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1. Quantitative comparison of TDDFT-calculated HHG yields in ring-shaped organic molecules

Author

Armond, Stephanie N., Hamer, Kyle A., Bhardwaj, Ravi, Mauger, Francois, Lopata, Kenneth, Schafer, Kenneth J., and Gaarde, Mette B.

Subjects
Physics - Atomic Physics
Abstract

We compare the high-harmonic-generation (HHG) yield driven by a mid-infrared laser in three organic ring-shaped molecules, calculated using time-dependent density-functional theory (TDDFT). We average the yield over the relative orientation of the molecules and the linearly-polarized, 1825 nm driving laser pulse in order to compare to experimental spectra obtained by Alharbi et al., Phys. Rev. A 92, 041801 (2015). We find that the raw TDDFT-calculated HHG yield in cyclohexane (CHA) is strongly overestimated compared to those of benzene and cyclohexene, and that this can be attributed to unphysically large contributions from CHA orbitals lying well below the highest-occupied molecular orbital. We show that implementing a simple orbital-resolved scaling factor, which corrects the yield of the tunneling ionization contribution to the first step in the HHG process, leads to much better comparisons with experimental results. Our results are encouraging for the use of TDDFT in systematic computations of HHG in large molecules., Comment: 11 pages, 8 figures

Published
2024

2. All-Electron Molecular Tunnel Ionization Based on the Weak-Field Asymptotic Theory in the Integral Representation

Author

Wahyutama, Imam S., Jayasinghe, Denawakage D., Mauger, Francois, Lopata, Kenneth, and Schafer, Kenneth J.

Subjects
Physics - Chemical Physics, Physics - Atomic and Molecular Clusters, Physics - Computational Physics
Abstract

Tunnel ionization (TI) underlies many important ultrafast processes, such as high-harmonic generation and strong-field ionization. Among the existing theories for TI, many-electron weak-field asymptotic theory (ME-WFAT) is by design capable of accurately treating many-electron effects in TI. An earlier version of ME-WFAT relied on an accurate representation of the asymptotic tail of the orbitals, which hindered its implementation in Gaussian-basis-set-based quantum chemistry programs. In this work, we reformulate ME-WFAT in the integral representation, which makes the quality of the asymptotic tail much less critical, hence greatly facilitating its implementation in standard quantum chemistry packages. The integral reformulation introduced here is therefore much more robust when applied to molecules with arbitrary geometry. We present several case studies, among which is the CO molecule where some earlier theories disagree with experiments. Here, we find that ME-WFAT produces the largest ionization probability when the field points from C to O, as experiments suggest. An attractive feature of ME-WFAT is that it can be used with various types of multi-electron methods whether of density functional [Phys. Rev. A 106, 052211 (2022)] or multiconfiguration types, which facilitates tunnel ionization calculation in systems exhibiting a strong multireference character, such as transition-metal-containing molecules., Comment: 20 pages and 6 figures

Published
2024

3. Strong-field ionization with few-cycle, mid-infrared laser pulses induces a localized ionization followed by long-lasting charge migration in halogenated organic molecules

Author

Hamer, Kyle A., Mauger, Francois, Lopata, Kenneth, Schafer, Kenneth J., and Gaarde, Mette B.

Subjects
Physics - Atomic Physics
Abstract

We show that applying a few-femtosecond mid-infrared laser pulse parallel to the backbone of a halogenated, conjugated organic molecule induces localized ionization followed by long-lasting field-free charge migration (CM). Through time-dependent density-functional theory calculations, we find that this CM is robust with respect to the parameters of the applied laser pulse. We document the spatial and temporal origin of the localized hole, which is initiated via strong-field tunnel ionization in the halogen end of the molecule, and near the peak of the laser electric field. In bromobutadiyne we find a range of wavelengths around $1500~\text{nm}$ that consistently leads to the initiation of high-contrast CM. In addition, we show that the inclusion of Ehrenfest nuclear dynamics does not disrupt the creation of the localized hole, nor the subsequent CM motion, in bromobutadiyne or \emph{para}-bromoaniline., Comment: 6 pages, 4 figures

Published
2024

5. Discrete Wavelet Transformation for the Sensitive Detection of Ultrashort Radiation Pulse With Radiation-Induced Acoustics

Author

Van Bergen, Rick, Sun, Leshan, Pandey, Prabodh Kumar, Wang, Siqi, Bjegovic, Kristina, Gonzalez, Gilberto, Chen, Yong, Lopata, Richard, and Xiang, Liangzhong

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biomedical Imaging, Radiation Oncology, Cancer, Affordable and Clean Energy, Discrete wavelet transforms, Filtering, Low-pass filters, X-rays, Transducers, Wavelet analysis, Plasmas, Discrete wavelet filtering, radiation induced acoustics, radiation monitoring, Discrete Wavelet Filtering, Radiation Induced Acoustics, Radiation monitoring
Abstract

Radiation-induced acoustics (RIA) shows promise in advancing radiological imaging and radiotherapy dosimetry methods. However, RIA signals often require extensive averaging to achieve reasonable signal-to-noise ratios, which increases patient radiation exposure and limits real-time applications. Therefore, this paper proposes a discrete wavelet transform (DWT) based filtering approach to denoise the RIA signals and avoid extensive averaging. The algorithm was benchmarked against low-pass filters and tested on various types of RIA sources, including low-energy X-rays, high-energy X-rays, and protons. The proposed method significantly reduced the required averages (1000 times less averaging for low-energy X-ray RIA, 32 times less averaging for high-energy X-ray RIA, and 4 times less averaging for proton RIA) and demonstrated robustness in filtering signals from different sources of radiation. The coif5 wavelet in conjunction with the sqtwolog threshold selection algorithm yielded the best results. The proposed DWT filtering method enables high-quality, automated, and robust filtering of RIA signals, with a performance similar to low-pass filtering, aiding in the clinical translation of radiation-based acoustic imaging for radiology and radiation oncology.

