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1. Implementation of the Principal Component Analysis onto High-Performance Computer Facilities for Hyperspectral Dimensionality Reduction: Results and Comparisons

Author

Martel, E., Lazcano, R., Lopez, J., Madroñal, D., Salvador, R., Lopez, S., Juarez, E., Guerra, R., Sanz, C., and Sarmiento, R.

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition
Abstract

Dimensionality reduction represents a critical preprocessing step in order to increase the efficiency and the performance of many hyperspectral imaging algorithms. However, dimensionality reduction algorithms, such as the Principal Component Analysis (PCA), suffer from their computationally demanding nature, becoming advisable for their implementation onto high-performance computer architectures for applications under strict latency constraints. This work presents the implementation of the PCA algorithm onto two different high-performance devices, namely, an NVIDIA Graphics Processing Unit (GPU) and a Kalray manycore, uncovering a highly valuable set of tips and tricks in order to take full advantage of the inherent parallelism of these high-performance computing platforms, and hence, reducing the time that is required to process a given hyperspectral image. Moreover, the achieved results obtained with different hyperspectral images have been compared with the ones that were obtained with a field programmable gate array (FPGA)-based implementation of the PCA algorithm that has been recently published, providing, for the first time in the literature, a comprehensive analysis in order to highlight the pros and cons of each option., Comment: 30 pages, 10 figures

Published
2024
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2. In-Vivo Hyperspectral Human Brain Image Database for Brain Cancer Detection

Author

Fabelo, H., Ortega, S., Szolna, A., Bulters, D., Pineiro, J. F., Kabwama, S., Shanahan, A., Bulstrode, H., Bisshopp, S., Kiran, B. R., Ravi, D., Lazcano, R., Madronal, D., Sosa, C., Espino, C., Marquez, M., Plaza, M. De la Luz, Camacho, R., Carrera, D., Hernandez, M., Callico, G. M., Morera, J., Stanciulescu, B., Yang, G. Z., Salvador, R., Juarez, E., Sanz, C., and Sarmiento, R.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

The use of hyperspectral imaging for medical applications is becoming more common in recent years. One of the main obstacles that researchers find when developing hyperspectral algorithms for medical applications is the lack of specific, publicly available, and hyperspectral medical data. The work described in this paper was developed within the framework of the European project HELICoiD (HypErspectraL Imaging Cancer Detection), which had as a main goal the application of hyperspectral imaging to the delineation of brain tumors in real-time during neurosurgical operations. In this paper, the methodology followed to generate the first hyperspectral database of in-vivo human brain tissues is presented. Data was acquired employing a customized hyperspectral acquisition system capable of capturing information in the Visual and Near InfraRed (VNIR) range from 400 to 1000 nm. Repeatability was assessed for the cases where two images of the same scene were captured consecutively. The analysis reveals that the system works more efficiently in the spectral range between 450 and 900 nm. A total of 36 hyperspectral images from 22 different patients were obtained. From these data, more than 300 000 spectral signatures were labeled employing a semi-automatic methodology based on the spectral angle mapper algorithm. Four different classes were defined: normal tissue, tumor tissue, blood vessel, and background elements. All the hyperspectral data has been made available in a public repository., Comment: 19 pages, 12 figures

Published
2024
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3. Spatio-spectral classification of hyperspectral images for brain cancer detection during surgical operations

Author

Fabelo, H., Ortega, S., Ravi, D., Kiran, B. R., Sosa, C., Bulters, D., Callico, G. M., Bulstrode, H., Szolna, A., Pineiro, J. F., Kabwama, S., Madronal, D., Lazcano, R., OShanahan, A. J., Bisshopp, S., Hernandez, M., Baez-Quevedo, A., Yang, G. Z., Stanciulescu, B., Salvador, R., Juarez, E., and Sarmiento, R.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Surgery for brain cancer is a major problem in neurosurgery. The diffuse infiltration into the surrounding normal brain by these tumors makes their accurate identification by the naked eye difficult. Since surgery is the common treatment for brain cancer, an accurate radical resection of the tumor leads to improved survival rates for patients. However, the identification of the tumor boundaries during surgery is challenging. Hyperspectral imaging is a noncontact, non-ionizing and non-invasive technique suitable for medical diagnosis. This study presents the development of a novel classification method taking into account the spatial and spectral characteristics of the hyperspectral images to help neurosurgeons to accurately determine the tumor boundaries in surgical-time during the resection, avoiding excessive excision of normal tissue or unintentionally leaving residual tumor. The algorithm proposed in this study to approach an efficient solution consists of a hybrid framework that combines both supervised and unsupervised machine learning methods. To evaluate the proposed approach, five hyperspectral images of surface of the brain affected by glioblastoma tumor in vivo from five different patients have been used. The final classification maps obtained have been analyzed and validated by specialists. These preliminary results are promising, obtaining an accurate delineation of the tumor area.

