Sharmin Musa | Foodborne Diseases | Best Researcher Award

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Prof. Dr. Sharmin Musa | Foodborne Diseases | Best Researcher Award

Professor | University of Dhaka | Bangladesh

Dr. Sharmin Musa, Professor in the Department of Zoology at the University of Dhaka, is an accomplished academic and researcher specializing in parasitology, zoonotic diseases, and vector-borne infections. She earned her Ph.D. in Animal Biology from the University of Manchester, UK, where her doctoral work focused on parental care in burying beetles, complementing earlier research on post kala-azar dermal leishmaniasis (PKDL) during her MSc at the University of Dhaka. Over the course of her career, she has led and collaborated on numerous research projects addressing pressing public health concerns in Bangladesh, including malaria among Rohingya refugees, intestinal parasitic infections in slum populations, soil-transmitted helminths, and foodborne parasitic risks linked to street vendors and vegetables. Her prolific publication record spans more than 40 peer-reviewed articles in national and international journals, covering both human and animal parasites. She has supervised multiple Ph.D. and MSc theses, contributing significantly to the development of young scientists in Bangladesh. In addition to research, Dr. Musa has delivered invited talks at international conferences, reflecting her recognition as an authority in parasitology and epidemiology. She is an active member of professional bodies such as the Zoological Society of Bangladesh and the Bangladesh Society for Parasitologists, where she has held executive roles. Her academic excellence has been acknowledged with awards, including the Dean’s Award and prestigious fellowships for higher study abroad. Alongside her teaching and research, she has also served in administrative roles, including warden and senate member, demonstrating her leadership within the university community and her enduring commitment to advancing science and public health

Profile: Scopus

Featured Publications

  1. Barua, P., Banik, K.S., Saha, S., & Musa, S. (2024). Risk factors associated with street food consumption in Dhaka city due to faeco-oral parasitic infection in food vendors. Food and Humanity

Lijian Han | Global Health Informatics | Best Researcher Award

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Prof. Dr. Lijian Han | Global Health Informatics | Best Researcher Award

Research Professor | Chinese Academy of Sciences | China

Dr. Lijian Han is an internationally recognized research professor whose pioneering work has significantly advanced the understanding of urbanization and its environmental health consequences, particularly in the domain of air pollution as a global disease risk. With a Ph.D. from Tottori University and over a decade of professional experience at the Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, he has developed innovative approaches to quantify, model, and interpret the trade-offs between rapid urban development and environmental quality. His research integrates satellite and ground-based data, near-surface dynamics, and long-term national datasets to construct accurate, multi-scale PM2.5 exposure assessments, leading to novel composite air pollution indices that reveal the dominance of compound pollution risks, particularly from PM2.5 and O₃. Academically, he has published 85 journal papers, including more than 30 as first author, with multiple ESI top 1% highly cited articles in leading outlets such as Bulletin of the World Health Organization, IEEE Geoscience and Remote Sensing Magazine, and Earth’s Future. His scientific contributions include developing global-to-local PM2.5 assessment frameworks, quantifying anthropogenic versus meteorological drivers of pollution, identifying the mismatch between urban vegetation purification capacity and peak pollution periods, and establishing policy-relevant PM2.5 thresholds that have been directly adopted by Shenzhen’s Environmental Protection Bureau in its Sustainable Development Blueprint (2020–2035). His work is highly cited, with over 5,000 citations and an H-index of 33, reflecting both academic excellence and global relevance. Beyond academia, Dr. Han’s research has shaped national and international discourse, being highlighted in Science and Technology Daily, Xinhua Digest, and Yale Environment 360, and earning recognition from the U.S. Department of State through diplomatic exchange invitations. By bridging cutting-edge scientific discovery with actionable policy and global health frameworks, his research exemplifies the interdisciplinary, high-impact scholarship celebrated by the Global Diseases Research Awards, making him a strong candidate for the Best Researcher Award.

Profile: Google Scholar | Scopus

Featured Publications

1. Han, L., Zhou, W., Li, W., & Li, L. (2014). Impact of urbanization level on urban air quality: A case of fine particles (PM₂.₅) in Chinese cities. Environmental Pollution, 194, 163–170. https://doi.org/10.1016/j.envpol.2014.07.022

2. Qian, Y., Zhou, W., Yan, J., Li, W., & Han, L. (2014). Comparing machine learning classifiers for object-based land cover classification using very high resolution imagery. Remote Sensing, 7(1), 153–168. https://doi.org/10.3390/rs70100153

3. Zhou, W., Qian, Y., Li, X., Li, W., & Han, L. (2014). Relationships between land cover and the surface urban heat island: Seasonal variability and effects of spatial and thematic resolution of land cover data on predicting land surface temperature. Landscape Ecology, 29(1), 153–167. https://doi.org/10.1007/s10980-013-9950-5

4. Zhang, X., Han, L., Wei, H., Tan, X., Zhou, W., Li, W., & Qian, Y. (2022). Linking urbanization and air quality together: A review and a perspective on the future sustainable urban development. Journal of Cleaner Production, 346, 130988. https://doi.org/10.1016/j.jclepro.2022.130988

5. Han, L., Zhou, W., & Li, W. (2015). City as a major source area of fine particulate (PM₂.₅) in China. Environmental Pollution, 206, 183–187. https://doi.org/10.1016/j.envpol.2015.06.002

Livia Spadetto | Climate-Linked Diseases | Best Researcher Award

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Dr. Livia Spadetto | Climate-Linked Diseases | Best Researcher Award 

PhD in Toxicology at Universidad de Murcia | Spain

Livia Spadetto is a veterinarian and ecotoxicologist dedicated to wildlife research and conservation. Her academic and professional journey reflects a deep commitment to understanding environmental challenges, particularly the effects of contaminants on birds of prey. She combines a solid veterinary foundation with expertise in biodiversity, environmental management, and ecotoxicological analysis, allowing her to bridge the gap between animal health and ecosystem protection. Her work extends beyond laboratories into the field, where she has conducted surveys, monitored colonies, and participated in conservation projects across Europe and Latin America. With strong skills in technical and scientific writing, spatial analysis, and field monitoring, she contributes to advancing wildlife research and environmental awareness. Her publications highlight her ability to collaborate internationally and address pressing issues related to rodenticide exposure and avian health. Passionate about conservation, she seeks opportunities in environmental consulting, research, and applied projects focused on protecting biodiversity and ecosystems.

