Your search keyword '"Miller, Eric L."' showing total 394 results

351. (Invited) Overcoming Catalytic Material Challenges for Advanced Water Splitting Technologies

Author

Peterson, David, Miller, Eric L., Randolph, Katie, and Vickers, James

Abstract

The emergence of hydrogen and fuel cell technologies offers the world important and potentially transformative environmental and energy security benefits. In recent years, research sponsored by the US Department of Energy’s (DOE) Fuel Cell Technologies Office (FCTO) has made significant contributions to the development of these technologies. With fuel cell electric vehicles beginning to be introduced to the market, enabling technologies for the widespread production of affordable hydrogen are becoming increasingly important. One of the more versatile hydrogen production pathways is based on splitting water via either electrolytic, photoelectrochemical, or thermochemical routes. For these advanced water splitting (AWS) technologies, there are tradeoffs amongst efficiency, durability, and cost at the materials, device, and system levels that need to be balanced for low cost hydrogen production. Recent advances have been made in catalytic materials for AWS to improve these attributes; however, further developments, from new materials to scale-up of state-of-the-art (SOA) materials, are required to reach large scale technoeconomic viability. Research innovations to advance the SOA in AWS materials are being facilitated by the DOE “HydroGEN” Energy Materials Network (EMN) consortium. An overview of FCTO’s Hydrogen Production Program activities with a focus on catalysts for advanced water splitting technologies and the HydroGEN consortium will be provided.

Published

2017

352. Native American tribal websites.

Author

Miller, Eric L.

Subjects

*NATIVE Americans, *WEBSITES, *COMPUTER network resources

Abstract

Lists some web sites maintained by Native American nations. Types of information offered by the web sites; Web site addresses; Includes Apache; Blackfeet; Cherokee; Brothertown Indians.

Published

1999

353. Microbiological quality and antimicrobial resistance characterization of Salmonella spp. in fresh milk value chains in Ghana.

Author

Parry-Hanson Kunadu, Angela, Holmes, Mark, Miller, Eric L., and Grant, Andrew J.

Subjects

*MILK microbiology, *SALMONELLA, *MILK consumption, *CEPHALOSPORINS, *DRUG resistance, *HEAT treatment of milk

Abstract

Consumer perception of poor hygiene of fresh milk products is a major barrier to promotion of milk consumption as an intervention to alleviate the burden of malnutrition in Ghana. Fresh milk is retailed raw, boiled, or processed into unfermented cheese and spontaneously fermented products in unlicensed outlets. In this study, we have determined microbiological quality of informally retailed fresh milk products and characterized the genomic diversity and antimicrobial resistance (AMR) patterns of non-typhoidal Salmonella (NTS) in implicated products. A total of 159 common dairy products were purchased from five traditional milk markets in Accra. Samples were analysed for concentrations of aerobic bacteria, total and fecal coliforms, Escherichia coli , staphylococci, lactic acid bacteria and yeast and moulds. The presence of Salmonella , E . coli O157:H7, Listeria monocytogenes and Staphylococcus aureus were determined. AMR of Salmonella against 18 antibiotics was experimentally determined. Genome sequencing of 19 Salmonella isolates allowed determination of serovars, antigenic profiles, prediction of AMR genes in silico and inference of phylogenetic relatedness between strains. Raw and heat-treated milk did not differ significantly in overall bacterial quality ( P  = 0.851). E . coli O157:H7 and Staphylococcus aureus were present in 34.3% and 12.9% of dairy products respectively. Multidrug resistant (MDR) Salmonella enterica serovars Muenster and Legon were identified in 11.8% and 5.9% of unfermented cheese samples respectively. Pan genome analysis revealed a total of 3712 core genes. All Salmonella strains were resistant to Trimethoprim/Sulfamethoxazole, Cefoxitin, Cefuroxime Axetil and Cefuroxime. Resistance to Chloramphenicol (18%) and Ciprofloxacin (100%), which are first line antibiotics used in treatment of NTS bacteremia in Ghana, was evident. AMR was attributed to presence and/or mutations in the following genes: golS , sdiA for cephalosporins, aac(6′)-Iy , ant(9) for aminoglycosides, mdtK , gyrA , gyrB , parC , parE for quinolones and cat1 , cat4 for phenicols. Phylogenetic analysis based on accessory genes clustered S . Legon strains separately from the S . Muenster strains. These strains were from different markets suggesting local circulation of related strains. Our study justifies consumer resistance to consumption of unripened soft cheese without further lethal heat treatment, and provides evidence that supports the Ghana Health Service recommendation for use of 3rd generation cephalosporins for the treatment of MDR NTS infections. [ABSTRACT FROM AUTHOR]

Published

2018

354. Improved current collection in WO3:Mo/WO3 bilayer photoelectrodes.

Author

Gaillard, Nicolas, Cole, Brian, Kaneshiro, Jess, Miller, Eric L., Marsen, Bjorn, Weinhardt, Lothar, Bär, Marcus, Heske, Clemens, Kwang-Soon Ahn, Yanfa Yan, and Al-Jassim, Mowafak M.

Subjects

MOLYBDENUM, TUNGSTEN, SPUTTERING (Physics), PROPERTIES of matter, PHOTOELECTROCHEMISTRY

Abstract

We report on the incorporation of molybdenum into tungsten oxide by co-sputtering and its effect on solar-powered photoelectrochemical (PEC) water splitting. Our study shows that Mo incorporation in the bulk of the film (WO3:Mo) results in poor PEC performance when compared with pure WO3, most likely due to defects that trap photo-generated charge carriers. However, when a WO3:Mo/WO3 bilayer electrode is used, a 20% increase of the photocurrent density at 1.6 V versus saturated calomel reference electrode is observed compared with pure WO3. Morphological and microstructural analysis of the WO3:Mo/WO3 bilayer structure reveals that it is formed by coherent growth of the WO3:Mo top layer on the WO3 bottom layer. This effect allows an optimization of the electronic surface structure of the electrode while maintaining good crystallographic properties in the bulk. [ABSTRACT FROM AUTHOR]

Published

2010

355. REVIEW: Accelerating materials development for photoelectrochemical hydrogen production: Standards for methods, definitions, and reporting protocols.

Author

Zhebo Chen, Jaramillo, Thomas F., Deutsch, Todd G., Kleiman-Shwarsctein, Alan, Forman, Arnold J., Gaillard, Nicolas, Garland, Roxanne, Takanabe, Kazuhiro, Heske, Clemens, Sunkara, Mahendra, McFarland, Eric W., Domen, Kazunari, Miller, Eric L., Turner, John A., and Dinh, Huyen N.

Subjects

HYDROGEN, WATER, PHOTOELECTROCHEMISTRY, RENEWABLE natural resources, SYSTEM analysis

Abstract

Photoelectrochemical (PEC) water splitting for hydrogen production is a promising technology that uses sunlight and water to produce renewable hydrogen with oxygen as a by-product. In the expanding field of PEC hydrogen production, the use of standardized screening methods and reporting has emerged as a necessity. This article is intended to provide guidance on key practices in characterization of PEC materials and proper reporting of efficiencies. Presented here are the definitions of various efficiency values that pertain to PEC, with an emphasis on the importance of solar-to-hydrogen efficiency, as well as a flow chart with standard procedures for PEC \characterization techniques for planar photoelectrode materials (i.e., not suspensions of particles) with a focus on single band gap absorbers. These guidelines serve as a foundation and prelude to a much more complete and in-depth discussion of PEC techniques and procedures presented elsewhere. [ABSTRACT FROM AUTHOR]

Published

2010

356. Photoelectrochemical production of hydrogen: Engineering loss analysis

Author

Rocheleau, Richard E. and Miller, Eric L.

Published

1997

357. Photoelectrolysis of water using thin copper gallium diselenide electrodes

Author

Marsen, Bjorn, Cole, Brian, and Miller, Eric L.

Subjects

*COPPER industry, *ELECTRIC resistors, *SPECTRAL sensitivity, *ATMOSPHERIC circulation

Abstract

Abstract: Thin CuGaSe2 films were deposited by vacuum co-evaporation and characterized for their structure, properties and performance as hydrogen-evolving photoelectrodes. The 0.9μm thick films were nearly stoichiometric with very slight copper deficiency and showed polycrystalline structure with grain sizes of tens of nanometers. An electrode based on such a film was demonstrated operating with outdoor 1-sun photocurrent of up to 13mA/cm2. Spectral response data show significant incident-photon-to-current efficiency throughout the visible spectrum, peaking at 63% at 640nm. Photocurrent output under simulated 1-sun Air Mass 1.5 light was stable over 4h. Unassisted water-splitting is not possible due to high band edge positions, but operation in tandem configuration with a suitable bottom junction is feasible. [Copyright &y& Elsevier]

Published

2008

358. Influence of sputter oxygen partial pressure on photoelectrochemical performance of tungsten oxide films

Author

Marsen, Bjorn, Cole, Brian, and Miller, Eric L.