Published
2024

6. Longitudinal Follow-Up Study of Social Intervention Outcomes for Children on the Autism Spectrum

Author

Christopher Lopata, Marcus L. Thomeer, Jonathan D. Rodgers, James P. Donnelly, and Jennifer Lodi-Smith

Abstract

Purpose: A prior randomized trial found a school social intervention yielded significantly better outcomes (social and autism features) immediately following intervention compared to typical school programming (services-as-usual [SAU]) for children on the autism spectrum. In that study, children in the SAU condition subsequently completed a summer social intervention. This study tested longer-term maintenance of effects for children who completed both interventions. Methods: A total of 103 children (ages 6-12 years) on the autism spectrum enrolled and 102 completed the initial RCT. Following the summer social intervention, 90 children from the original RCT completed the longer-term follow-up study. In addition to baseline and posttest in the initial RCT, children from both groups were tested at three follow-up points (five total testing points). At the time of first longitudinal follow-up testing, the children were 1.25-4.25 years post-intervention (ages 8-15 years). Results: Longitudinal multilevel model analyses (and follow-up contrasts) revealed significant improvements for both groups post-intervention on measures of emotion recognition, autism features, and social skills, indicating maintenance of post-intervention improvements over the three follow-up testing points. No between-group differences were found for autism features or social skills over time; however, the school social intervention may have yielded somewhat better emotion recognition skills. Exploratory tests found that child IQ, language level, and length of time since completing the intervention did not moderate outcomes. Conclusion: Both social interventions yielded positive and durable longer-term improvements for children on the autism spectrum. [This paper will be published in "Journal of Autism and Development Disorders."]

Published
2024
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7. Influence of factors of the electric arc spraying process on the properties of coatings

Author

A. Lopata, V. Lopata, I. Kachynska, and N. Zaboykina

Subjects
electric arc spraying, properties, structure formation, technological factors, coatings, microhardness, density, adhesion strength, Mechanical engineering and machinery, TJ1-1570
Abstract

The article discusses primary (technological factors) relating to the technology and conditions of spraying and secondary ones, which are derived from technological factors affecting the structure formation and properties of coatings. The paper examines the influence of spraying distance, dispersion of sprayed particles, wire material, etc. on the properties of electric arc coatings. Summarizing the results of research on the influence of factors of the electric arc spraying process on the structure formation and properties of coatings, the parameters of the electric arc spraying process were established, the method of preparing the surface before spraying was selected, etc. method of processing sprayed coatings.

Published
2024
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8. Moderators of Psychosocial Program Outcomes for Autistic Children

Author

James P. Donnelly, Christopher Lopata, Marcus L. Thomeer, and Jonathan D. Rodgers

Abstract

Although evidence has suggested that social skills interventions yield social and symptom benefits for autistic children, significant variability in outcomes between studies has raised important questions regarding efficacy and moderators of intervention outcomes (i.e., which interventions yield positive effects and which autistic children are most likely to benefit). The efficacy of a comprehensive psychosocial program for autistic children, ages 7-12 years (N = 88) was tested in a prior randomized controlled trial (RCT). Significant effects favoring the program group (versus waitlist controls) were found at posttest on measures of autism-feature severity, social/social-communication skills, social-cognitive understanding (nonliteral language), and global social skills, and these were maintained at 4-6 week follow-up. In this exploratory study, demographic and clinical variables were tested as potential moderators of outcomes from the prior RCT. Moderation effects were not evident for demographics, or child IQ, expressive language, autistic diagnostic symptoms, or baseline co-occurring externalizing or internalizing symptoms. Child receptive language appeared to moderate the outcome of nonliteral language only. Overall, program effects were, with one exception, unrelated to third variables.

Published
2023
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9. Tracking Charge Migration with Frequency-Matched Strobo-Spectroscopy

Author

Hamer, Kyle A., Folorunso, Aderonke S., Lopata, Kenneth, Schafer, Kenneth J., Gaarde, Mette B., and Mauger, Francois

Subjects
Physics - Atomic Physics
Abstract

We present frequency-matched strobo-spectroscopy (FMSS) of charge migration (CM) in bromobutadiyne, simulated with time-dependent density-functional theory. CM+FMSS is a pump-probe scheme that uses a frequency-matched HHG-driving laser as an independent probe step following the creation of a localized hole on the bromine atom that induces CM dynamics. We show that the delay-dependent harmonic yield tracks the phase of the CM dynamics through its sensitivity to the amount of electron density on the bromine end of the molecule. FMSS takes advantage of the intrinsic attosecond time resolution of the HHG process, in which different harmonics are emitted at different times and thus probe different locations of the electron hole. Finally, we show that the CM-induced modulation of the HHG signal is dominated by the recombination step of the HHG process, with negligible contribution from the ionization step.