Professional Profiles

Scopus | Orcid

Education

Livia Spadetto pursued her academic path with determination, building a strong foundation in veterinary medicine before specializing in wildlife and environmental sciences. She first trained as a veterinarian, acquiring clinical and surgical experience while developing a passion for animal health and welfare. Her further studies focused on biodiversity and environmental management, where she explored the intersection between veterinary medicine and ecological conservation. She specialized in wildlife management and ecotoxicology, deepening her expertise in contaminant exposure in raptors and their role as bioindicators of environmental health. Through advanced academic training, she combined field monitoring, laboratory techniques, and data analysis, refining her ability to address ecological threats with scientific rigor. Her education also included international experiences, which broadened her cultural perspective and enhanced her language skills. This academic background equips her with multidisciplinary knowledge and practical skills, enabling her to contribute meaningfully to environmental research, wildlife conservation, and applied ecological projects.

Experience

Livia Spadetto has gained extensive experience across veterinary practice, wildlife research, and ecological fieldwork. She began her career in clinical settings, where she worked in veterinary hospitals and clinics, managing patient care, performing diagnostics, and assisting in surgeries. Expanding her scope, she engaged in numerous wildlife-related projects, including bird ringing, colony monitoring, and ecological surveys across Europe and South America. Her work has involved hands-on participation in the conservation of raptors, seabirds, and other species, contributing to data collection, biomonitoring, and habitat assessments. As an assistant ecologist, she carried out wildlife surveys on birds, bats, reptiles, and habitats, preparing technical reports for environmental projects. She also interned with research centers, participating in field campaigns and laboratory studies related to avian conservation. Combining veterinary expertise with ecological practice, she has developed strong competencies in both animal care and environmental science, enabling her to contribute to multidisciplinary conservation efforts globally.

Research Focus

Livia Spadetto’s research centers on ecotoxicology, with a primary focus on the effects of anticoagulant rodenticides on birds of prey. Her studies investigate how contaminants accumulate in avian species, how they affect survival and reproduction, and how these species can serve as bioindicators of environmental health. By combining field monitoring of raptors with laboratory analysis, she provides a holistic understanding of toxicological risks in different ecosystems. Her work extends to studying the distribution of pollutants across agricultural landscapes and their consequences on predator populations, highlighting the link between human practices and wildlife health. She also explores conservation strategies to mitigate these risks, promoting sustainable management of ecosystems. Through her research, she contributes to the development of improved assessment methods and risk evaluation tools. Her scientific approach bridges veterinary medicine, ecology, and toxicology, ensuring that her findings support both environmental policy and wildlife conservation initiatives.

Publication Top Notes

Title: Simultaneous determination of multiple antibiotics alerts on the occurrence of pharmaceutical cocktails in three vulture species from central Spain

Authors: Livia Spadetto; Pilar Gómez-Ramírez; Antonio Juan García-Fernández; José Manuel Zamora-Marín; Mario León-Ortega; Sarah Díaz-García; Fernando Tecles-Vicente; José Fenoll; Juana Cava-Artero; José Francisco Calvo et al.

Journal: Science of The Total Environment

Summary:
This study investigated the presence of multiple antibiotics in three vulture species from central Spain, providing evidence of pharmaceutical contamination in scavenger bird populations. Using advanced analytical methods, researchers simultaneously detected several antibiotics in tissue samples, highlighting the existence of “pharmaceutical cocktails” within these raptors. The findings raise concerns about the ecological and health risks of veterinary drug residues entering food webs through livestock carcasses, which are a major food source for vultures. This research underscores the urgent need for stricter monitoring of pharmaceutical pollutants, improved management of livestock waste, and conservation strategies to mitigate potential impacts on threatened vulture populations and broader ecosystems.

Conclusion

Livia Spadetto represents a professional who unites veterinary1 expertise with ecological research, offering a rare and valuable profile for conservation and environmental science. Her career reflects a continuous pursuit of knowledge, from veterinary medicine to advanced ecotoxicological studies, always driven by a passion for wildlife. She has balanced clinical practice with field and laboratory research, gaining a versatile set of skills applicable in diverse contexts. Her publications and collaborations show her ability to contribute meaningfully to scientific advancement while engaging with conservation practitioners. Multilingual and internationally experienced, she brings cultural adaptability and strong communication abilities to her professional roles. Looking ahead, she seeks opportunities to apply her expertise in consulting, conservation projects, or research initiatives that address pressing environmental challenges. Committed to protecting biodiversity, she aims to contribute to sustainable solutions that safeguard ecosystems and wildlife populations for future generations while advancing scientific and practical outcomes.

