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1. Unscrambling disease progression at scale: fast inference of event permutations with optimal transport

Author

Wijeratne, Peter A. and Alexander, Daniel C.

Subjects
Computer Science - Machine Learning
Abstract

Disease progression models infer group-level temporal trajectories of change in patients' features as a chronic degenerative condition plays out. They provide unique insight into disease biology and staging systems with individual-level clinical utility. Discrete models consider disease progression as a latent permutation of events, where each event corresponds to a feature becoming measurably abnormal. However, permutation inference using traditional maximum likelihood approaches becomes prohibitive due to combinatoric explosion, severely limiting model dimensionality and utility. Here we leverage ideas from optimal transport to model disease progression as a latent permutation matrix of events belonging to the Birkhoff polytope, facilitating fast inference via optimisation of the variational lower bound. This enables a factor of 1000 times faster inference than the current state of the art and, correspondingly, supports models with several orders of magnitude more features than the current state of the art can consider. Experiments demonstrate the increase in speed, accuracy and robustness to noise in simulation. Further experiments with real-world imaging data from two separate datasets, one from Alzheimer's disease patients, the other age-related macular degeneration, showcase, for the first time, pixel-level disease progression events in the brain and eye, respectively. Our method is low compute, interpretable and applicable to any progressive condition and data modality, giving it broad potential clinical utility., Comment: Camera-ready version of paper accepted to NeurIPS 2024

Published
2024

2. Sparse MTTKRP Acceleration for Tensor Decomposition on GPU

Author

Wijeratne, Sasindu, Kannan, Rajgopal, and Prasanna, Viktor

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Hardware Architecture
Abstract

Sparse Matricized Tensor Times Khatri-Rao Product (spMTTKRP) is the bottleneck kernel of sparse tensor decomposition. In this work, we propose a GPU-based algorithm design to address the key challenges in accelerating spMTTKRP computation, including (1) eliminating global atomic operations across GPU thread blocks, (2) avoiding the intermediate values being communicated between GPU thread blocks and GPU global memory, and (3) ensuring a balanced distribution of workloads across GPU thread blocks. Our approach also supports dynamic tensor remapping, enabling the above optimizations in all the modes of the input tensor. Our approach achieves a geometric mean speedup of 1.5x, 2.0x, and 21.7x in total execution time across widely used datasets compared with the state-of-the-art GPU implementations. Our work is the only GPU implementation that can support tensors with modes greater than 4 since the state-of-the-art works have implementation constraints for tensors with a large number of modes., Comment: In 21st ACM International Conference on Computing Frontiers (CF '24), May 7-9, 2024, Ischia, Italy

Published
2024
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3. Multiomic profiling identifies predictors of survival in African American patients with acute myeloid leukemia

Author

Stiff, Andrew, Fornerod, Maarten, Kain, Bailee N., Nicolet, Deedra, Kelly, Benjamin J., Miller, Katherine E., Mrózek, Krzysztof, Boateng, Isaiah, Bollas, Audrey, Garfinkle, Elizabeth A. R., Momoh, Omolegho, Fasola, Foluke A., Olawumi, Hannah O., Mencia-Trinchant, Nuria, Kloppers, Jean F., van Marle, Anne-Cecilia, Hu, Eileen, Wijeratne, Saranga, Wheeler, Gregory, Walker, Christopher J., Buss, Jill, Heyrosa, Adrienne, Desai, Helee, Laganson, Andrea, Hamp, Ethan, Abu-Shihab, Yazan, Abaza, Hasan, Kronen, Parker, Sen, Sidharth, Johnstone, Megan E., Quinn, Kate, Wronowski, Ben, Hertlein, Erin, Miles, Linde A., Mims, Alice S., Oakes, Christopher C., Blachly, James S., Larkin, Karilyn T., Mundy-Bosse, Bethany, Carroll, Andrew J., Powell, Bayard L., Kolitz, Jonathan E., Stone, Richard M., Duarte, Cassandra, Abbott, Diana, Amaya, Maria L., Jordan, Craig T., Uy, Geoffrey L., Stock, Wendy, Archer, Kellie J., Paskett, Electra D., Guzman, Monica L., Levine, Ross L., Menghrajani, Kamal, Chakravarty, Debyani, Berger, Michael F., Bottomly, Daniel, McWeeney, Shannon K., Tyner, Jeffrey W., Byrd, John C., Salomonis, Nathan, Grimes, H. Leighton, Mardis, Elaine R., and Eisfeld, Ann-Kathrin

Published
2024
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4. PAHD: Perception-Action based Human Decision Making using Explainable Graph Neural Networks on SAR Images

Author

Wijeratne, Sasindu, Zhang, Bingyi, Kannan, Rajgopal, Prasanna, Viktor, and Busart, Carl

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

Synthetic Aperture Radar (SAR) images are commonly utilized in military applications for automatic target recognition (ATR). Machine learning (ML) methods, such as Convolutional Neural Networks (CNN) and Graph Neural Networks (GNN), are frequently used to identify ground-based objects, including battle tanks, personnel carriers, and missile launchers. Determining the vehicle class, such as the BRDM2 tank, BMP2 tank, BTR60 tank, and BTR70 tank, is crucial, as it can help determine whether the target object is an ally or an enemy. While the ML algorithm provides feedback on the recognized target, the final decision is left to the commanding officers. Therefore, providing detailed information alongside the identified target can significantly impact their actions. This detailed information includes the SAR image features that contributed to the classification, the classification confidence, and the probability of the identified object being classified as a different object type or class. We propose a GNN-based ATR framework that provides the final classified class and outputs the detailed information mentioned above. This is the first study to provide a detailed analysis of the classification class, making final decisions more straightforward. Moreover, our GNN framework achieves an overall accuracy of 99.2\% when evaluated on the MSTAR dataset, improving over previous state-of-the-art GNN methods.

Published
2024

6. Dynasor: A Dynamic Memory Layout for Accelerating Sparse MTTKRP for Tensor Decomposition on Multi-core CPU

Author

Wijeratne, Sasindu, Kannan, Rajgopal, and Prasanna, Viktor

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Sparse Matricized Tensor Times Khatri-Rao Product (spMTTKRP) is the most time-consuming compute kernel in sparse tensor decomposition. In this paper, we introduce a novel algorithm to minimize the execution time of spMTTKRP across all modes of an input tensor on multi-core CPU platform. The proposed algorithm leverages the FLYCOO tensor format to exploit data locality in external memory accesses. It effectively utilizes computational resources by enabling lock-free concurrent processing of independent partitions of the input tensor. The proposed partitioning ensures load balancing among CPU threads. Our dynamic tensor remapping technique leads to reduced communication overhead along all the modes. On widely used real-world tensors, our work achieves 2.12x - 9.01x speedup in total execution time across all modes compared with the state-of-the-art CPU implementations.

Published
2023

7. HDAC activity is dispensable for repression of cell-cycle genes by DREAM and E2F:RB complexes

Author

Barrett, Alison K, Shingare, Manisha R, Rechtsteiner, Andreas, Rodriguez, Kelsie M, Le, Quynh N, Wijeratne, Tilini U, Mitchell, Corbin E, Membreno, Miles W, Rubin, Seth M, and Müller, Gerd A

Subjects
Biochemistry and Cell Biology, Biological Sciences, Rare Diseases, Genetics, Cancer, 2.1 Biological and endogenous factors, Aetiology, Humans, Histone Deacetylases, HCT116 Cells, Repressor Proteins, E2F Transcription Factors, Retinoblastoma Protein, Mice, Animals, Sin3 Histone Deacetylase and Corepressor Complex, Kv Channel-Interacting Proteins, Cell Cycle, Promoter Regions, Genetic, Gene Expression Regulation, Genes, cdc
Abstract

Histone deacetylases (HDACs) play a crucial role in transcriptional regulation and are implicated in various diseases, including cancer. They are involved in histone tail deacetylation and canonically linked to transcriptional repression. Previous studies suggested that HDAC recruitment to cell-cycle gene promoters via the retinoblastoma (RB) protein or the DREAM complex through SIN3B is essential for G1/S and G2/M gene repression during cell-cycle arrest and exit. Here we investigate the interplay among DREAM, RB, SIN3 proteins, and HDACs in the context of cell-cycle gene repression. Knockout of SIN3B does not globally derepress cell-cycle genes in non-proliferating HCT116 and C2C12 cells. Loss of SIN3A/B moderately upregulates several cell-cycle genes in HCT116 cells but does so independently of DREAM/RB. HDAC inhibition does not induce general upregulation of RB/DREAM target genes in arrested transformed or non-transformed cells. Our findings suggest that E2F:RB and DREAM complexes can repress cell-cycle genes without relying on HDAC activity.