Published
2023
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11. Modelling Normative Financial Processes with Process Mining

Author

Veitaitė, Ilona, Lopata, Audrius, Gudas, Saulius, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Lopata, Audrius, editor, Gudonienė, Daina, editor, and Butkienė, Rita, editor

Published
2024
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15. On the feasibility of ultrasound Doppler-based personalized hemodynamic modeling of the abdominal aorta

Author

Judith Fonken, Milan Gillissen, Eline van Engelen, Marc van Sambeek, Frans van de Vosse, and Richard Lopata

Subjects
Abdominal aortic aneurysms, Ultrasound Doppler, Hemodynamics, Personalized modeling, Computational fluid dynamics, Medical technology, R855-855.5
Abstract

Abstract Background Personalized modeling is a promising tool to improve abdominal aortic aneurysm (AAA) rupture risk assessment. Computed tomography (CT) and quantitative flow (Q-flow) magnetic resonance imaging (MRI) are widely regarded as the gold standard for acquiring patient-specific geometry and velocity profiles, respectively. However, their frequent utilization is hindered by various drawbacks. Ultrasound is used extensively in current clinical practice and offers a safe, rapid and cost-effective method to acquire patient-specific geometries and velocity profiles. This study aims to extract and validate patient-specific velocity profiles from Doppler ultrasound and to examine the impact of the velocity profiles on computed hemodynamics. Methods Pulsed-wave Doppler (PWD) and color Doppler (CD) data were successfully obtained for six volunteers and seven patients and employed to extract the flow pulse and velocity profile over the cross-section, respectively. The US flow pulses and velocity profiles as well as generic Womersley profiles were compared to the MRI velocities and flows. Additionally, CFD simulations were performed to examine the combined impact of the velocity profile and flow pulse. Results Large discrepancies were found between the US and MRI velocity profiles over the cross-sections, with differences for US in the same range as for the Womersley profile. Differences in flow pulses revealed that US generally performs best in terms of maximum flow, forward flow and ratios between forward and backward flow, whereas it often overestimates the backward flow. Both spatial patterns and magnitude of the computed hemodynamics were considerably affected by the prescribed velocity boundary conditions. Larger errors and smaller differences between the US and generic CFD cases were observed for patients compared to volunteers. Conclusion These results show that it is feasible to acquire the patient-specific flow pulse from PWD data, provided that the PWD acquisition could be performed proximal to the aneurysm region, and resulted in a triphasic flow pattern. However, obtaining the patient-specific velocity profile over the cross-section using CD data is not reliable. For the volunteers, utilizing the US flow profile instead of the generic flow profile generally resulted in improved performance, whereas this was the case in more than half of the cases for the patients.

Published
2024
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16. Hamiltonian formulation and symplectic split-operator schemes for time-dependent density-functional-theory equations of electron dynamics in molecules

Author

Mauger, Francois, Chandre, Cristel, Gaarde, Mette B., Lopata, Kenneth, and Schafer, Kenneth J.

Subjects
Physics - Computational Physics
Abstract

We revisit Kohn-Sham time-dependent density-functional theory (TDDFT) equations and show that they derive from a canonical Hamiltonian formalism. We use this geometric description of the TDDFT dynamics to define families of symplectic split-operator schemes that accurately and efficiently simulate the time propagation for certain classes of DFT functionals. We illustrate these with numerical simulations of the far-from-equilibrium electronic dynamics of a one-dimensional carbon chain. In these examples, we find that an optimized 4th order scheme provides a good compromise between the numerical complexity of each time step and the accuracy of the scheme. We also discuss how the Hamiltonian structure changes when using a basis set to discretize TDDFT and the challenges this raises for using symplectic split-operator propagation schemes., Comment: 20 pages, 4 figures

Published
2023
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19. ASD Symptoms, Social Skills, and Comorbidity: Predictors of Bullying Perpetration

Author

Fredrick, Stephanie S., Nickerson, Amanda B., Sun, Lucia, Rodgers, Jonathan D., Thomeer, Marcus L., Lopata, Christopher, and Todd, Fable

Abstract

Children with ASD are more likely to be involved in bullying compared to typically developing peers; however, studies rarely examine bullying perpetration and the contributing factors among this population. The primary aim of this study was to examine the extent to which parent-reported ASD symptoms, social skills, and comorbid externalizing and internalizing symptoms predicted bullying perpetration in a sample of 390 children with ASD without intellectual disability. Findings from hierarchical regression analyses indicated that social skill deficits, externalizing symptoms (i.e., hyperactivity, aggression, and conduct problems), and depressive symptoms were associated with higher likelihood of bullying perpetration, while severity of ASD symptoms and anxiety were not significant predictors. Further research is needed to better understand bullying perpetration among children with ASD.

Published
2023
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20. Development, Feasibility, and Initial Efficacy of a Telemedicine Parent-Delivered Social Skills Intervention for Children with ASD

Author

Jonathan D. Rodgers, Marcus L. Thomeer, Christopher Lopata, James P. Donnelly, Shelby L. Brennan, Brigit M. Reilly, Christian J. Rajnisz, Zoe L. Gionis, Annamaria Monti, and Samantha L. Andrews

Abstract

This study reports on two pilot studies developing a telemedicine parent-delivered social skills intervention (PDSSI) for school-aged children with ASD. Pilot study 1 involved initial development, training, and feasibility testing for six parent-child pairs using in-person training and fidelity monitoring. Findings from study 1 supported the intervention procedures through high satisfaction and parent implementation fidelity. Pilot study 2 tested the intervention with 11 parent-child pairs using telemedicine for parent training, fidelity monitoring, and child outcome testing. Findings from study 2 supported feasibility using telemedicine. Study 2 also provided initial data indicating improvements in child social skills knowledge (d = 1.15), social skills (d = 1.75), and ASD characteristics (d = 0.92). Parents reported improvements in their own empowerment (d = 1.09) and stress (d = 0.44). Some outcomes were assessed and maintained at a 16-week follow-up. Overall, results support ongoing testing of this telemedicine PDSSI.

