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1. Harnessing Ionic Complexity: A Modeling Approach for Hierarchical Ionic Circuit Design

Author

Tepermeister, Max and Silberstein, Meredith N.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Since the 1950s, soft ionic devices have evolved from individual components to an expanding library of sensors, actuators, signal transmitters, and processors. However, integrating these components into complex, multi-functional systems remains challenging due to the non-intuitive and non-linear interactions between ionic elements. In this work, we address these fundamental challenges by developing a lumped element model that enables interrogation of the physics that govern ionic circuits, as well as rapid design and optimization. Our model captures features specific to ionic charge carriers, while preserving the hierarchical design flexibility and computational efficiency of traditional circuit modeling. We demonstrate that our model can not only fit individual device behavior but also accurately predict the behavior of larger circuits formed by combining those devices. Additionally, we show how our tool utilizes the intrinsic non-linearities of ionic systems to enable novel functionality, revealing how factors such as ion enrichment, ion leakage, and polymer charge density influence performance. Finally, we present a fully ionic power supply, sensor, control system, and actuator for a soft robot that adapts its motion in response to environmental salt, illustrating the tool's potential to accelerate advancements in chemical sensing, biointerfacing, biomimetic systems, and adaptive materials., Comment: 13 pages, 4 figures. Updated title and small edits to be as submitted. Added more SI figures and tables

Published
2024

2. A foundational framework for the mesoscale modeling of dynamic elastomers and gels

Author

Wagner, Robert J. and Silberstein, Meredith N.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Statistical Mechanics
Abstract

Discrete mesoscale network models, in which explicitly modeled polymer chains are replaced by implicit pairwise potentials, are capable of predicting the macroscale mechanical response of polymeric materials such as elastomers and gels, while offering greater insight into microstructural phenomena than constitutive theory or macroscale experiments alone. However, whether such mesoscale models accurately represent the molecular structures of polymer networks requires investigation during their development, particularly in the case of dynamic polymers that restructure in time. We here introduce and compare the topological and mechanical predictions of an idealized, reduced-order mesoscale approach in which only tethered dynamic bonding sites and crosslinks in a polymer's backbone are explicitly modeled, to those of molecular theory and a Kremer-Grest, coarse-grained molecular dynamics approach. We find that for short chain networks at intermediate polymer packing fractions, undergoing relatively slow loading rates, the mesoscale approach reasonably reproduces the chain conformations, bond kinetic rates, and ensemble stress responses predicted by molecular theory and the bead-spring model. Further, it does so with a 90% reduction in computational cost. These savings grant the mesoscale model access to larger spatiotemporal domains than conventional molecular dynamics, enabling simulation of large deformations as well as durations approaching experimental timescales (e.g., those utilized in DMA). While the model investigated is for monodisperse polymer networks in theta-solvent, without entanglement, charge interactions, long-range dynamic bond interactions, or other confounding physical effects, this work highlights the utility of these models and lays a foundational groundwork for the incorporation of such phenomena moving forward.

Published
2024

3. The Association between Exposure to Fine Particulate Matter and MRI-Assessed Locus Coeruleus Integrity in the Vietnam Era Twin Study of Aging (VETSA)

Author

Puckett, Olivia K., Fennema-Notestine, Christine, Hagler, Donald J., Jr., Braskie, Meredith N., Chen, Jiu-Chiuan, Finch, Caleb E., Kaufman, Joel D., Petkus, Andrew J., Reynolds, Chandra A., Salminen, Lauren E., Thompson, Paul M., Wang, Xinhui, Kremen, William S., Franz, Carol E., and Elman, Jeremy A.

Subjects
Aging -- Health aspects, Magnetic resonance imaging -- Evaluation, Particles -- Environmental aspects -- Health aspects, Environmental issues, Health, Evaluation, Environmental aspects, Health aspects
Abstract

BACKGROUND: Increased exposure to ambient air pollution, especially fine particulate matter [less than or equal to]2.5 [micro]m ([PM.sub.2.5]) is associated with poorer brain health and increased risk for Alzheimer's disease (AD) and related dementias. The locus coeruleus (LC), located in the brainstem, is one of the earliest regions affected by tau pathology seen in AD. Its diffuse projections throughout the brain include afferents to olfactory areas that are hypothesized conduits of cerebral particle deposition. Additionally, extensive contact of the LC with the cerebrovascular system may present an additional route of exposure to environmental toxicants. OBJECTIVE: Our aim was to investigate if exposure to [PM.sub.2.5] was associated with LC integrity in a nationwide sample of men in early old age, potentially representing one pathway through which air pollution can contribute to increased risk for AD dementia. METHODS: We examined the relationship between [PM.sub.2.5] and in vivo magnetic resonance imaging (MRI) estimates of LC structural integrity indexed by contrast to noise ratio ([LC.sub.CNR]) in 381 men [mean age = 67.3; standard deviation (SD) = 2.6] from the Vietnam Era Twin Study of Aging (VETSA). Exposure to [PM.sub.2.5] was taken as a 3-year average over the most recent period for which data were available (average of 5.6 years prior to the MRI scan). We focused on [LC.sub.CNR] in the rostral-middle portion of LC due to its stronger associations with aging and AD than the caudal LC. Associations between [PM.sub.2.5] exposures and LC integrity were tested using linear mixed effects models adjusted for age, scanner, education, household income, and interval between exposure and MRI. A co-twin control analysis was also performed to investigate whether associations remained after controlling for genetic confounding and rearing environment. RESULTS: Multiple linear regressions revealed a significant association between [PM.sub.2.5] and rostral-middle [LC.sub.CNR] (b = -0.16; p = 0.02), whereby higher exposure to [PM.sub.2.5] was associated with lower [LC.sub.CNR]. A co-twin control analysis found that, within monozygotic pairs, individuals with higher [PM.sub.2.5] exposure showed lower [LC.sub.CNR] (b = - 0.11; p = 0.02), indicating associations were not driven by genetic or shared environmental confounds. There were no associations between [PM.sub.2.5] and caudal [LC.sub.CNR] or hippocampal volume, suggesting a degree of specificity to the rostral-middle portion of the LC. DISCUSSION: Given previous findings that loss of LC integrity is associated with increased accumulation of AD-related amyloid and tau pathology, impacts on LC integrity may represent a potential pathway through which exposure to air pollution increases AD risk. https://doi.org/10.1289/EHP14344, Introduction Neuropathological studies indicate that abnormal tau may first appear in the locus coeruleus (LC) starting early in life, (1,2) with substantial accumulation occurring during the course of Alzheimer's disease [...]

