Saeed Amal | Multimodal Imaging Techniques | Best Researcher Award

Prof. Saeed Amal | Multimodal Imaging Techniques | Best Researcher Award

Professor at Northeastern University, United States

Saeed Amal  is an accomplished researcher in Artificial Intelligence (AI) with a strong focus on healthcare and precision medicine. Currently serving as an Assistant Research Professor at Northeastern University, his work integrates cutting-edge AI methodologies such as deep learning, machine learning, and generative AI to address complex challenges in healthcare. With extensive experience spanning academia and industry, Saeed’s contributions are shaping the future of personalized medicine and intelligent healthcare solutions.

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ORCID

Education🎓

Saeed’s academic journey reflects his dedication to innovation and interdisciplinary learning. He earned his Ph.D. in Computer Science from Haifa University , where he conducted pioneering research on machine learning, information retrieval, and recommender systems. During his postdoctoral fellowships at Stanford University and Haifa University, he expanded his expertise in deep learning, natural language processing (NLP), and healthcare applications of AI. His educational background also includes a Master’s degree in Computer Science and a Bachelor’s degree in the same field from Technion – Israel Institute of Technology, graduating with honors.

Professional Experience💼

Saeed’s professional journey is marked by impactful roles across academia and industry . At Northeastern University, he leads research on precision medicine, leveraging AI to detect and prevent diseases. His industry tenure includes roles as a Data Scientist and Researcher at Cognitech Smart AI, Dynamic Yield, and General Motors, where he developed AI-driven solutions for healthcare, recommender systems, and NLP. Saeed also has experience as a software engineer at Attunity and AMDOCS, designing large-scale systems with a focus on quality and performance. These experiences underscore his ability to translate theoretical AI concepts into practical, scalable applications.

Research Interests🏥

Saeed’s research interests lie at the intersection of AI and healthcare . His work focuses on the use of AI for early disease detection, multi-modal data integration, and improving diagnostic accuracy. He specializes in deep learning, NLP, large language models (LLM), and image processing to create advanced systems for precision medicine. His vision is to revolutionize healthcare through technology, making diagnosis and treatment more efficient and accessible. Saeed also has significant interest in explainable AI and its application to improve the interpretability and trustworthiness of AI systems.

Awards and Recognitions🏆

Saeed has received several accolades for his contributions to AI and healthcare . He has been a keynote and plenary speaker at major international conferences, including the “3rd International Conference on AI, ML, Data Science, and Robotics” in Rome (2023) and the “Public Health and Healthcare Management Conference” in Dubai (2023). He also chairs special sessions, such as the “Artificial Intelligence and Multimodal Data for Improving Disease Care” at the International Conference on Medical and Health Sciences. These roles highlight his leadership and impact in the global AI community.

Publications📚

“Analysis and Visualization of Confounders and Treatment Pathways Leading to Amputation and Non-Amputation in Peripheral Artery Disease Patients Using Sankey Diagrams”

  • Year: 2025-01-21
  • DOI: 10.3390/biomedicines13020258

“Evaluating Neural Network Performance in Predicting Disease Status and Tissue Source of JC Polyomavirus from Patient Isolates Based on the Hypervariable Region of the Viral Genome”

  • Year: 2024-12-25
  • DOI: 10.3390/v17010012

“Artificial Intelligence and Digital Pathology for Histologic Growth Pattern Classification in Lung Adenocarcinoma”

  • Year: 2024-11-25 (Preprint)
  • DOI: 10.20944/preprints202411.1804.v1

“Digital Pathology and Ensemble Deep Learning for Kidney Cancer Diagnosis: Dartmouth Kidney Cancer Histology Dataset”

  • Year: 2024-11-21 (Preprint)
  • DOI: 10.20944/preprints202411.1615.v1

“Gastric Cancer Detection with Ensemble Learning on Digital Pathology: Use Case of Gastric Cancer on GasHisSDB Dataset”

  • Year: 2024-08-12
  • DOI: 10.3390/diagnostics14161746

“Segmenting Tumor Gleason Pattern Using Generative AI and Digital Pathology: Use Case of Prostate Cancer on MICCAI Dataset”

  • Year: 2024-06-28 (Preprint)
  • DOI: 10.20944/preprints202406.2019.v1

“Multi-Scale Digital Pathology Patch-Level Prostate Cancer Grading Using Deep Learning: Use Case Evaluation of DiagSet Dataset”