Published
2023
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23. Structure-based epitope prediction and assessment of cross-reactivity of Myrmecia pilosula venom-specific IgE and recombinant Sol g proteins (Solenopsis geminata)

Author

Hathairat Buraphaka, Theerawat Dobutr, Michael D. Wiese, Andreas L. Lopata, and Sakda Daduang

Subjects
Medicine, Science
Abstract

Abstract The global distribution of tropical fire ants (Solenopsis geminata) raises concerns about anaphylaxis and serious medical issues in numerous countries. This investigation focused on the cross-reactivity of allergen-specific IgE antibodies between S. geminata and Myrmecia pilosula (Jack Jumper ant) venom proteins due to the potential emergence of cross-reactive allergies in the future. Antibody epitope analysis unveiled one predominant conformational epitope on Sol g 1.1 (PI score of 0.989), followed by Sol g 2.2, Sol g 4.1, and Sol g 3.1. Additionally, Pilosulin 1 showed high allergenic potential (PI score of 0.94), with Pilosulin 5a (PI score of 0.797) leading in B-cell epitopes. The sequence analysis indicated that Sol g 2.2 and Sol g 4.1 pose a high risk of cross-reactivity with Pilosulins 4.1a and 5a. Furthermore, the cross-reactivity of recombinant Sol g proteins with M. pilosula-specific IgE antibodies from 41 patients revealed high cross-reactivity for r-Sol g 3.1 (58.53%) and r-Sol g 4.1 (43.90%), followed by r-Sol g 2.2 (26.82%), and r-Sol g 1.1 (9.75%). Therefore, this study demonstrates cross-reactivity (85.36%) between S. geminata and M. pilosula, highlighting the allergenic risk. Understanding these reactions is vital for the prevention of severe allergic reactions, especially in individuals with pre-existing Jumper Jack ant allergy, informing future management strategies.

Published
2024
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24. Effect of COVID-19 Stay-at-Home Restrictions on Parent Reported Symptom Severity and Adaptive Functioning of Youth with ASD

Author

Lopata, Christopher, Rodgers, Jonathan D., Donnelly, James P., Thomeer, Marcus L., Lodi-Smith, Jennifer, Gionis, Zoe L., Andrew, Samantha L., and Rajnisz, Christian J.

Abstract

This study assessed the potential short-term effects of COVID-19 stay-at-home restrictions on ratings of ASD and comorbid symptoms severity and adaptive functioning of 69 youth, ages 8-16 years with ASD without intellectual disability. Parent/caregiver ratings were being collected in fall and spring over approximately two years when the restrictions were imposed four months prior to the final data collection point. Results indicated no significant changes in parent/caregiver ratings of ASD symptom severity, comorbid symptoms severity, social skills, or adaptive behaviors following the stay-at-home restrictions and little variability across the four data collection points. Although findings suggested minimal short-term effects on these symptoms and adaptive skills, ongoing monitoring is needed to assess longer-term impacts. [This paper was published in "Journal of Developmental and Physical Disabilities" v34 p459-470 2022.]

Published
2021
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25. All-Electron, Density Functional-Based Method for Angle-Resolved Tunneling Ionization in the Adiabatic Regime

Author

Wahyutama, Imam S., Jayasinghe, Denawakage D., Mauger, François, Lopata, Kenneth, Gaarde, Mette B., and Schafer, Kenneth J.

Subjects
Physics - Atomic Physics, Physics - Atomic and Molecular Clusters, Physics - Chemical Physics
Abstract

We develop and test a method that integrates many-electron weak-field asymptotic theory (ME-WFAT) [Phys. Rev. A 89, 013421 (2014)] in the integral representation (IR) into the density functional theory (DFT) framework. In particular, we present modifications of the integral formula in the IR ME-WFAT to incorporate the potential terms unique to DFT. By solving an adiabatic rate equation for the angle-resolved ionization yield in our DFT-based ME-WFAT method, we show that the results are in excellent agreement with those of real-time time-dependent density functional theory (RT-TDDFT) simulations for NO, OCS, CH$_3$Br, and CH$_3$Cl interacting with one- and two- color laser fields with a fundamental wavelength of $800$ nm. This agreement is significant because the WFAT calculations take only a small fraction of the time of full TDDFT calculations. These results suggest that in the wavelength region commonly used in strong-field experiments ($800$ nm and longer), our DFT-based WFAT treatment can be used to rapidly screen for the ionization properties of a large number of molecules as a function of alignment or orientation between the molecule and the strong field.