Published
2024
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4. Elucidating the impact of microstructure on mechanical properties of phase-segregated polyurea: Finite element modeling of molecular dynamics derived microstructures

Author

Yang, Steven J., Rosenbloom, Stephanie I., Fors, Brett P., and Silberstein, Meredith N.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Phase-segregated polyureas (PU) have received considerable interest due to their use as tough, impact-resistant coatings. Polyureas are favored for these applications due to their mechanical strain rate sensitivity and energy dissipation. Predicting and tailoring the mechanical response of PU remains challenging due to the complex interaction between its elastomeric and glassy phases. To elucidate the role of PU microstructure on its mechanical properties, we developed a finite element modeling framework in which each phase is represented by a volume fraction within a representative volume element (RVE). Critically, we used separate constitutive models to describe the elastomeric and glassy phases. We developed a plasticity-driven breakdown process in which we model the glassy phase disaggregating into a new phase. The overall contribution of each phase at a material point is determined by their respective volume fractions within the RVE. We applied our modeling methods to two compositions of PU with differing elastomeric segment lengths derived from oligoether diamines, Versalink P650 and P1000. Our simulations show that a combination of microstructural differences and elastomeric phase properties accounts for the difference in mechanical response between P650 and P1000. We show our model's ability to predict PU behavior in various loading conditions, including low-rate cyclic loading and monotonic loading over a wide range of strain rates. Our model produces microstructure transformations that mirror those indicated by small-angle X-ray scattering (SAXS) experiments. Fourier transform analysis of our RVEs reveals glassy phase fibrillation due to deformation, a finding consistent with SAXS experiments.

Published
2023

5. Skin necrosis following digital wart intralesional injection of cantharidin

Author

Arango, Sebastian D, Weir, Tristan B, Miller, Andrew J, and Osterman, Meredith N

Subjects
cantharidin, hand, injection, intralesional, necrosis, wart
Abstract

A right-hand-dominant female presented 5 weeks following a right middle finger intralesional cantharidin injection for a common wart by a dermatologist. The patient experienced progressive stiffness, blistering, swelling, pain, and ultimately, full-thickness skin necrosis surrounding the injection site. Careful debridement followed by a full-thickness skin graft was performed with no evidence of involvement of the germinal matrix or terminal extensor tendon. At the 7-month postoperative mark, the patient's graft exhibited favorable healing and improved functionality that did not require further follow-up. Intralesional injection of cantharidin solutions for digital warts leads to progressive skin necrosis. Our case required prompt debridement and defect coverage. Involvement of the underlying anatomical structures was also a concern. Dermatologists and hand surgeons should be familiar with this complication as intralesional cantharidin injections are contraindicated.

Published
2024

6. Data-driven Identification of Parametric Governing Equations of Dynamical Systems Using the Signed Cumulative Distribution Transform

Author

Rubaiyat, Abu Hasnat Mohammad, Thai, Duy H., Nichols, Jonathan M., Hutchinson, Meredith N., Wallen, Samuel P., Naify, Christina J., Geib, Nathan, Haberman, Michael R., and Rohde, Gustavo K.

Subjects
Electrical Engineering and Systems Science - Signal Processing, Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper presents a novel data-driven approach to identify partial differential equation (PDE) parameters of a dynamical system. Specifically, we adopt a mathematical "transport" model for the solution of the dynamical system at specific spatial locations that allows us to accurately estimate the model parameters, including those associated with structural damage. This is accomplished by means of a newly-developed mathematical transform, the signed cumulative distribution transform (SCDT), which is shown to convert the general nonlinear parameter estimation problem into a simple linear regression. This approach has the additional practical advantage of requiring no a priori knowledge of the source of the excitation (or, alternatively, the initial conditions). By using training data, we devise a coarse regression procedure to recover different PDE parameters from the PDE solution measured at a single location. Numerical experiments show that the proposed regression procedure is capable of detecting and estimating PDE parameters with superior accuracy compared to a number of recently developed machine learning methods. Furthermore, a damage identification experiment conducted on a publicly available dataset provides strong evidence of the proposed method's effectiveness in structural health monitoring (SHM) applications. The Python implementation of the proposed system identification technique is integrated as a part of the software package PyTransKit (https://github.com/rohdelab/PyTransKit).

Published
2023

7. A constitutive model for elastomers tailored by ionic bonds and entanglements

Author

Wang, Zhongtong, Cai, Hongyi, and Silberstein, Meredith N.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Over the past decade or two, the concept has emerged of using multiple types of weak interactions simultaneously to enhance the mechanical properties of elastomers. These weak interactions include physical entanglements, hydrogen bonds, metal-coordination bonds, dynamic covalent bonds, and ionic bonds. The combination of entanglements and ionic bonding has been minimally explored and is particularly exciting because of the broad application space for polyelectrolytes. In this work, a constitutive model framework is developed to describe the response of elastomers with both ionic bonds and entanglements. We formulate a micromechanical model that couples together chain stretching, ionic bond slipping, and entanglement evolution. The ionic bonds provide toughness by enabling plastic deformation in comparison to covalently crosslinked material and add strength compared to a linear polymer. Evolution of the entanglement density is taken as a key mechanism that can govern stiffness, toughness, and self-recovery in elastomers. The model is used to match bulk polyelectrolytes with different fractions of ionic components under a variety of loading histories. The variations in material parameters are then used to help understand the relative importance of different governing mechanisms in the bulk polymers. We show that the theoretical framework can explain our experimental uniaxial tensile experimental results for polyelectrolytes. This model can help to design better material with high stiffness and toughness. We expect that our model can be extended to explain the mechanical behavior of other polyelectrolytes and other soft materials with a wide range of dynamic bonds., Comment: 29 pages, 8 figures

Published
2022

8. Freely jointed chain models with extensible links

Author

Buche, Michael R., Silberstein, Meredith N., and Grutzik, Scott J.