Subjects

*TUNGSTEN oxides, *THIN films, *PHOTOVOLTAIC cells, *SOLAR cells

Abstract

Abstract: Polycrystalline tungsten oxide films of 1–1.2μm thickness were prepared by reactive sputtering at elevated substrate temperature (270°C) and under different oxygen partial pressures in the range from 0.8 to 2.1mTorr. At the lowest partial pressure the films were substoichiometric, showed increased disorder, and exhibited photocurrents of 0.6mA/cm2 at 1.8V vs SCE in 0.33M H3PO4. At partial pressures of 1.4mTorr and greater, stoichiometric WO3 films were produced which exhibited photocurrents of 2.4mA/cm2 at 1.8V vs SCE. It has been determined that the photoelectrochemical performance of slightly substoichiometric films is adversely affected by changes in optical properties, while the photocurrents of severely substoichiometric films suffer additionally from poor carrier collection. [Copyright &y& Elsevier]

Published

2007

359. An inner–outer iterative method for edge preservation in image restoration and reconstruction.

Author

Gazzola, Silvia, Kilmer, Misha E, Nagy, James G, Semerci, Oguz, and Miller, Eric L

Subjects

*DIGITAL preservation, *IMAGE reconstruction, *REGULARIZATION parameter, *X-ray imaging, *ALGORITHMS, *IMAGE enhancement (Imaging systems), *IMAGE reconstruction algorithms

Abstract

We present a new inner–outer iterative algorithm for edge enhancement in imaging problems. At each outer iteration, we formulate a Tikhonov-regularized problem where the penalization is expressed in the two-norm and involves a regularization operator designed to improve edge resolution as the outer iterations progress, through an adaptive process. An efficient hybrid regularization method is used to project the Tikhonov-regularized problem onto approximation subspaces of increasing dimensions (inner iterations), while conveniently choosing the regularization parameter (by applying well-known techniques, such as the discrepancy principle or the -curve criterion, to the projected problem). This procedure results in an automated algorithm for edge recovery that does not involve regularization parameter tuning by the user, nor repeated calls to sophisticated optimization algorithms, and is therefore particularly attractive from a computational point of view. A key to the success of the new algorithm is the design of the regularization operator through the use of an adaptive diagonal weighting matrix that effectively enforces smoothness only where needed. We demonstrate the value of our approach on applications in x-ray CT image reconstruction and in image deblurring, and show that it can be computationally much more attractive than other well-known strategies for edge preservation, while providing solutions of greater or equal quality. [ABSTRACT FROM AUTHOR]

Published

2020

360. A marine-derived fatty acid targets the cell membrane of Gram-positive bacteria.

Author

Upender, Isha, Yoshida, Olivia, Schrecengost, Anna, Ranson, Hilary, Qihao Wu, Rowley, David C., Kishore, Shreya, Cywes, Claire, Miller, Eric L., and Whalen, Kristen E.

Abstract

The rapid evolution of antibiotic resistance is shrinking our stockpile of commercially available antibiotics. Therefore, new antimicrobials with novel mechanisms of action (MoAs) are desperately needed. The free fatty acid, (Z)-13-methyltetra-4-decenoic acid ((Z)-4C-14:1), isolated from a marine sediment bacterium Olleya marilimosa, displays strong inhibition of Gram-positive pathogens with minimal cytotoxic effects to mammalian cells. Here, we applied a combination of experimental approaches to identify the mechanism by which (Z)-4C-14:1 kills the Gram-positive bacterium Bacillus subtilis. Using quick and cost-effective bacterial cytological profiling (BCP), we established the cytological signatures of 17 antibiotics representing 6 general classes of antibiotic MoAs. We used BCP to demonstrate that while (Z)-4C-14:1-treated B. subtilis cells display unique morphological features compared to other antibiotic classes, (Z)-4C-14:1 mode of action shares substantial overlap with the fast-acting antibiotic colistin specifically in Gram-positive cells and daptomycin, both of which target bacterial permeability by destroying the cell membrane and causing extensive cell surface alterations. To further determine if the cell membrane of B. subtilis was the target of (Z)-4C-14:1, we used cell membrane- and peptidoglycan-specific diagnostic stains to investigate bacterial permeability. Our results indicate that (Z)-4C-14:1 destabilizes the cell membrane by pore formation in Gram-positive bacteria and emphasize the importance of mining the marine environment for naturally occurring antibiotics. [ABSTRACT FROM AUTHOR]

Published

2023

361. Cerebrovascular network registration via an efficient attributed graph matching technique.

Author

Almasi, Sepideh, Lauric, Alexandra, Malek, Adel, and Miller, Eric L.

Subjects

*CARDIOVASCULAR disease diagnosis, *IMAGE registration, *GRAPH theory, *QUADRATIC assignment problem, *MEDICAL errors

Abstract

Registration of vascular networks is an indispensable element of prognostic and diagnostic studies that require structural analysis and comparison over time, among different samples, and to a gold standard. However, vascular networks manifest low spatial texture and sparse structural content so that even small variations in their location can make the intensity-based registration inefficient and prone to errors. Motivated by geometrical graph-based models developed in our prior work, we use the shape information in the graph topology sense to enhance the registration performance. An efficient feature-based registration is presented that seeks correspondence of the bifurcations and branches in a graph matching scheme. Since the graph matching is originally posed a NP-hard quadratic assignment problem (QAP) in the literature, we have designed a node signature that incorporates edge correspondences indirectly. This allows removing the quadratic term in the QAP to recast the problem as a linear assignment problem (LAP) to relieve the computational burden. The LAP is efficiently solvable and is scalable to data with graph representation of larger size. The performance is tested and validated using clinical 3-D angiography images of the human cerebrovasculature as well as synthetic datasets. This method proves to be robust in the face of different structural and algorithm’s parameters. Quality of inter-subject and multimodal matching of clinical data has also been confirmed. [ABSTRACT FROM AUTHOR]

Published

2018

362. Joint volumetric extraction and enhancement of vasculature from low-SNR 3-D fluorescence microscopy images.

Author

Almasi, Sepideh, Ben-Zvi, Ayal, Lacoste, Baptiste, Gu, Chenghua, Miller, Eric L., and Xu, Xiaoyin

Subjects

*FEATURE extraction, *VOLUMETRIC analysis, *FLUORESCENCE microscopy, *IMAGING systems, *SIGNAL-to-noise ratio

Abstract

To simultaneously overcome the challenges imposed by the nature of optical imaging characterized by a range of artifacts including space-varying signal to noise ratio (SNR), scattered light, and non-uniform illumination, we developed a novel method that segments the 3-D vasculature directly from original fluorescence microscopy images eliminating the need for employing pre- and post-processing steps such as noise removal and segmentation refinement as used with the majority of segmentation techniques. Our method comprises two initialization and constrained recovery and enhancement stages. The initialization approach is fully automated using features derived from bi-scale statistical measures and produces seed points robust to non-uniform illumination, low SNR, and local structural variations. This algorithm achieves the goal of segmentation via design of an iterative approach that extracts the structure through voting of feature vectors formed by distance, local intensity gradient, and median measures. Qualitative and quantitative analysis of the experimental results obtained from synthetic and real data prove the efficacy of this method in comparison to the state-of-the-art enhancing-segmenting methods. The algorithmic simplicity, freedom from having a priori probabilistic information about the noise, and structural definition gives this algorithm a wide potential range of applications where i.e. structural complexity significantly complicates the segmentation problem. [ABSTRACT FROM AUTHOR]

Published

2017

363. Steady at the wheel: conservative sex and the benefits of bacterial transformation.

Author

Ambur, Ole Herman, Engelstädter, Jan, Johnsen, Pål J., Miller, Eric L., and Rozen, Daniel E.

Subjects

*PROMISCUITY, *GENETIC transformation, *BACTERIAL evolution, *EUKARYOTES, *BACTERIA

Abstract

Many bacteria are highly sexual, but the reasons for their promiscuity remain obscure. Did bacterial sex evolve to maximize diversity and facilitate adaptation in a changing world, or does it instead help to retain the bacterial functions that work right now? In other words, is bacterial sex innovative or conservative? Our aim in this review is to integrate experimental, bioinformatic and theoretical studies to critically evaluate these alternatives, with a main focus on natural genetic transformation, the bacterial equivalent of eukaryotic sexual reproduction. First, we provide a general overview of several hypotheses that have been put forward to explain the evolution of transformation. Next, we synthesize a large body of evidence highlighting the numerous passive and active barriers to transformation that have evolved to protect bacteria from foreign DNA, thereby increasing the likelihood that transformation takes place among clonemates. Our critical review of the existing literature provides support for the view that bacterial transformation is maintained as a means of genomic conservation that provides direct benefits to both individual bacterial cells and to transformable bacterial populations. We examine the generality of this view across bacteria and contrast this explanation with the different evolutionary roles proposed to maintain sex in eukaryotes. This article is part of the themed issue 'Weird sex: the underappreciated diversity of sexual reproduction'. [ABSTRACT FROM AUTHOR]

Published

2016

364. Socially mediated induction and suppression of antibiosis during bacterial coexistence.

Author

Abrudan, Monica I., Smakman, Fokko, Grimbergen, Ard Jan, Westhoff, Sanne, Miller, Eric L., van Wezel, Gilles P., and Rozen, Daniel E.