Published
2024
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4. Emergency management of a 13-year-old patient with primary mediastinal B cell lymphoma: Extracorporeal membrane oxygenation and superior vena cava stent prior to chemotherapy

Author

Salvador R. Maffei, Gary Stapleton, Katherine Doane, James Thomas, M Hossein Tcharmtchi, Julienne Brackett, and Saleh Bhar

Subjects
Extracorporeal membrane oxygenation, Mediastinal mass, Superior vena cava syndrome, Interventional cardiology, Pediatrics, RJ1-570
Abstract

Background: Primary mediastinal B cell lymphoma (PMBCL) is a rare type of non-Hodgkin's lymphoma, and prompt diagnosis and initiation of chemotherapy are necessary to limit compression of cardiovascular structures. Case report: A 13-year-old patient was diagnosed with PMBCL, resulting in acute hypoxemic respiratory failure and cardiogenic shock with clinical pericardial tamponade. Chemotherapy was initiated after veno-arterial extracorporeal membrane oxygenation and subsequent endovascular stenting of the superior vena cava (SVC) to optimize cardiac output due to malignant SVC syndrome. Conclusion: We discuss the challenges of diagnosis and emergency management of pediatric patients with PMBCL and review the existing relevant literature for SVC syndrome secondary to PMBCL.

Published
2024
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5. Interchain-expanded extra-large-pore zeolites

Author

Gao, Zihao Rei, Yu, Huajian, Chen, Fei-Jian, Mayoral, Alvaro, Niu, Zijian, Niu, Ziwen, Li, Xintong, Deng, Hua, Márquez-Álvarez, Carlos, He, Hong, Xu, Shutao, Zhou, Yida, Xu, Jun, Xu, Hao, Fan, Wei, Balestra, Salvador R. G., Ma, Chao, Hao, Jiazheng, Li, Jian, Wu, Peng, Yu, Jihong, and Camblor, Miguel A.

Published
2024
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8. Computer Simulation of the Early Stages of Self-Assembly and Thermal Decomposition of ZIF-8

Author

Balestra, Salvador R. G. and Semino, Rocio

Subjects
Physics - Chemical Physics
Abstract

We employ all-atom well-tempered metadynamics simulations to study the mechanistic details of both the early stages of nucleation and crystal decomposition for the benchmark metal-organic framework ZIF-8. To do so, we developed and validated a force field that reliably models the modes of coordination bonds via a Morse potential functional form and employs cationic and anionic dummy atoms to capture coordination symmetry. We also explored a set of physically relevant collective variables and carefully selected an appropriate subset for our problem at hand. After a rapid increase of the Zn-N connectivity, we observe the evaporation of small clusters in favor of a few large clusters, that lead to the formation of an amorphous highly-connected aggregate. Zn(MIm)42- and Zn(MIm)3- complexes are observed, with lifetimes in the order of a few picoseconds, while larger structures, such as 4-, 5- and 6-membered rings, have substantially longer lifetimes of a few nanoseconds. The free ligands act as ``templating agents'' for the formation of the sodalite cages. ZIF-8 crystal decomposition results in the formation of a vitreous phase. Our findings contribute to a fundamental understanding of MOF's synthesis that paves the way to controlling synthesis products. Furthermore, our developed force field and methodology can be applied to model solution processes that require coordination bond reactivity for other ZIFs besides ZIF-8., Comment: 16 pages, 6 figures. This version corresponds to the accepted article, changes were applied in response to the peer-reviewing process. This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in The Journal of Chemical Physics and may be found at https://aip.scitation.org/doi/10.1063/5.0128656

Published
2022
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9. The Impact of Screen-Free Zones in an Undergraduate Psychology Classroom: Assessing Exam Performance and Instructor Evaluations in Two Quasi-Experiments

