both binocular and monocular eye movement data. GazeBaseVR dataset achieves an equal error rate (EER) of 1.67% and a false rejection rate (FRR) at 10^-4 false acceptance rate (FAR) of 22.73% in a binocular configuration. This study underscores the biometric viability of data obtained from eye-tracking-enabled VR headset., Comment: 9 pages, 6 figures

Published
2024

18. Using Deep Learning to Identify Initial Error Sensitivity for Interpretable ENSO Forecasts

Author

Toride, Kinya, Newman, Matthew, Hoell, Andrew, Capotondi, Antonietta, Schlör, Jakob, and Amaya, Dillon J.

Subjects
Physics - Atmospheric and Oceanic Physics, Computer Science - Machine Learning
Abstract

We introduce an interpretable-by-design method, optimized model-analog, that integrates deep learning with model-analog forecasting which generates forecasts from similar initial climate states in a repository of model simulations. This hybrid framework employs a convolutional neural network to estimate state-dependent weights to identify initial analog states that lead to shadowing target trajectories. The advantage of our method lies in its inherent interpretability, offering insights into initial-error-sensitive regions through estimated weights and the ability to trace the physically-based evolution of the system through analog forecasting. We evaluate our approach using the Community Earth System Model Version 2 Large Ensemble to forecast the El Ni\~no-Southern Oscillation (ENSO) on a seasonal-to-annual time scale. Results show a 10% improvement in forecasting equatorial Pacific sea surface temperature anomalies at 9-12 months leads compared to the unweighted model-analog technique. Furthermore, our model demonstrates improvements in boreal winter and spring initialization when evaluated against a reanalysis dataset. Our approach reveals state-dependent regional sensitivity linked to various seasonally varying physical processes, including the Pacific Meridional Modes, equatorial recharge oscillator, and stochastic wind forcing. Additionally, forecasts of El Ni\~no and La Ni\~na are sensitive to different initial states: El Ni\~no forecasts are more sensitive to initial error in tropical Pacific sea surface temperature in boreal winter, while La Ni\~na forecasts are more sensitive to initial error in tropical Pacific zonal wind stress in boreal summer. This approach has broad implications for forecasting diverse climate phenomena, including regional temperature and precipitation, which are challenging for the model-analog approach alone.

Published
2024

19. Evaluation of Eye Tracking Signal Quality for Virtual Reality Applications: A Case Study in the Meta Quest Pro

Author

Aziz, Samantha, Lohr, Dillon J, Friedman, Lee, and Komogortsev, Oleg

Subjects
Computer Science - Human-Computer Interaction
Abstract

We present an extensive, in-depth analysis of the eye tracking capabilities of the Meta Quest Pro virtual reality headset using a dataset of eye movement recordings collected from 78 participants. In addition to presenting classical signal quality metrics--spatial accuracy, spatial precision and linearity--in ideal settings, we also study the impact of background luminance and headset slippage on device performance. We additionally present a user-centered analysis of eye tracking signal quality, where we highlight the potential differences in user experience as a function of device performance. This work contributes to a growing understanding of eye tracking signal quality in virtual reality headsets, where the performance of applications such as gaze-based interaction, foveated rendering, and social gaze are directly dependent on the quality of eye tracking signal., Comment: 14 pages