Published
2024

8. Hallmarks of primary headache: part 1 – migraine

Author

Alberto Raggi, Matilde Leonardi, Marco Arruda, Valeria Caponnetto, Matteo Castaldo, Gianluca Coppola, Adriana Della Pietra, Xiangning Fan, David Garcia-Azorin, Parisa Gazerani, Lou Grangeon, Licia Grazzi, Fu-Jung Hsiao, Keiko Ihara, Alejandro Labastida-Ramirez, Kristin Sophie Lange, Marco Lisicki, Alessia Marcassoli, Danilo Antonio Montisano, Dilara Onan, Agnese Onofri, Lanfranco Pellesi, Mario Peres, Igor Petrušić, Bianca Raffaelli, Eloisa Rubio-Beltran, Andreas Straube, Sebastian Straube, Tsubasa Takizawa, Claudio Tana, Michela Tinelli, Massimiliano Valeriani, Simone Vigneri, Doga Vuralli, Marta Waliszewska-Prosół, Wei Wang, Yonggang Wang, William Wells-Gatnik, Tissa Wijeratne, and Paolo Martelletti

Subjects
Migraine, Aura, Medication overuse headache, Calcitonin gene-related peptide, CGRP, Gepants, Medicine
Abstract

Abstract Background and aim Migraine is a common disabling conditions which, globally, affects 15.2% of the population. It is the second cause of health loss in terms of years lived with disability, the first among women. Despite being so common, it is poorly recognised and too often undertreated. Specialty centres and neurologists with specific expertise on headache disorders have the knowledge to provide specific care: however, those who do not regularly treat patients with migraine will benefit from a synopsis on the most relevant and updated information about this condition. This paper presents a comprehensive view on the hallmarks of migraine, from genetics and diagnostic markers, up to treatments and societal impact, and reports the elements that identify migraine specific features. Main results The most relevant hallmark of migraine is that it has common and individual features together. Besides the known clinical manifestations, migraine presentation is heterogeneous with regard to frequency of attacks, presence of aura, response to therapy, associated comorbidities or other symptoms, which likely reflect migraine heterogeneous genetic and molecular basis. The amount of therapies for acute and for prophylactic treatment is really wide, and one of the difficulties is with finding the best treatment for the single patient. In addition to this, patients carry out different daily life activities, and might show lifestyle habits which are not entirely adequate to manage migraine day by day. Education will be more and more important as a strategy of brain health promotion, because this will enable reducing the amount of subjects needing specialty care, thus leaving it to those who require it in reason of refractory condition or presence of comorbidities. Conclusions Recognizing the hallmarks of migraine and the features of single patients enables prescribing specific pharmacological and non-pharmacological treatments. Medical research on headaches today particularly suffers from the syndrome of single-disease approach, but it is important to have a cross-sectional and joint vision with other close specialties, in order to treat our patients with a comprehensive approach that a heterogeneous condition like migraine requires.

Published
2024
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9. Exploiting On-chip Heterogeneity of Versal Architecture for GNN Inference Acceleration

Author

Chen, Paul, Manjunath, Pavan, Wijeratne, Sasindu, Zhang, Bingyi, and Prasanna, Viktor

Subjects
Computer Science - Hardware Architecture, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning
Abstract

Graph Neural Networks (GNNs) have revolutionized many Machine Learning (ML) applications, such as social network analysis, bioinformatics, etc. GNN inference can be accelerated by exploiting data sparsity in the input graph, vertex features, and intermediate data in GNN computations. For dynamic sparsity exploitation, we leverage the heterogeneous computing capabilities of AMD Versal ACAP architecture to accelerate GNN inference. We develop a custom hardware module that executes the sparse primitives of the computation kernel on the Programmable Logic (PL) and efficiently computes the dense primitives using the AI Engine (AIE). To exploit data sparsity during inference, we devise a runtime kernel mapping strategy that dynamically assigns computation tasks to the PL and AIE based on data sparsity. Our implementation on the VCK5000 ACAP platform leads to superior performance compared with the state-of-the-art implementations on CPU, GPU, ACAP, and other custom GNN accelerators. Compared with these implementations, we achieve significant average runtime speedup across various models and datasets of 162.42x, 17.01x, 9.90x, and 27.23x, respectively. Furthermore, for Graph Convolutional Network (GCN) inference, our approach leads to a speedup of 3.9-96.7x compared to designs using PL only on the same ACAP device.

Published
2023

10. Hallmarks of primary headache: part 1 – migraine

Author

Raggi, Alberto, Leonardi, Matilde, Arruda, Marco, Caponnetto, Valeria, Castaldo, Matteo, Coppola, Gianluca, Della Pietra, Adriana, Fan, Xiangning, Garcia-Azorin, David, Gazerani, Parisa, Grangeon, Lou, Grazzi, Licia, Hsiao, Fu-Jung, Ihara, Keiko, Labastida-Ramirez, Alejandro, Lange, Kristin Sophie, Lisicki, Marco, Marcassoli, Alessia, Montisano, Danilo Antonio, Onan, Dilara, Onofri, Agnese, Pellesi, Lanfranco, Peres, Mario, Petrušić, Igor, Raffaelli, Bianca, Rubio-Beltran, Eloisa, Straube, Andreas, Straube, Sebastian, Takizawa, Tsubasa, Tana, Claudio, Tinelli, Michela, Valeriani, Massimiliano, Vigneri, Simone, Vuralli, Doga, Waliszewska-Prosół, Marta, Wang, Wei, Wang, Yonggang, Wells-Gatnik, William, Wijeratne, Tissa, and Martelletti, Paolo

Published
2024
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14. Combinatorial macrophage induced innate immunotherapy against Ewing sarcoma: Turning “Two Keys” simultaneously

Author

Luo, Wen, Hoang, Hai, Miller, Katherine E., Zhu, Hongwen, Xu, Serena, Mo, Xiaokui, Garfinkle, Elizabeth A. R., Costello, Heather, Wijeratne, Saranga, Chemnitz, Wiebke, Gandhi, Ronan, Liao, Yanling, Ayello, Janet, Gardenswartz, Aliza, Rosenblum, Jeremy M., Cassady, Kevin A., Mardis, Elaine R., Lee, Dean A., Cripe, Timothy P., and Cairo, Mitchell S.

Published
2024
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16. The World Health Organization Intersectoral Global Action Plan on Epilepsy and Other Neurological Disorders and the headache revolution: from headache burden to a global action plan for headache disorders

Author

Leonardi, Matilde, Martelletti, Paolo, Burstein, Rami, Fornari, Arianna, Grazzi, Licia, Guekht, Alla, Lipton, Richard B., Mitsikostas, Dimos Dimitrios, Olesen, Jes, Owolabi, Mayowa Ojo, Ruiz De la Torre, Elena, Sacco, Simona, Steiner, Timothy J., Surya, Nirmal, Takeshima, Takao, Tassorelli, Cristina, Wang, Shuu-Jiun, Wijeratne, Tissa, Yu, Shengyuan, and Raggi, Alberto

Published
2024
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17. Graph Neural Network for Accurate and Low-complexity SAR ATR

Author

Zhang, Bingyi, Wijeratne, Sasindu, Kannan, Rajgopal, Prasanna, Viktor, and Busart, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Synthetic Aperture Radar (SAR) Automatic Target Recognition (ATR) is the key technique for remote sensing image recognition. The state-of-the-art works exploit the deep convolutional neural networks (CNNs) for SAR ATR, leading to high computation costs. These deep CNN models are unsuitable to be deployed on resource-limited platforms. In this work, we propose a graph neural network (GNN) model to achieve accurate and low-latency SAR ATR. We transform the input SAR image into the graph representation. The proposed GNN model consists of a stack of GNN layers that operates on the input graph to perform target classification. Unlike the state-of-the-art CNNs, which need heavy convolution operations, the proposed GNN model has low computation complexity and achieves comparable high accuracy. The GNN-based approach enables our proposed \emph{input pruning} strategy. By filtering out the irrelevant vertices in the input graph, we can reduce the computation complexity. Moreover, we propose the \emph{model pruning} strategy to sparsify the model weight matrices which further reduces the computation complexity. We evaluate the proposed GNN model on the MSTAR dataset and ship discrimination dataset. The evaluation results show that the proposed GNN model achieves 99.38\% and 99.7\% classification accuracy on the above two datasets, respectively. The proposed pruning strategies can prune 98.6\% input vertices and 97\% weight entries with negligible accuracy loss. Compared with the state-of-the-art CNNs, the proposed GNN model has only 1/3000 computation cost and 1/80 model size.