Subjects

*ANTIBIOTICS, *BACTERIA, *STREPTOMYCES, *CHEMICAL synthesis, *COMPUTER simulation

Abstract

Despite their importance for humans, there is little consensus on the function of antibiotics in nature for the bacteria that produce them. Classical explanations suggest that bacteria use antibiotics as weapons to kill or inhibit competitors, whereas a recent alternative hypothesis states that antibiotics are signals that coordinate cooperative social interactions between coexisting bacteria. Here we distinguish these hypotheses in the prolific antibiotic-producing genus Streptomyces and provide strong evidence that antibiotics are weapons whose expression is significantly influenced by social and competitive interactions between competing strains. We show that cells induce facultative responses to cues produced by competitors by (i) increasing their own antibiotic production, thereby decreasing costs associated with constitutive synthesis of these expensive products, and (ii) by suppressing antibiotic production in competitors, thereby reducing direct threats to themselves. These results thus show that although antibiotic production is profoundly social, it is emphatically not cooperative. Using computer simulations, we next show that these facultative strategies can facilitate the maintenance of biodiversity in a community context by converting lethal interactions between neighboring colonies to neutral interactions where neither strain excludes the other. Thus, just as bacteriocins can lead to increased diversity via rock-paper-scissors dynamics, so too can antibiotics via elicitation and suppression. Our results reveal that social interactions are crucial for understanding antibiosis and bacterial community dynamics, and highlight the potential of interbacterial interactions for novel drug discovery by eliciting pathways that mediate interference competition. [ABSTRACT FROM AUTHOR]

Published

2015

365. A novel method for identifying a graph-based representation of 3-D microvascular networks from fluorescence microscopy image stacks.

Author

Almasi, Sepideh, Xu, Xiaoyin, Ben-Zvi, Ayal, Lacoste, Baptiste, Gu, Chenghua, and Miller, Eric L.

Subjects

*MEDICAL imaging systems, *THREE-dimensional imaging, *BLOOD vessels, *FLUORESCENCE microscopy, *BIOLOGICAL networks, *DIAGNOSTIC imaging, *GRAPHIC methods, *IMAGE segmentation

Abstract

A novel approach to determine the global topological structure of a microvasculature network from noisy and low-resolution fluorescence microscopy data that does not require the detailed segmentation of the vessel structure is proposed here. The method is most appropriate for problems where the tortuosity of the network is relatively low and proceeds by directly computing a piecewise linear approximation to the vasculature skeleton through the construction of a graph in three dimensions whose edges represent the skeletal approximation and vertices are located at Critical Points (CPs) on the microvasculature. The CPs are defined as vessel junctions or locations of relatively large curvature along the centerline of a vessel. Our method consists of two phases. First, we provide a CP detection technique that, for junctions in particular, does not require any a priori geometric information such as direction or degree. Second, connectivity between detected nodes is determined via the solution of a Binary Integer Program (BIP) whose variables determine whether a potential edge between nodes is or is not included in the final graph. The utility function in this problem reflects both intensity-based and structural information along the path connecting the two nodes. Qualitative and quantitative results confirm the usefulness and accuracy of this method. This approach provides a mean of correctly capturing the connectivity patterns in vessels that are missed by more traditional segmentation and binarization schemes because of imperfections in the images which manifest as dim or broken vessels. [ABSTRACT FROM AUTHOR]

Published

2015

366. Photometry in UV astronomical images of extended sources in crowded field using deblended images in optical visible bands as Bayesian priors

Author

Antoine Llebaria, Bruno Milliard, D. Vibert, Stephane Arnouts, Simon Conseil, M. Zamojski, Mireille Guillaume, Bouman, Charles A., Miller, Eric L., and Pollak, Ilya

Subjects

Physics, Photon, Galactic astronomy, business.industry, media_common.quotation_subject, Astrophysics::Instrumentation and Methods for Astrophysics, Field of view, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Sensor fusion, Galaxy, Photometry (optics), Stars, Optics, Sky, business, Astrophysics::Galaxy Astrophysics, media_common

Abstract

Photometry of astrophysical sources, galaxies and stars, in crowded field images, if an old problem, is still a challenging goal, as new space survey missions are launched, releasing new data with increased sensibility, resolution and field of view. The GALEX mission, observes in two UV bands and produces deep sky images of millions of galaxies or stars mixed together. These UV observations are of lower resolution than same field observed in visible bands, and with a very faint signal, at the level of the photon noise for a substantial fraction of objects. Our purpose is to use the better known optical counterparts as prior information in a Bayesian approach to deduce the UV flux. Photometry of extended sources has been addressed several times using various techniques: background determination via sigma clipping, adaptative-aperture, point-spread-function photometry, isophotal photometry, to lists some. The Bayesian approach of using optical priors for solving the UV photometry has already been applied by our team in a previous work. Here we describe the improvement of using the extended shape inferred by deblending the high resolution optical images and not only the position of the optical sources. The resulting photometric accuracy has been tested with simulation of crowded UV fields added on top of real UV images. Finally, this helps to converge to smaller and flat residual and increase the faint source detection threshold. It thus gives the opportunity to work on 2nd order effects, like improving the knowledge of the background or point-spread function by iterating on them.

Published

2009

367. Multi-object segmentation using coupled nonparametric shape and relative pose priors

Author

Gozde Unal, Zeynep Firat, Aytül Erçil, Devrim Unay, Ahmet Ekin, Mujdat Cetin, Octavian Soldea, Mustafa Gökhan Uzunbas, Bouman, Charles A., Miller, Eric L., and Pollak, Ilya

Subjects

Computer science, business.industry, Segmentation-based object categorization, Kernel density estimation, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Scale-space segmentation, Pattern recognition, Image segmentation, Edge detection, TK Electrical engineering. Electronics Nuclear engineering, Kernel method, Computer Science::Computer Vision and Pattern Recognition, Maximum a posteriori estimation, Computer vision, Segmentation, Artificial intelligence, business

Abstract

We present a new method for multi-object segmentation in a maximum a posteriori estimation framework. Our method is motivated by the observation that neighboring or coupling objects in images generate configurations and co-dependencies which could potentially aid in segmentation if properly exploited. Our approach employs coupled shape and inter-shape pose priors that are computed using training images in a nonparametric multi-variate kernel density estimation framework. The coupled shape prior is obtained by estimating the joint shape distribution of multiple objects and the inter-shape pose priors are modeled via standard moments. Based on such statistical models, we formulate an optimization problem for segmentation, which we solve by an algorithm based on active contours. Our technique provides significant improvements in the segmentation of weakly contrasted objects in a number of applications. In particular for medical image analysis, we use our method to extract brain Basal Ganglia structures, which are members of a complex multi-object system posing a challenging segmentation problem. We also apply our technique to the problem of handwritten character segmentation. Finally, we use our method to segment cars in urban scenes.

Published

2009

368. The smashed filter for compressive classification and target recognition

Author

Richard G. Baraniuk, Dharmpal Takhar, Marco F. Duarte, Mark A. Davenport, Michael B. Wakin, Jason N. Laska, Kevin F. Kelly, Bouman, Charles A., Miller, Eric L., and Pollak, Ilya

Subjects

Pixel, Contextual image classification, business.industry, Matched filter, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, Scale (descriptive set theory), Iterative reconstruction, Filter (signal processing), Compressed sensing, Pattern recognition (psychology), Artificial intelligence, business, Mathematics

Abstract

The theory of compressive sensing (CS) enables the reconstruction of a sparse or compressible image or signal from a small set of linear, non-adaptive (even random) projections. However, in many applications, including object and target recognition, we are ultimately interested in making a decision about an image rather than computing a reconstruction. We propose here a framework for compressive classification that operates directly on the compressive measurements without first reconstructing the image. We dub the resulting dimensionally reduced matched filter the smashed filter. The first part of the theory maps traditional maximum likelihood hypothesis testing into the compressive domain; we find that the number of measurements required for a given classification performance level does not depend on the sparsity or compressibility of the images but only on the noise level. The second part of the theory applies the generalized maximum likelihood method to deal with unknown transformations such as the translation, scale, or viewing angle of a target object. We exploit the fact the set of transformed images forms a low-dimensional, nonlinear manifold in the high-dimensional image space. We find that the number of measurements required for a given classification performance level grows linearly in the dimensionality of the manifold but only logarithmically in the number of pixels/samples and image classes. Using both simulations and measurements from a new single-pixel compressive camera, we demonstrate the effectiveness of the smashed filter for target classification using very few measurements.