Dayong Xu | CRISPR and Molecular Diagnostics | Best Researcher Award

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Assoc. Prof. Dr. Dayong Xu | Molecular Diagnostics | Best Researcher Award 

Principal Investigator at Huaibei Normal University | China

Dr. Dayong Xu is an Associate Professor at the School of Life Sciences, Huaibei Normal University, China. He is an active researcher specializing in CRISPR technologies and molecular diagnostics. His contributions span across microbiology, biotechnology, and molecular biology, with a strong emphasis on developing innovative diagnostic tools and exploring microbial mechanisms of resistance and virulence. As a corresponding author on several high-impact publications, Dr. Xu has collaborated with distinguished researchers worldwide, advancing the field of molecular detection systems. His research outputs include pioneering CRISPR-based diagnostic platforms for viral, bacterial, and fungal pathogens, along with studies on antifungal resistance and microbial physiology. With a balance of academic scholarship and practical application, he is recognized for translating scientific knowledge into technologies with potential clinical and industrial impact. Dedicated to innovation and excellence, Dr. Xu has built a professional reputation as a leading scientist in molecular diagnostics and microbial pathogenesis.

Professional Profiles

Scopus Profile | Orcid  Profile

Education

Dr. Dayong Xu pursued his academic training in the life sciences, where he cultivated expertise in molecular biology, microbiology, and biotechnology. His education provided him with a strong foundation in both theoretical knowledge and experimental skills, allowing him to investigate fundamental processes in microbial systems while applying molecular techniques to real-world challenges. Through his academic journey, he gained exposure to advanced genetic tools, protein analysis, and diagnostic development. This training equipped him to explore areas such as CRISPR-mediated detection methods and the molecular basis of antifungal drug resistance. By integrating rigorous coursework with extensive laboratory research, Dr. Xu developed the ability to connect basic science with translational applications. His educational path strengthened his interdisciplinary approach, fostering collaborations across genetics, microbiology, and biotechnology. This background has been essential in enabling him to address complex research questions and contribute meaningfully to both academic science and applied diagnostic innovation.

Experience

Dr. Dayong Xu has accumulated significant academic and research experience as an Associate Professor at Huaibei Normal University. His role involves a combination of teaching, mentoring, and leading innovative scientific investigations in molecular diagnostics and microbiology. He has published extensively in peer-reviewed journals, often serving as a corresponding author, which reflects his leadership in collaborative projects. His experience spans the design and optimization of CRISPR-based diagnostic systems, the study of antifungal resistance in Candida albicans, and the development of microbial fermentation strategies for bioactive compounds. He has also explored genetic pathways involved in microbial virulence, calcium homeostasis, and stress tolerance, contributing to a deeper understanding of pathogen biology. Beyond research, Dr. Xu engages in academic guidance for students and fosters collaborations with international scientists. His extensive experience highlights his ability to integrate laboratory research, academic leadership, and practical innovation in advancing molecular and microbial sciences.

Research Focus

Dr. Dayong Xu’s research is centered on CRISPR technology, molecular diagnostics, and microbial pathogenesis. He is particularly focused on designing and optimizing CRISPR/Cas-based platforms for the rapid and accurate detection of pathogens, including viruses, bacteria, and fungi. His studies extend to the molecular mechanisms underlying antifungal resistance in Candida albicans, where he investigates genetic interactions, membrane transport proteins, and signaling pathways that affect drug tolerance and virulence. He also explores microbial enzyme functions, protein expression, and biotechnological applications, such as the transformation of biochemical compounds and the fermentation-based production of antimicrobial agents. His research integrates basic molecular biology with translational outcomes, bridging the gap between laboratory innovation and real-world diagnostic needs. With a strong emphasis on precision and applicability, Dr. Xu aims to contribute to global health by advancing tools for early disease detection, therapeutic development, and microbial understanding through cutting-edge molecular approaches.

Publication Top Notes

Title: Efficient Synthesis of Tetrahydroisoquinoline Alkaloids from Dopamine and Natural Phenolic Acids by Whole-Cell Biocatalysis
Journal: ACS Sustainable Chemistry and Engineering, 2025
Summary: This article presents a sustainable biocatalytic approach for synthesizing tetrahydroisoquinoline alkaloids using dopamine and natural phenolic acids as substrates. Whole-cell systems are employed to achieve efficient synthesis, highlighting green chemistry applications in natural product production.

Title: Fast-Flu: RT-RPA-CRISPR/Cas12a assisted one-step platform for rapid influenza B virus detection
Journal: Microbiology Spectrum, 2025
Summary: The study introduces a rapid diagnostic platform, Fast-Flu, combining RT-RPA with CRISPR/Cas12a in a single step to detect influenza B virus. The method is highly sensitive, specific, and time-efficient, offering potential for point-of-care influenza diagnostics.

Title: Heterologous Expression and Enzymatic Properties of β-Glucuronidase from Clostridium perfringens and Its Application in Bilirubin Transformation
Journal: Microorganisms, 2025
Summary: This research reports the heterologous expression and characterization of β-glucuronidase from Clostridium perfringens. The enzyme’s biochemical properties are examined, and its application in bilirubin transformation is demonstrated, providing insights into microbial enzyme utilization in biomedicine.

Conclusion

Dr. Dayong Xu exemplifies the role of a modern life sciences researcher who integrates deep biological knowledge with technological innovation. His career reflects a commitment to both academic scholarship and applied solutions, particularly in the fields of CRISPR diagnostics and microbial pathogenesis. By combining his expertise in molecular biology with his leadership in collaborative research, he has contributed to advancing scientific understanding and developing diagnostic systems with significant potential for clinical use. His publications, many of which list him as a corresponding author, showcase his influence in driving forward high-impact research. Beyond his scientific achievements, Dr. Xu is dedicated to mentoring young researchers and fostering international collaborations that broaden the reach of his work. Through a balance of innovation, research, and education, he continues to play an influential role in shaping the future of molecular diagnostics, microbial biology, and applied biotechnology.