Published
2023

18. Better Question-Answering Models on a Budget

Author

Wijeratne, Yudhanjaya and Marikar, Ishan

Subjects
Computer Science - Computation and Language
Abstract

Low-rank adaptation (LoRA) and question-answer datasets from large language models have made it much easier for much smaller models to be finetuned to the point where they display sophisticated conversational abilities. In this paper, we present Eluwa, a family of LoRA models that use the Stanford Alpaca dataset and massively improve the capabilities of Facebook's OPT 1.3B, 2.7B and 6.7B models. We benchmark these models in multiple ways, including letting GPT-4 judge their answers to prompts that span general knowledge, writing, programming and other tasks. We show that smaller models here can be fine-tuned to be as performant as models 3x larger - all for as little as 40 USD in compute., Comment: 5 pages, code and datasets available

Published
2023

19. Fine-scale characterization of the soybean rhizosphere microbiome via synthetic long reads and avidity sequencing

Author

Brett Hale, Caitlin Watts, Matthew Conatser, Edward Brown, and Asela J. Wijeratne

Subjects
Soybean, Rhizosphere, Microbiome, Soil biology, Amplicon sequencing, Synthetic long reads, Environmental sciences, GE1-350, Microbiology, QR1-502
Abstract

Abstract Background The rhizosphere microbiome displays structural and functional dynamism driven by plant, microbial, and environmental factors. While such plasticity is a well-evidenced determinant of host health, individual and community-level microbial activity within the rhizosphere remain poorly understood, due in part to the insufficient taxonomic resolution achieved through traditional marker gene amplicon sequencing. This limitation necessitates more advanced approaches (e.g., long-read sequencing) to derive ecological inferences with practical application. To this end, the present study coupled synthetic long-read technology with avidity sequencing to investigate eukaryotic and prokaryotic microbiome dynamics within the soybean (Glycine max) rhizosphere under field conditions. Results Synthetic long-read sequencing permitted de novo reconstruction of the entire 18S-ITS1-ITS2 region of the eukaryotic rRNA operon as well as all nine hypervariable regions of the 16S rRNA gene. All full-length, mapped eukaryotic amplicon sequence variants displayed genus-level classification, and 44.77% achieved species-level classification. The resultant eukaryotic microbiome encompassed five kingdoms (19 genera) of protists in addition to fungi – a depth unattainable with conventional short-read methods. In the prokaryotic fraction, every full-length, mapped amplicon sequence variant was resolved at the species level, and 23.13% at the strain level. Thirteen species of Bradyrhizobium were thereby distinguished in the prokaryotic microbiome, with strain-level identification of the two Bradyrhizobium species most reported to nodulate soybean. Moreover, the applied methodology delineated structural and compositional dynamism in response to experimental parameters (i.e., growth stage, cultivar, and biostimulant application), unveiled a saprotroph-rich core microbiome, provided empirical evidence for host selection of mutualistic taxa, and identified key microbial co-occurrence network members likely associated with edaphic and agronomic properties. Conclusions This study is the first to combine synthetic long-read technology and avidity sequencing to profile both eukaryotic and prokaryotic fractions of a plant-associated microbiome. Findings herein provide an unparalleled taxonomic resolution of the soybean rhizosphere microbiota and represent significant biological and technological advancements in crop microbiome research.

Published
2024
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20. Combinatorial macrophage induced innate immunotherapy against Ewing sarcoma: Turning 'Two Keys' simultaneously

Author

Wen Luo, Hai Hoang, Katherine E. Miller, Hongwen Zhu, Serena Xu, Xiaokui Mo, Elizabeth A. R. Garfinkle, Heather Costello, Saranga Wijeratne, Wiebke Chemnitz, Ronan Gandhi, Yanling Liao, Janet Ayello, Aliza Gardenswartz, Jeremy M. Rosenblum, Kevin A. Cassady, Elaine R. Mardis, Dean A. Lee, Timothy P. Cripe, and Mitchell S. Cairo

Subjects
CD47 blockade, Chemotherapy, Macrophages, Ewing sarcoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Macrophages play important roles in phagocytosing tumor cells. However, tumors escape macrophage phagocytosis in part through the expression of anti-phagocytic signals, most commonly CD47. In Ewing sarcoma (ES), we found that tumor cells utilize dual mechanisms to evade macrophage clearance by simultaneously over-expressing CD47 and down-regulating cell surface calreticulin (csCRT), the pro-phagocytic signal. Here, we investigate the combination of a CD47 blockade (magrolimab, MAG) to inhibit the anti-phagocytic signal and a chemotherapy regimen (doxorubicin, DOX) to enhance the pro-phagocytic signal to induce macrophage phagocytosis of ES cells in vitro and inhibit tumor growth and metastasis in vivo. Methods Macrophages were derived from human peripheral blood monocytes by granulocyte–macrophage colony-stimulating factor (GM-CSF) and macrophage colony-stimulating factor (M-CSF). Flow cytometry- and microscopy-based in-vitro phagocytosis assays were performed to evaluate macrophage phagocytosis of ES cells. Annexin-V assay was performed to evaluate apoptosis. CD47 was knocked out by CRISPR/Cas9 approach. ES cell-based and patient-derived-xenograft (PDX)-based mouse models were utilized to assess the effects of MAG and/or DOX on ES tumor development and animal survival. RNA-Seq combined with CIBERSORTx analysis was utilized to identify changes in tumor cell transcriptome and tumor infiltrating immune cell profiling in MAG and/or DOX treated xenograft tumors. Results We found that MAG significantly increased macrophage phagocytosis of ES cells in vitro (p

Published
2024
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22. Sinhala Sentence Embedding: A Two-Tiered Structure for Low-Resource Languages

Author

Weeraprameshwara, Gihan, Jayawickrama, Vihanga, de Silva, Nisansa, and Wijeratne, Yudhanjaya

Subjects
Computer Science - Computation and Language
Abstract

In the process of numerically modeling natural languages, developing language embeddings is a vital step. However, it is challenging to develop functional embeddings for resource-poor languages such as Sinhala, for which sufficiently large corpora, effective language parsers, and any other required resources are difficult to find. In such conditions, the exploitation of existing models to come up with an efficacious embedding methodology to numerically represent text could be quite fruitful. This paper explores the effectivity of several one-tiered and two-tiered embedding architectures in representing Sinhala text in the sentiment analysis domain. With our findings, the two-tiered embedding architecture where the lower-tier consists of a word embedding and the upper-tier consists of a sentence embedding has been proven to perform better than one-tier word embeddings, by achieving a maximum F1 score of 88.04% in contrast to the 83.76% achieved by word embedding models. Furthermore, embeddings in the hyperbolic space are also developed and compared with Euclidean embeddings in terms of performance. A sentiment data set consisting of Facebook posts and associated reactions have been used for this research. To effectively compare the performance of different embedding systems, the same deep neural network structure has been trained on sentiment data with each of the embedding systems used to encode the text associated.