Published
2024

20. Introduction

Author

Boyer, T, Blunden, J, Dunn, RJH, Ades, Melanie, Adler, Robert, Adusumilli, Susheel, Agyakwah, W, Ahmadpour, Somayeh, Aldeco, Laura S, Alexander, Michael A, Alexe, Mihai, Alfaro, Eric J, Allan, Richard P, Allgood, Adam, Alves, Lincoln M, Amador, Jorge A, Amaya, Dillon J, Amory, Charles, Anderson, John, Andrade, B, Andreassen, Liss Marie, Anneville, Orlane, Aono, Yasuyuki, Arguez, Anthony, Armenteras Pascual, Dolores, Arosio, Carlo, Asher, Elizabeth, Augustine, John A, Avalos, Grinia, Azorin-Molina, Cesar, Baez-Villanueva, Oscar M, Baiman, Rebecca, Ballinger, Thomas J, Banwell, Alison F, Bardin, M Yu, Barichivich, J, Barreira, Sandra, Beadling, Rebecca L, Beauchemin, Marc, Beck, Hylke E, Becker, Emily J, Beckley, Brian, Bekele, E, Bellouin, Nicolas, Benedetti, Angela, Berne, Christine, Berner, Logan T, Bernhard, Germar H, Bhatt, Uma S, Bigalke, Siiri, Bissolli, Peter, Bjerke, Jarle W, Blake, Eric S, Blannin, Josh, Blenkinsop, Stephen, Bochníček, Oliver, Bock, Olivier, Bodin, Xavier, Bonte, Olivier, Bosilovich, Michael G, Boucher, Olivier, Box, Jason E, Bozkurt, Deniz, Brettschneider, Brian, Bringas, Francis G, Brubaker, Mike, Buehler, Stefan A, Bukunt, Brandon, Burgess, David, Butler, Amy H, Byrne, Michael P, Calderón, Blanca, Camargo, Suzana J, Campbell, Jayaka, Campos, Diego, Cappucci, Fabrizio, Carrea, Laura, Carter, Brendan R, Cerveny, Randall, Cetinić, Ivona, Chambers, Don P, Chan, Duo, Chandler, Elise, Chang, Kai-Lan, Charlton, Candice S, Chen, Jack, Chen, Lin, Cheng, Lijing, Cheng, Vincent YS, Chisholm, Lucy, Christiansen, Hanne H, Christy, John R, Chung, Eui-Seok, Ciasto, Laura M, Clarke, Leonardo, Clem, Kyle R, Clingan, Scott, Coelho, Caio AS, Coldewey-Egbers, Melanie, and Colwell, Steve

Subjects
Earth Sciences, Geology, Climate Action, Astronomical and Space Sciences, Atmospheric Sciences, Physical Geography and Environmental Geoscience, Meteorology & Atmospheric Sciences, Atmospheric sciences, Climate change science
Abstract