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Soft Condensed Matter
Abstract

Analytical relations for the mechanical response of single polymer chains are valuable for modeling purposes, on both the molecular and the continuum scale. These relations can be obtained using statistical thermodynamics and an idealized single-chain model, such as the freely jointed chain model. To include bond stretching, the rigid links in the freely jointed chain model can be made extensible, but this almost always renders the model analytically intractable. Here, an asymptotically correct statistical thermodynamic theory is used to develop analytic approximations for the single-chain mechanical response of this model. The accuracy of these approximations is demonstrated using several link potential energy functions. This approach can be applied to other single-chain models, and to molecular stretching in general.

Published
2022
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9. Efficient synthesis for each of the eight stereoisomers of the iminosugars lentiginosine and 1,4-dideoxy-1,4-imino-D-arabinitol (DAB)

Author

Liotta, Louis J., Antoine, Jessica, Brammer Basta, Leighanne A., Campbell, Andrew S., Cole, Gabrielle Y., Demick Brazile, Kristen A., Dogal Gardner, Natalie M., Fitzgerald, Megan E., Francois, Jean E.K., French, Brian M., Garafola, Sara L., Giannetti, Catherine A., Granatosky, Eve A., Harney, Alycen M., Hummel, James T., Joyce, Andrew P., Keylor, Mitchell H., Khubchandani, Jasmine A., Korzeniecki, Claudia, Lieberman, Diana C., Litterio, Joshua M., Maiorano, Madison O., Marshall, Jessica F., McCarthy, Kelly A., Mendes Vieira, Andreia, Miller, Ruby M., Morrison, Emily R., Moura, Steven P., Neumann, Dillon F., Oliveira, Aliza F., Pace, Nicholas J., Plouffe, Jodie X., Pomfret, Meredith N., Reardon, Katelyn N., Sheller-Miller, Samantha M., Smith, Michael J., Sullivan, Jessica L., Sweeney, Samantha W., and Tougas, Kerstin L.

Published
2024
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11. Examining the Impact of Asymmetry in Lattice-Based Mechanical Metamaterials

Author

Srivatsa, Srikar, Kumar, Roshan Suresh, Selva, Daniel, and Silberstein, Meredith N.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Lattice-based mechanical metamaterials can be tailored for a wide variety of applications by modifying the underlying mesostructure. However, most existing lattice patterns take symmetry as a starting point. We show that asymmetric lattice patterns can be more likely to have certain mechanical properties than symmetric lattice patterns. To directly compare the effects of asymmetric versus symmetric lattice arrangements, a constrained design space is defined. A generative design process is used to generate both symmetric and asymmetric lattice patterns within the design space. Asymmetric lattice patterns are shown to have distinct metamaterial property spaces from symmetric lattice patterns. Key design features are identified that are present predominantly in asymmetric lattice patterns. We show that asymmetric lattice patterns with two of these features (arrows and spider nodes) are more likely to induce a broader range of Poisson's ratios and larger shear stiffness values, respectively, compared to lattice patterns without these features. In addition, we show that symmetry can play a role in hampering the impact of multiple features when present. This work provides insights into the benefits of using asymmetric lattice patterns in select metamaterial design applications.

Published
2021

12. Drift Orbit Bifurcations and Cross-field Transport in the Outer Radiation Belt: Global MHD and Integrated Test-Particle Simulations

Author

Desai, R. T., Eastwood, J. P., Horne, R. B., Allison, H. J., Watt, O. Allanson. E. J., Eggington, J. W. B., Glauert, S. A., Meredith, N. P., Archer, M. O., Staples, F. A., Mejnertsen, L., Tong, J. K., and Chittenden, J. P.

Subjects
Physics - Space Physics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Computational Physics, Physics - Plasma Physics
Abstract

Energetic particle fluxes in the outer magnetosphere present a significant challenge to modelling efforts as they can vary by orders of magnitude in response to solar wind driving conditions. In this article, we demonstrate the ability to propagate test particles through global MHD simulations to a high level of precision and use this to map the cross-field radial transport associated with relativistic electrons undergoing drift orbit bifurcations (DOBs). The simulations predict DOBs primarily occur within an Earth radius of the magnetopause loss cone and appears significantly different for southward and northward interplanetary magnetic field orientations. The changes to the second invariant are shown to manifest as a dropout in particle fluxes with pitch angles close to 90$^\circ$ and indicate DOBs are a cause of butterfly pitch angle distributions within the night-time sector. The convective electric field, not included in previous DOB studies, is found to have a significant effect on the resultant long term transport, and losses to the magnetopause and atmosphere are identified as a potential method for incorporating DOBs within Fokker-Planck transport models., Comment: 12 pages, 8 figures. Accepted for publication as a Journal of Geophysical Research article on 04 September 2021

Published
2021
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15. Modeling the Transient Behavior of Ionic Diodes with the Nernst–Planck–Poisson Equations

Author

Max Tepermeister and Meredith N. Silberstein

Subjects
continuum modeling, devices, electrochemistry, ionics, polyelectrolytes, Technology (General), T1-995, Science
Abstract

Abstract Ionic circuitry formed from soft charged polymers promises to enable a new kind of analog computing and usher in a new age of human–computer interaction, but devices remain in their infancy. Ionic diodes, created by the interface between two oppositely charged polymers, form one of the most fundamental elements of ionic circuitry. However, it is currently not well understood how the boundary conditions and geometry of a diode influence its transient response and performance. A consistent set of metrics with which to analyze these diodes is first developed, then a continuum model based on the Nernst–Planck–Poisson equations is used to study how device construction and three types of boundary conditions affect performance. This model is solved using the finite volume method and gives insight into transient diode behavior not described by previous analyses. It is demonstrated how different parts of a diode's construction, thickness, and operating voltage act as the limiting factors for different regimes. To conclude, it is demonstrated how blocking electrodes limit both diode lifetime and rectification behavior and how neutral bath boundary conditions play an important role in the performance of some diodes, with recommendations for building higher performance devices in the future.