Published
2022

23. HDAC activity is dispensable for repression of cell-cycle genes by DREAM and E2F:RB complexes

Author

Alison K. Barrett, Manisha R. Shingare, Andreas Rechtsteiner, Kelsie M. Rodriguez, Quynh N. Le, Tilini U. Wijeratne, Corbin E. Mitchell, Miles W. Membreno, Seth M. Rubin, and Gerd A. Müller

Subjects
Science
Abstract

Abstract Histone deacetylases (HDACs) play a crucial role in transcriptional regulation and are implicated in various diseases, including cancer. They are involved in histone tail deacetylation and canonically linked to transcriptional repression. Previous studies suggested that HDAC recruitment to cell-cycle gene promoters via the retinoblastoma (RB) protein or the DREAM complex through SIN3B is essential for G1/S and G2/M gene repression during cell-cycle arrest and exit. Here we investigate the interplay among DREAM, RB, SIN3 proteins, and HDACs in the context of cell-cycle gene repression. Knockout of SIN3B does not globally derepress cell-cycle genes in non-proliferating HCT116 and C2C12 cells. Loss of SIN3A/B moderately upregulates several cell-cycle genes in HCT116 cells but does so independently of DREAM/RB. HDAC inhibition does not induce general upregulation of RB/DREAM target genes in arrested transformed or non-transformed cells. Our findings suggest that E2F:RB and DREAM complexes can repress cell-cycle genes without relying on HDAC activity.

Published
2024
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24. Effects of SPI1-mediated transcriptome remodeling on Alzheimer’s disease-related phenotypes in mouse models of Aβ amyloidosis

Author

Byungwook Kim, Luke Child Dabin, Mason Douglas Tate, Hande Karahan, Ahmad Daniel Sharify, Dominic J. Acri, Md Mamun Al-Amin, Stéphanie Philtjens, Daniel Curtis Smith, H. R. Sagara Wijeratne, Jung Hyun Park, Mathias Jucker, and Jungsu Kim

Subjects
Science
Abstract

Abstract SPI1 was recently reported as a genetic risk factor for Alzheimer’s disease (AD) in large-scale genome-wide association studies. However, it is unknown whether SPI1 should be downregulated or increased to have therapeutic benefits. To investigate the effect of modulating SPI1 levels on AD pathogenesis, we performed extensive biochemical, histological, and transcriptomic analyses using both Spi1-knockdown and Spi1-overexpression mouse models. Here, we show that the knockdown of Spi1 expression significantly exacerbates insoluble amyloid-β (Aβ) levels, amyloid plaque deposition, and gliosis. Conversely, overexpression of Spi1 significantly ameliorates these phenotypes and dystrophic neurites. Further mechanistic studies using targeted and single-cell transcriptomics approaches demonstrate that altered Spi1 expression modulates several pathways, such as immune response pathways and complement system. Our data suggest that transcriptional reprogramming by targeting transcription factors, like Spi1, might hold promise as a therapeutic strategy. This approach could potentially expand the current landscape of druggable targets for AD.

Published
2024
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25. Quantifying Inhaled Concentrations of Particulate Matter, Carbon Dioxide, Nitrogen Dioxide, and Nitric Oxide Using Observed Biometric Responses with Machine Learning

Author

Shisir Ruwali, Shawhin Talebi, Ashen Fernando, Lakitha O. H. Wijeratne, John Waczak, Prabuddha M. H. Dewage, David J. Lary, John Sadler, Tatiana Lary, Matthew Lary, and Adam Aker

Subjects
autonomic response, exposome, microenvironment, air pollution, biometric observations, machine learning, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Computer applications to medicine. Medical informatics, R858-859.7
Abstract

Introduction: Air pollution has numerous impacts on human health on a variety of time scales. Pollutants such as particulate matter—PM1 and PM2.5, carbon dioxide (CO2), nitrogen dioxide (NO2), and nitric oxide (NO) are exemplars of the wider human exposome. In this study, we adopted a unique approach by utilizing the responses of human autonomic systems to gauge the abundance of pollutants in inhaled air. Objective: To investigate how the human body autonomically responds to inhaled pollutants in microenvironments, including PM1, PM2.5, CO2, NO2, and NO, on small temporal and spatial scales by making use of biometric observations of the human autonomic response. To test the accuracy in predicting the concentrations of these pollutants using biological measurements of the participants. Methodology: Two experimental approaches having a similar methodology that employs a biometric suite to capture the physiological responses of cyclists were compared, and multiple sensors were used to measure the pollutants in the air surrounding them. Machine learning algorithms were used to estimate the levels of these pollutants and decipher the body’s automatic reactions to them. Results: We observed high precision in predicting PM1, PM2.5, and CO2 using a limited set of biometrics measured from the participants, as indicated with the coefficient of determination (R2) between the estimated and true values of these pollutants of 0.99, 0.96, and 0.98, respectively. Although the predictions for NO2 and NO were reliable at lower concentrations, which was observed qualitatively, the precision varied throughout the data range. Skin temperature, heart rate, and respiration rate were the common physiological responses that were the most influential in predicting the concentration of these pollutants. Conclusion: Biometric measurements can be used to estimate air quality components such as PM1, PM2.5, and CO2 with high degrees of accuracy and can also be used to decipher the effect of these pollutants on the human body using machine learning techniques. The results for NO2 and NO suggest a requirement to improve our models with more comprehensive data collection or advanced machine learning techniques to improve the results for these two pollutants.

Published
2024
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26. Performance Modeling Sparse MTTKRP Using Optical Static Random Access Memory on FPGA

Author

Wijeratne, Sasindu, Jaiswal, Akhilesh, Jacob, Ajey P., Zhang, Bingyi, and Prasanna, Viktor

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Hardware Architecture
Abstract

Electrical static random memory (E-SRAM) is the current standard for internal static memory in Field Programmable Gate Array (FPGA). Despite the dramatic improvement in E-SRAM technology over the past decade, the goal of ultra-fast, energy-efficient static random memory has yet to be achieved with E-SRAM technology. However, preliminary research into optical static random access memory (O-SRAM) has shown promising results in creating energy-efficient ultra-fast static memories. This paper investigates the advantage of O-SRAM over E-SRAM in access speed and energy performance while executing sparse Matricized Tensor Times Khatri-Rao Product (spMTTKRP). spMTTKRP is an essential component of tensor decomposition algorithms which is heavily used in data science applications. The evaluation results show O-SRAMs can achieve speeds of 1.1x - 2.9x while saving 2.8x - 8.1x energy compared to conventional E-SRAM technology.

Published
2022

27. Towards Programmable Memory Controller for Tensor Decomposition

Author

Wijeratne, Sasindu, Wang, Ta-Yang, Kannan, Rajgopal, and Prasanna, Viktor

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Hardware Architecture, Computer Science - Machine Learning
Abstract

Tensor decomposition has become an essential tool in many data science applications. Sparse Matricized Tensor Times Khatri-Rao Product (MTTKRP) is the pivotal kernel in tensor decomposition algorithms that decompose higher-order real-world large tensors into multiple matrices. Accelerating MTTKRP can speed up the tensor decomposition process immensely. Sparse MTTKRP is a challenging kernel to accelerate due to its irregular memory access characteristics. Implementing accelerators on Field Programmable Gate Array (FPGA) for kernels such as MTTKRP is attractive due to the energy efficiency and the inherent parallelism of FPGA. This paper explores the opportunities, key challenges, and an approach for designing a custom memory controller on FPGA for MTTKRP while exploring the parameter space of such a custom memory controller.

Published
2022

29. Lansoprazole interferes with fungal respiration and acts synergistically with amphotericin B against multidrug-resistant Candida auris

Author

Ehab A. Salama, Yehia Elgammal, Aruna Wijeratne, Nadia A. Lanman, Sagar M. Utturkar, Atena Farhangian, Jianing Li, Brigitte Meunier, Tony R. Hazbun, and Mohamed N. Seleem

Subjects
Lansoprazole, metabolites, PISA analysis, C. auris, fungal respiration, cytochrome bc1, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502
Abstract

ABSTRACTCandida auris has emerged as a problematic fungal pathogen associated with high morbidity and mortality. Amphotericin B (AmB) is the most effective antifungal used to treat invasive fungal candidiasis, with resistance rarely observed among clinical isolates. However, C. auris possesses extraordinary resistant profiles against all available antifungal drugs, including AmB. In our pursuit of potential solutions, we screened a panel of 727 FDA-approved drugs. We identified the proton pump inhibitor lansoprazole (LNP) as a potent enhancer of AmB’s activity against C. auris. LNP also potentiates the antifungal activity of AmB against other medically important species of Candida and Cryptococcus. Our investigations into the mechanism of action unveiled that LNP metabolite(s) interact with a crucial target in the mitochondrial respiratory chain (complex III, known as cytochrome bc1). This interaction increases oxidative stress within fungal cells. Our results demonstrated the critical role of an active respiratory function in the antifungal activity of LNP. Most importantly, LNP restored the efficacy of AmB in an immunocompromised mouse model, resulting in a 1.7-log (∼98%) CFU reduction in the burden of C. auris in the kidneys. Our findings strongly advocate for a comprehensive evaluation of LNP as a cytochrome bc1 inhibitor for combating drug-resistant C. auris infections.