Published
2022
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26. Attochemistry Regulation of Charge Migration

Author

Folorunso, Aderonke S., Mauger, François, Hamer, Kyle A., Jayasinghe, Denawakage D, Wahyutama, Imam, Ragains, Justin R., Jones, Robert R., DiMauro, Louis F., Gaarde, Mette B., Schafer, Kenneth J., and Lopata, Kenneth

Subjects
Physics - Chemical Physics
Abstract

Charge migration (CM) is a coherent attosecond process that involves the movement of localized holes across a molecule. To determine the relationship between a molecule's structure and the CM dynamics it exhibits, we perform systematic studies of para-functionalized bromobenzene molecules (X-C$_6$H$_4$-R) using real-time time-dependent density functional theory. We initiate valence-electron dynamics by emulating rapid strong-field ionization leading to a localized hole on the bromine atom. The resulting CM, which takes on the order of 1 fs, occurs via an X localized to C$_6$H$_4$ delocalized to R localized mechanism. Interestingly, the hole contrast on the acceptor functional group increases with increasing electron donating strength. This trend is well-described by the Hammett sigma value of the group, which is a commonly used metric for quantifying the effect of functionalization on the chemical reactivity of benzene derivatives. These results suggest that simple attochemistry principles and a density-based picture can be used to predict and understand CM., Comment: 5 pages, 3 figures

Published
2022

28. Contributors

Author

Aranda, Jamie, primary, Balasubramani, Goundappa K, additional, Banerjee, Ritu, additional, Barahimi, Behin, additional, Binari, Laura A., additional, Brooks, David M., additional, Burgner, Anna, additional, Castro-Abeger, Alexander De, additional, Chinn, Matthew, additional, de la Peña, Amparo, additional, Esch, Ally, additional, Garcia, Mark E., additional, A.S., Ben Geoffrey, additional, George, Pravin, additional, Giles, Karen E., additional, Goverdhan, Aarthi, additional, Griffin, Daniel, additional, Groth, Sylvia, additional, Hepburn, Madihah, additional, Jacobson, Nancy, additional, Kim, Sarah, additional, Knirsch, Charles A., additional, Krishnaswami, Srinivasan, additional, Krishnaswami, Sriram, additional, Lal, Pooja, additional, Lopata, Susan M., additional, Mani, Subramani, additional, McCall, Natalie N., additional, McDonald, William M., additional, Menon, Sujatha S., additional, Moran, Cullen P., additional, Nagaraju, Sivakumar, additional, Newey, Christopher, additional, Nowalk, Mary Patricia, additional, Patel, Dhyanesh A., additional, Pham, Amelie, additional, Prasad, Krishna Ramakrishnamenon, additional, Ramalingam, Sathishkumar, additional, Ray, John C., additional, Srinivasan, Mythily, additional, Srivastava, Amit K., additional, Thompson, Jennifer L., additional, Thyvalikakath, Thankam, additional, Vaezi, Michael F., additional, Wack, Andreas, additional, Wallis, Robert S., additional, Nemeroff, Charles B., additional, and Weitkamp, Jörn-Hendrik, additional

Published
2024
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29. A multi-aperture encoding scheme for increased SNR in photoacoustic Imaging

Author

Amir Gholampour, Camilo Cano, Marc R.H.M. van Sambeek, Richard Lopata, Min Wu, and Hans-Martin Schwab

Subjects
Encoding, CMUT, Multi-aperture, Coherent compounding, Photoacoustic imaging, SNR, Physics, QC1-999, Acoustics. Sound, QC221-246, Optics. Light, QC350-467
Abstract

Photoacoustic imaging creates light-induced ultrasonic signals to provide valuable information on internal body structures and tissue morphology non-invasively. A multi-aperture photoacoustic imaging (MP-PAI) system is an improvement over conventional photoacoustic imaging (PAI) systems in terms of resolution, contrast, and field of view. Previously, a prototype MP-PAI system was introduced based on multiple capacitive micromachined ultrasound transducers (CMUTs) with shared channels, such that each element in a CMUT shares its channel with its counterpart in other CMUTs. The system uses the biasing voltages of the CMUTs to switch between them and multiplex the received signals in time. Notwithstanding all the enhancements, the signal-to-noise ratio (SNR) remains limited in PAI. To address this issue, we are proposing a multi-aperture encoding scheme (MAES) to further increase the SNR in a multi-aperture PAI system. The proposed method involves receiving signals with multiple CMUTs simultaneously based on an encoding matrix, instead of switching between individual CMUTs. As a result, shared channels contain a superposition of signals, which are later recovered by applying a decoding matrix. Here, an analytical model for computing SNR with an arbitrary encoding sequence is presented, and the method is validated through numerical simulations and in an experimental study. Bipolar and unipolar encoding sequences were considered for the experiments. The numerical results show, in comparison to conventional MP-PAI, that MAES will obtain an SNR gain of 5.8 and 8.8 dB for S-sequence and truncated Hadamard encodings, respectively, when using 15 transducers. In experiments, three transducers are encoded by S-sequences and show 1.5 dB improvement in SNR over conventional MP-PAI method, which aligns well with the analytical model.

Published
2024
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32. Characterizing Particle-Like Charge Migration Dynamics with High-Harmonic Sideband Spectroscopy

Author

Hamer, Kyle A., Mauger, Francois, Folorunso, Aderonke S., Lopata, Kenneth, Jones, Robert R., DiMauro, Louis F., Schafer, Kenneth J., and Gaarde, Mette B.