  • Year: 2024-06-18
  • DOI: 10.3390/bioengineering11060624

“Ensemble Deep Learning-Based Image Classification for Breast Cancer Subtype and Invasiveness Diagnosis from Whole Slide Image Histopathology”

  • Year: 2024-06-14
  • DOI: 10.3390/cancers16122222

“Enhancing Prostate Cancer Diagnosis with a Novel Artificial Intelligence-Based Web Application”

  • Year: 2023-11-30
  • DOI: 10.3390/cancers15235659

Conclusion🌟

Dr. Saeed Amal is a highly suitable candidate for the Research for Best Researcher Award. With a strong foundation in AI for healthcare, an impressive publication record, and a clear demonstration of leadership in the scientific community, he embodies the qualities of an outstanding researcher. Enhancing public engagement and focusing on broader societal impacts can further bolster his profile for such recognitions.

Eva Bartova | High-Resolution Imaging | Women Researcher Award

Prof. Eva Bartova | High-Resolution Imaging | Women Researcher Award

director and senior scientist at Institute of Biophysics of the Czech Acad.Sci, Czech Republic

Eva Bártová is a distinguished molecular biologist and professor at Masaryk University, specializing in epigenetics, DNA repair, and chromatin organization. As Director of the Institute of Biophysics at the Academy of Sciences in Brno, Czech Republic, she leads pioneering research efforts that have advanced understanding in genetics and molecular biology. With over 120 scientific publications and a robust record of international collaboration, Eva is recognized for her impactful work on the OCT4 protein in DNA repair processes and her leadership in the 3D genome project. Her contributions have significantly influenced the field, making her a prominent figure in molecular research and a valuable mentor in the scientific community.

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ORCID

Strengths for the Award💪

Outstanding Research Contributions:

Eva Bártová has published over 120 scientific papers, and her research has had a significant impact on the understanding of chromatin structure, gene expression, and epigenetics. Her work in DNA repair, particularly the involvement of OCT4 and N4-acetylcytidine in RNA, represents ground-breaking discoveries in the field.

Leadership in Science:

Bártová has successfully led multiple research projects, including prestigious international collaborations. As the director of the Institute of Biophysics, Czech Academy of Sciences, and head of the Department of Molecular Cytology and Cytometry, she has demonstrated exceptional leadership skills in promoting scientific research and supporting young scientists.

Mentorship and Impact on Scientific Community:

With over 20 students having completed their dissertations under her supervision, including several doctoral candidates, Bártová has made a lasting impact on the training of the next generation of scientists. Her leadership extends beyond research, having also supported initiatives to balance work and family life, especially for women in science.

Recognition and Honors:

Bártová has been awarded numerous accolades, including the bronze medal from Masaryk University, and her election as a member of the European Molecular Biology Organization (EMBO) in 2020 further affirms her exceptional standing in the scientific community.

International Influence:

She has served as a member of various scientific committees and has been invited as a speaker at multiple prestigious international conferences. Her role as a reviewer for renowned journals, including Nucleic Acids Research and Epigenetics & Chromatin, underscores her influential position in the research community.

Education 🎓

Eva Bártová completed her undergraduate studies in Experimental Biology at Masaryk University, Brno, in 1991. She then pursued her Ph.D. in Animal Physiology (1992-1995), conducting research at the Institute of Biophysics in Brno. Her academic accomplishments include obtaining the title of Associate Professor in Genetics and Molecular Biology in 2010 and a full professorship in Molecular Biology and Genetics in 2024. Eva’s educational journey reflects her lifelong commitment to advancing knowledge in molecular biology.

Experience 💼

Eva’s career began as an assistant professor at Masaryk University’s Faculty of Medicine, where she quickly established her expertise. In 1997, she joined the Institute of Biophysics, where she founded the Laboratory of Molecular Cytology and Cytometry. By 2017, she became the Director of the Institute, where she leads various initiatives to support young scientists and foster family-friendly policies in research. Eva has also been an active member of international collaborations, including the prestigious EU 3D genome project.

Research Interests 🔬

Eva’s research focuses on epigenetics, DNA repair mechanisms, and 3D chromatin organization. She is especially known for her work on the OCT4 protein’s role in DNA repair in embryonic stem cells and the function of N4-acetylcytidine in RNA related to cellular responses to UVA-irradiation. Eva’s innovative research methods, such as advanced confocal microscopy and high-resolution cytometry, have enabled significant advances in understanding chromatin dynamics in both tumor and stem cells.