Published
2024
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30. Uncovering spatiotemporal patterns of atrophy in progressive supranuclear palsy using unsupervised machine learning.

Author

Scotton, William J, Shand, Cameron, Todd, Emily, Bocchetta, Martina, Cash, David M, VandeVrede, Lawren, Heuer, Hilary, PROSPECT Consortium, 4RTNI Consortium, Young, Alexandra L, Oxtoby, Neil, Alexander, Daniel C, Rowe, James B, Morris, Huw R, Boxer, Adam L, Rohrer, Jonathan D, and Wijeratne, Peter A

Subjects
PROSPECT Consortium, 4RTNI Consortium, Subtype and Stage Inference, biomarkers, disease progression, machine learning, progressive supranuclear palsy, Clinical Research, Rare Diseases, Neurosciences, Biomedical Imaging, Brain Disorders, Neurodegenerative, 2.1 Biological and endogenous factors, Aetiology, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies, Neurological
Abstract

To better understand the pathological and phenotypic heterogeneity of progressive supranuclear palsy and the links between the two, we applied a novel unsupervised machine learning algorithm (Subtype and Stage Inference) to the largest MRI data set to date of people with clinically diagnosed progressive supranuclear palsy (including progressive supranuclear palsy-Richardson and variant progressive supranuclear palsy syndromes). Our cohort is comprised of 426 progressive supranuclear palsy cases, of which 367 had at least one follow-up scan, and 290 controls. Of the progressive supranuclear palsy cases, 357 were clinically diagnosed with progressive supranuclear palsy-Richardson, 52 with a progressive supranuclear palsy-cortical variant (progressive supranuclear palsy-frontal, progressive supranuclear palsy-speech/language, or progressive supranuclear palsy-corticobasal), and 17 with a progressive supranuclear palsy-subcortical variant (progressive supranuclear palsy-parkinsonism or progressive supranuclear palsy-progressive gait freezing). Subtype and Stage Inference was applied to volumetric MRI features extracted from baseline structural (T1-weighted) MRI scans and then used to subtype and stage follow-up scans. The subtypes and stages at follow-up were used to validate the longitudinal consistency of subtype and stage assignments. We further compared the clinical phenotypes of each subtype to gain insight into the relationship between progressive supranuclear palsy pathology, atrophy patterns, and clinical presentation. The data supported two subtypes, each with a distinct progression of atrophy: a 'subcortical' subtype, in which early atrophy was most prominent in the brainstem, ventral diencephalon, superior cerebellar peduncles, and the dentate nucleus, and a 'cortical' subtype, in which there was early atrophy in the frontal lobes and the insula alongside brainstem atrophy. There was a strong association between clinical diagnosis and the Subtype and Stage Inference subtype with 82% of progressive supranuclear palsy-subcortical cases and 81% of progressive supranuclear palsy-Richardson cases assigned to the subcortical subtype and 82% of progressive supranuclear palsy-cortical cases assigned to the cortical subtype. The increasing stage was associated with worsening clinical scores, whilst the 'subcortical' subtype was associated with worse clinical severity scores compared to the 'cortical subtype' (progressive supranuclear palsy rating scale and Unified Parkinson's Disease Rating Scale). Validation experiments showed that subtype assignment was longitudinally stable (95% of scans were assigned to the same subtype at follow-up) and individual staging was longitudinally consistent with 90% remaining at the same stage or progressing to a later stage at follow-up. In summary, we applied Subtype and Stage Inference to structural MRI data and empirically identified two distinct subtypes of spatiotemporal atrophy in progressive supranuclear palsy. These image-based subtypes were differentially enriched for progressive supranuclear palsy clinical syndromes and showed different clinical characteristics. Being able to accurately subtype and stage progressive supranuclear palsy patients at baseline has important implications for screening patients on entry to clinical trials, as well as tracking disease progression.

Published
2023

33. Attempted one anastomosis gastric bypass converted to a sleeve gastrectomy in an adult patient with asymptomatic intestinal malrotation: A case report

Author

Umesh Jayarajah, Kalaiyukan Sathasivam, Sumudu Kumarage, and Thejana Wijeratne

Subjects
Medicine (General), R5-920
Abstract

Unexpected encounters during surgery for obesity such as midgut malrotation cause specific technical challenges to the surgeon. We present a rare case of asymptomatic complete intestinal malrotation midway during a one anastomosis gastric bypass procedure. A 62-year-old male with a body mass index of 49 kg/m 2 and metabolic syndrome was planned for one anastomosis gastric bypass. A gastric tube was created along the lesser curvature. During the attempt to identify the suitable small bowel loop, an unexpected completely malrotated gut was noted. Due to the intraoperative difficulty in identifying the correct loop to anastomose to the gastric tube an intraoperative decision was taken to convert the procedure to a sleeve gastrectomy. The created gastric tube was re-anastamosed to distal stomach, and the redundant stomach was resected. Postoperative recovery was uneventful, and weight loss was satisfactory. Attempted one anastomosis gastric bypass converted to a sleeve gastrectomy was a successful bailout procedure.

Published
2024
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34. Achieving Community Development through an Agricultural Extension Programme: Technology Dissemination for Mushroom Farmers

Author

De Silva, Nilantha and Wijeratne, Mahinda

Abstract

Mushroom production is a small-scale business unit in rural areas. The Life Long Learning for Farmers (L3F) Programme aims to enhance the socio-economic conditions for them, increasing their access to and use of knowledge and technology. This study evaluates the outcomes of the L3F Programme at the community level. Data were collected through a pre-tested questionnaire survey. The sample consisted of 30 L3F farmers. Farmers' achievement was assessed by the Farmer Performance Index (FPI). Results indicate that mushroom farmers have scaled up their production; have improved their productivity; designed new experiments to minimise the impact of pests and diseases; focused on environmental sustainability and scientific mushroom production; and improved the quality of packaging. The mobile app Bimmal Govi, blended with Information and Communication Technology, helped them to move with the latest technological advancements. The L3F Programme has increased the standards of mushroom production, helping the farmers become promising entrepreneurs.

Published
2021

35. Cyclin-dependent kinase-mediated phosphorylation and the negative regulatory domain of transcription factor B-Myb modulate its DNA binding

Author

Wijeratne, Tilini U, Guiley, Keelan Z, Lee, Hsiau-Wei, Müller, Gerd A, and Rubin, Seth M

Subjects
Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Cell Cycle Proteins, Cyclin A, Cyclin-Dependent Kinase 2, DNA, Humans, Phosphorylation, Protein Domains, Trans-Activators, Transcriptional Activation, CHR genes, Cdk, autoregulation, cell cycle, gene regulation, intrinsically disordered protein, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology
Abstract

B-Myb is a highly conserved member of the vertebrate Myb family of transcription factors that plays a critical role in cell-cycle progression and proliferation. Myb proteins activate Myb-dependent promoters by interacting specifically with Myb-binding site (MBS) sequences using their DNA-binding domain (DBD). Transactivation of MBS promoters by B-Myb is repressed by its negative regulatory domain (NRD), and phosphorylation of the NRD by Cdk2-CyclinA relieves the repression to activate B-Myb-dependent promoters. However, the structural mechanisms underlying autoinhibition and activation of B-Myb-mediated transcription have been poorly characterized. Here, we determined that a region in the B-Myb NRD (residues 510-600) directly associates with the DBD and inhibits binding of the DBD to the MBS DNA sequence. We demonstrate using biophysical assays that phosphorylation of the NRD at T515, T518, and T520 is sufficient to disrupt the interaction between the NRD and the DBD, which results in increased affinity for MBS DNA and increased B-Myb-dependent promoter activation in cell assays. Our biochemical characterization of B-Myb autoregulation and the activating effects of phosphorylation provide insight into how B-Myb functions as a site-specific transcription factor.