Published

2007

369. Signal recovery from random projections

Author

Emmanuel J. Candès, Justin Romberg, Bouman, Charles A., and Miller, Eric L.

Subjects

Wavelet, Series (mathematics), Basis (linear algebra), Convex optimization, Recovery procedure, Basis pursuit, Linear combination, Algorithm, Mathematics, Data compression

Abstract

Can we recover a signal f ∈R N from a small number of linear measurements? A series of recent papers developed a collection of results showing that it is surprisingly possible to reconstruct certain types of signals accurately from limited measurements. In a nutshell, suppose that f is compressible in the sense that it is well-approximated by a linear combination of M vectors taken from a known basis Ψ. Then not knowing anything in advance about the signal, f can (very nearly) be recovered from about M log N generic nonadaptive measurements only. The recovery procedure is concrete and consists in solving a simple convex optimization program. In this paper, we show that these ideas are of practical significance. Inspired by theoretical developments, we propose a series of practical recovery procedures and test them on a series of signals and images which are known to be well approximated in wavelet bases. We demonstrate that it is empirically possible to recover an object from about 3 M -5 M projections onto generically chosen vectors with an accuracy which is as good as that obtained by the ideal M -term wavelet approximation. We briefly discuss possible implications in the areas of data compression and medical imaging.

Published

2005

370. Seismic image reconstruction using complex wavelets

Author

Richard Hobbs, Nick Kingsbury, Mark A. Miller, Bouman, Charles A., and Miller, Eric L.

Subjects

Discrete wavelet transform, Geophysical imaging, business.industry, Wavelet transform, Iterative reconstruction, Physics::Geophysics, Wavelet, Inverse scattering problem, Computer vision, Artificial intelligence, Complex wavelet transform, business, Geology, Image restoration, Remote sensing

Abstract

The aim of seismic imaging is to reconstruct subsurface reflectivity from scattered acoustic data. In standard reconstruction techniques, the reflectivity model parameters are usually defined as a grid of point scatterers over the area or volume of the subsurface to be imaged. We propose an approach to subsurface imaging using the Dual Tree Complex Wavelet Transform (DT-CWT) as a basis for the reflectivity. This basis is used in conjunction with an iterative optimization which frames the problem as a linearized inverse scattering problem. We demonstrate the method on synthetic data and a marine seismic data set acquired over the Gippsland Basin near Australia. The technique is shown to reduce noise and processing artifacts while preserving discontinuities. It is likely to be particularly useful in cases where the acquired date is incomplete.

Published

2005

371. Multi-modal, Label-free, Optical Mapping of Cellular Metabolic Function and Oxidative Stress in 3D Engineered Brain Tissue Models.

Author

Zhang Y, Savvidou M, Liaudanskaya V, Ramanathan V, Bui T, Matthew L, Sze A, Ugwu UO, Yuhang F, Matthew DE, Chen X, Nasritdinova S, Dey A, Miller EL, Kaplan DL, and Georgakoudi I

Abstract

Brain metabolism is essential for the function of organisms. While established imaging methods provide valuable insights into brain metabolic function, they lack the resolution to capture important metabolic interactions and heterogeneity at the cellular level. Label-free, two-photon excited fluorescence imaging addresses this issue by enabling dynamic metabolic assessments at the single-cell level without manipulations. In this study, we demonstrate the impact of spectral imaging on the development of rigorous intensity and lifetime label-free imaging protocols to assess dynamically over time metabolic function in 3D engineered brain tissue models comprising human induced neural stem cells, astrocytes, and microglia. Specifically, we rely on multi-wavelength spectral imaging to identify the excitation/emission profiles of key cellular fluorophores within human brain cells, including NAD(P)H, LipDH, FAD, and lipofuscin. These enable development of methods to mitigate lipofuscin's overlap with NAD(P)H and flavin autofluorescence to extract reliable optical metabolic function metrics from images acquired at two excitation wavelengths over two emission bands. We present fluorescence intensity and lifetime metrics reporting on redox state, mitochondrial fragmentation, and NAD(P)H binding status in neuronal monoculture and triculture systems, to highlight the functional impact of metabolic interactions between different cell types. Our findings reveal significant metabolic differences between neurons and glial cells, shedding light on metabolic pathway utilization, including the glutathione pathway, OXPHOS, glycolysis, and fatty acid oxidation. Collectively, our studies establish a label-free, non-destructive approach to assess the metabolic function and interactions among different brain cell types relying on endogenous fluorescence and illustrate the complementary nature of information that is gained by combining intensity and lifetime-based images. Such methods can improve understanding of physiological brain function and dysfunction that occurs at the onset of cancers, traumatic injuries and neurodegenerative diseases.

Published

2024

372. On the reliable estimation of sequential Monod kinetic parameters.

Author

Elsey JL, Miller EL, Christ JA, and Abriola LM

Subjects

Kinetics, Monte Carlo Method, Uncertainty, Algorithms

Abstract

While dozens of studies have attempted to estimate the Monod kinetic parameters of microbial reductive dechlorination, published values in the literature vary by 2-6 orders of magnitude. This lack of consensus can be attributed in part to limitations of both experimental design and parameter estimation techniques. To address these issues, Hamiltonian Monte Carlo was used to produce more than one million sets of realistic simulated microcosm data under a variety of experimental conditions. These data were then employed in model fitting experiments using a number of parameter estimation algorithms for determining Monod kinetic parameters. Analysis of data from conventional triplicate microcosms yielded parameter estimates characterized by high collinearity, resulting in poor estimation accuracy and precision. Additionally, confidence intervals computed by commonly used classical regression analysis techniques contained true parameter values much less frequently than their nominal confidence levels. Use of an alternative experimental design, requiring the same number of analyses as conventional experiments but comprised of microcosms with varying initial chlorinated ethene concentrations, is shown to result in order-of-magnitude decreases in parameter uncertainty. A Metropolis algorithm which can be run on a typical personal computer is demonstrated to return more reliable parameter interval estimates., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

373. The emergence and diversification of a zoonotic pathogen from within the microbiota of intensively farmed pigs.

Author

Murray GGR, Hossain ASMM, Miller EL, Bruchmann S, Balmer AJ, Matuszewska M, Herbert J, Hadjirin NF, Mugabi R, Li G, Ferrando ML, Fernandes de Oliveira IM, Nguyen T, Yen PLK, Phuc HD, Zaw Moe A, Su Wai T, Gottschalk M, Aragon V, Valentin-Weigand P, Heegaard PMH, Vrieling M, Thein Maw M, Thidar Myint H, Tun Win Y, Thi Hoa N, Bentley SD, Clavijo MJ, Wells JM, Tucker AW, and Weinert LA

Subjects

Animals, Humans, Swine, Farms, Virulence genetics, Livestock, Streptococcal Infections veterinary, Swine Diseases epidemiology, Streptococcus suis genetics

Abstract

The expansion and intensification of livestock production is predicted to promote the emergence of pathogens. As pathogens sometimes jump between species, this can affect the health of humans as well as livestock. Here, we investigate how livestock microbiota can act as a source of these emerging pathogens through analysis of Streptococcus suis , a ubiquitous component of the respiratory microbiota of pigs that is also a major cause of disease on pig farms and an important zoonotic pathogen. Combining molecular dating, phylogeography, and comparative genomic analyses of a large collection of isolates, we find that several pathogenic lineages of S. suis emerged in the 19th and 20th centuries, during an early period of growth in pig farming. These lineages have since spread between countries and continents, mirroring trade in live pigs. They are distinguished by the presence of three genomic islands with putative roles in metabolism and cell adhesion, and an ongoing reduction in genome size, which may reflect their recent shift to a more pathogenic ecology. Reconstructions of the evolutionary histories of these islands reveal constraints on pathogen emergence that could inform control strategies, with pathogenic lineages consistently emerging from one subpopulation of S. suis and acquiring genes through horizontal transfer from other pathogenic lineages. These results shed light on the capacity of the microbiota to rapidly evolve to exploit changes in their host population and suggest that the impact of changes in farming on the pathogenicity and zoonotic potential of S. suis is yet to be fully realized.

Published

2023

374. An updated catalogue of diverse type II polyketide synthase biosynthetic gene clusters captured from large-scale nucleotide databases.