Published
2024
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16. Multiple objects evoke fluctuating responses in several regions of the visual pathway

Author

Meredith N Schmehl, Valeria C Caruso, Yunran Chen, Na Young Jun, Shawn M Willett, Jeff T Mohl, Douglas A Ruff, Marlene Cohen, Akinori F Ebihara, Winrich A Freiwald, Surya T Tokdar, and Jennifer M Groh

Subjects
neural representation, neural code, multiplexing, object vision, figure ground segregation, visual system, Medicine, Science, Biology (General), QH301-705.5
Abstract

How neural representations preserve information about multiple stimuli is mysterious. Because tuning of individual neurons is coarse (e.g., visual receptive field diameters can exceed perceptual resolution), the populations of neurons potentially responsive to each individual stimulus can overlap, raising the question of how information about each item might be segregated and preserved in the population. We recently reported evidence for a potential solution to this problem: when two stimuli were present, some neurons in the macaque visual cortical areas V1 and V4 exhibited fluctuating firing patterns, as if they responded to only one individual stimulus at a time (Jun et al., 2022). However, whether such an information encoding strategy is ubiquitous in the visual pathway and thus could constitute a general phenomenon remains unknown. Here, we provide new evidence that such fluctuating activity is also evoked by multiple stimuli in visual areas responsible for processing visual motion (middle temporal visual area, MT), and faces (middle fundus and anterolateral face patches in inferotemporal cortex – areas MF and AL), thus extending the scope of circumstances in which fluctuating activity is observed. Furthermore, consistent with our previous results in the early visual area V1, MT exhibits fluctuations between the representations of two stimuli when these form distinguishable objects but not when they fuse into one perceived object, suggesting that fluctuating activity patterns may underlie visual object formation. Taken together, these findings point toward an updated model of how the brain preserves sensory information about multiple stimuli for subsequent processing and behavioral action.

Published
2024
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17. Racial/Ethnic Disparities in Alzheimer’s Disease Risk: Role of Exposure to Ambient Fine Particles

Author

Younan, Diana, Wang, Xinhui, Gruenewald, Tara, Gatz, Margaret, Serre, Marc L, Vizuete, William, Braskie, Meredith N, Woods, Nancy F, Kahe, Ka, Garcia, Lorena, Lurmann, Fred, Manson, JoAnn E, Chui, Helena C, Wallace, Robert B, Espeland, Mark A, and Chen, Jiu-Chiuan

Subjects
Dementia, Behavioral and Social Science, Alzheimer's Disease, Aging, Mental Health, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Neurosciences, Acquired Cognitive Impairment, Brain Disorders, Neurodegenerative, Cardiovascular, Prevention, Clinical Research, Good Health and Well Being, Aged, Air Pollutants, Air Pollution, Alzheimer Disease, Environmental Exposure, Female, Humans, Particulate Matter, Prospective Studies, Air pollution, Epidemiology, Incidence, Clinical Sciences, Gerontology
Abstract

BackgroundWhether racial/ethnic disparities in Alzheimer's disease (AD) risk may be explained by ambient fine particles (PM2.5) has not been studied.MethodWe conducted a prospective, population-based study on a cohort of Black (n = 481) and White (n = 6 004) older women (aged 65-79) without dementia at enrollment (1995-1998). Cox models accounting for competing risk were used to estimate the hazard ratio (HR) for racial/ethnic disparities in AD (1996-2010) defined by Diagnostic and Statistical Manual of Mental Disorders, 4th edition and the association with time-varying annual average PM2.5 (1999-2010) estimated by spatiotemporal model.ResultsOver an average follow-up of 8.3 (±3.5) years with 158 incident cases (21 in Black women), the racial disparities in AD risk (range of adjusted HRBlack women = 1.85-2.41) observed in various models could not be explained by geographic region, age, socioeconomic characteristics, lifestyle factors, cardiovascular risk factors, and hormone therapy assignment. Estimated PM2.5 exposure was higher in Black (14.38 ± 2.21 µg/m3) than in White (12.55 ± 2.76 µg/m3) women, and further adjustment for the association between PM2.5 and AD (adjusted HRPM2.5 = 1.18-1.28) slightly reduced the racial disparities by 2%-6% (HRBlack women = 1.81-2.26). The observed association between PM2.5 and AD risk was ~2 times greater in Black (HRPM2.5 = 2.10-2.60) than in White (HRPM2.5 = 1.07-1.15) women (range of interaction ps:

Published
2022

19. Characterization of Mild Cognitive Impairment and Dementia among Community-Dwelling Mexican Americans and Non-Hispanic Whites.

Author

O'Bryant, Sid E, Petersen, Melissa, Hall, James, Johnson, Leigh A, Barber, Robert, Phillips, Nicole, Braskie, Meredith N, Yaffe, Kristine, Rissman, Robert, and Toga, Arthur

Subjects
Biomedical and Clinical Sciences, Biological Psychology, Clinical Sciences, Neurosciences, Psychology, Brain Disorders, Acquired Cognitive Impairment, Dementia, Alzheimer's Disease, Aging, Clinical Research, Depression, Mental Health, Neurodegenerative, Behavioral and Social Science, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Prevention, Neurological, Male, Humans, Mexican Americans, Independent Living, White People, Risk Factors, Cognitive Dysfunction, Alzheimer Disease, Alzheimer's disease, health disparities, Hispanic, mild cognitive impairment, HABS-HD Study Team, Alzheimer’s disease, Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences, Biological psychology
Abstract

BackgroundDespite tremendous advancements in the field, our understanding of mild cognitive impairment (MCI) and Alzheimer's disease (AD) among Mexican Americans remains limited.ObjectiveThe aim of this study was to characterize MCI and dementia among Mexican Americans and non-Hispanic whites.MethodsBaseline data were analyzed from n = 1,705 (n = 890 Mexican American; n = 815 non-Hispanic white) participants enrolled in the Health and Aging Brain Study-Health Disparities (HABS-HD).ResultsAmong Mexican Americans, age (OR = 1.07), depression (OR = 1.09), and MRI-based neurodegeneration (OR = 0.01) were associated with dementia, but none of these factors were associated with MCI. Among non-Hispanic whites, male gender (OR = 0.33), neighborhood deprivation (OR = 1.34), depression (OR = 1.09), and MRI-based neurodegeneration (OR = 0.03) were associated with MCI, while depression (OR = 1.09) and APOEɛ4 genotype (OR = 4.38) were associated with dementia.ConclusionFindings from this study revealed that the demographic, clinical, sociocultural and biomarker characteristics of MCI and dementia are different among Mexican Americans as compared to non-Hispanic whites.