Abstract: —J. Blunden and T. Boyer In 2023, La Niña conditions that generally prevailed in the eastern Pacific Ocean from mid-2020 into early 2023 gave way to a strong El Niño by October. Atmospheric concentrations of Earth’s major greenhouse gases—carbon dioxide, methane, and nitrous oxide—all increased to record-high levels. The annual global average carbon dioxide concentration in the atmosphere rose to 419.3±0.1 ppm, which is 50% greater than the pre-industrial level. The growth from 2022 to 2023 was 2.8 ppm, the fourth highest in the record since the 1960s. The combined short-term effects of El Niño and the long-term effects of increasing levels of heat-trapping gases in the atmosphere contributed to new records for many essential climate variables reported here. The annual global temperature across land and oceans was the highest in records dating as far back as 1850, with the last seven months (June–December) having each been record warm. Over land, the globally averaged temperature was also record high. Dozens of countries reported record or near-record warmth for the year, including China and continental Europe as a whole (warmest on record), India and Russia (second warmest), and Canada (third warmest). Intense and widespread heatwaves were reported around the world. In Vietnam, an all-time national maximum temperature record of 44.2°C was observed at Tuong Duong on 7 May, surpassing the previous record of 43.4°C at Huong Khe on 20 April 2019. In Brazil, the air temperature reached 44.8°C in Araçuaí in Minas Gerais on 20 November, potentially a new national record and 12.8°C above normal. The effect of rising temperatures was apparent in the cryosphere, where snow cover extent by June 2023 was the smallest in the 56-year record for North America and seventh smallest for the Northern Hemisphere overall. Heatwaves contributed to the greatest average mass balance loss for Alpine glaciers around the world since the start of the record in 1970. Due to rapid volume loss beginning in 2021, St. Anna Glacier in Switzerland and Ice Worm Glacier in the United States disappeared completely. In August, as a direct result of glacial thinning over the past 20 years, a glacial lake on a tributary of the Mendenhall Glacier in Alaska burst through its ice dam and caused unprecedented flooding on Mendenhall River near Juneau. Across the Arctic, the annual surface air temperature was the fourth highest in the 124-year record, and summer (July–September) was record warm. Smaller-than-normal snow cover extent in May and June contributed to the third-highest average peak tundra greenness in the 24-year record. In September, Arctic minimum sea ice extent was the fifth smallest in the 45-year satellite record. The 17 lowest September extents have all occurred in the last 17 years. In Antarctica, temperatures for much of the year were up to 6°C above average over the Weddell Sea and along coastal Dronning Maud Land. The Antarctic Peninsula also experienced well-above-average temperatures during the 2022/23 melt season, which contributed to its fourth consecutive summer of above-average surface melt. On 21 February, Antarctic sea ice extent and sea ice area both reached all-time lows, surpassing records set just a year earlier. Over the course of the year, new daily record-low sea ice extents were set on 278 days. In some instances, these daily records were set by a large margin, for example, the extent on 6 July was 1.8 million km2 lower than the previous record low for that day. Across the global oceans, the annual sea surface temperature was the highest in the 170-year record, far surpassing the previous record of 2016 by 0.13°C. Daily and monthly records were set from March onward, including an historic-high daily global mean sea surface temperature of 18.99°C recorded on 22 August. Approximately 94% of the ocean surface experienced at least one marine heatwave in 2023, while 27% experienced at least one cold spell. Globally averaged ocean heat content from the surface to 2000-m depth was record high in 2023, increasing at a rate equivalent to ∼0.7 Watts per square meter of energy applied over Earth’s surface. Global mean sea level was also record high for the 12th consecutive year, reaching 101.4 mm above the 1993 average when satellite measurements began, an increase of 8.1±1.5 mm over 2022 and the third highest year-over-year increase in the record. A total of 82 named tropical storms were observed during the Northern and Southern Hemispheres’ storm seasons, below the 1991–2020 average of 87. Hurricane Otis became the strongest landfalling hurricane on record for the west coast of Mexico at 140 kt (72 m s−1), causing at least 52 fatalities and $12–16 billion U.S. dollars in damage. Freddy became the world’s longest-lived tropical cyclones on record, developing into a tropical cyclone on 6 February and finally dissipating on 12 March. Freddy crossed the full width of the Indian Ocean and made one landfall in Madagascar and two in Mozambique. In the Mediterranean Sea—outside of traditional tropical cyclone basins—heavy rains and flooding from Storm Daniel killed more than 4300 people and left more than 8000 missing in Libya. The record-warm temperatures in 2023 created conditions that helped intensify the hydrological cycle. Measurements of total-column water vapor in the atmosphere were the highest on record, while the fraction of cloud area in the sky was the lowest since records began in 1980. The annual global mean precipitation total over land surfaces for 2023 was among the lowest since 1979, but global one-day maximum totals were close to average, indicating an increase in rainfall intensity. In July, record-high areas of land across the globe (7.9%) experienced extreme drought, breaking the previous record of 6.2% in July 2022. Overall, 29.7% of land experienced moderate or worse categories of drought during the year, also a record. Mexico reported its driest (and hottest) year since the start of its record in 1950. In alignment with hot and prolonged dry conditions, Canada experienced its worst national wildfire season on record. Approximately 15 million hectares burned across the country, which was more than double the previous record from 1989. Smoke from the fires were transported far into the United States and even to western European countries. August to October 2023 was the driest three-month period in Australia in the 104-year record. Millions of hectares of bushfires burned for weeks in the Northern Territory. In South America, extreme drought developed in the latter half of the year through the Amazon basin. By the end of October, the Rio Negro at Manaus, a major tributary of the Amazon River, fell to its lowest water level since records began in 1902. The transition from La Niña to El Niño helped bring relief to the prolonged drought conditions in equatorial eastern Africa. However, El Niño along with positive Indian Ocean dipole conditions also contributed to excessive rainfall that resulted in devastating floods over southeastern Ethiopia, Somalia, and Kenya during October to December that displaced around 1.5 million people. On 5 September, the town of Zagora, Greece, broke a national record for highest daily rainfall (754 mm in 21 hours, after which the station ceased reporting) due to Storm Daniel; this one-day accumulation was close to Zagora’s normal annual total.

Published
2024

21. Temporal Persistence and Intercorrelation of Embeddings Learned by an End-to-End Deep Learning Eye Movement-driven Biometrics Pipeline

Author

Raju, Mehedi Hasan, Friedman, Lee, Lohr, Dillon J, and Komogortsev, Oleg V

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Cryptography and Security
Abstract