Author

Rhinehart, Laura, Vazquez, Salvador R, and Greenfield, Patricia M

Subjects
teaching psychology, digital distraction, student engagement, teaching and learning strategies, instructor evaluation, Curriculum and Pedagogy, Psychology, Education
Abstract

Background:: With in-person instruction, many undergraduates look at screens during lectures. Because screens can distract, attempts to curb this behavior through screen policies are increasingly common but understudied. Objective and Method:: Two quasi-experimental studies (Study 1: N = 412; Study 2: N = 179) in the same Psychology class explore results of restricting screens to one area of the classroom on exam performance and instructor/course evaluation. Results:: In both studies, these policies improved exam scores in the class. In Study 2, students who chose to sit in the screen-free zone did better on exams. Limiting screen use to the back of the classroom (Study 1) produced student pushback in qualitative comments and lower evaluations in quantitative instructor and course ratings. In contrast, placing screen and screen-free zones side-by-side (Study 2) was accepted without comment by students. Conclusion:: Together, these studies suggest that creating screen-free zones in classrooms can be beneficial for students, especially for those students who choose to sit in the screen-free section. Additionally, students accept side-by-side division of a classroom into screen and screen-free zones. Teaching Implications:: Because these studies are ecologically valid, results have implications for how students take notes and how instructors set restrictions on screens in their classroom.

Published
2022

10. Transferable classical force field for pure and mixed metal halide perovskites parameterized from first principles

Author

Seijas-Bellido, Juan Antonio, Samanta, Bipasa, Valadez-Villalobos, Karen, Gallardo, Juan Jesús, Navas, Javier, Balestra, Salvador R. G., Madero-Castro, Rafael María, Vicent-Luna, Jose Manuel, Tao, Shuxia, Toroker, Maytal Caspary, and Anta, Juan Antonio

Subjects
Condensed Matter - Materials Science
Abstract

Many key features in photovoltaic perovskites occur in relatively long time scales and involve mixed compositions. This requires realistic but also numerically simple models. In this work we present a transferable classical force field to describe the mixed hybrid perovskite MA$_x$FA$_{1-x}$Pb(Br$_y$I$_{1-y}$)$_3$ for variable composition ($\forall x,y \in [0,1]$). The model includes Lennard-Jones and Buckingham potentials to describe the interactions between the atoms of the inorganic lattice and the organic molecule, and the AMBER model to describe intramolecular atomic interactions. Most of the parameters of the force field have been obtained by means of a genetic algorithm previously developed to parameterize the CsPb(Br$_x$I$_{1-x}$)$_3$ perovskite. The algorithm finds the best parameter set that simultaneously fits the DFT energies obtained for several crystalline structures with moderate degrees of distortion with respect to the equilibrium configuration. The resulting model reproduces correctly the XRD patterns, the expansion of the lattice upon I/Br substitution and the thermal expansion coefficients. We use the model to run classical molecular dynamics simulations with up to 8600 atoms and simulation times of up to 40~ns. From the simulations we have extracted the ion diffusion coefficient of the pure and mixed perovskites, presenting for the first time these values obtained by a fully dynamical method using a transferable model fitted to first principles calculations. The values here reported can be considered as the theoretical upper limit for ion migration dynamics induced by halide vacancies in photovoltaic perovskite devices under operational conditions.

Published
2021
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12. Effect of lattice shrinking on the migration of water within zeolite LTA

Author

Perez-Carbajo, Julio E., Balestra, Salvador R. G., Calero, Sofia, and Merkling, Patrick J.

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

Water adsorption within zeolites of the Linde Type A (LTA) structure plays an important role in processes of water removal from solvents. For this purpose, knowing in which adsorption sites water is preferably found is of interest. In this paper, the distribution of water within LTA is investigated in several aluminum-substituted frameworks ranging from a Si:Al ratio of 1 (maximum substitution, framework is hydrophilic) to a Si:Al ratio of 191 (almost pure siliceous framework, it is hydrophobic). The counterion is sodium. In the hydrophobic framework, water enters the large {\alpha}-cages, whereas in the most hydrophilic frameworks, water enters preferably the small $\beta$-cages. For frameworks with moderate aluminum substitution, $\beta$-cages are populated first, but at intermediate pressures water favors $\alpha$-cages instead. Framework composition and pressure therefore drive water molecules selectively towards $\alpha$- or $\beta$-cages., Comment: 6 pages, 5 figures