Author

McBride CM, Miller EL, and Charkoudian LK

Subjects

Nucleotides, Multigene Family, Polyketide Synthases genetics, Polyketide Synthases chemistry, Polyketide Synthases metabolism, Polyketides metabolism

Abstract

Nature serves as a rich source of molecules with immense chemical diversity. Aptly named, these 'natural products' boast a wide variety of environmental, medicinal and industrial applications. Type II polyketides, in particular, confer substantial medicinal benefits, including antibacterial, antifungal, anticancer and anti-inflammatory properties. These molecules are produced by enzyme assemblies known as type II polyketide synthases (PKSs), which use domains such as the ketosynthase chain-length factor and acyl carrier protein to produce polyketides with varying lengths, cyclization patterns and oxidation states. In this work, we use a novel bioinformatic workflow to identify biosynthetic gene clusters (BGCs) that code for the core type II PKS enzymes. This method does not rely on annotation and thus was able to unearth previously 'hidden' type II PKS BGCs. This work led us to identify over 6000 putative type II PKS BGCs spanning a diverse set of microbial phyla, nearly double those found in most recent studies. Notably, many of these newly identified BGCs were found in non-actinobacteria, which are relatively underexplored as sources of type II polyketides. Results from this work lay an important foundation for future bioprospecting and engineering efforts that will enable sustainable access to diverse and structurally complex molecules with medicinally relevant properties.

Published

2023

375. Toward Predicting Human Performance Outcomes From Wearable Technologies: A Computational Modeling Approach.

Author

Brunyé TT, Yau K, Okano K, Elliott G, Olenich S, Giles GE, Navarro E, Elkin-Frankston S, Young AL, and Miller EL

Abstract

Wearable technologies for measuring digital and chemical physiology are pervading the consumer market and hold potential to reliably classify states of relevance to human performance including stress, sleep deprivation, and physical exertion. The ability to efficiently and accurately classify physiological states based on wearable devices is improving. However, the inherent variability of human behavior within and across individuals makes it challenging to predict how identified states influence human performance outcomes of relevance to military operations and other high-stakes domains. We describe a computational modeling approach to address this challenge, seeking to translate user states obtained from a variety of sources including wearable devices into relevant and actionable insights across the cognitive and physical domains. Three status predictors were considered: stress level, sleep status, and extent of physical exertion; these independent variables were used to predict three human performance outcomes: reaction time, executive function, and perceptuo-motor control. The approach provides a complete, conditional probabilistic model of the performance variables given the status predictors. Construction of the model leverages diverse raw data sources to estimate marginal probability density functions for each of six independent and dependent variables of interest using parametric modeling and maximum likelihood estimation. The joint distributions among variables were optimized using an adaptive LASSO approach based on the strength and directionality of conditional relationships (effect sizes) derived from meta-analyses of extant research. The model optimization process converged on solutions that maintain the integrity of the original marginal distributions and the directionality and robustness of conditional relationships. The modeling framework described provides a flexible and extensible solution for human performance prediction, affording efficient expansion with additional independent and dependent variables of interest, ingestion of new raw data, and extension to two- and three-way interactions among independent variables. Continuing work includes model expansion to multiple independent and dependent variables, real-time model stimulation by wearable devices, individualized and small-group prediction, and laboratory and field validation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Brunyé, Yau, Okano, Elliott, Olenich, Giles, Navarro, Elkin-Frankston, Young and Miller.)

Published

2021

376. Large-scale genomic analysis of antimicrobial resistance in the zoonotic pathogen Streptococcus suis.

Author

Hadjirin NF, Miller EL, Murray GGR, Yen PLK, Phuc HD, Wileman TM, Hernandez-Garcia J, Williamson SM, Parkhill J, Maskell DJ, Zhou R, Fittipaldi N, Gottschalk M, Tucker AWD, Hoa NT, Welch JJ, and Weinert LA

Subjects

Animals, Anti-Bacterial Agents pharmacology, Anti-Infective Agents, Drug Resistance, Bacterial genetics, Genomics, Microbial Sensitivity Tests, Pharmaceutical Preparations, Swine, Streptococcus suis drug effects, Streptococcus suis genetics

Abstract

Background: Antimicrobial resistance (AMR) is among the gravest threats to human health and food security worldwide. The use of antimicrobials in livestock production can lead to emergence of AMR, which can have direct effects on humans through spread of zoonotic disease. Pigs pose a particular risk as they are a source of zoonotic diseases and receive more antimicrobials than most other livestock. Here we use a large-scale genomic approach to characterise AMR in Streptococcus suis, a commensal found in most pigs, but which can also cause serious disease in both pigs and humans., Results: We obtained replicated measures of Minimum Inhibitory Concentration (MIC) for 16 antibiotics, across a panel of 678 isolates, from the major pig-producing regions of the world. For several drugs, there was no natural separation into 'resistant' and 'susceptible', highlighting the need to treat MIC as a quantitative trait. We found differences in MICs between countries, consistent with their patterns of antimicrobial usage. AMR levels were high even for drugs not used to treat S. suis, with many multidrug-resistant isolates. Similar levels of resistance were found in pigs and humans from regions associated with zoonotic transmission. We next used whole genome sequences for each isolate to identify 43 candidate resistance determinants, 22 of which were novel in S. suis. The presence of these determinants explained most of the variation in MIC. But there were also interesting complications, including epistatic interactions, where known resistance alleles had no effect in some genetic backgrounds. Beta-lactam resistance involved many core genome variants of small effect, appearing in a characteristic order., Conclusions: We present a large dataset allowing the analysis of the multiple contributing factors to AMR in S. suis. The high levels of AMR in S. suis that we observe are reflected by antibiotic usage patterns but our results confirm the potential for genomic data to aid in the fight against AMR., (© 2021. The Author(s).)

Published

2021

377. Compressed sensing two-dimensional Bragg scatter imaging.

Author

Webber JW and Miller EL

Abstract

Here we introduce a new reconstruction technique for two-dimensional Bragg scattering tomography (BST), based on the Radon transform models of Webber and Miller [Inverse Probl. Imaging15, 683 (2021).10.3934/ipi.2021010]. Our method uses a combination of ideas from multibang control and microlocal analysis to construct an objective function which can regularize the BST artifacts; specifically the boundary artifacts due to sharp cutoff in sinogram space (as observed in [arXiv preprint, arXiv:2007.00208 (2020)]), and artifacts arising from approximations made in constructing the model used for inversion. We then test our algorithm in a variety of Monte Carlo (MC) simulated examples of practical interest in airport baggage screening and threat detection. The data used in our studies is generated with a novel Monte-Carlo code presented here. The model, which is available from the authors upon request, captures both the Bragg scatter effects described by BST as well as beam attenuation and Compton scatter.

Published

2021

378. Genome Reduction Is Associated with Bacterial Pathogenicity across Different Scales of Temporal and Ecological Divergence.

Author

Murray GGR, Charlesworth J, Miller EL, Casey MJ, Lloyd CT, Gottschalk M, Tucker AWD, Welch JJ, and Weinert LA

Subjects

Animals, Bacteria genetics, Symbiosis, Bacteria pathogenicity, Biological Evolution, Genome Size, Genome, Bacterial

Abstract

Emerging bacterial pathogens threaten global health and food security, and so it is important to ask whether these transitions to pathogenicity have any common features. We present a systematic study of the claim that pathogenicity is associated with genome reduction and gene loss. We compare broad-scale patterns across all bacteria, with detailed analyses of Streptococcus suis, an emerging zoonotic pathogen of pigs, which has undergone multiple transitions between disease and carriage forms. We find that pathogenicity is consistently associated with reduced genome size across three scales of divergence (between species within genera, and between and within genetic clusters of S. suis). Although genome reduction is also found in mutualist and commensal bacterial endosymbionts, genome reduction in pathogens cannot be solely attributed to the features of their ecology that they share with these species, that is, host restriction or intracellularity. Moreover, other typical correlates of genome reduction in endosymbionts (reduced metabolic capacity, reduced GC content, and the transient expansion of nonfunctional elements) are not consistently observed in pathogens. Together, our results indicate that genome reduction is a consistent correlate of pathogenicity in bacteria., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2021

379. Limited-View X-Ray Tomography Combining Attenuation and Compton Scatter Data: Approach and Experimental Results.

Author

Desmal A, Schubert JR, Denker J, Kisner SJ, Rezaee H, Couture A, Miller EL, and Tracey BH

Abstract

X-ray inspection systems are critical in medical, non-destructive testing, and security applications, with systems typically measuring attenuation along straight-line paths connecting sources and detectors. Computed tomography (CT) systems can provide higher-quality images than single- or dual-view systems, but the need to measure many projections leads to greater system cost and complexity. Typically, off-angle Compton scattered photons are treated as noise during tomographic inversion. We seek to maximize the image quality of limited-view systems by combining attenuation data with measurements of Compton-scattered photons, exploiting the fact that the broken-ray paths followed by scattered photons provide additional geometric sampling of the scene. We describe a single-scatter forward model for Compton-scatter data measured with energy-resolving detectors, and demonstrate a reconstruction algorithm for density that combines both attenuation and scatter measurements. The experimental results suggest that including Compton-scattered data in the reconstruction process can improve image quality for density reconstruction using limited-view systems., (© 2023 The Authors.)