Published
2022

36. The World Health Organization Intersectoral Global Action Plan on Epilepsy and Other Neurological Disorders and the headache revolution: from headache burden to a global action plan for headache disorders

Author

Matilde Leonardi, Paolo Martelletti, Rami Burstein, Arianna Fornari, Licia Grazzi, Alla Guekht, Richard B. Lipton, Dimos Dimitrios Mitsikostas, Jes Olesen, Mayowa Ojo Owolabi, Elena Ruiz De la Torre, Simona Sacco, Timothy J. Steiner, Nirmal Surya, Takao Takeshima, Cristina Tassorelli, Shuu-Jiun Wang, Tissa Wijeratne, Shengyuan Yu, and Alberto Raggi

Subjects
Migraine, Tension-type headache, Global burden of disease study, World Health Organization, Brain health, Health promotion, Medicine
Abstract

Abstract The World Health Organization (WHO) Intersectoral Global Action Plan on Epilepsy and Other Neurological Disorders was developed by WHO to address the worldwide challenges and gaps in provision of care and services for people with epilepsy and other neurological disorders and to ensure a comprehensive, coordinated response across sectors to the burden of neurologic diseases and to promote brain health across life-course. Headache disorders constitute the second most burdensome of all neurological diseases after stroke, but the first if young and midlife adults are taken into account. Despite the availability of a range of treatments, disability associated with headache disorders, and with migraine, remains very high. In addition, there are inequalities between high-income and low and middle income countries in access to medical care. In line with several brain health initiatives following the WHOiGAP resolution, herein we tailor the main pillars of the action plan to headache disorders: (1) raising policy prioritization and strengthen governance; (2) providing effective, timely and responsive diagnosis, treatment and care; (3) implementing strategies for promotion and prevention; (4) fostering research and innovation and strengthen information systems. Specific targets for future policy actions are proposed. The Global Action Plan triggered a revolution in neurology, not only by increasing public awareness of brain disorders and brain health but also by boosting the number of neurologists in training, raising research funding and making neurology a public health priority for policy makers. Reducing the burden of headache disorders will not only improve the quality of life and wellbeing of people with headache but also reduce the burden of neurological disorders increasing global brain health and, thus, global population health.

Published
2024
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37. Full-length isoform concatenation sequencing to resolve cancer transcriptome complexity

Author

Saranga Wijeratne, Maria E. Hernandez Gonzalez, Kelli Roach, Katherine E. Miller, Kathleen M. Schieffer, James R. Fitch, Jeffrey Leonard, Peter White, Benjamin J. Kelly, Catherine E. Cottrell, Elaine R. Mardis, Richard K. Wilson, and Anthony R. Miller

Subjects
Long-read RNA sequencing, Concatenation, Isoform discovery, Tumor transcriptome, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Cancers exhibit complex transcriptomes with aberrant splicing that induces isoform-level differential expression compared to non-diseased tissues. Transcriptomic profiling using short-read sequencing has utility in providing a cost-effective approach for evaluating isoform expression, although short-read assembly displays limitations in the accurate inference of full-length transcripts. Long-read RNA sequencing (Iso-Seq), using the Pacific Biosciences (PacBio) platform, can overcome such limitations by providing full-length isoform sequence resolution which requires no read assembly and represents native expressed transcripts. A constraint of the Iso-Seq protocol is due to fewer reads output per instrument run, which, as an example, can consequently affect the detection of lowly expressed transcripts. To address these deficiencies, we developed a concatenation workflow, PacBio Full-Length Isoform Concatemer Sequencing (PB_FLIC-Seq), designed to increase the number of unique, sequenced PacBio long-reads thereby improving overall detection of unique isoforms. In addition, we anticipate that the increase in read depth will help improve the detection of moderate to low-level expressed isoforms. Results In sequencing a commercial reference (Spike-In RNA Variants; SIRV) with known isoform complexity we demonstrated a 3.4-fold increase in read output per run and improved SIRV recall when using the PB_FLIC-Seq method compared to the same samples processed with the Iso-Seq protocol. We applied this protocol to a translational cancer case, also demonstrating the utility of the PB_FLIC-Seq method for identifying differential full-length isoform expression in a pediatric diffuse midline glioma compared to its adjacent non-malignant tissue. Our data analysis revealed increased expression of extracellular matrix (ECM) genes within the tumor sample, including an isoform of the Secreted Protein Acidic and Cysteine Rich (SPARC) gene that was expressed 11,676-fold higher than in the adjacent non-malignant tissue. Finally, by using the PB_FLIC-Seq method, we detected several cancer-specific novel isoforms. Conclusion This work describes a concatenation-based methodology for increasing the number of sequenced full-length isoform reads on the PacBio platform, yielding improved discovery of expressed isoforms. We applied this workflow to profile the transcriptome of a pediatric diffuse midline glioma and adjacent non-malignant tissue. Our findings of cancer-specific novel isoform expression further highlight the importance of long-read sequencing for characterization of complex tumor transcriptomes.

Published
2024
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38. Sentiment Analysis with Deep Learning Models: A Comparative Study on a Decade of Sinhala Language Facebook Data

Author

Weeraprameshwara, Gihan, Jayawickrama, Vihanga, de Silva, Nisansa, and Wijeratne, Yudhanjaya

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

The relationship between Facebook posts and the corresponding reaction feature is an interesting subject to explore and understand. To achieve this end, we test state-of-the-art Sinhala sentiment analysis models against a data set containing a decade worth of Sinhala posts with millions of reactions. For the purpose of establishing benchmarks and with the goal of identifying the best model for Sinhala sentiment analysis, we also test, on the same data set configuration, other deep learning models catered for sentiment analysis. In this study we report that the 3 layer Bidirectional LSTM model achieves an F1 score of 84.58% for Sinhala sentiment analysis, surpassing the current state-of-the-art model; Capsule B, which only manages to get an F1 score of 82.04%. Further, since all the deep learning models show F1 scores above 75% we conclude that it is safe to claim that Facebook reactions are suitable to predict the sentiment of a text., Comment: 8 pages, LaTeX; typos corrected

Published
2022
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39. Seeking Sinhala Sentiment: Predicting Facebook Reactions of Sinhala Posts

Author

Jayawickrama, Vihanga, Weeraprameshwara, Gihan, de Silva, Nisansa, and Wijeratne, Yudhanjaya

Subjects
Computer Science - Machine Learning, Computer Science - Computation and Language
Abstract

The Facebook network allows its users to record their reactions to text via a typology of emotions. This network, taken at scale, is therefore a prime data set of annotated sentiment data. This paper uses millions of such reactions, derived from a decade worth of Facebook post data centred around a Sri Lankan context, to model an eye of the beholder approach to sentiment detection for online Sinhala textual content. Three different sentiment analysis models are built, taking into account a limited subset of reactions, all reactions, and another that derives a positive/negative star rating value. The efficacy of these models in capturing the reactions of the observers are then computed and discussed. The analysis reveals that binary classification of reactions, for Sinhala content, is significantly more accurate than the other approaches. Furthermore, the inclusion of the like reaction hinders the capability of accurately predicting other reactions.

Published
2021
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40. Evaluation of automated airway morphological quantification for assessing fibrosing lung disease

Author

Pakzad, Ashkan, Cheung, Wing Keung, Quan, Kin, Mogulkoc, Nesrin, Van Moorsel, Coline H. M., Bartholmai, Brian J., Van Es, Hendrik W., Ezircan, Alper, Van Beek, Frouke, Veltkamp, Marcel, Karwoski, Ronald, Peikert, Tobias, Clay, Ryan D., Foley, Finbar, Braun, Cassandra, Savas, Recep, Sudre, Carole, Doel, Tom, Alexander, Daniel C., Wijeratne, Peter, Hawkes, David, Hu, Yipeng, Hurst, John R, and Jacob, Joseph

Subjects
Physics - Medical Physics, Computer Science - Computer Vision and Pattern Recognition
Abstract