Subjects
Physics - Atomic Physics
Abstract

We introduce high-harmonic sideband spectroscopy (HHSS) and show that it can be a robust probe of attosecond charge migration (CM) in a halogenated carbon-chain molecule. We simulate both the CM and harmonic-generation (HHG) dynamics using ab initio time-dependent density-functional theory. We find that CM dynamics initiated along the molecular backbone induces sidebands in the HHG spectrum driven by a delayed laser pulse that is polarized perpendicular to the molecular axis. Monitoring the spectrum as either the HHG laser frequency or the relative delay is scanned allows for the extraction of detailed information about the time-domain characteristics of the CM process., Comment: 8 pages, 7 figures

Published
2022
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34. The condition of the fluid compartments by the method of bioimpedancemetry in victims with a blast injury

Author

O.V. Kravets, O.M. Klygunenko, V.V. Yekhalov, D.M. Stanin, and A.A. Lopata

Subjects
blood loss, blast injury, bioimpedancemetry, water sectors, Therapeutics. Pharmacology, RM1-950
Abstract

BACKGROUND. According to the modern standards, in case of an acute blood loss, the pathogenetic provision of fluid therapy is based on the ROSE/D concept. According to this concept, after the initial emergency restoration of circulating blood volume, the fluid compartments should be optimized with further stabilization of the condition. OBJECTIVE. To study the fluid compartments in mine-explosive injuries victims. MATERIALS AND METHODS. 28 servicemen aged 20 to 51 years (average age 34.6±10.3 years) who were in the intensive care unit (ICU) with mine-explosive injuries of various localization (chest, abdomen, limbs) were examined. The victims were given fluid therapy in a restrictive mode. The condition of fluid compartments was determined by the method of bioimpedance measurement and calculation methods. RESULTS. On the first day of ICU stay, the total amount of water in the body exceeded the norm by 3 %. At the same time, the volume of intracellular water was significantly lower than normal by 22 %. On the second day, the total amount of water in the body normalized, but the indicator of intracellular water increased by 9.5 % of the reference. CONCLUSIONS. It is shown that despite the restoration of the circulating blood volume, there is an intracellular fluid deficit, which, even in the conditions of the restrictive fluid therapy, is replaced by a slight compensatory intracellular hyperhydration the next day when the intravascular volume of fluid is normalized.

Published
2023
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35. Reliability and Validity of Teacher Ratings on the Adapted Skillstreaming Checklist for Children with Autism Spectrum Disorder

Author

Lopata, Christopher, Donnelly, James P., Rodgers, Jonathan D., Thomeer, Marcus L., and Booth, Adam J.

Abstract

This study assessed the reliability and criterion-related validity of teacher ratings on the Adapted Skillstreaming Checklist for a sample of 133 children, aged 6-11 years, with autism spectrum disorder (without intellectual disability). Internal consistency for the total sample was 0.93. For a subsample, test-retest reliability was very good (r = 0.74; intraclass correlation coefficient = 0.85) at a 9-month interval. Child age, intelligence quotient, language abilities, and sex were not associated with the Adapted Skillstreaming Checklist total score. The Adapted Skillstreaming Checklist total score was inversely and strongly related to teacher ratings of autism spectrum disorder symptom severity. Significant positive correlations (moderate-to-high) were found between the Adapted Skillstreaming Checklist and prosocial skills scales and significant negative correlations (low-to-moderate) with problem behavior scales on a broad measure of child functioning. Implications and suggestions for future study are discussed.

Published
2020
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36. Moderators of School Intervention Outcomes for Children with Autism Spectrum Disorder

Author

Lopata, Christopher, Donnelly, James P., Thomeer, Marcus L., Rodgers, Jonathan D., Lodi-Smith, Jennifer, Booth, Adam J., and Volker, Martin A.

Abstract

A prior cluster randomized controlled trial (RCT) compared outcomes for a comprehensive school intervention (schoolMAX) to typical educational programming (services-as-usual [SAU]) for 103 children with autism spectrum disorder (ASD) without intellectual disability. The schoolMAX intervention was superior to SAU in improving social-cognitive understanding (emotion-recognition), social/social-communication skills, and ASD-related impairment (symptoms). In the current study, a range of demographic, clinical, and school variables were tested as potential moderators of treatment outcomes from the prior RCT. Moderation effects were not evident in demographics, child IQ, language, or ASD diagnostic symptoms, or school SES. Baseline externalizing symptoms moderated the outcome of social-cognitive understanding and adaptive skills moderated the outcome of ASD-related symptoms (no other comorbid symptoms or adaptive skills ratings moderated outcomes on the three measures). Overall, findings suggest that the main effects of treatment were, with two exceptions, unaffected by third variables. [This paper was published in "Journal of Abnormal Child Psychology" v48 p1105-1114 May 2020.]

Published
2020

37. Exploratory Factor Analysis of the Adapted Skillstreaming Checklist for Children with Autism Spectrum Disorder

Author

Lopata, Christopher, Donnelly, James P., Thomeer, Marcus L., Rodgers, Jonathan D., Volker, Martin A., and Booth, Adam J.

Abstract

The Adapted Skillstreaming Checklist measures social/social-communication skills and behavioral flexibility/regulation of children with autism spectrum disorder without intellectual disability. Prior studies provided support for the reliability and criterion-related validity of the Adapted Skillstreaming Checklist total score for these children; however, no studies have examined the Adapted Skillstreaming Checklist factor structure. This exploratory factor analysis examined the factor structure and internal consistency of parent ratings on the Adapted Skillstreaming Checklist for a sample of 331 children, ages 6-12 years, with autism spectrum disorder without intellectual disability. Results yielded a correlated three-factor solution. The individual factors and total score demonstrated very good internal consistency reliability. Findings supported the presence and interpretability of three subscales, as well as derivation of a total composite reflecting overall prosocial and adaptive skills and behaviors. Implications for assessment and research are discussed.