Published

2019

380. Eavesdropping and crosstalk between secreted quorum sensing peptide signals that regulate bacteriocin production in Streptococcus pneumoniae.

Author

Miller EL, Kjos M, Abrudan MI, Roberts IS, Veening JW, and Rozen DE

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Bacteriocins genetics, Gene Expression Regulation, Bacterial, Operon, Signal Transduction, Quorum Sensing physiology, Streptococcus pneumoniae physiology

Abstract

Quorum sensing (QS), where bacteria secrete and respond to chemical signals to coordinate population-wide behaviors, has revealed that bacteria are highly social. Here, we investigate how diversity in QS signals and receptors can modify social interactions controlled by the QS system regulating bacteriocin secretion in Streptococcus pneumoniae, encoded by the blp operon (bacteriocin-like peptide). Analysis of 4096 pneumococcal genomes detected nine blp QS signals (BlpC) and five QS receptor groups (BlpH). Imperfect concordance between signals and receptors suggested widespread social interactions between cells, specifically eavesdropping (where cells respond to signals that they do not produce) and crosstalk (where cells produce signals that non-clones detect). This was confirmed in vitro by measuring the response of reporter strains containing six different blp QS receptors to cognate and non-cognate peptides. Assays between pneumococcal colonies grown adjacent to one another provided further evidence that crosstalk and eavesdropping occur at endogenous levels of signal secretion. Finally, simulations of QS strains producing bacteriocins revealed that eavesdropping can be evolutionarily beneficial even when the affinity for non-cognate signals is very weak. Our results highlight that social interactions can mediate intraspecific competition among bacteria and reveal that competitive interactions can be modified by polymorphic QS systems.

Published

2018

381. Diminishing Returns on Intragenic Repeat Number Expansion in the Production of Signaling Peptides.

Author

Rogers DW, McConnell E, Miller EL, and Greig D

Subjects

Amino Acid Sequence, Codon genetics, DNA Copy Number Variations genetics, Evolution, Molecular, Genetic Association Studies, Peptides genetics, Pheromones metabolism, Protein Sorting Signals physiology, Saccharomyces cerevisiae genetics, Signal Transduction, Tandem Repeat Sequences genetics, Protein Precursors genetics, Protein Precursors physiology, Protein Sorting Signals genetics, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins physiology

Abstract

Signaling peptides enable communication between cells, both within and between individuals, and are therefore key to the control of complex physiological and behavioral responses. Since their small sizes prevent direct transmission to secretory pathways, these peptides are often produced as part of a larger polyprotein comprising precursors for multiple related or identical peptides; the physiological and behavioral consequences of this unusual gene structure are not understood. Here, we show that the number of mature-pheromone-encoding repeats in the yeast α-mating-factor gene MFα1 varies considerably between closely related isolates of both Saccharomyces cerevisiae and its sister species Saccharomyces paradoxus. Variation in repeat number has important phenotypic consequences: Increasing repeat number caused higher pheromone production and greater competitive mating success. However, the magnitude of the improvement decreased with increasing repeat number such that repeat amplification beyond that observed in natural isolates failed to generate more pheromone, and could actually reduce sexual fitness. We investigate multiple explanations for this pattern of diminishing returns and find that our results are most consistent with a translational trade-off: Increasing the number of encoded repeats results in more mature pheromone per translation event, but also generates longer transcripts thereby reducing the rate of translation-a phenomenon known as length-dependent translation. Length-dependent translation may be a powerful constraint on the evolution of genes encoding repetitive or modular proteins, with important physiological and behavioral consequences across eukaryotes., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2017

382. Closed-loop control of targeted ultrasound drug delivery across the blood-brain/tumor barriers in a rat glioma model.

Author

Sun T, Zhang Y, Power C, Alexander PM, Sutton JT, Aryal M, Vykhodtseva N, Miller EL, and McDannold NJ

Subjects

Acoustics instrumentation, Animals, Antibiotics, Antineoplastic chemistry, Antibiotics, Antineoplastic pharmacokinetics, Brain Neoplasms diagnostic imaging, Brain Neoplasms metabolism, Brain Neoplasms pathology, Carbocyanines chemistry, Carbocyanines pharmacokinetics, Corpus Striatum diagnostic imaging, Corpus Striatum drug effects, Corpus Striatum metabolism, Corpus Striatum pathology, Disease Models, Animal, Doxorubicin chemistry, Doxorubicin pharmacokinetics, Doxorubicin pharmacology, Drug Delivery Systems instrumentation, Fluorescent Dyes chemistry, Fluorescent Dyes pharmacokinetics, Glioma diagnostic imaging, Glioma metabolism, Glioma pathology, Hippocampus diagnostic imaging, Hippocampus drug effects, Hippocampus metabolism, Hippocampus pathology, Luminescent Proteins chemistry, Luminescent Proteins pharmacokinetics, Magnetic Resonance Imaging, Male, Microbubbles, Molecular Targeted Therapy, Polyethylene Glycols chemistry, Polyethylene Glycols pharmacokinetics, Polyethylene Glycols pharmacology, Rats, Rats, Sprague-Dawley, Transducers, Ultrasonic Waves, Antibiotics, Antineoplastic pharmacology, Blood-Brain Barrier metabolism, Brain Neoplasms therapy, Doxorubicin analogs & derivatives, Drug Delivery Systems methods, Glioma therapy, Ultrasonic Therapy methods

Abstract

Cavitation-facilitated microbubble-mediated focused ultrasound therapy is a promising method of drug delivery across the blood-brain barrier (BBB) for treating many neurological disorders. Unlike ultrasound thermal therapies, during which magnetic resonance thermometry can serve as a reliable treatment control modality, real-time control of modulated BBB disruption with undetectable vascular damage remains a challenge. Here a closed-loop cavitation controlling paradigm that sustains stable cavitation while suppressing inertial cavitation behavior was designed and validated using a dual-transducer system operating at the clinically relevant ultrasound frequency of 274.3 kHz. Tests in the normal brain and in the F98 glioma model in vivo demonstrated that this controller enables reliable and damage-free delivery of a predetermined amount of the chemotherapeutic drug (liposomal doxorubicin) into the brain. The maximum concentration level of delivered doxorubicin exceeded levels previously shown (using uncontrolled sonication) to induce tumor regression and improve survival in rat glioma. These results confirmed the ability of the controller to modulate the drug delivery dosage within a therapeutically effective range, while improving safety control. It can be readily implemented clinically and potentially applied to other cavitation-enhanced ultrasound therapies., Competing Interests: Conflict of interest statement: Two provisional patents describing the controlling system and focused ultrasound system developed in this work have been filed (inventors: N.J.M. and T.S.). N.J.M. holds another two published patents on the ultrasound technique evaluated in this work. No conflicts of interest were disclosed by the other authors.

Published

2017

383. Pherotype Polymorphism in Streptococcus pneumoniae Has No Obvious Effects on Population Structure and Recombination.

Author

Miller EL, Evans BA, Cornejo OE, Roberts IS, and Rozen DE

Subjects

Polymorphism, Genetic, Bacterial Proteins genetics, Genome, Bacterial, Recombination, Genetic, Streptococcus pneumoniae genetics

Abstract

Natural transformation in the Gram-positive pathogen Streptococcus pneumoniae occurs when cells become "competent," a state that is induced in response to high extracellular concentrations of a secreted peptide signal called competence stimulating peptide (CSP) encoded by the comC locus. Two main CSP signal types (pherotypes) are known to dominate the pherotype diversity across strains. Using 4,089 fully sequenced pneumococcal genomes, we confirm that pneumococcal populations are highly genetically structured and that there is significant variation among diverged populations in pherotype frequencies; most carry only a single pherotype. Moreover, we find that the relative frequencies of the two dominant pherotypes significantly vary within a small range across geographical sites. It has been variously proposed that pherotypes either promote genetic exchange among cells expressing the same pherotype, or conversely that they promote recombination between strains bearing different pherotypes. We attempt to distinguish these hypotheses using a bioinformatics approach by estimating recombination frequencies within and between pherotypes across 4,089 full genomes. Despite underlying population structure, we observe extensive recombination between populations; additionally, we found significantly higher (although marginal) rates of genetic exchange between strains expressing different pherotypes than among isolates carrying the same pherotype. Our results indicate that pherotypes do not restrict, and may even slightly facilitate, recombination between strains; however, these marginal effects suggest the more likely possibility that the cause of CSP polymorphism lies outside of its effects on transformation. Our results suggest that the CSP balanced polymorphism does not causally underlie population differentiation. Therefore, when strains carrying different pherotypes encounter one another during cocolonization, genetic exchange can occur without restriction., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2017

384. Asynchronous spore germination in isogenic natural isolates of Saccharomyces paradoxus.

Author

Stelkens RB, Miller EL, and Greig D

Subjects

Microscopy, Saccharomyces isolation & purification, Time-Lapse Imaging, Saccharomyces growth & development, Spores, Fungal growth & development