Arafat Hassan Razon | Public Health Epidemiology | Best Researcher Award

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Mr. Arafat Hassan Razon | Public Health Epidemiology | Best Researcher Award 

Lecturer at Bangladesh Open University | Bangladesh

Arafat Hassan Razon is a dedicated academic and researcher in the field of public health and community nutrition. Serving as a Lecturer at Bangladesh Open University, he has built a strong foundation in nutrition and food technology, combining both theoretical knowledge and practical application in his career. His professional journey demonstrates a commitment to addressing health challenges within communities, particularly through research on epidemiological concepts. By actively engaging in academic research and contributing to scholarly discussions, he has established himself as a resourceful voice in the field. His scholarly works are recognized through publications in reputed journals indexed in SCI and Scopus, highlighting his ability to produce research of global relevance. With a growing citation index and recognition among peers, he continues to influence the academic community positively. His career reflects an inspiring balance of teaching, mentoring, and research, aiming to advance community health outcomes through scientific inquiry.

Professional Profile

Google Scholar | Scopus Profile | Orcid Profile

Education

Arafat Hassan Razon holds advanced academic qualifications in Nutrition and Food Technology, which laid the groundwork for his expertise in public health. His educational journey reflects a consistent focus on understanding the relationship between food, nutrition, and health within communities. Throughout his studies, he gained extensive knowledge in food sciences, community health practices, and nutritional epidemiology. These academic pursuits not only provided him with technical skills but also instilled a strong sense of responsibility to address pressing public health concerns. His education emphasized both theoretical foundations and applied learning, enabling him to critically evaluate health challenges and design effective research approaches. By combining classroom learning with practical applications, he developed the ability to translate scientific findings into meaningful community-level interventions. His academic background continues to serve as a vital support for his teaching and research, preparing him to contribute to advancing knowledge in nutrition and public health.

Experience

In his role as a Lecturer at Bangladesh Open University, Arafat Hassan Razon has consistently demonstrated excellence in teaching, research, and mentoring. His work involves imparting knowledge in nutrition and food technology, while also guiding students to engage in meaningful academic exploration. Beyond teaching responsibilities, he actively contributes to research in public health and community nutrition, with multiple publications in reputed journals. His professional journey includes leading and participating in research projects that address practical health issues affecting communities. His involvement in these projects reflects a hands-on approach to problem-solving, combining evidence-based strategies with innovative methodologies. Additionally, he has engaged with research platforms such as Google Scholar and ResearchGate, where his contributions are widely recognized and cited. His career experience showcases a balance between academic responsibilities and impactful research, underlining his dedication to advancing knowledge and improving public health outcomes through sustained scholarly engagement.

Research Focus

Arafat Hassan Razon’s research is centered on public health and community nutrition, with a strong emphasis on addressing real-world challenges faced by communities. His work explores the intersection of nutrition, health behaviors, and epidemiological approaches to improve health outcomes. Through his studies, he has examined public health concepts within the context of Bangladesh, shedding light on nutritional issues and strategies for sustainable solutions. His research approach is evidence-based, focusing on analyzing health risks, evaluating dietary patterns, and proposing practical interventions. With several published articles in reputable journals, he contributes to the global dialogue on nutrition and public health. His academic outputs also highlight the importance of preventive health strategies and community-level awareness in combating nutrition-related diseases. By bridging the gap between scientific knowledge and community practice, he aims to create impactful, long-term benefits that extend beyond academia into the well-being of populations.

Publication Top Notes

Title: Assessment of dietary habits, nutritional status and common health complications of older people living in rural areas of Bangladesh
Authors: AH Razon, MI Haque, MF Ahmed, T Ahmad
Journal: Heliyon 8 (2), 2022
Summary: This study investigated the dietary patterns, nutritional health, and common health complications among elderly populations in rural Bangladesh. Findings highlight inadequate nutrition, prevalence of underweight and chronic diseases, and the influence of poor dietary practices on overall health, emphasizing the need for targeted health and nutrition interventions.

Title: Prevalence of irritable bowel syndrome and its associated risk factors among university students of Bangladesh
Authors: A Das, AH Razon, T Ahmad, DK Paul
Journal: JGH Open 6 (6), 421-426, 2022
Summary: The research explored the prevalence of irritable bowel syndrome (IBS) among Bangladeshi university students and identified lifestyle, dietary, and psychological stress as key contributing factors. The findings stress the importance of awareness programs and early interventions for IBS in young adults.

Title: Assessment of the prevalence of menstrual complications with knowledge, attitude and practice regarding menstruation of rural girls in Jashore, Bangladesh
Authors: MS Sultana, AH Razon, MT Sarwar, T Ahmad
Journal: Science 9 (5), 162-8, 2021
Summary: This paper examined menstrual health complications and evaluated the knowledge, attitudes, and practices of rural adolescent girls in Jashore. Results revealed limited awareness, inadequate hygiene practices, and common menstrual issues, suggesting the need for health education and community support programs.

Title: Prevalence of hypertension and its associated risk factors during COVID-19 pandemic in the capital of Bangladesh
Authors: U Roy, AH Razon, T Ahmad, TS Barsha
Journal: Human Nutrition & Metabolism 38, 200289, 2024
Summary: The study analyzed the prevalence of hypertension during the COVID-19 pandemic in Dhaka and identified risk factors such as obesity, stress, and sedentary lifestyle. It underscores the necessity for preventive strategies to manage hypertension during health crises.

Title: Corrigendum to ‘Prevalence of hypertension and its associated risk factors during COVID-19 pandemic in the capital of Bangladesh’ [Human Nutrition & Metabolism 38 (2024) 200289]
Authors: U Roy, AH Razon, T Ahamad, TS Barsha
Journal: Human Nutrition & Metabolism, 200334, 2025
Summary: This corrigendum addresses corrections to the previously published study on hypertension during COVID-19 in Bangladesh, ensuring accuracy in research reporting and clarifying earlier findings.