Awards 🏆

Eva Bártová’s achievements have earned her numerous honors. Notably, she received the Bronze Medal from Masaryk University in 2018, awarded to the 100 best graduates over the university’s century-long history. Her election as a European Molecular Biology Organization (EMBO) member in 2020 marked her as a leading figure in molecular biology. As the Director of the Institute of Biophysics, she has implemented programs supporting women in science, such as part-time work options for parents and a children’s play corner.

Publications 📚

RNA-related DNA damage and repair: The role of N7-methylguanosine in the cell nucleus exposed to UV light

  • Authors: Stixová, L., Tichý, V., Bártová, E.
  • Journal: Heliyon (2024), 10(4), e25599
  • Citations: 2

Epigenetic and gene therapy in human and veterinary medicine

  • Author: Bártová, E.
  • Journal: Environmental Epigenetics (2024), 10(1), dvae006
  • Citations: 2

PARP-dependent and NAT10-independent acetylation of N4-cytidine in RNA appears in UV-damaged chromatin

  • Authors: Svobodová Kovaříková, A., Stixová, L., Kovařík, A., Bártová, E.
  • Journal: Epigenetics and Chromatin (2023), 16(1), 26
  • Citations: 7

Cell Differentiation and Aging Lead To Up-Regulation of FTO, While the ALKBH5 Protein Level Was Stable During Aging but Up-Regulated During in vitro-Induced Cardiomyogenesis

  • Authors: Krejčí, J., Arcidiacono, O.A., Čegan, R., Fila, P., Bártová, E.
  • Journal: Physiological Research (2023), 72(4), pp. 425–444
  • Citations: 0

Irradiation potentiates p53 phosphorylation and p53 binding to the promoter and coding region of the TP53 gene

  • Authors: Legartová, S., Fagherazzi, P., Goswami, P., Koutná, I., Bártová, E.
  • Journal: Biochimie (2023), 204, pp. 154–168
  • Citations: 2

The Highest Density of Phosphorylated Histone H1 Appeared in Prophase and Prometaphase in Parallel with Reduced H3K9me3, and HDAC1 Depletion Increased H1.2/H1.3 and H1.4 Serine 38 Phosphorylation

  • Authors: Legartová, S., Lochmanová, G., Bártová, E.
  • Journal: Life (2022), 12(6), 798
  • Citations: 2

Early recruitment of PARP-dependent m8A RNA methylation at DNA lesions is subsequently accompanied by active DNA demethylation

  • Authors: Legartová, S., Svobodová Kovaříková, A., Běhalová Suchánková, J., Polášek-Sedláčková, H., Bártová, E.
  • Journal: RNA Biology (2022), 19(1), pp. 1153–1171
  • Citations: 2

Localization of mettl16 at the nuclear periphery and the nucleolus is cell cycle-specific and mettl16 interacts with several nucleolar proteins

  • Authors: Stixová, L., Komůrková, D., Kovaříková, A.S., Fagherazzi, P., Bártová, E.
  • Journal: Life (2021), 11(7), 669
  • Citations: 6

G‐quadruplex structures colocalize with transcription factories and nuclear speckles surrounded by acetylated and dimethylated histones H3

  • Authors: Komůrková, D., Kovaříková, A.S., Bártová, E.
  • Journal: International Journal of Molecular Sciences (2021), 22(4), pp. 1–18, 1995
  • Citations: 13

The sc‐35 splicing factor interacts with RNA pol II and A-type lamin depletion weakens this interaction

  • Authors: Legartová, S., Fagherazzi, P., Stixová, L., Raška, I., Bártová, E.
  • Journal: Cells (2021), 10(2), pp. 1–22, 297
  • Citations: 2

Conclusion 🌍

Eva Bártová is highly deserving of the Research for Best Researcher Award. Her extensive contributions to the fields of epigenetics, DNA repair, and molecular cytology, her leadership in scientific research, and her dedication to mentoring the next generation of scientists make her a role model in the scientific community. While there are opportunities for broader public engagement and the expansion of collaborative networks, her achievements and influence are undeniably outstanding. Bártová’s exceptional scientific output and leadership position her as one of the leading researchers in her field.