Abstract

Spores from wild yeast isolates often show great variation in the size of colonies they produce, for largely unknown reasons. Here we measure the colonies produced from single spores from six different wild Saccharomyces paradoxus strains. We found remarkable variation in spore colony sizes, even among spores that were genetically identical. Different strains had different amounts of variation in spore colony sizes, and variation was not affected by the number of preceding meioses, or by spore maturation time. We used time-lapse photography to show that wild strains also have high variation in spore germination timing, providing a likely mechanism for the variation in spore colony sizes. When some spores from a laboratory strain make small colonies, or no colonies, it usually indicates a genetic or meiotic fault. Here, we demonstrate that in wild strains spore colony size variation is normal. We discuss and assess potential adaptive and non-adaptive explanations for this variation., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

385. Diverse Ecological Strategies Are Encoded by Streptococcus pneumoniae Bacteriocin-Like Peptides.

Author

Miller EL, Abrudan MI, Roberts IS, and Rozen DE

Subjects

Alleles, Amino Acid Sequence, Antibiosis, Bacteriocins chemistry, Bacteriocins metabolism, Gene Expression Regulation, Bacterial, Genetic Variation, Genome, Bacterial, Humans, Nasopharynx microbiology, Operon, Phylogeny, Streptococcus pneumoniae chemistry, Streptococcus pneumoniae physiology, Bacteriocins genetics, Pneumococcal Infections microbiology, Streptococcus pneumoniae genetics

Abstract

The opportunistic pathogen Streptococcus pneumoniae is commonly carried asymptomatically in the human nasopharynx. Due to high rates of cocolonization with other pneumococcus strains, intraspecific competitive interactions partly determine the carriage duration of strains and thereby their potential to cause disease. These interactions may be mediated by bacteriocins, such as the type IIb bacteriocins encoded by the blp (bacteriocin-like peptide) locus. To understand blp diversity and evolution, we undertook a bioinformatic analysis of 4,418 pneumococcal genomes, including 168 newly sequenced genomes. We describe immense variation at all levels of genomic organization: Gene presence/absence, gene order, and allelic diversity. If we make the extreme and naive hypothesis that assumes all genes in this operon can assort randomly, this variation could lead to 10(15) distinct bacteriocin-related phenotypes, each potentially representing a unique ecological strategy; however, we provide several explanations for why this extreme is not realized. Although rarefaction analysis indicates that the number of unique strategies is not saturated, even after sampling thousands of genomes, we show that the variation is neither unbounded nor random. We delimit three bacteriocin groups, which contain group-specific bacteriocins, immunity genes, and blp operon gene order, and argue that this organization places a constraint on realized ecological strategies. We additionally show that ecological strategy diversity is significantly constrained by pneumococcal phylogeny and clonal structure. By examining patterns of association between alleles within the blp operon, we show that bacteriocin genes, which were believed to function in pairs, can be found with a broad diversity of partner alleles and immunity genes; this overall lack of allelic fidelity likely contributes to the fluid structure of this operon. Our results clarify the diversity of antagonistic ecological strategies in the global pneumococcal population and highlight the potential role of blp bacteriocins in competition within the nasopharynx., (© The Author 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2016

386. Flexible pH-Sensing Hydrogel Fibers for Epidermal Applications.

Author

Tamayol A, Akbari M, Zilberman Y, Comotto M, Lesha E, Serex L, Bagherifard S, Chen Y, Fu G, Ameri SK, Ruan W, Miller EL, Dokmeci MR, Sonkusale S, and Khademhosseini A

Subjects

Alginates chemistry, Animals, Calcium Chloride chemistry, Cell Line, Glucuronic Acid chemistry, Hexuronic Acids chemistry, Hydrogels pharmacology, Hydrogels therapeutic use, Hydrogen-Ion Concentration, Microfluidic Analytical Techniques, Polyesters chemistry, Porosity, Skin Diseases drug therapy, Swine, Transdermal Patch, Wound Healing drug effects, Hydrogels chemistry

Abstract

Epidermal pH is an indication of the skin's physiological condition. For example, pH of wound can be correlated to angiogenesis, protease activity, bacterial infection, etc. Chronic nonhealing wounds are known to have an elevated alkaline environment, while healing process occurs more readily in an acidic environment. Thus, dermal patches capable of continuous pH measurement can be used as point-of-care systems for monitoring skin disorder and the wound healing process. Here, pH-responsive hydrogel fibers are presented that can be used for long-term monitoring of epidermal wound condition. pH-responsive dyes are loaded into mesoporous microparticles and incorporated into hydrogel fibers using a microfluidic spinning system. The fabricated pH-responsive microfibers are flexible and can create conformal contact with skin. The response of pH-sensitive fibers with different compositions and thicknesses are characterized. The suggested technique is scalable and can be used to fabricate hydrogel-based wound dressings with clinically relevant dimensions. Images of the pH-sensing fibers during real-time pH measurement can be captured with a smart phone camera for convenient readout on-site. Through image processing, a quantitative pH map of the hydrogel fibers and the underlying tissue can be extracted. The developed skin dressing can act as a point-of-care device for monitoring the wound healing process., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

387. Spore germination determines yeast inbreeding according to fitness in the local environment.

Author

Miller EL and Greig D

Subjects

Environment, Genetic Fitness, Adaptation, Biological, Saccharomyces physiology, Self-Fertilization, Spores, Fungal physiology

Abstract

Gene combinations conferring local fitness may be destroyed by mating with individuals that are adapted to a different environment. This form of outbreeding depression provides an evolutionary incentive for self-fertilization. We show that the yeast Saccharomyces paradoxus tends to self-fertilize when it is well adapted to its local environment but tends to outcross when it is poorly adapted. This behavior could preserve combinations of genes when they are beneficial and break them up when they are not, thereby helping adaptation. Haploid spores must germinate before mating, and we found that fitter spores had higher rates of germination across a 24-hour period, increasing the probability that they mate with germinated spores from the same meiotic tetrad. The ability of yeast spores to detect local conditions before germinating and mating suggests the novel possibility that these gametes directly sense their own adaptation and plastically adjust their breeding strategy accordingly.

Published

2015

388. Multi-parameter acoustic imaging of uniform objects in inhomogeneous soft tissue.

Author

Güven HE, Miller EL, and Cleveland RO

Subjects

Algorithms, Computer Simulation, Models, Statistical, Reproducibility of Results, Signal-To-Noise Ratio, Ultrasonography instrumentation, Image Processing, Computer-Assisted methods, Ultrasonography methods

Abstract

The problem studied in this paper is ultrasound image reconstruction from frequency-domain measurements of the scattered field from an object with contrast in attenuation and sound speed. The case in which the object has uniform but unknown contrast in these properties relative to the background is considered. Background clutter is taken into account in a physically realistic manner by considering an exact scattering model for randomly located small scatterers that vary in sound speed. The resulting statistical characteristics of the interference are incorporated into the imaging solution, which includes application of a total-variation minimization-based approach in which the relative effect of perturbation in sound speed to attenuation is included as a parameter. Convex optimization methods provide the basis for the reconstruction algorithm. Numerical data for inversion examples are generated by solving the discretized Lippman-Schwinger equation for the object and speckle-forming scatterers in the background. A statistical model based on the Born approximation is used for reconstruction of the object profile. Results are presented for a two-dimensional problem in terms of classification performance and compared with minimum-l2-norm reconstruction. Classification using the proposed method is shown to be robust down to a signal-to-clutter ratio of less than 1 dB.

Published

2012

389. 3D shape analysis of intracranial aneurysms using the writhe number as a discriminant for rupture.

Author

Lauric A, Miller EL, Baharoglu MI, and Malek AM

Subjects

Aneurysm, Ruptured classification, Aneurysm, Ruptured diagnosis, Humans, Intracranial Aneurysm classification, Intracranial Aneurysm diagnosis, Aneurysm, Ruptured pathology, Aneurysm, Ruptured physiopathology, Intracranial Aneurysm pathology, Intracranial Aneurysm physiopathology, Models, Cardiovascular

Abstract

Intracranial aneurysms are polymorphic focal arterial dilations, which harbor a variable risk of rupture leading to high morbidity and mortality. Increased detection of incidental aneurysms by non-invasive imaging has created a need for rupture risk stratification tools, in addition to simple aneurysm size, to guide optimal treatment strategy. To this end, shape analysis has emerged as a possible differentiator of rupture likelihood. A novel set of morphological parameters based on the writhe number are introduced here to describe aneurysms and discriminate rupture status. Classification in 117 saccular aneurysms (52 ruptured and 65 unruptured) is based on statistical analysis of writhe number distribution on the aneurysm surface. Aneurysms are analyzed both in isolation and including a portion of their parent vessel. Sidewall and bifurcation aneurysm subtypes were found to be best described by disjoint sets of shape parameters, yielding a morphological dichotomy between the two aneurysm classes. Writhe number analysis results in 86.7% accuracy on sidewall (SW) aneurysms and 71.2% accuracy on bifurcation (BF) aneurysms. This represents a 12% accuracy increase for both subtypes compared to the performance of seven established 2D and 3D indexes. The results support the utility of writhe number aneurysm shape analysis, with potential clinical value in rupture risk stratification.