Title: A comprehensive analysis of behavioral patterns, socioeconomic conditions, and the prevalence of diabetes associated comorbidities among diabetic patients in Bangladesh
Authors: AH Razon, S Biswas, S Hossain, A Khatun, JF Sagufta, TS Barsha, …
Journal: Public Health Toxicology 5 (2), 1-10, 2025
Summary: The study explored lifestyle behaviors, socioeconomic backgrounds, and comorbidities of diabetic patients in Bangladesh. It found significant associations between poor dietary habits, low income, and higher prevalence of complications, highlighting the importance of integrated diabetes care and policy interventions.

Title: Comparative Analysis of the Nutritional Value of Bangladeshi and Saudi Arabian Date Palms Fruit Varieties
Authors: MS Rahman, AH Razon, MA Foysol
Journal: Advances in Food Production, Processing, and Nutrition 2 (1), 017-022, 2024
Summary: This comparative study analyzed the nutritional composition of date palm varieties from Bangladesh and Saudi Arabia. The findings showed variations in vitamins, minerals, and caloric value, contributing to understanding their role in human nutrition and promoting healthy food choices.

Title: Comparison of Local and Wheat-Based High-Energy Biscuits in terms of Public Health Concern
Authors: AH Razon, EA Ema, TI Ratul, TS Barsha
Journal: Journal of Scientific and Technological Research 6 (1), 14-29, 2024
Summary: The research compared nutritional values and public health implications of locally produced biscuits and wheat-based high-energy biscuits. Results revealed differences in energy content, quality, and safety, emphasizing the importance of food regulation and consumer awareness.

Title: The Intricate Mechanisms of Functional Foods Oyster Mushroom and Fenugreek on Type 2 Diabetic Animal Model
Authors: AH Razon, M Alauddin, N Farzana, S Mazumdar, MR Amin, MMH Tusher, …
Journal: Journal of Diabetes Research 2024 (1), 6209785, 2024
Summary: This experimental study investigated the therapeutic effects of oyster mushroom and fenugreek on diabetic animal models. Findings indicated improvements in glucose regulation and metabolic activity, supporting the potential role of functional foods in diabetes management.

Title: Assessment of Heavy Metals in Eggplant Fruit from Urban and Rural Areas of Bangladesh
Authors: M Alam, S Ahmed, P Halder, AH Razon, SD Shuvo, R Parvin, MT Elahi, …
Journal: Basrah Journal of Agricultural Sciences 36 (2), 99-108, 2025
Summary: The study assessed levels of heavy metal contamination in eggplants from different regions of Bangladesh. Results revealed higher concentrations in urban samples compared to rural areas, raising concerns about food safety and potential health risks for consumers.

Conclusion

Arafat Hassan Razon embodies the qualities of a dedicated researcher, teacher, and public health advocate. His academic background in nutrition and food technology, combined with his professional role as a Lecturer, equips him to contribute meaningfully to both education and research. Through his publications and projects, he has demonstrated a commitment to advancing public health knowledge and addressing nutrition-related challenges within communities. His growing academic recognition reflects the impact of his work on peers and the broader research community. As he continues to engage in innovative studies, his career trajectory promises greater contributions to global health and nutrition. His nomination for the Best Researcher Award highlights not only his current achievements but also his potential for future advancements. With a clear vision and passion for research, he stands as an inspiring figure dedicated to fostering healthier communities through knowledge, innovation, and academic excellence.

Aiswarya | Spectroscopy | Best Scholar Award

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Dr. Aiswarya | Spectroscopy | Best Scholar Award 

Research scholar at Sri Manakula Vinayagar Engineering college, India

P. Aiswarya is a dedicated research scholar at Sri Manakula Vinayagar Engineering College, Puducherry, specializing in spectroscopy, density functional theory, and molecular docking studies. Her academic journey reflects a strong passion for exploring bioactive organic molecules with therapeutic potential. She has conducted significant research on antifungal, antiviral, and antiparasitic compounds, with promising outcomes in drug discovery. Alongside research, she has contributed to teaching and guiding students, sharing her expertise in computational and experimental studies. Aiswarya’s commitment extends to scholarly service as a reviewer for reputed journals, highlighting her active involvement in advancing scientific communication. She has developed a niche in computational drug design and continues to explore molecules targeting infectious and neurological diseases. Her perseverance, analytical skills, and contributions in interdisciplinary research mark her as an emerging scientist devoted to innovation in biomedical sciences. With a strong foundation, she aims to expand her research impact globally in disease therapeutics.

Professional Profile

Orcid Profile | Scopus Profile

Education

P. Aiswarya has pursued her academic path with a deep interest in life sciences and pharmaceutical research, building expertise in spectroscopy, density functional theory, and molecular docking methodologies. Her educational background has equipped her with strong skills in computational modeling, analytical techniques, and drug discovery studies. She has focused her learning on exploring the structural and chemical behavior of bioactive molecules, contributing to her specialization in identifying potential therapeutic agents. Throughout her academic journey, she has been involved in projects that integrate theoretical and practical approaches to understanding complex biological processes. Her training has enabled her to handle multidisciplinary research involving organic chemistry, pharmacology, and computational biology. She has also contributed to guiding students in research-related tasks, strengthening her academic foundation. Her educational growth demonstrates a steady progression toward excellence in biomedical research and highlights her ability to bridge fundamental science with applied research for medical advancements.