What qualities make a feature useful for biometric performance? In prior research, pre-dating the advent of deep learning (DL) approaches to biometric analysis, a strong relationship between temporal persistence, as indexed by the intraclass correlation coefficient (ICC), and biometric performance (Equal Error Rate, EER) was noted. More generally, the claim was made that good biometric performance resulted from a relatively large set of weakly intercorrelated features with high ICC. The present study aimed to determine whether the same relationships are found in a state-of-the-art DL-based eye movement biometric system (``Eye-Know-You-Too''), as applied to two publicly available eye movement datasets. To this end, we manipulate various aspects of eye-tracking signal quality, which produces variation in biometric performance, and relate that performance to the temporal persistence and intercorrelation of the resulting embeddings. Data quality indices were related to EER with either linear or logarithmic fits, and the resulting model R^2 was noted. As a general matter, we found that temporal persistence was an important predictor of DL-based biometric performance, and also that DL-learned embeddings were generally weakly intercorrelated., Comment: 18 pages, 7 Figures

Published
2024

22. Do Females in a Unisexual-Bisexual Species Complex Differ in Their Behavioral Syndromes and Cortisol Production?

Author

James J. Muraco, Dillon J. Monroe, Andrea S. Aspbury, and Caitlin R. Gabor

Subjects
glucocorticoids, mate choice, personality-traits, Poecilia latipinna, Poecilia formosa, Biology (General), QH301-705.5
Abstract

Studies of suites of correlated behavioral traits (i.e., behavioral syndromes) aid in understanding the adaptive importance of behavioral evolution. Behavioral syndromes may be evolutionarily constrained, preventing behaviors from evolving independently, or they may be an adaptive result of selection on the correlation itself. We tested these hypotheses by characterizing the behavioral syndromes in two sympatric, closely related species and testing for differences between the species. We studied the unisexual Amazon molly (Poecilia formosa) and one of its bisexual, parent species, the sailfin molly (P. latipinna). Sympatric female sailfin and Amazon mollies compete for mating which could affect the behavioral syndromes found in each species. We identified a behavioral syndrome between exploration and activity in both species that did not differ between species. Additionally, we explored the relationship between a stress response hormone, cortisol, and behavioral type, and did not detect a relationship. However, P. formosa differed from P. latipinna in their cortisol release rates. Behavioral syndromes may be constrained in this complex, aiding in mate acquisition for P. formosa by virtue of having a similar behavioral type to P. latipinna. The difference between the females in cortisol release rates may be a useful mate identification cue for males to offset higher mating mistakes associated with the similar behavioral types.

Published
2021
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24. A Mechanistic Transform Model for Synthesizing Eye Movement Data with Improved Realism

Author

Griffith, Henry, Aziz, Samantha, Lohr, Dillon J, and Komogortsev, Oleg

Subjects
Computer Science - Human-Computer Interaction
Abstract

This manuscript demonstrates an improved model-based approach for synthetic degradation of previously captured eye movement signals. Signals recorded on a high-quality eye tracking sensor are transformed such that their resulting eye tracking signal quality is similar to recordings captured on a low-quality target device. The proposed model improves the realism of the degraded signals versus prior approaches by introducing a mechanism for degrading spatial accuracy and temporal precision. Moreover, a percentile-matching technique is demonstrated for mimicking the relative distributional structure of the signal quality characteristics of the target data set. The model is demonstrated to improve realism on a per-feature and per-recording basis using data from an EyeLink 1000 eye tracker and an SMI eye tracker embedded within a virtual reality platform. The model improves the median classification accuracy performance metric by 35.7% versus the benchmark model towards the ideal metric of 50%. This paper also expands the literature by providing an application-agnostic realism assessment workflow for synthetically generated eye movement signals., Comment: 12 pages, 10 figures

Published
2023

25. A 'morphogenetic action' principle for 3D shape formation by the growth of thin sheets

Author

Cislo, Dillon J., Pavlopoulos, Anastasios, and Shraiman, Boris I.

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics
Abstract

How does growth encode form in developing organisms? Many different spatiotemporal growth profiles may sculpt tissues into the same target 3D shapes, but only specific growth patterns are observed in animal and plant development. In particular, growth profiles may differ in their degree of spatial variation and growth anisotropy, however, the criteria that distinguish observed patterns of growth from other possible alternatives are not understood. Here we exploit the mathematical formalism of quasiconformal transformations to formulate the problem of "growth pattern selection" quantitatively in the context of 3D shape formation by growing 2D epithelial sheets. We propose that nature settles on growth patterns that are the 'simplest' in a certain way. Specifically, we demonstrate that growth pattern selection can be formulated as an optimization problem and solved for the trajectories that minimize spatiotemporal variation in areal growth rates and deformation anisotropy. The result is a complete prediction for the growth of the surface, including not only a set of intermediate shapes, but also a prediction for cell displacement along those surfaces in the process of growth. Optimization of growth trajectories for both idealized surfaces and those observed in nature show that relative growth rates can be uniformized at the cost of introducing anisotropy. Minimizing the variation of programmed growth rates can therefore be viewed as a generic mechanism for growth pattern selection and may help to understand the prevalence of anisotropy in developmental programs., Comment: 19 pages, 4 main text figures, 3 appendix figures