Published
2022

20. Vascular risk profile and white matter hyperintensity volume among Mexican Americans and non‐Hispanic Whites: The HABLE study

Author

King, Kevin S, Vintimilla, Raul M, Braskie, Meredith N, Wei, Ke, Hall, James R, Borzage, Matt, Johnson, Leigh A, Yaffe, Kristine, Toga, Arthur W, O'Bryant, Sid E, and Team, for the HABLE Study

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Cardiovascular, Biomedical Imaging, Clinical Research, Hematology, Neurosciences, Prevention, Aging, cerebral microvascular disease, diabetes, Hispanic, leukoaraiosis, white matter hyperintensity, HABLE Study Team, Genetics, Biological psychology
Abstract

IntroductionAmong vascular risk factors we hypothesized that an increased prevalence of diabetes in Hispanics would be associated with greater white matter hyperintensity (WMH) volume, which may contribute to cognitive decline.MethodsA total of 1318 participants (60% female; 49% Hispanic, 51% non-Hispanic White; age 66.2 ± 8.9 years) underwent clinical evaluation and brain magnetic resonance imaging (MRI). WMH volume associations were assessed with age, sex, and ethnicity and then with vascular risk factors in a selective regression model.ResultsWMH volume was greater with older age (P

Published
2022

21. Chain breaking in the statistical mechanical constitutive theory of polymer networks

Author

Buche, Michael R. and Silberstein, Meredith N.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

Elastomers are used in a wide range of applications because of their large strain to failure, low density, and tailorable stiffness and toughness. The mechanical behavior of elastomers derives mainly from the entropic elasticity of the underlying network of polymer chains. Elastomers under large deformation experience bonds breaking within the polymer network. This breaking of chains damages the network, can lead to material failure, and can be utilized as an energy dissipation mechanism. In the case of reversible bonds, broken chains may reform and heal the damage in the network. If the reversible bonds are dynamic, chains constantly break and reform and create a transient network. A fundamental constitutive theory is developed to model the mechanics of these polymer networks. A statistical mechanical derivation is conducted to yield a framework that takes in an arbitrary single-chain model (a Hamiltonian) and outputs: the single-chain mechanical response, the breaking and reforming kinetics, the equilibrium distribution of chains in the network, and the partial differential equations governing the deformation-coupled network evolution. This statistical mechanical framework is then brought into the continuum scale by using macroscopic thermodynamic constitutive theory to obtain a constitutive relation for the Cauchy stress. The potential-supplemented freely jointed chain ($u$FJC) model is introduced, and a parametric study of its mechanical response and breaking kinetics is provided. This single-chain model is then implemented within the constitutive framework, which we specialize and apply in two exemplary cases: the mechanical response and irreversible breakdown of a multinetwork elastomer, and the mechanical response of a dual crosslink gel. After providing a parametric study of the general constitutive model, we apply it to a hydrogel with reversible metal-coordination crosslinks., Comment: Preprint submitted to Journal of the Mechanics and Physics of Solids. For associated Python implementation, see https://doi.org/10.5281/zenodo.4699349

Published
2021
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23. Mitochondrial DNA variation in Alzheimer’s disease reveals a unique microprotein called SHMOOSE

Author

Miller, Brendan, Kim, Su-Jeong, Mehta, Hemal H., Cao, Kevin, Kumagai, Hiroshi, Thumaty, Neehar, Leelaprachakul, Naphada, Braniff, Regina Gonzalez, Jiao, Henry, Vaughan, Joan, Diedrich, Jolene, Saghatelian, Alan, Arpawong, Thalida E., Crimmins, Eileen M., Ertekin-Taner, Nilüfer, Tubi, Meral A., Hare, Evan T., Braskie, Meredith N., Décarie-Spain, Léa, Kanoski, Scott E., Grodstein, Francine, Bennett, David A., Zhao, Lu, Toga, Arthur W., Wan, Junxiang, Yen, Kelvin, and Cohen, Pinchas

Published
2023
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24. Toward standardization, harmonization, and integration of social determinants of health data: A Texas Clinical and Translational Science Award institutions collaboration – CORRIGENDUM

Author

Catherine K. Craven, Linda Highfield, Mujeeb Basit, Elmer V. Bernstam, Byeong Yeob Choi, Robert L. Ferrer, Jonathan A. Gelfond, Sandi L. Pruitt, Vaishnavi Kannan, Paula K. Shireman, Heidi Spratt, Kayla J. Torres Morales, Chen-Pin Wang, Zhan Wang, Meredith N. Zozus, Edward C. Sankary, and Susanne Schmidt

Subjects
Medicine
Published
2024
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25. Statistical mechanical constitutive theory of polymer networks: The inextricable links between distribution, behavior, and ensemble

Author

Buche, Michael R. and Silberstein, Meredith N.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

A fundamental theory is presented for the mechanical response of polymer networks undergoing large deformation which seamlessly integrates statistical mechanical principles with macroscopic thermodynamic constitutive theory. Our formulation permits the consideration of arbitrary polymer chain behaviors when interactions among chains may be neglected. This careful treatment highlights the naturally occurring correspondence between single-chain mechanical behavior and the equilibrium distribution of chains in the network, as well as the correspondences between different single-chain thermodynamic ensembles. We demonstrate these important distinctions with the extensible freely jointed chain model. This statistical mechanical theory is then extended to the continuum scale, where we utilize traditional macroscopic constitutive theory to ultimately retrieve the Cauchy stress in terms of the deformation and polymer network statistics. Once again using the extensible freely jointed chain model, we illustrate the importance of the naturally occurring statistical correspondences through their effects on the stress-stretch response of the network. We additionally show that these differences vanish when the number of links in the chain becomes sufficiently large enough, and discuss why certain methods perform better than others before this limit is reached.