Published
2019
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13. Atomic charges for modeling metal-organic frameworks: Why and how

Author

Hamad, Said, Balestra, Salvador R. G., Bueno-Perez, Rocio, Calero, Sofia, and Ruiz-Salvador, A. Rabdel

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

Atomic partial charges are parameters of key importance in the simulation of Metal-Organic Frameworks (MOFs), since Coulombic interactions decrease with the distance more slowly than van der Waals interactions. But despite its relevance, there is no method to unambiguously assign charges to each atom, since atomic charges are not quantum observables. There are several methods that allow the calculation of atomic charges, most of them starting from the wavefunction or the electronic density or the system, as obtained with quantum mechanical calculations. In this work, we describe the most common methods employed to calculate atomic charges in MOFs. In order to show the influence that even small variations of structure have on atomic charges, we present the results that we obtained for DMOF-1. We also discuss the effect that small variations of atomic charges have on the predicted structural properties IRMOF-1.

Published
2018
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14. Individualized decision aid for diverse women with lupus nephritis (IDEA-WON): A randomized controlled trial.

Author

Singh, Jasvinder A, Fraenkel, Liana, Green, Candace, Alarcón, Graciela S, Barton, Jennifer L, Saag, Kenneth G, Hanrahan, Leslie M, Raymond, Sandra C, Kimberly, Robert P, Leong, Amye L, Reyes, Elyse, Street, Richard L, Suarez-Almazor, Maria E, Eakin, Guy S, Marrow, Laura, Morgan, Charity J, Caro, Brennda, Sloan, Jeffrey A, Jandali, Bochra, Garcia, Salvador R, Grossman, Jennifer, Winthrop, Kevin L, Trupin, Laura, Dall'Era, Maria, Meara, Alexa, Rizvi, Tara, Chatham, W Winn, and Yazdany, Jinoos

Subjects
Humans, Lupus Nephritis, Immunosuppressive Agents, Treatment Outcome, Health Knowledge, Attitudes, Practice, Choice Behavior, Decision Support Techniques, Pamphlets, Adult, Middle Aged, Patient Participation, United States, Female, Patient Education as Topic, Health Literacy, Health Knowledge, Attitudes, Practice, General & Internal Medicine, Medical and Health Sciences
Abstract

BackgroundTreatment decision-making regarding immunosuppressive therapy is challenging for individuals with lupus. We assessed the effectiveness of a decision aid for immunosuppressive therapy in lupus nephritis.Methods and findingsIn a United States multicenter, open-label, randomized controlled trial (RCT), adult women with lupus nephritis, mostly from racial/ethnic minority backgrounds with low socioeconomic status (SES), seen in in- or outpatient settings, were randomized to an individualized, culturally tailored, computerized decision aid versus American College of Rheumatology (ACR) lupus pamphlet (1:1 ratio), using computer-generated randomization. We hypothesized that the co-primary outcomes of decisional conflict and informed choice regarding immunosuppressive medications would improve more in the decision aid group. Of 301 randomized women, 298 were analyzed; 47% were African-American, 26% Hispanic, and 15% white. Mean age (standard deviation [SD]) was 37 (12) years, 57% had annual income of

Published
2019

16. Parental Beliefs on the Efficacy of Productive Struggle and Their Relation to Homework-Helping Behavior

Author

Vazquez, Salvador R., Ermeling, Bradley A., and Ramirez, Gerardo

Abstract

Productive struggle--expending effort to make sense of something beyond one's current level of understanding--aids in learning mathematics concepts and procedures. In this study, we surveyed 197 parents with children in the 1st to the 5th grade on their beliefs about productive struggle. Beliefs were assessed via questionnaire and rating of a recorded lesson involving productive struggle. Parents also reported how often they helped with math homework and their child's ability in math. The results show that parents had diverse beliefs about the efficacy of productive struggle, with fathers favoring it more than mothers. A significant relation was found between parents' beliefs about productive struggle and reports of their child's ability in math. The findings of this study suggest that for productive struggle to be effective, parents must intentionally facilitate experiences through student-centered approaches. Programs for parents should emphasize specific evidence-based behaviors rather than broad generalizations about increased involvement with homework. Schools and educators should also provide guidance for parents to explain the potential harmful effects of gender stereotypes and parents' own math anxiety and to teach methods for limiting homework interaction while students grapple with difficult problems.