Published
2020
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38. Cluster Randomized Trial of a School Intervention for Children with Autism Spectrum Disorder

Author

Lopata, Christopher, Thomeer, Marcus L., Rodgers, Jonathan D., Donnelly, James P., McDonald, Christin A., Volker, Martin A., Smith, Tristram H., and Wang, Hongyue

Abstract

Objective: There are currently no empirically-supported, comprehensive school-based interventions (CSBIs) for children with autism spectrum disorder (ASD) without concomitant intellectual and language disability. This study compared outcomes for a CSBI (schoolMAX) to typical educational programming (services-as-usual [SAU]) for these children. Method: A total of 103 children (ages 6-12 years) with ASD (without intellectual and language disability) were randomly assigned by school buildings (clusters) to receive the CSBI (n=52 completed) or SAU (n=50 completed). The CSBI was implemented by trained school personnel and targeted social competence and ASD symptoms using social skills groups, emotion recognition instruction, therapeutic activities, behavioral reinforcement, and parent training. Outcome measures tested the effects of the CSBI on social competence and ASD symptoms, as well as potential collateral effects on academic achievement. Outcomes (baseline-to-follow-up) were assessed using tests of social-cognition and academic skills and behavioral observations (by masked evaluators) and parent-teacher ratings of ASD symptoms and social/social-communication skills (non-masked) [ClinicalTrials.gov, NCT03338530, https://www.clinicaltrials.gov/]. Results: The CSBI group improved significantly more than the SAU group on the test of emotion recognition skills and parent-teacher ratings of ASD symptoms (primary outcomes) and social/social-communication skills (secondary outcome). No differences between groups were detected for recess social interactions or academic skills. Conclusions: The CSBI improved several core areas of functioning for children with ASD compared to usual educational programming. Additional intervention elements may be needed to expand the efficacy of the CSBI so that the observed skills/symptom improvements generalize to recess social interactions and/or academic skills are enhanced. [This paper was published in the "Journal of Clinical Child and Adolescent Psychology" v48 n6 p922-933 Dec 2019.]

Published
2019
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41. In vivo bistatic dual-aperture ultrasound imaging and elastography of the abdominal aorta

Author

Vera H. J. van Hal, Hein de Hoop, Marc R. H. M. van Sambeek, Hans-Martin Schwab, and Richard G. P. Lopata

Subjects
abdominal aorta, elastography, multi-aperture, ultrasound, coherent compounding, Physiology, QP1-981
Abstract

Introduction: In this paper we introduce in vivo multi-aperture ultrasound imaging and elastography of the abdominal aorta. Monitoring of the geometry and growth of abdominal aortic aneurysms (AAA) is paramount for risk stratification and intervention planning. However, such an assessment is limited by the lateral lumen-wall contrast and resolution of conventional ultrasound. Here, an in vivo dual-aperture bistatic imaging approach is shown to improve abdominal ultrasound and strain imaging quality significantly. By scanning the aorta from different directions, a larger part of the vessel circumference can be visualized.Methods: In this first-in-man volunteer study, the performance of multi-aperture ultrasound imaging and elastography of the abdominal aortic wall was assessed in 20 healthy volunteers. Dual-probe acquisition was performed in which two curved array transducers were aligned in the same imaging plane. The transducers alternately transmit and both probes receive simultaneously on each transmit event, which allows for the reconstruction of four ultrasound signals. Automatic probe localization was achieved by optimizing the coherence of the trans-probe data, using a gradient descent algorithm. Speckle-tracking was performed on the four individual bistatic signals, after which the respective axial displacements were compounded and strains were calculated.Results: Using bistatic multi-aperture ultrasound imaging, the image quality of the ultrasound images, i.e., the angular coverage of the wall, was improved which enables accurate estimation of local motion dynamics and strain in the abdominal aortic wall. The motion tracking error was reduced from 1.3 mm ± 0.63 mm to 0.16 mm ± 0.076 mm, which increased the circumferential elastographic signal-to-noise ratio (SNRe) by 12.3 dB ± 8.3 dB on average, revealing more accurate and homogeneous strain estimates compared to single-perspective ultrasound.Conclusion: Multi-aperture ultrasound imaging and elastography is feasible in vivo and can provide the clinician with vital information about the anatomical and mechanical state of AAAs in the future.

Published
2024
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43. Development and Pilot Testing of the Social Competence Observation Scale (SCOS) for Children with ASD

Author

Christopher Lopata, Jonathan D. Rodgers, James P. Donnelly, Marcus L. Thomeer, Karl F. Kozlowski, and Jennifer Lodi-Smith

Abstract

The Social Competence Observation Scale (SCOS) is an objective observational measure developed to assess the social performance of children with autism spectrum disorder (ASD). This paper describes development of the SCOS and results of initial testing of reliability and treatment sensitivity for a sample of 12 children, ages 4-6 years, with ASD. Based on observations, the measure can yield three scores including a social impairment severity, change, and responder status score. Results suggested good-to-excellent reliability (inter-observer agreement and test-retest) and the SCOS was treatment sensitive to changes resulting from the intervention (at the social impairment severity score, change score, and responder status levels). Lastly, the effect size based on the SCOS social impairment severity score improvements (baseline-to-post-treatment) for the coders was large and was comparable to parent ratings on a standardized measure of ASD social impairment symptom severity. Implications and suggestions for future study are discussed.