Published
2020
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26. Racial/Ethnic Disparities in Alzheimer's Disease Risk: Role of Exposure to Ambient Fine Particles.

Author

Younan, Diana, Wang, Xinhui, Gruenewald, Tara, Gatz, Margaret, Serre, Marc L, Vizuete, William, Braskie, Meredith N, Woods, Nancy F, Kahe, Ka, Garcia, Lorena, Lurmann, Fred, Manson, JoAnn E, Chui, Helena C, Wallace, Robert B, Espeland, Mark A, and Chen, Jiu-Chiuan

Subjects
Air pollution, Dementia, Epidemiology, Incidence, Gerontology, Clinical Sciences
Abstract

BackgroundWhether racial/ethnic disparities in Alzheimer's disease (AD) risk may be explained by ambient fine particles (PM2.5) has not been studied.MethodsWe conducted a prospective, population-based study on a cohort of Black (n=481) and White (n=6004) older women (aged 65-79) without dementia at enrollment (1995-98). Cox models accounting for competing risk were used to estimate the hazard ratio (HR) for racial/ethnic disparities in AD (1996-2010) defined by DSM-IV and the association with time-varying annual average PM2.5 (1999-2010) estimated by spatiotemporal model.ResultsOver an average follow-up of 8.3 (±3.5) years with 158 incident cases (21 in Black women), the racial disparities in AD risk (range of adjusted HRBlack women = 1.85-2.41) observed in various models could not be explained by geographic region, age, socioeconomic characteristics, lifestyle factors, cardiovascular risk factors, and hormone therapy assignment. Estimated PM2.5 exposure was higher in Black (14.38±2.21 µg/m 3) than in White (12.55±2.76 µg/m 3) women, and further adjustment for the association between PM2.5 and AD (adjusted HRPM2.5 = 1.18-1.28) slightly reduced the racial disparities by 2-6% (HRBlack women = 1.81-2.26). The observed association between PM2.5 and AD risk was ~2 times greater in Black (HRPM2.5 = 2.10-2.60) than in White (HRPM2.5 = 1.07-1.15) women (range of interaction Ps:

Published
2021

28. The Health & Aging Brain among Latino Elders (HABLE) study methods and participant characteristics

Author

O'Bryant, Sid E, Johnson, Leigh A, Barber, Robert C, Braskie, Meredith N, Christian, Bradley, Hall, James R, Hazra, Nalini, King, Kevin, Kothapalli, Deydeep, Large, Stephanie, Mason, David, Matsiyevskiy, Elizabeth, McColl, Roderick, Nandy, Rajesh, Palmer, Raymond, Petersen, Melissa, Philips, Nicole, Rissman, Robert A, Shi, Yonggang, Toga, Arthur W, Vintimilla, Raul, Vig, Rocky, Zhang, Fan, Yaffe, Kristine, and Team, for the HABLE Study

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Alzheimer's Disease, Aging, Dementia, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Biomedical Imaging, Prevention, Neurodegenerative, Acquired Cognitive Impairment, Neurosciences, Brain Disorders, Clinical Research, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies, Neurological, Alzheimer's disease, amyloid, biomarkers, diversity, Hispanic, Mexican American, mild cognitive impairment, neurodegeneration, HABLE Study Team, Genetics, Biological psychology
Abstract

IntroductionMexican Americans remain severely underrepresented in Alzheimer's disease (AD) research. The Health & Aging Brain among Latino Elders (HABLE) study was created to fill important gaps in the existing literature.MethodsCommunity-dwelling Mexican Americans and non-Hispanic White adults and elders (age 50 and above) were recruited. All participants underwent comprehensive assessments including an interview, functional exam, clinical labs, informant interview, neuropsychological testing, and 3T magnetic resonance imaging (MRI) of the brain. Amyloid and tau positron emission tomography (PET) scans were added at visit 2. Blood samples were stored in the Biorepository.ResultsData was examined from n = 1705 participants. Significant group differences were found in medical, demographic, and sociocultural factors. Cerebral amyloid and neurodegeneration imaging markers were significantly different between Mexican Americans and non-Hispanic Whites.DiscussionThe current data provide strong support for continued investigations that examine the risk factors for and biomarkers of AD among diverse populations.

Published
2021

29. MRI biomarkers of small vessel disease and cognition: A cross‐sectional study of a cognitively normal Mexican American cohort

Author

Vintimilla, Raul, Hall, James, King, Kevin, Braskie, Meredith N, Johnson, Leigh, Yaffe, Kristine, Toga, Arthur W, O'Bryant, Sid, and Team, The Health and Aging Brain Study Study

Subjects
Biological Psychology, Psychology, Clinical Research, Acquired Cognitive Impairment, Neurosciences, Aging, Neurodegenerative, Basic Behavioral and Social Science, Behavioral and Social Science, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Brain Disorders, Dementia, Alzheimer's Disease, Neurological, cardiovascular risk factors, cerebral small vessel disease, cognition, Mexican American, MRI, Health and Aging Brain Study (HABS‐HD) Study Team, Genetics, Biological psychology
Abstract

BackgroundThe current project sought to evaluate the impact that white matter hyperintensities (WMH) have on executive function in cognitively normal Mexican Americans, an underserved population with onset and more rapid progression of dementia.MethodsData from 515 participants (360 female) enrolled in the Health and Aging Brain Study: Health Disparities project were analyzed. Participants underwent clinical evaluation, cognitive testing, and a brain MRI. Linear regression was used to predict the effect of total WMH volume on cognitive test scores. Age, sex, and education were entered as covariates.ResultsRegression analysis showed that WMH volume significantly predicted executive function. WMH also predicted global cognition and attention scores, although not significantly after adjusting for age.ConclusionIn this sample of cognitively normal Mexican Americans, we found that WMH volume was associated with lower scores in a measure of executive function, after accounting for age, sex, and education.