Abnormal airway dilatation, termed traction bronchiectasis, is a typical feature of idiopathic pulmonary fibrosis (IPF). Volumetric computed tomography (CT) imaging captures the loss of normal airway tapering in IPF. We postulated that automated quantification of airway abnormalities could provide estimates of IPF disease extent and severity. We propose AirQuant, an automated computational pipeline that systematically parcellates the airway tree into its lobes and generational branches from a deep learning based airway segmentation, deriving airway structural measures from chest CT. Importantly, AirQuant prevents the occurrence of spurious airway branches by thick wave propagation and removes loops in the airway-tree by graph search, overcoming limitations of existing airway skeletonisation algorithms. Tapering between airway segments (intertapering) and airway tortuosity computed by AirQuant were compared between 14 healthy participants and 14 IPF patients. Airway intertapering was significantly reduced in IPF patients, and airway tortuosity was significantly increased when compared to healthy controls. Differences were most marked in the lower lobes, conforming to the typical distribution of IPF-related damage. AirQuant is an open-source pipeline that avoids limitations of existing airway quantification algorithms and has clinical interpretability. Automated airway measurements may have potential as novel imaging biomarkers of IPF severity and disease extent., Comment: 14 pages, 8 Figures, for associated source code, see https://github.com/ashkanpakzad/AirQuant

Published
2021

41. Reconfigurable Low-latency Memory System for Sparse Matricized Tensor Times Khatri-Rao Product on FPGA

Author

Wijeratne, Sasindu, Kannan, Rajgopal, and Prasanna, Viktor

Subjects
Computer Science - Hardware Architecture, Computer Science - Artificial Intelligence, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Tensor decomposition has become an essential tool in many applications in various domains, including machine learning. Sparse Matricized Tensor Times Khatri-Rao Product (MTTKRP) is one of the most computationally expensive kernels in tensor computations. Despite having significant computational parallelism, MTTKRP is a challenging kernel to optimize due to its irregular memory access characteristics. This paper focuses on a multi-faceted memory system, which explores the spatial and temporal locality of the data structures of MTTKRP. Further, users can reconfigure our design depending on the behavior of the compute units used in the FPGA accelerator. Our system efficiently accesses all the MTTKRP data structures while reducing the total memory access time, using a distributed cache and Direct Memory Access (DMA) subsystem. Moreover, our work improves the memory access time by 3.5x compared with commercial memory controller IPs. Also, our system shows 2x and 1.26x speedups compared with cache-only and DMA-only memory systems, respectively.

Published
2021

42. Rethinking headache as a global public health case model for reaching the SDG 3 HEALTH by 2030

Author

Martelletti, Paolo, Leonardi, Matilde, Ashina, Messoud, Burstein, Rami, Cho, Soo-Jin, Charway-Felli, Augustina, Dodick, David W., Gil-Gouveia, Raquel, Grazzi, Licia, Lampl, Christian, MaassenVanDenBrink, Antoinette, Minen, Mia T., Mitsikostas, Dimos Dimitrios, Olesen, Jes, Owolabi, Mayowa Ojo, Reuter, Uwe, Ruiz de la Torre, Elena, Sacco, Simona, Schwedt, Todd J, Serafini, Gianluca, Surya, Nirmal, Tassorelli, Cristina, Wang, Shuu-Jiun, Wang, Yonggang, Wijeratne, Tissa, and Raggi, Alberto

Published
2023
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43. Coverage gaps in empiric antibiotic regimens used to treat serious bacterial infections in neonates and children in Southeast Asia and the PacificResearch in context

Author

Phoebe C.M. Williams, Mark Jones, Thomas L. Snelling, Robert Duguid, Nerida Moore, Benjamin Dickson, Yue Wu, Jessica Saunders, Priyali Wijeratne, Anousone Douangnouvong, Elizabeth A. Ashley, and Paul Turner

Subjects
Child health, Antimicrobial resistance, WISCA, Antibiogram, Neonatal sepsis, Paediatric sepsis, Public aspects of medicine, RA1-1270
Abstract

Summary: Background: High levels of antimicrobial resistance (AMR) are propagating deaths due to neonatal and paediatric infections globally. This is of particular concern in Southeast Asia and the Pacific, where healthcare resources are constrained and access to newer agents to treat multidrug-resistant pathogens is limited. Methods: To assess the coverage provided by commonly prescribed empiric antibiotic regimens for children in low- and middle-income countries in Southeast Asia and the Pacific, we built a weighted incidence syndromic combination antibiogram (WISCA), parameterised using data obtained from a systematic review of published literature incorporating WHO-defined SEARO and WPRO regions in Ovid MEDLINE, EMBASE, Global Health and PubMed. Susceptibility data for bacterial pathogens were extracted to provide coverage estimates for pre-specified antibiotics (aminopenicillins, gentamicin, third-generation cephalosporins and carbapenems), reported at the regional level. Findings: 6648 bacterial isolates from 11 countries across 86 papers were included in the Bayesian WISCA model, which weighted bacterial incidence and antimicrobial susceptibility of relevant isolates. Coverage provided by aminopenicillins in neonatal sepsis/meningitis was 26% (80% credible interval: 16–49) whilst gentamicin coverage was 45% (29–62). Third-generation cephalosporin coverage was only 29% (16–49) in neonatal sepsis/meningitis, 51% (38–64) in paediatric sepsis and 65% (51–77) in paediatric meningitis. Carbapenems were estimated to provide the highest coverage: 81% (65–90) in neonatal sepsis/meningitis, 83% (72–90) in paediatric sepsis and 79% (62–91) in paediatric meningitis. Interpretation: These findings reveal alarmingly high rates of resistance to commonly prescribed empirical therapies for neonatal and paediatric sepsis and meningitis in the Asia–Pacific region. Funding: This research was funded in whole, or in part, by the Wellcome Trust [220211]. For the purpose of Open Access, the author has applied a CC BY public copyright licence to any Author Accepted Manuscript version arising from this submission. PCMW is supported by a National Health and Medical Research Council (NHMRC) Investigator Grant. NHMRC had no involvement in the design or conduct of the research.

Published
2024
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44. Reconfigurable co-processor architecture with limited numerical precision to accelerate deep convolutional neural networks

Author

Wijeratne, Sasindu, Jayaweera, Sandaruwan, Dananjaya, Mahesh, and Pasqual, Ajith

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Hardware Architecture, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Convolutional Neural Networks (CNNs) are widely used in deep learning applications, e.g. visual systems, robotics etc. However, existing software solutions are not efficient. Therefore, many hardware accelerators have been proposed optimizing performance, power and resource utilization of the implementation. Amongst existing solutions, Field Programmable Gate Array (FPGA) based architecture provides better cost-energy-performance trade-offs as well as scalability and minimizing development time. In this paper, we present a model-independent reconfigurable co-processing architecture to accelerate CNNs. Our architecture consists of parallel Multiply and Accumulate (MAC) units with caching techniques and interconnection networks to exploit maximum data parallelism. In contrast to existing solutions, we introduce limited precision 32 bit Q-format fixed point quantization for arithmetic representations and operations. As a result, our architecture achieved significant reduction in resource utilization with competitive accuracy. Furthermore, we developed an assembly-type microinstructions to access the co-processing fabric to manage layer-wise parallelism, thereby making re-use of limited resources. Finally, we have tested our architecture up to 9x9 kernel size on Xilinx Virtex 7 FPGA, achieving a throughput of up to 226.2 GOp/S for 3x3 kernel size.

Published
2021
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45. Programmable FPGA-based Memory Controller

Author

Wijeratne, Sasindu, Pattnaik, Sanket, Chen, Zhiyu, Kannan, Rajgopal, and Prasanna, Viktor

Subjects
Computer Science - Hardware Architecture, Computer Science - Artificial Intelligence, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Even with generational improvements in DRAM technology, memory access latency still remains the major bottleneck for application accelerators, primarily due to limitations in memory interface IPs which cannot fully account for variations in target applications, the algorithms used, and accelerator architectures. Since developing memory controllers for different applications is time-consuming, this paper introduces a modular and programmable memory controller that can be configured for different target applications on available hardware resources. The proposed memory controller efficiently supports cache-line accesses along with bulk memory transfers. The user can configure the controller depending on the available logic resources on the FPGA, memory access pattern, and external memory specifications. The modular design supports various memory access optimization techniques including, request scheduling, internal caching, and direct memory access. These techniques contribute to reducing the overall latency while maintaining high sustained bandwidth. We implement the system on a state-of-the-art FPGA and evaluate its performance using two widely studied domains: graph analytics and deep learning workloads. We show improved overall memory access time up to 58% on CNN and GCN workloads compared with commercial memory controller IPs.

Published
2021

46. A High Throughput Parallel Hash Table on FPGA using XOR-based Memory

Author

Zhang, Ruizhi, Wijeratne, Sasindu, Yang, Yang, Kuppannagari, Sanmukh R., and Prasanna, Viktor K.