Published

2011

390. Oriented Markov random field based dendritic spine segmentation for fluorescence microscopy images.

Author

Cheng J, Zhou X, Miller EL, Alvarez VA, Sabatini BL, and Wong ST

Subjects

Animals, Cell Shape physiology, Computer Simulation, Dendritic Spines physiology, Hippocampus physiology, Organ Culture Techniques, Pattern Recognition, Automated methods, Pattern Recognition, Automated trends, Rats, Algorithms, Dendritic Spines ultrastructure, Hippocampus cytology, Image Cytometry methods, Markov Chains, Microscopy, Fluorescence methods

Abstract

Dendritic spines have been shown to be closely related to various functional properties of the neuron. Usually dendritic spines are manually labeled to analyze their morphological changes, which is very time-consuming and susceptible to operator bias, even with the assistance of computers. To deal with these issues, several methods have been recently proposed to automatically detect and measure the dendritic spines with little human interaction. However, problems such as degraded detection performance for images with larger pixel size (e.g. 0.125 μm/pixel instead of 0.08 μm/pixel) still exist in these methods. Moreover, the shapes of detected spines are also distorted. For example, the "necks" of some spines are missed. Here we present an oriented Markov random field (OMRF) based algorithm which improves spine detection as well as their geometric characterization. We begin with the identification of a region of interest (ROI) containing all the dendrites and spines to be analyzed. For this purpose, we introduce an adaptive procedure for identifying the image background. Next, the OMRF model is discussed within a statistical framework and the segmentation is solved as a maximum a posteriori estimation (MAP) problem, whose optimal solution is found by a knowledge-guided iterative conditional mode (KICM) algorithm. Compared with the existing algorithms, the proposed algorithm not only provides a more accurate representation of the spine shape, but also improves the detection performance by more than 50% with regard to reducing both the misses and false detection.

Published

2010

391. Combined optical imaging and mammography of the healthy breast: optical contrast derived from breast structure and compression.

Author

Fang Q, Carp SA, Selb J, Boverman G, Zhang Q, Kopans DB, Moore RH, Miller EL, Brooks DH, and Boas DA

Subjects

Breast chemistry, Equipment Design, Female, Finite Element Analysis, Hemoglobins analysis, Humans, Mammography instrumentation, Oxygen blood, Phantoms, Imaging, Pressure adverse effects, Radiographic Image Enhancement instrumentation, Radiographic Image Enhancement methods, Radiographic Image Interpretation, Computer-Assisted instrumentation, Radiographic Image Interpretation, Computer-Assisted methods, Tomography, Optical instrumentation, Breast anatomy & histology, Mammography methods, Subtraction Technique, Tomography, Optical methods

Abstract

In this paper, we report new progress in developing the instrument and software platform of a combined X-ray mammography/diffuse optical breast imaging system. Particularly, we focus on system validation using a series of balloon phantom experiments and the optical image analysis of 49 healthy patients. Using the finite-element method for forward modeling and a regularized Gauss-Newton method for parameter reconstruction, we recovered the inclusions inside the phantom and the hemoglobin images of the human breasts. An enhanced coupling coefficient estimation scheme was also incorporated to improve the accuracy and robustness of the reconstructions. The recovered average total hemoglobin concentration (HbT) and oxygen saturation (SO2) from 68 breast measurements are 16.2 microm and 71%, respectively, where the HbT presents a linear trend with breast density. The low HbT value compared to literature is likely due to the associated mammographic compression. From the spatially co-registered optical/X-ray images, we can identify the chest-wall muscle, fatty tissue, and fibroglandular regions with an average HbT of 20.1+/-6.1 microm for fibroglandular tissue, 15.4+/-5.0 microm for adipose, and 22.2+/-7.3 microm for muscle tissue. The differences between fibroglandular tissue and the corresponding adipose tissue are significant (p < 0.0001). At the same time, we recognize that the optical images are influenced, to a certain extent, by mammographical compression. The optical images from a subset of patients show composite features from both tissue structure and pressure distribution. We present mechanical simulations which further confirm this hypothesis.

Published

2009

392. Quantitative spectroscopic diffuse optical tomography of the breast guided by imperfect a priori structural information.

Author

Boverman G, Miller EL, Li A, Zhang Q, Chaves T, Brooks DH, and Boas DA

Subjects

Algorithms, Biomarkers, Tumor analysis, Humans, Reproducibility of Results, Sensitivity and Specificity, Biomarkers, Tumor metabolism, Breast Neoplasms metabolism, Breast Neoplasms pathology, Diffusion Magnetic Resonance Imaging methods, Hemoglobins metabolism, Image Interpretation, Computer-Assisted methods, Spectrophotometry, Infrared methods, Tomography, Optical methods

Abstract

Spectroscopic diffuse optical tomography (DOT) can directly image the concentrations of physiologically significant chromophores in the body. This information may be of importance in characterizing breast tumours and distinguishing them from benign structures. This paper studies the accuracy with which lesions can be characterized given a physiologically realistic situation in which the background architecture of the breast is heterogeneous yet highly structured. Specifically, in simulation studies, we assume that the breast is segmented into distinct glandular and adipose regions. Imaging with a high-resolution imaging modality, such as magnetic resonance imaging, in conjunction with a segmentation by a clinical expert, allows the glandular/adipose boundary to be determined. We then apply a two-step approach in which the background chromophore concentrations of each region are estimated in a nonlinear fashion, and a more localized lesion is subsequently estimated using a linear perturbational approach. In addition, we examine the consequences which errors in the breast segmentation have on estimating both the background and inhomogeneity chromophore concentrations.

Published

2005

393. Adaptive two-pass rank order filter to remove impulse noise in highly corrupted images.

Author

Xu X, Miller EL, Chen D, and Sarhadi M

Subjects

Feedback, Quality Control, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Information Storage and Retrieval methods, Pattern Recognition, Automated, Signal Processing, Computer-Assisted, Stochastic Processes

Abstract

In this paper, we present an adaptive two-pass rank order filter to remove impulse noise in highly corrupted images. When the noise ratio is high, rank order filters, such as the median filter for example, can produce unsatisfactory results. Better results can be obtained by applying the filter twice, which we call two-pass filtering. To further improve the performance, we develop an adaptive two-pass rank order filter. Between the passes of filtering, an adaptive process is used to detect irregularities in the spatial distribution of the estimated impulse noise. The adaptive process then selectively replaces some pixels changed by the first pass of filtering with their original observed pixel values. These pixels are then kept unchanged during the second filtering. In combination, the adaptive process and the second filter eliminate more impulse noise and restore some pixels that are mistakenly altered by the first filtering. As a final result, the reconstructed image maintains a higher degree of fidelity and has a smaller amount of noise. The idea of adaptive two-pass processing can be applied to many rank order filters, such as a center-weighted median filter (CWMF), adaptive CWMF, lower-upper-middle filter, and soft-decision rank-order-mean filter. Results from computer simulations are used to demonstrate the performance of this type of adaptation using a number of basic rank order filters.

Published

2004

394. Determination of nitrogen solubility in dilute pepsin hydrochloric acid solution of fishmeal: interlaboratory study.

Author

Miller EL, Bimbo AP, Walters DE, Barlow SM, and Sheridan B

Subjects

Algorithms, Hydrochloric Acid, Hydrolysis, Indicators and Reagents, Reproducibility of Results, Solubility, Solutions, Fish Products analysis, Nitrogen chemistry, Pepsin A chemistry

Abstract

A revised method to determine solubility of nitrogen in dilute pepsin, using 0.0002% pepsin in place of 0.2% in AOAC Official Method 971.09, was tested in 16 laboratories with 12 samples of fishmeal. Results were calculated according to 2 procedures: AOAC Official Method 971.09 and a method described in 1964 by researchers at the Torry Research Station (Aberdeen, Scotland), and generally referred to as the modified Torry method. Variations in the method of shaking and source of pepsin were also investigated. Pepsin solubility values were lower and more variable when calculated by the Torry procedure. The method of shaking apparently affected the result when calculated according to the Torry but not the AOAC method. The source of pepsin had no significant effect on between-laboratory variability, but a comparison of the 2 main sources within one laboratory resulted in highly significant differences. Based on this study, the International Fishmeal and Fish Oil Organization has adopted this new method, using 0.0002% pepsin but keeping the AOAC method of calculation. The type of shaker and source of pepsin are recommended but are not mandatory. The repeatability and reproducibility limits of this new method are 1.6 and 3.3% units of solubility, respectively.

Published

2002