Published
2021

30. The Transformational President: A Case Study Providing a Framework for Selecting the Right Leader to Turnaround a Private, Non-Profit University

Author

Palmer, Meredith N.

Abstract

Tuition-driven higher education institutions are continually faced with financial and enrollment challenges and other associated challenges exacerbated by the COVID-19 pandemic. This action research case study sought to provide a blueprint for private, non-profit higher education institutions to use as a guide in the presidential search process for a transformational president to lead an institutional turnaround. Institutions utilizing transformational leadership approaches at similarly situated universities realized turnaround success within this leadership model. Through the triangulation of the data sources, the board of trustee chairs, trustees serving on the presidential search committee, and the selected university presidents provided reliable and valid qualitative data through one-on-one interviews in responding to the research questions. Each data source provided a unique perspective on the characteristics, skills, behaviors, and professional successes required by the leader to direct, manage, and lead an institutional turnaround. The findings showed that the governing board sought a leader that possesses, behaves, and practices transformational, level 5, servant leadership to lead their universities to a turnaround. The universities sought turnarounds to stabilize finances, increase enrollment and endowment, and make organizational and departmental changes. The findings aligned with the research in that the turnaround leader must have a shared vision and plan embraced by a cohesive senior leadership team and supportive community to be successful in the turnaround. In addition, the board and presidents agreed that the strategic planning process was of utmost importance as the presidency began and forged forward. Lastly, the results identified the significance of the president building a culture of giving at the university, which included critical work in improving town-gown relationships. A vital follow-up study conducted at least ten years from the onset of the transition period would provide a strong indicator that a revitalization occurred at the institution. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published
2022

31. Associations of ApoE4 status and DHA supplementation on plasma and CSF lipid profiles and entorhinal cortex thickness

Author

Bantugan, Mikaila Ann, Xian, Haotian, Solomon, Victoria, Lee, Mitchell, Cai, Zhiheng, Wang, Shaowei, Duro, Marlon V., Kerman, Bilal E., Fonteh, Alfred, Meuret, Cristiana, Li, Meitong, Braskie, Meredith N., McIntire, Laura Beth J., Jurin, Lucia, Oberlin, Sarah, Evans, James, Davis, Roderick, Mack, Wendy J., Abdullah, Laila, and Yassine, Hussein N.

Published
2023
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38. Recent insights into the structure and function of coronavirus ribonucleases

Author

Meredith N. Frazier, Amanda A. Riccio, Isha M. Wilson, William C. Copeland, and Robin E. Stanley

Subjects
coronaviruses, drug design, endonucleases, exonucleases, SARS‐CoV‐2, structural biology, Biology (General), QH301-705.5
Abstract

Coronaviruses use approximately two‐thirds of their 30‐kb genomes to encode nonstructural proteins (nsps) with diverse functions that assist in viral replication and transcription, and evasion of the host immune response. The SARS‐CoV‐2 pandemic has led to renewed interest in the molecular mechanisms used by coronaviruses to infect cells and replicate. Among the 16 Nsps involved in replication and transcription, coronaviruses encode two ribonucleases that process the viral RNA—an exonuclease (Nsp14) and an endonuclease (Nsp15). In this review, we discuss recent structural and biochemical studies of these nucleases and the implications for drug discovery.

Published
2022
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39. Associations of ApoE4 status and DHA supplementation on plasma and CSF lipid profiles and entorhinal cortex thickness

Author

Mikaila Ann Bantugan, Haotian Xian, Victoria Solomon, Mitchell Lee, Zhiheng Cai, Shaowei Wang, Marlon V. Duro, Bilal E. Kerman, Alfred Fonteh, Cristiana Meuret, Meitong Li, Meredith N. Braskie, Laura Beth J. McIntire, Lucia Jurin, Sarah Oberlin, James Evans, Roderick Davis, Wendy J. Mack, Laila Abdullah, and Hussein N. Yassine

Subjects
ApoE, Lipids, Brain, Alzheimer’s, Lipidomics, Biochemistry, QD415-436
Abstract

Apolipoprotein ε allele 4 (APOE4) influences the metabolism of polyunsaturated fatty acids (PUFAs) such as docosahexaenoic acid (DHA). The entorhinal cortex (EC) in the brain is affected early in Alzheimer's disease and is rich in DHA. The purpose of this study is to identify the effect of APOE4 and DHA lipid species on the EC. Plasma and cerebrospinal fluid (CSF) lipidomic measurements were obtained from the DHA Brain Delivery Pilot, a randomized clinical trial of DHA supplementation (n = 10) versus placebo (n = 12) for six months in nondemented older adults stratified by APOE4 status. Wild-type C57B6/J mice were fed a high or low DHA diet for 6 months followed by plasma and brain lipidomic analysis. Levels of phosphatidylcholine DHA (PC 38:6) and cholesterol ester DHA (CE 22:6) had the largest increases in CSF following supplementation (P < 0.001). DHA within triglyceride (TG) lipids in CSF strongly correlated with corresponding plasma TG lipids, and differed by APOE4, with carriers having a lower increase than noncarriers. Changes in plasma PC DHA had the strongest association with changes in EC thickness in millimeters, independent of APOE4 status (P = 0.007). In mice, a high DHA diet increased PUFAs within brain lipids. Our findings demonstrate an exchange of DHA at the CSF-blood barrier and into the brain within all lipid species with APOE having the strongest effect on DHA-containing TGs. The correlation of PC DHA with EC suggests a functional consequence of DHA accretion in high density lipoprotein for the brain.