Published
2022
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48. Scaffold Geometry-Imposed Anisotropic Mechanical Loading Guides the Evolution of the Mechanical State of Engineered Cardiovascular Tissues in vitro

Author

Hermans, LHL, Van Kelle, MAJ, Oomen, PJA, Lopata, RGP, Loerakker, S, and Bouten, CVC

Subjects
Engineering, Biomedical Engineering, Bioengineering, Regenerative Medicine, Cardiovascular, Biotechnology, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, cardiovascular, growth, remodeling, scaffold geometry, tissue engineering, Other Biological Sciences, Medical Biotechnology, Industrial biotechnology, Medical biotechnology, Biomedical engineering
Abstract

Cardiovascular tissue engineering is a promising approach to develop grafts that, in contrast to current replacement grafts, have the capacity to grow and remodel like native tissues. This approach largely depends on cell-driven tissue growth and remodeling, which are highly complex processes that are difficult to control inside the scaffolds used for tissue engineering. For several tissue engineering approaches, adverse tissue growth and remodeling outcomes were reported, such as aneurysm formation in vascular grafts, and leaflet retraction in heart valve grafts. It is increasingly recognized that the outcome of tissue growth and remodeling, either physiological or pathological, depends at least partly on the establishment of a homeostatic mechanical state, where one or more mechanical quantities in a tissue are maintained in equilibrium. To design long-term functioning tissue engineering strategies, understanding how scaffold parameters such as geometry affect the mechanical state of a construct, and how this state guides tissue growth and remodeling, is therefore crucial. Here, we studied how anisotropic versus isotropic mechanical loading-as imposed by initial scaffold geometry-influences tissue growth, remodeling, and the evolution of the mechanical state and geometry of tissue-engineered cardiovascular constructs in vitro. Using a custom-built bioreactor platform and nondestructive mechanical testing, we monitored the mechanical and geometric changes of elliptical and circular, vascular cell-seeded, polycaprolactone-bisurea scaffolds during 14 days of dynamic loading. The elliptical and circular scaffold geometries were designed using finite element analysis, to induce anisotropic and isotropic dynamic loading, respectively, with similar maximum stretch when cultured in the bioreactor platform. We found that the initial scaffold geometry-induced (an)isotropic loading of the engineered constructs differentially dictated the evolution of their mechanical state and geometry over time, as well as their final structural organization. These findings demonstrate that controlling the initial mechanical state of tissue-engineered constructs via scaffold geometry can be used to influence tissue growth and remodeling and determine tissue outcomes.

Published
2022

49. Investigation of the properties of coatings obtained by electric arc spraying

Author

A. Lopata, I. Smirnov, M. Holovashchuk, and V. Lopata

Subjects
coatings, wear resistance, adhesion strength, electric arc spraying, Mechanical engineering and machinery, TJ1-1570
Abstract

The paper considers possibilities to increase the wear resistance, corrosion resistance, and service life for parts of machines and mechanisms via their hardening and renovating using electric arc coatings characterized by high density, adhesion strength, and micro hardness. Also, the possibility of controlling the properties of restored surfaces owing to choice of the related equipment with required structure and characteristics in order to prolong the service life of machinery parts is shown. The right choice of equipment for spraying makes it possible to increase the speed and temperature of the spraying gas and particles, reduce the droplet diameter, increase the density and reduce the oxidation of coatings. The influence of spray factors such as the flow rate and pressure of working gases, composition of combustion mixture, spraying distance, dispersion of the spray, properties of wire material, etc. on the properties of the coatings obtained has been investigated.

Published
2023
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50. Antihypertensive and Antidiabetic Drug Candidates from Milkfish (Chanos chanos)—Identification and Characterization through an Integrated Bioinformatic Approach

Author

Roni Nugraha, Fahmi Kurniawan, Asadatun Abdullah, Andreas L. Lopata, and Thimo Ruethers

Subjects
ADME analysis, bioactive peptides, in silico, molecular docking, antihypertension, antidiabetic, Chemical technology, TP1-1185
Abstract

Integrated bioinformatics tools have created more efficient and robust methods to overcome in vitro challenges and have been widely utilized for the investigation of food proteins and the generation of peptide sequences. This study aimed to analyze the physicochemical properties and bioactivities of novel peptides derived from hydrolyzed milkfish (Chanos chanos) protein sequences and to discover their potential angiotensin-converting enzyme (ACE)- and dipeptidyl peptidase-4 (DPPIV)-inhibitory activities using machine learning-based tools, including BIOPEP-UWM, PeptideRanker, and the molecular docking software HADDOCK 2.4. Nine and three peptides were predicted to have ACE- and DPPIV-inhibitory activities, respectively. The DPPIV-inhibitory peptides were predicted to inhibit the compound with no known specific mode. Meanwhile, two tetrapeptides (MVWH and PPPS) were predicted to possess a competitive mode of ACE inhibition by directly binding to the tetra-coordinated Zn ion. Among all nine discovered ACE-inhibitory peptides, only the PPPS peptide satisfied the drug-likeness analysis requirements with no violations of the Lipinski rule of five and should be further investigated in vitro.

Published
2024
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