Published
2023

26. Honeybees (Apis mellifera) decrease the fitness of plants they pollinate

Author

Travis, Dillon J and Kohn, Joshua R

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Ecology, Plant Biology, Crop and Pasture Production, Bees, Animals, Plants, Pollination, Insecta, Flowers, Pollen, honey bees, Apis mellifera, geitonogamy, self-fertilization, self-pollination, inbreeding depression, Agricultural and Veterinary Sciences, Medical and Health Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences
Abstract

Most flowering plants require animal pollination and are visited by multiple pollinator species. Historically, the effects of pollinators on plant fitness have been compared using the number of pollen grains they deposit, and the number of seeds or fruits produced following a visit to a virgin flower. While useful, these methods fail to consider differences in pollen quality and the fitness of zygotes resulting from pollination by different floral visitors. Here we show that, for three common native self-compatible plants in Southern California, super-abundant, non-native honeybees (Apis mellifera L.) visit more flowers on an individual before moving to the next plant compared with the suite of native insect visitors. This probably increases the transfer of self-pollen. Offspring produced after honeybee pollination have similar fitness to those resulting from hand self-pollination and both are far less fit than those produced after pollination by native insects or by cross-pollination. Because honeybees often forage methodically, visiting many flowers on each plant, low offspring fitness may commonly result from honeybee pollination of self-compatible plants. To our knowledge, this is the first study to directly compare the fitness of offspring resulting from honeybee pollination to that of other floral visitors.

Published
2023

31. Reassessing the need for primary prevention implantable cardioverter-defibrillators in contemporary patients with heart failure

Author

Goldenberg, Ilan, Ezekowitz, Justin, Albert, Christine, Alexis, Jeffrey D., Anderson, Lisa, Behr, Elijah R., Daubert, James, Di Palo, Katherine E., Ellenbogen, Kenneth A., Dzikowicz, Dillon J., Hsich, Eileen, Huang, David T., Januzzi, James L., Kutyifa, Valentina, Lala, Anuradha, Onwuanyi, Anekwe, Piña, Ileana L., Sandhu, Roopinder K., Sears, Samuel, Sroubek, Jakub, Strawderman, Robert, Zareba, Wojciech, and Butler, Javed

Published
2025
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36. Determining the Hubble Constant without the Sound Horizon: A $3.6\%$ Constraint on $H_0$ from Galaxy Surveys, CMB Lensing and Supernovae

Author

Philcox, Oliver H. E., Farren, Gerrit S., Sherwin, Blake D., Baxter, Eric J., and Brout, Dillon J.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, General Relativity and Quantum Cosmology, High Energy Physics - Theory
Abstract

Many theoretical resolutions to the so-called "Hubble tension" rely on modifying the sound horizon at recombination, $r_s$, and thus the acoustic scale used as a standard ruler in the cosmic microwave background (CMB) and large scale structure (LSS) datasets. As shown in a number of recent works, these observables can also be used to compute $r_s$-independent constraints on $H_0$ by making use of the horizon scale at matter-radiation equality, $k_{\rm eq}$, which has different sensitivity to high redshift physics than $r_s$. As such, $r_s$- and $k_{\rm eq}$-based measurements of $H_0$ (within a $\Lambda$CDM framework) may differ if there is new physics present pre-recombination. In this work, we present the tightest constraints on the latter from current data, finding $H_0=64.8^{+2.2}_{-2.5}$ at 68% CL (in $\mathrm{km}\,\mathrm{s}^{-1}\mathrm{Mpc}^{-1}$ units) from a combination of BOSS galaxy power spectra, Planck CMB lensing, and the newly released Pantheon+ supernova constraints, as well as physical priors on the baryon density, neutrino mass, and spectral index. The BOSS and Planck measurements have different degeneracy directions, leading to the improved combined constraints, with a bound of $H_0 = 67.1^{+2.5}_{-2.9}$ ($63.6^{+2.9}_{-3.6}$) from BOSS (Planck) alone. The results show some dependence on the neutrino mass bounds, with the constraint broadening to $H_0 = 68.0^{+2.9}_{-3.2}$ if we instead impose a weak prior on $\sum m_\nu$ from terrestrial experiments, or shifting to $H_0 = 64.6\pm2.4$ if the neutrino mass is fixed to its minimal value. Even without dependence on the sound horizon, our results are in $\approx 3\sigma$ tension with those obtained from the Cepheid-calibrated distance ladder, which begins to cause problems for new physics models that vary $H_0$ by changing acoustic physics or the expansion history immediately prior to recombination., Comment: 11 pages, 3 figures, accepted by Phys. Rev. D