Published
2023
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40. Enabling Room-Temperature Mechanochromic Activation in a Glassy Polymer: Synthesis and Characterization of Spiropyran Polycarbonate

Author

Vidavsky, Yuval, Yang, Steven J, Abel, Brooks A, Agami, Iris, Diesendruck, Charles E, Coates, Geoffrey W, and Silberstein, Meredith N

Subjects
Chemical Sciences, General Chemistry
Abstract

Mechanochromic functionality realized through force-responsive molecules (i.e., mechanophores) has great potential for spatially localized damage warning in polymers. However, in structural plastics, for which damage warning is most critical, this approach has had minimal success because brittle failure typically precedes detectable color change. Herein, we report on the room-temperature mechanochromic activation of spiropyran in high Tg bisphenol A polycarbonate. The mechanochromic functionality was introduced by polymerization of dihydroxyspiropyran as a comonomer while retaining the excellent thermomechanical properties of the polycarbonate. The mechanochromic behavior is thoroughly evaluated in response to changes in stress, deformation, and time, providing new insights regarding how loading history controls stress accumulation in polymer chains. In addition, a new method to incorporate mechanochromic functionality in structures without dispersing costly mechanophores in the bulk is demonstrated by using a mechanochromic laminate. The room-temperature mechanochromic activation in a structural polymer combined with the new and efficient preparation and processing methods bring us closer to the application of mechanochromic smart materials.

Published
2019

41. Measuring and controlling medical record abstraction (MRA) error rates in an observational study

Author

Maryam Y. Garza, Tremaine Williams, Sahiti Myneni, Susan H. Fenton, Songthip Ounpraseuth, Zhuopei Hu, Jeannette Lee, Jessica Snowden, Meredith N. Zozus, Anita C. Walden, Alan E. Simon, Barbara McClaskey, Sarah G. Sanders, Sandra S. Beauman, Sara R. Ford, Lacy Malloch, Amy Wilson, Lori A. Devlin, and Leslie W. Young

Subjects
Medical record abstraction, Data quality, Clinical research, Clinical data management, Data collection, Medicine (General), R5-920
Abstract

Abstract Background Studies have shown that data collection by medical record abstraction (MRA) is a significant source of error in clinical research studies relying on secondary use data. Yet, the quality of data collected using MRA is seldom assessed. We employed a novel, theory-based framework for data quality assurance and quality control of MRA. The objective of this work is to determine the potential impact of formalized MRA training and continuous quality control (QC) processes on data quality over time. Methods We conducted a retrospective analysis of QC data collected during a cross-sectional medical record review of mother-infant dyads with Neonatal Opioid Withdrawal Syndrome. A confidence interval approach was used to calculate crude (Wald’s method) and adjusted (generalized estimating equation) error rates over time. We calculated error rates using the number of errors divided by total fields (“all-field” error rate) and populated fields (“populated-field” error rate) as the denominators, to provide both an optimistic and a conservative measurement, respectively. Results On average, the ACT NOW CE Study maintained an error rate between 1% (optimistic) and 3% (conservative). Additionally, we observed a decrease of 0.51 percentage points with each additional QC Event conducted. Conclusions Formalized MRA training and continuous QC resulted in lower error rates than have been found in previous literature and a decrease in error rates over time. This study newly demonstrates the importance of continuous process controls for MRA within the context of a multi-site clinical research study.

Published
2022
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47. Computational Study of Amplitude-to-Phase Conversion in a Modified Uni-Traveling Carrier (MUTC) Photodetector

Author

Hu, Yue, Menyuk, Curtis R., Xie, Xiaojun, Hutchinson, Meredith N., Urick, Vincent J., Campbell, Joe C., and Williams, Keith J.

Subjects
Physics - Instrumentation and Detectors
Abstract

We calculate the amplitude-to-phase (AM-to-PM) noise conversion in a modified unitraveling carrier (MUTC) photodetector. We obtained two nulls as measured in the experiments, and we explain their origin. The nulls appear due to the transit time variation when the average photocurrent varies, and the transit time variation is due to the change of electron velocity when the average photocurrent varies. We also show that the AM-to-PM conversion coefficient depends only on the pulse energy and is independent of the pulse duration when the duration is less than 500 fs. When the pulse duration is larger than 500 fs, the nulls of the AM-to-PM conversion coefficient shift to larger average photocurrents. This shift occurs because the increase in that pulse duration leads to a decrease in the peak photocurrent. The AM-to-PM noise conversion coefficient changes as the repetition rate varies. However, the repetition rate does not change the AM-to-PM conversion coefficient as a function of input optical pulse energy. The repetition rate changes the average photocurrent. We propose a design that would in theory improve the performance of the device., Comment: 10 pages

Published
2017

49. Ion‐Specific Interactions Engender Dynamic and Tailorable Properties in Biomimetic Cationic Polyelectrolytes.

Author

Aubrecht, Filip J., Orme, Kennalee, Saul, Aiden, Cai, Hongyi, Ranathunge, Tharindu A., Silberstein, Meredith N., and McDonald, Benjamin R.

Subjects
VISCOELASTIC materials, PROPERTIES of matter, POLYELECTROLYTES, PHASE separation, INTERMOLECULAR interactions
Abstract

Biomaterials such as spider silk and mussel byssi are fabricated by the dynamic manipulation of intra‐ and intermolecular biopolymer interactions. Organisms modulate solution parameters, such as pH and ion co‐solute concentration, to effect these processes. These biofabrication schemes provide a conceptual framework to develop new dynamic and responsive abiotic soft material systems. Towards these ends, the chemical diversity of readily available ionic compounds offers a broad palette to manipulate the physicochemical properties of polyelectrolytes via ion‐specific interactions. In this study, we show for the first time that the ion‐specific interactions of biomimetic polyelectrolytes engenders a variety of phase separation behaviors, creating dynamic thermal‐ and ion‐responsive soft matter that exhibits a spectrum of physical properties, spanning viscous fluids to viscoelastic and viscoplastic solids. These ion‐dependent characteristics are further rendered general by the merger of lysine and phenylalanine into a single, amphiphilic vinyl monomer. The unprecedented breadth, precision, and dynamicity in the reported ion‐dependent phase behaviors thus introduce a broad array of opportunities for the future development of responsive soft matter; properties that are poised to drive developments in critical areas such as chemical sensing, soft robotics, and additive manufacturing. [ABSTRACT FROM AUTHOR]

Published
2024
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