Experience

P. Aiswarya’s professional journey is rooted in full-time research and academic engagement. She has worked extensively on projects dealing with the discovery of bioactive molecules and their therapeutic applications. Her completed research includes studies on alpha-cyano-4-hydroxycinnamic acid, which displayed antifungal and antiviral activity, and 4-amino-2-methoxybenzoic acid, which demonstrated antiparasitic potential. In addition to her independent research, she has contributed to teaching activities and guiding fellow researchers, fostering an academic environment of knowledge sharing. She has reviewed articles for international journals, contributing to the critical evaluation of scientific publications. Her experience spans molecular docking, computational drug design, and spectroscopy-based investigations, where she has gained a strong understanding of disease-related biomolecular interactions. She actively engages in collaborations with faculty and peers, focusing on advancing drug discovery research. Through her experience, she has built a balance between laboratory studies, theoretical research, and scientific communication, positioning herself as a promising scholar.

Research Focus

The central theme of P. Aiswarya’s research lies in the exploration of bioactive organic molecules with therapeutic potential. Her work integrates spectroscopy, density functional theory, and molecular docking studies to evaluate the structural and biological properties of compounds. She has focused on molecules with antifungal, antiviral, antiparasitic, and neuroprotective activities, offering promising leads for drug development. Notably, her completed projects highlighted the potential of alpha-cyano-4-hydroxycinnamic acid as an antifungal and antiviral agent, as well as 4-amino-2-methoxybenzoic acid as an antiparasitic candidate. Her ongoing research includes investigating molecules for neurodegenerative disorders and antileishmanial activity. By combining computational models with experimental validation, she contributes to rational drug design and molecular innovation. Her research direction emphasizes addressing global health challenges by discovering novel therapeutic strategies. With a clear vision of integrating interdisciplinary approaches, her focus is on bridging chemistry, biology, and pharmacology to support advances in disease treatment.

Publication Top Notes

Title: Comprehensive insights into 4-amino-2-methoxybenzoic acid: Spectral analysis, solvent impact, pharmacokinetic characteristics, and docking affinity investigation against Chagas disease

Journal: Journal of Molecular Structure (Published: 2025-01-12)

Summary:
This study investigates the structural, spectral, and pharmacokinetic properties of 4-amino-2-methoxybenzoic acid using a combination of computational and experimental techniques. Detailed FT-IR, FT-Raman, NMR, and UV-Visible spectral analyses were performed to understand the vibrational and electronic characteristics of the molecule. The influence of solvents on molecular stability and reactivity was explored to highlight environmental effects. Pharmacokinetic parameters, including absorption, distribution, metabolism, and excretion (ADME), were evaluated to predict drug-likeness and therapeutic potential. Furthermore, molecular docking studies revealed significant binding affinity of the compound against key target proteins associated with Trypanosoma cruzi, the causative agent of Chagas disease. The findings demonstrate the compound’s potential as a candidate for drug development, combining structural stability, favorable ADME properties, and promising docking interactions.

Conclusion

P. Aiswarya’s academic and research journey reflects her dedication to contributing meaningfully to biomedical sciences. Through her expertise in spectroscopy, density functional theory, and molecular docking, she has made notable progress in identifying bioactive molecules with significant therapeutic potential. Her contributions extend beyond laboratory research into teaching, mentoring, and peer review, showcasing her multifaceted role in academia. Her recognition through awards and her involvement in editorial responsibilities emphasize her commitment to advancing high-quality scientific knowledge. By focusing on molecules with antiviral, antifungal, antiparasitic, and neuroprotective properties, she addresses some of the most pressing global health challenges. Her work aligns with the broader vision of developing innovative drugs and therapeutic strategies. With determination, she continues to build her reputation as a promising scholar, striving to bridge fundamental research with applied medicine. Her future endeavors hold strong potential to expand the scope of drug discovery and contribute to global healthcare solutions.

Ashutosh Singh | Virology | Best Researcher Award

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Mr. Ashutosh Singh | Virology | Best Researcher Award

Phd Scholar at VIT Bhopal University, India

Ashutosh Kumar Singh is a dedicated biotechnology researcher specializing in virology, computational biology, and molecular diagnostics. His academic and professional journey reflects a strong commitment to advancing the understanding of viral pathogens and their impact on human and environmental health. He has developed expertise in laboratory techniques such as droplet digital PCR, agarose gel electrophoresis, microscopy, primer designing, and molecular docking using advanced computational tools. Through his work, he has contributed to international publications and actively participated in conferences, presenting his research on wastewater-based epidemiology, viral detection, and structural analysis of pathogens. His interest extends to the integration of computational and experimental approaches, enabling him to explore host-pathogen interactions and the role of environmental surveillance in public health. With a vision to bridge laboratory science with real-world challenges, Ashutosh Kumar Singh continues to grow as a researcher committed to innovation, global health security, and sustainable disease monitoring strategies.

Professional Profile

Google Scholar | Scopus | Orcid

Education

Ashutosh Kumar Singh has pursued a comprehensive academic journey in biotechnology, beginning with foundational studies in biological sciences and later advancing into specialized training in virology, molecular diagnostics, and computational biology. His education equipped him with a strong grounding in laboratory techniques, analytical skills, and the theoretical knowledge required to address complex biological questions. During his higher studies, he explored cutting-edge tools in molecular biology, including droplet digital PCR, primer design, molecular docking, and bioinformatics. His academic progression reflects a balance between experimental practice and computational applications, preparing him to address multidisciplinary challenges in biotechnology. Through coursework, seminars, and research-based projects, he developed critical thinking and problem-solving abilities, further enriched by his participation in workshops and scientific discussions. His educational journey has cultivated a deep interest in global health, virology, and environmental monitoring, establishing a strong foundation for his ongoing research and professional growth in the field of biotechnology.