Published
2022
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41. Selection on dispersal drives evolution of metabolic capacities for energy production in female wing-polymorphic sand field crickets, Gryllus firmus.

Author

Treidel, Lisa A, Quintanilla Ramirez, Gessen S, Chung, Dillon J, Menze, Michael A, Vázquez-Medina, José P, and Williams, Caroline M

Subjects
Animals, Gryllidae, Energy Metabolism, Phenotype, Female, Wings, Animal, life history, locomotion, metabolism, mitochondria, wing-polymorphic cricket, Nutrition, Ecology, Evolutionary Biology, Zoology
Abstract

Life history and metabolism covary, but the mechanisms and individual traits responsible for these linkages remain unresolved. Dispersal capability is a critical component of life history that is constrained by metabolic capacities for energy production. Conflicting relationships between metabolism and life histories may be explained by accounting for variation in dispersal and maximal metabolic rates. We used female wing-polymorphic sand field crickets, Gryllus firmus, selected either for long wings (LW, flight-capable) or short wings (SW, flightless) to test the hypothesis that selection on dispersal capability drives the evolution of metabolic capacities. While resting metabolic rates were similar, long-winged crickets reached higher maximal metabolic rates than short-winged crickets, resulting in improved running performance. We further provided insight into the mechanisms responsible for covariation between life history and metabolism by comparing mitochondrial content of tissues involved in powering locomotion and assessing the function of mitochondria isolated from long- and short-winged crickets. Our results demonstrated that larger metabolic capacities in long-winged crickets were underpinned by increases in mitochondrial content of dorsoventral flight muscle and enhanced bioenergetic capacities of mitochondria within the fat body, a tissue responsible for fuel storage and mobilization. Thus, selection on flight capability correlates with increases in maximal, but not resting metabolic rates, through modifications of tissues powering locomotion at the cellular and organelle levels. This allows organisms to meet high energetic demands of activity for life history. Dispersal capability should therefore explicitly be considered as a potential factor driving the evolution of metabolic capacities.

Published
2022

42. Visceral organ morphogenesis via calcium-patterned muscle constrictions

Author

Mitchell, Noah P, Cislo, Dillon J, Shankar, Suraj, Lin, Yuzheng, Shraiman, Boris I, and Streichan, Sebastian J

Subjects
Biological Sciences, Genetics, 1.1 Normal biological development and functioning, Generic health relevance, Animals, Calcium, Constriction, Drosophila, Mesoderm, Morphogenesis, Muscles, D. melanogaster, calcium signaling, developmental biology, hox genes, light sheet microscopy, mesoderm, morphogenesis, visceral organ, Biochemistry and Cell Biology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Organ architecture is often composed of multiple laminar tissues arranged in concentric layers. During morphogenesis, the initial geometry of visceral organs undergoes a sequence of folding, adopting a complex shape that is vital for function. Genetic signals are known to impact form, yet the dynamic and mechanical interplay of tissue layers giving rise to organs' complex shapes remains elusive. Here, we trace the dynamics and mechanical interactions of a developing visceral organ across tissue layers, from subcellular to organ scale in vivo. Combining deep tissue light-sheet microscopy for in toto live visualization with a novel computational framework for multilayer analysis of evolving complex shapes, we find a dynamic mechanism for organ folding using the embryonic midgut of Drosophila as a model visceral organ. Hox genes, known regulators of organ shape, control the emergence of high-frequency calcium pulses. Spatiotemporally patterned calcium pulses trigger muscle contractions via myosin light chain kinase. Muscle contractions, in turn, induce cell shape change in the adjacent tissue layer. This cell shape change collectively drives a convergent extension pattern. Through tissue incompressibility and initial organ geometry, this in-plane shape change is linked to out-of-plane organ folding. Our analysis follows tissue dynamics during organ shape change in vivo, tracing organ-scale folding to a high-frequency molecular mechanism. These findings offer a mechanical route for gene expression to induce organ shape change: genetic patterning in one layer triggers a physical process in the adjacent layer - revealing post-translational mechanisms that govern shape change.