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Hash table is a fundamental data structure for quick search and retrieval of data. It is a key component in complex graph analytics and AI/ML applications. State-of-the-art parallel hash table implementations either make some simplifying assumptions such as supporting only a subset of hash table operations or employ optimizations that lead to performance that is highly data dependent and in the worst case can be similar to a sequential implementation. In contrast, in this work we develop a dynamic hash table that supports all the hash table queries - search, insert, delete, update, while allowing us to support 'p' parallel queries (p>1) per clock cycle via p processing engines (PEs) in the worst case i.e. the performance is data agnostic. We achieve this by implementing novel XOR based multi-ported block memories on FPGAs. Additionally, we develop a technique to optimize the memory requirement of the hash table if the ratio of search to insert/update/delete queries is known beforehand. We implement our design on state-of-the-art FPGA devices. Our design is scalable to 16 PEs and supports throughput up to 5926 MOPS. It matches the throughput of the state-of-the-art hash table design - FASTHash, which only supports search and insert operations. Comparing with the best FPGA design that supports the same set of operations, our hash table achieves up to 12.3x speedup., Comment: 2020 IEEE High Performance Extreme Computing Conference (HPEC)

Published
2021
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47. Rethinking headache as a global public health case model for reaching the SDG 3 HEALTH by 2030

Author

Paolo Martelletti, Matilde Leonardi, Messoud Ashina, Rami Burstein, Soo-Jin Cho, Augustina Charway-Felli, David W. Dodick, Raquel Gil-Gouveia, Licia Grazzi, Christian Lampl, Antoinette MaassenVanDenBrink, Mia T. Minen, Dimos Dimitrios Mitsikostas, Jes Olesen, Mayowa Ojo Owolabi, Uwe Reuter, Elena Ruiz de la Torre, Simona Sacco, Todd J Schwedt, Gianluca Serafini, Nirmal Surya, Cristina Tassorelli, Shuu-Jiun Wang, Yonggang Wang, Tissa Wijeratne, and Alberto Raggi

Subjects
Migraine, Medication overuse headache, Tension-type headache, Sustainable development goals, Global burden of disease study, Low- and middle-income countries, Medicine
Abstract

Abstract The 2030 Agenda for Sustainable Development sets out, through 17 Sustainable Development Goals (SDGs), a path for the prosperity of people and the planet. SDG 3 in particular aims to ensure healthy lives and promote well-being for all at all ages and includes several targets to enhance health. This review presents a “headache-tailored” perspective on how to achieve SDG 3 by focusing on six specific actions: targeting chronic headaches; reducing the overuse of acute pain-relieving medications; promoting the education of healthcare professionals; granting access to medication in low- and middle-income countries (LMIC); implementing training and educational opportunities for healthcare professionals in low and middle income countries; building a global alliance against headache disorders. Addressing the burden of headache disorders directly impacts on populations’ health, as well as on the possibility to improve the productivity of people aged below 50, women in particular. Our analysis pointed out several elements, and included: moving forward from frequency-based parameters to define headache severity; recognizing and managing comorbid diseases and risk factors; implementing a disease management multi-modal management model that incorporates pharmacological and non-pharmacological treatments; early recognizing and managing the overuse of acute pain-relieving medications; promoting undergraduate, postgraduate, and continuing medical education of healthcare professionals with specific training on headache; and promoting a culture that favors the recognition of headaches as diseases with a neurobiological basis, where this is not yet recognized. Making headache care more sustainable is an achievable objective, which will require multi-stakeholder collaborations across all sectors of society, both health-related and not health-related. Robust investments will be needed; however, considering the high prevalence of headache disorders and the associated disability, these investments will surely improve multiple health outcomes and lift development and well-being globally.

Published
2023
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48. The MuvB complex binds and stabilizes nucleosomes downstream of the transcription start site of cell-cycle dependent genes

Author

Asthana, Anushweta, Ramanan, Parameshwaran, Hirschi, Alexander, Guiley, Keelan Z, Wijeratne, Tilini U, Shelansky, Robert, Doody, Michael J, Narasimhan, Haritha, Boeger, Hinrich, Tripathi, Sarvind, Müller, Gerd A, and Rubin, Seth M

Subjects
Biochemistry and Cell Biology, Bioinformatics and Computational Biology, Biological Sciences, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Cell Cycle, Cell Cycle Proteins, Cell Division, Chromatin, DNA, Genes, cdc, Nucleosomes, Promoter Regions, Genetic, Protein Binding, Transcription Factors, Transcription Initiation Site
Abstract

The chromatin architecture in promoters is thought to regulate gene expression, but it remains uncertain how most transcription factors (TFs) impact nucleosome position. The MuvB TF complex regulates cell-cycle dependent gene-expression and is critical for differentiation and proliferation during development and cancer. MuvB can both positively and negatively regulate expression, but the structure of MuvB and its biochemical function are poorly understood. Here we determine the overall architecture of MuvB assembly and the crystal structure of a subcomplex critical for MuvB function in gene repression. We find that the MuvB subunits LIN9 and LIN37 function as scaffolding proteins that arrange the other subunits LIN52, LIN54 and RBAP48 for TF, DNA, and histone binding, respectively. Biochemical and structural data demonstrate that MuvB binds nucleosomes through an interface that is distinct from LIN54-DNA consensus site recognition and that MuvB increases nucleosome occupancy in a reconstituted promoter. We find in arrested cells that MuvB primarily associates with a tightly positioned +1 nucleosome near the transcription start site (TSS) of MuvB-regulated genes. These results support a model that MuvB binds and stabilizes nucleosomes just downstream of the TSS on its target promoters to repress gene expression.

Published
2022

49. A data-driven model of brain volume changes in progressive supranuclear palsy.

Author

Scotton, WJ, Bocchetta, M, Todd, E, Cash, DM, Oxtoby, N, VandeVrede, L, Heuer, H, PROSPECT Consortium, 4RTNI Consortium, Alexander, DC, Rowe, JB, Morris, HR, Boxer, A, Rohrer, JD, and Wijeratne, PA

Subjects
PROSPECT Consortium, 4RTNI Consortium, biomarkers, disease progression, event-based model, machine learning, progressive supranuclear palsy, Eye Disease and Disorders of Vision, Brain Disorders, Rare Diseases, Pediatric, Perinatal Period - Conditions Originating in Perinatal Period, Neurosciences, Neurodegenerative, Clinical Research, Aetiology, 2.1 Biological and endogenous factors, Neurological
Abstract

The most common clinical phenotype of progressive supranuclear palsy is Richardson syndrome, characterized by levodopa unresponsive symmetric parkinsonism, with a vertical supranuclear gaze palsy, early falls and cognitive impairment. There is currently no detailed understanding of the full sequence of disease pathophysiology in progressive supranuclear palsy. Determining the sequence of brain atrophy in progressive supranuclear palsy could provide important insights into the mechanisms of disease progression, as well as guide patient stratification and monitoring for clinical trials. We used a probabilistic event-based model applied to cross-sectional structural MRI scans in a large international cohort, to determine the sequence of brain atrophy in clinically diagnosed progressive supranuclear palsy Richardson syndrome. A total of 341 people with Richardson syndrome (of whom 255 had 12-month follow-up imaging) and 260 controls were included in the study. We used a combination of 12-month follow-up MRI scans, and a validated clinical rating score (progressive supranuclear palsy rating scale) to demonstrate the longitudinal consistency and utility of the event-based model's staging system. The event-based model estimated that the earliest atrophy occurs in the brainstem and subcortical regions followed by progression caudally into the superior cerebellar peduncle and deep cerebellar nuclei, and rostrally to the cortex. The sequence of cortical atrophy progresses in an anterior to posterior direction, beginning in the insula and then the frontal lobe before spreading to the temporal, parietal and finally the occipital lobe. This in vivo ordering accords with the post-mortem neuropathological staging of progressive supranuclear palsy and was robust under cross-validation. Using longitudinal information from 12-month follow-up scans, we demonstrate that subjects consistently move to later stages over this time interval, supporting the validity of the model. In addition, both clinical severity (progressive supranuclear palsy rating scale) and disease duration were significantly correlated with the predicted subject event-based model stage (P

Published
2022

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