Experience

Ashutosh Kumar Singh has gained substantial experience through research, publications, and active participation in scientific forums. He has presented posters and delivered talks at national and international conferences, focusing on the detection and surveillance of enteric viruses in environmental and clinical settings. His work highlights the application of droplet digital PCR in tracking pathogens such as norovirus, rotavirus, and astrovirus. He has collaborated on multiple research studies that investigate viral epidemiology, genotypic diversity, and host-pathogen interactions. Beyond bench work, he has engaged with computational approaches, applying molecular docking, phylogenetics, and structural analysis to better understand viral mechanisms. His contributions include several published research articles in reputed journals, showcasing his ability to connect environmental surveillance with public health outcomes. His experience reflects a blend of experimental expertise, computational analysis, and active engagement with the scientific community, enabling him to make meaningful contributions to virology, biotechnology, and global health research.

Research Focus

Ashutosh Kumar Singh’s research focuses on the epidemiology, genetic diversity, and environmental monitoring of infectious pathogens with significant public health impact. His studies investigate enteric viruses such as noroviruses and rotaviruses, applying advanced molecular tools like droplet digital PCR to enhance pathogen detection in wastewater and community samples. Singh’s work also extends to bacterial diseases including scrub typhus and genital tuberculosis, addressing their role in reproductive health and disease transmission. By conducting systematic reviews and meta-analyses, he synthesizes existing evidence to provide a clearer understanding of disease patterns and clinical implications. His interdisciplinary research bridges virology, microbiology, and epidemiology, emphasizing the importance of One Health perspectives in tackling emerging infections. Singh is particularly interested in integrating laboratory diagnostics with surveillance frameworks, enabling early detection and prevention strategies. His research ultimately aims to inform healthcare policies, strengthen global health security, and reduce the burden of infectious diseases worldwide.

Publication Top Notes

Title: Investigating the Presence of Rotavirus in Wastewater Samples of Bhopal Region, India, by Utilizing Droplet Digital Polymerase Chain Reaction
Authors: RK Nema, AK Singh, J Nagar, B Prajapati, M Sikenis, S Singh, V Diwan, et al.
Journal: Cureus, 16(4), 2024
Summary: This study applied droplet digital PCR (ddPCR) to detect rotavirus in wastewater samples from Bhopal, India. The findings highlight the importance of wastewater surveillance in monitoring viral pathogens and supporting public health strategies.

Title: Deciphering the Genotypic Diversity and Epidemiology of Scrub Typhus Genotypes in India: A Systematic Review and Meta-Analysis
Authors: RK Nema, AK Singh, D Raj, P Gupta, RR Tiwari, S Purwar
Journal: Microbial Pathogenesis, Article 107182, 2024
Summary: This systematic review and meta-analysis explored the genetic diversity of Orientia tsutsugamushi genotypes in India. It provides insights into scrub typhus epidemiology and stresses the need for genotype-specific diagnostic and preventive strategies.

Title: Protocol for Detection of Pathogenic Enteric RNA Viruses by Regular Monitoring of Environmental Samples from Wastewater Treatment Plants Using Droplet Digital PCR
Authors: RK Nema, S Singh, AK Singh, DK Sarma, V Diwan, RR Tiwari, RK Mondal, et al.
Journal: Science in One Health, 3, 100080, 2024
Summary: This article presents a standardized ddPCR-based protocol for detecting enteric RNA viruses in wastewater treatment plants. The method improves sensitivity and accuracy, aiding in early outbreak detection and public health preparedness.

Title: The Evolving Landscape of Norovirus GII Genotypes in Asia: A Systematic Review and Meta-Analysis
Authors: AK Singh, J Nagar, A Tandekar, S Singh, V Diwan, GC Ravindran, et al.
Journal: Journal of Clinical Virology, Article 105809, 2025
Summary: This meta-analysis examined Norovirus GII genotype diversity across Asia. The findings highlight emerging strains, epidemiological trends, and implications for vaccine development and regional disease control.

Title: Genital Tuberculosis: A Silent Contributor to Infertility and Adverse Pregnancy Outcomes
Authors: M Sikenis, B Prajapati, AK Singh, K Yadav, A Rahman, MK Pandey, et al.
Journal: Journal of Reproductive Healthcare and Medicine, 5(17), 2024
Summary: This review highlights the overlooked role of genital tuberculosis in infertility and pregnancy complications. It emphasizes the importance of improved screening and diagnostic awareness in reproductive healthcare.

Title: Detection of Noroviruses GII in Wastewater Samples of Bhopal, India, Using Droplet Digital PCR
Authors: RK Nema, J Nagar, AK Singh, A Tandekar, S Singh, A Rahman, et al.
Journal: medRxiv (Preprint), 2023
Summary: This preprint reports the detection of Norovirus GII in wastewater samples from Bhopal using ddPCR. The study underscores the value of environmental surveillance in tracking viral spread and assessing community health risks.

Conclusion

Ashutosh Kumar Singh embodies the qualities of a researcher committed to scientific innovation, interdisciplinary collaboration, and public health advancement. His journey demonstrates a balance of academic rigor, laboratory expertise, and computational proficiency, positioning him as a promising contributor in the fields of biotechnology and virology. His dedication to understanding viral pathogens and developing sensitive diagnostic methods reflects his vision of integrating science with practical solutions for global health challenges. With multiple publications, active conference participation, and hands-on experience in advanced molecular techniques, he has established a strong foundation for impactful contributions to research and society. His work in wastewater-based epidemiology underscores the importance of environmental monitoring in preventing and controlling outbreaks, while his computational insights strengthen the understanding of viral evolution and host interactions. Moving forward, his focus remains on expanding innovative research, building global collaborations, and applying biotechnology for the betterment of human and environmental health.