Published
2022

43. Direct-acting antiviral therapies for hepatitis C infection: global registration, reimbursement, and restrictions

Author

Sargsyants, N., Suleymanova, L., Salkic, N., Simonova, M., Nemeth-Blazic, T., Mravcik, V., Kivimets, K., Salupere, R., Butsashvili, M., Soselia, G., Makara, M., Tolmane, I., Jancorienė, L., Stratulat, S., Flisiak, R., Gheorghe, L., Cernat, R., Lakhov, A., Stanevich, O., Jarcuska, P., Peck-Radosavljevic, M., Robaeys, G., Øvrehus, A., Foster, G., Sutinen, J., Farkkila, M., Rautiainen, H., Vuoti, S., Nikolova, D., Pawlotsky, J.M., Rockstroh, J., Sypsa, V., Papatheodoridis, G., Olafsson, S., Feeney, E., Teti, E., Seguin-Devaux, C., Pocock, J., Reiff, S., McDougall, N., Van der Valk, M., Dalgard, O., Tato Marinho, R., Dillon, J., Peters, E., Bojovic, K., Matičič, M., Kåberg, M., Bruggmann, P., Healy, B., Chong, V.H., Yi, S., Tucker, J., Pasaribu, L.R., Tanaka, J., Ashley, E.A., Abu Hassan, M.R., Mohammed, N.S., Chan, H.K., Gidaagaya, S., Kyi, K.P., Hyung Joon, K., Chin, B., Baladjay, P.C., Kao, J.H., Wansom, T., da Cruz, B., Flower, B., Ehsan, E., Al Mahtab, M., Khandu, L., Bhadoria, A.S., Alavi, M., KC, P., Hamid, S., Biryukov, S., Alymbaeva, D., Alaei, A., Bakieva, S., Flichman, D., Carmo, R.F., Valdez, E., Cortes, C.P., Contreras, F., Teran, E., Velez-Moller, P., Jagnarine, T., Mills, M., Goodman-Meza, D., Sánchez, J., Montenegro-Idrogo, J.J., Lugo Canales, A.M., Davy, J., Alexander, A., Gerona, S., Perazzo, R., Balak, D., Kelly-Hanku, A., Fineanganofo, A., Gane, E., Raymond, N., Debzi, N., Sridharan, K., Waked, I., Turner, D., Shibolet, O., Al Muzaini, A., El Nakib, M., Sheriff, D.S., Brahni, T., Essayagh, T., Essayagh, S., Hjaija, D., Al-Naamani, K., Sanai, F.M., Pasquale, H., Bedri, S., Chakroun, M., Ghrabi, A., Akarca, U.S., Falcao, V., Edmond Gbedo, S., Ouoba, S., Nyabenda, F., Rocher Mbella, M., Mahamat Moussa, A., Youssouf, T., Boniface, Y., Akilimali Shindano, T., Hamida, M.E., Mongo, A., Mapapa, C., Desalegn, H., Embinga, E.L.A., Ndow, G., Nartey, Y., Cisse, M., Djalo, M.A., Mugambi, M., Nyakowa, M., Jeuronlon, M.K., Ngoma, J., Manitrala Ramanampamonjy, R., Naik, K., Soyjaudah, M.D., Filipe, E., Nnakelu, E., Serumondo, J., Mbodj, M., Patino, M., Aalto, M.K., Waweru, P., Dagnra, A., Ocama, P., Maghimbi, A., Hamooya, B.M., Katsidzira, L., Rios, C., Thormann, M., Al Marzooqi, N., Al Rand, H.M., Francois, K., Hamoudi, W., Alkharty, M., Skripo, O., Uka, T., Marshall, Alison D, Willing, Alex R, Kairouz, Abe, Cunningham, Evan B, Wheeler, Alice, O’Brien, Nicholas, Perera, Vidura, Ward, John W, Hiebert, Lindsey, Degenhardt, Louisa, Hajarizadeh, Behzad, Colledge, Samantha, Hickman, Matthew, Jawad, Danielle, Lazarus, Jeffrey V, Matthews, Gail V, Scheibe, Andrew, Vickerman, Peter, Dore, Gregory J, and Grebely, Jason

Published
2024
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