Published
2020

18. Controlling Thermal Expansion: a Metal Organic Frameworks Route

Author

Balestra, Salvador R. G., Bueno-Pérez, Rocío, Hamad, Said, Dubbeldam, David, Ruiz-Salvador, A. Rabdel, and Calero, Sofia

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

Controlling thermal expansion is an important, not yet resolved, and challenging problem in materials research. A conceptual design is introduced here for the first time, for the use of MOFs as platforms for controlling thermal expansion devices that can operate in the negative, zero and positive expansion regimes. A detailed computer simulation study, based on molecular dynamics, is presented to support the targeted application. MOF-5 has been selected as model material along with three molecules of similar size and known differences in terms of the nature of host--guest interactions. It has been shown that adsorbate molecules can control, in a colligative way, the thermal expansion of the solid, so that changing the adsorbate molecules induces the solid to have positive, zero or negative thermal expansion. We analyze in-depth the distortion mechanisms, beyond the ligand metal junction to cover the ligand distortions, and the energetic and entropic effect on the thermo-structural behavior. We provide an unprecedented atomistic insight on the effect of adsorbates on the thermal expansion of MOFs, as a basic tool towards controlling the thermal expansion.

Published
2016
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22. [Dataset] Interchain Expanded Extra-Large Pore Zeolites

Author

Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), National Natural Science Foundation of China, National Key Research and Development Program (China), Junta de Andalucía, European Commission, Gobierno de Aragón, Camblor, Miguel Ángel [0000-0001-9591-3432], Gao, Zihao Rei, Yu, Huajian, Chen, Fei-Jian, Mayoral, Álvaro, Niu, Zijian, Niu, Ziwen, Li, Xintong, Deng, Hua, Márquez Álvarez, Carlos, He, Hong, Xu, Shutao, Zhou, Yida, Xu, Jun, Xu, Hao, Fan, Wei, Balestra, Salvador R. G., Ma, Chao, Hao, Jiazheng, Li, Jian, Wu, Peng, Yu, Jihong, Camblor, Miguel Ángel, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), National Natural Science Foundation of China, National Key Research and Development Program (China), Junta de Andalucía, European Commission, Gobierno de Aragón, Camblor, Miguel Ángel [0000-0001-9591-3432], Gao, Zihao Rei, Yu, Huajian, Chen, Fei-Jian, Mayoral, Álvaro, Niu, Zijian, Niu, Ziwen, Li, Xintong, Deng, Hua, Márquez Álvarez, Carlos, He, Hong, Xu, Shutao, Zhou, Yida, Xu, Jun, Xu, Hao, Fan, Wei, Balestra, Salvador R. G., Ma, Chao, Hao, Jiazheng, Li, Jian, Wu, Peng, Yu, Jihong, and Camblor, Miguel Ángel

Abstract

[EN] 1. Description of methods used for collection/generation of data: Diffraction (electron, synchrotron X-ray, neutron). Infrared spectroscopy multinuclear MAS NMR gas adsorption electron paramagnetic resonance DFT calculations Catalytic reaction 2. Methods for processing the data: Those needed depending on the type of data (SHELX, Rietveld refinement, fast Fourier Transform...). Please, check the paper.

Published
2024

33. Face-directed assembly of tailored isoreticular MOFs using centring structure-directing agents

Author

Barsukova, Marina, primary, Sapianik, Aleksandr, additional, Guillerm, Vincent, additional, Shkurenko, Aleksander, additional, Shaikh, Aslam C., additional, Parvatkar, Prakash, additional, Bhatt, Prashant M., additional, Bonneau, Mickaele, additional, Alhaji, Abdulhadi, additional, Shekhah, Osama, additional, Balestra, Salvador R. G., additional, Semino, Rocio, additional, Maurin, Guillaume, additional, and Eddaoudi, Mohamed, additional

Published
2023
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38. Nucleation of zeolitic imidazolate frameworks: from molecules to nanoparticles

Author

Salvador R. G. Balestra, Bruno Martínez-Haya, Norge Cruz-Hernández, Dewi W. Lewis, Scott M. Woodley, Rocio Semino, Guillaume Maurin, A. Rabdel Ruiz-Salvador, and Said Hamad

Subjects
General Materials Science
Abstract

A range of Density Functional Theory and Tight Binding calculations are employed to investigate the pre-nucleation processes that lead to the formation of ZIF crystals, finding that amorphous clusters might play a key role.

Published
2023

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