Hassan Nourmohammadi | Infection and Oncology | Best Researcher Award

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Assoc. Prof. Dr. Hassan Nourmohammadi | Infection and Oncology | Best Researcher Award 

Associate Professor at Ilam University of Medical Science, Iran

Dr. Hassan Nourmohammadi is an Associate Professor of Oncology, Hematology, and Bone Marrow Transplantation at the Non-Communicable Diseases Research Center, Ilam University of Medical Sciences. His academic journey and clinical expertise reflect a deep commitment to advancing the fields of internal medicine, hematology, and oncology. With a focus on treating complex conditions such as blood cancers and hematological disorders, he has contributed significantly to both medical education and patient care. Beyond his clinical practice, Dr. Nourmohammadi has engaged in impactful research spanning cancer treatment, stem cell transplantation, and infectious diseases. His scholarly contributions include original articles, systematic reviews, and innovative vaccine design through immunoinformatics. A respected educator, he has taught numerous medical courses and guided students across different medical disciplines. Through his academic leadership, clinical service, and international collaborations, Dr. Nourmohammadi continues to shape advancements in oncology and hematology while mentoring future medical professionals.

Professional Profile

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Education

Dr. Hassan Nourmohammadi pursued his medical education across leading universities in Iran, building a strong foundation in medical sciences. He began his academic path at Isfahan University of Medical Sciences, where he completed his training as a general practitioner. His interest in internal medicine led him to Mazandaran University of Medical Sciences, where he earned board certification as a specialist in internal medicine. Driven by a passion for oncology and hematology, he advanced his studies at Tehran University of Medical Sciences, where he completed his subspecialty board in oncology, hematology, and bone marrow transplantation. These academic achievements provided him with both theoretical knowledge and practical expertise in diagnosing and treating complex medical conditions. His educational journey reflects a strong dedication to medicine and patient care, laying the groundwork for his role as a clinician, researcher, and academic mentor in hematology, oncology, and advanced cancer therapies.

Experience

Dr. Hassan Nourmohammadi has extensive experience in clinical practice, academic teaching, and advanced medical research. As an Associate Professor at Ilam University of Medical Sciences, he has led the Non-Communicable Diseases Research Center and contributed to developing innovative treatments for blood cancers and hematological disorders. His clinical work includes performing bone marrow and stem cell transplantations for patients with conditions such as multiple myeloma, acute leukemia, thalassemia, and lymphomas. Alongside clinical responsibilities, he has taught a wide range of medical courses, including internal medicine, hematology, gastroenterology, endocrinology, and respiratory system studies. His experience extends to supervising theses, guiding research projects, and contributing to international collaborations in oncology and hematology. Dr. Nourmohammadi has also published extensively in peer-reviewed journals, adding to the global body of medical knowledge. His professional journey highlights his dual role as a skilled clinician and dedicated academic shaping the future of medical science.

Research Focus

Dr. Hassan Nourmohammadi’s research spans oncology, hematology, stem cell transplantation, and internal medicine, with a strong emphasis on improving cancer treatment outcomes. His work has explored innovative therapeutic approaches in advanced cancers, the complications of stem cell transplantation, and supportive care for patients with blood disorders. He has also contributed significantly to global health research through systematic reviews and meta-analyses on conditions such as osteoporosis, hepatitis, gastroesophageal reflux disease, and COVID-19. His interest in immunoinformatics has led to the design of multi-epitope vaccine candidates targeting infectious diseases including leishmaniasis, toxoplasmosis, and echinococcosis. Additionally, his studies have examined psychological and supportive therapies, such as mindfulness and cognitive behavioral interventions, for patients and caregivers affected by cancer. This diverse body of research reflects his integrative approach, bridging clinical oncology with innovative biomedical science to advance both patient-centered care and future therapeutic strategies.

Publication Top Notes

Title: Positive effects of cognitive behavioral therapy on depression, anxiety and stress of family caregivers of patients with prostate cancer: A randomized clinical trial
Journal: Asian Pacific Journal of Cancer Prevention (APJCP)
Summary: This study evaluated the effectiveness of cognitive behavioral therapy in reducing depression, anxiety, and stress among family caregivers of prostate cancer patients. Results confirmed that CBT significantly improved psychological well-being, highlighting its value as a supportive intervention.

Title: Investigating the effect of mindfulness-based training on psychological status and quality of life in patients with breast cancer
Journal: Asian Pacific Journal of Cancer Prevention (APJCP)
Summary: The research explored how mindfulness training influences the psychological health and quality of life of breast cancer patients. Findings indicated that mindfulness practices improved emotional stability and overall quality of life, offering a useful complementary therapy.

Title: Epidemiology of gastroesophageal reflux disease in Iran: a systematic review and meta-analysis
Journal: BMC Gastroenterology
Summary: This systematic review and meta-analysis examined the prevalence of gastroesophageal reflux disease (GERD) in Iran. It provided comprehensive epidemiological data, helping inform public health strategies for diagnosis, treatment, and prevention.

Title: The effects of reflexology on fatigue severity of patients with cancer
Journal: Asian Pacific Journal of Cancer Prevention (APJCP)
Summary: The study investigated reflexology as a supportive therapy for cancer patients experiencing fatigue. Results showed a reduction in fatigue severity, suggesting reflexology as an effective complementary care approach.

Title: Leishmanolysin gp63: Bioinformatics evidences of immunogenic epitopes in Leishmania major for enhanced vaccine design against zoonotic cutaneous leishmaniasis
Journal: Informatics in Medicine Unlocked
Summary: Using bioinformatics tools, this study identified immunogenic epitopes within Leishmanolysin gp63 of Leishmania major. These findings contribute to the development of improved vaccine designs for zoonotic cutaneous leishmaniasis.

Title: Bioinformatics features and immunogenic epitopes of Echinococcus granulosus Myophilin as a promising target for vaccination against cystic echinococcosis
Journal: Infection, Genetics and Evolution
Summary: The research analyzed bioinformatics features and immunogenic epitopes of Echinococcus granulosus Myophilin. It proposed Myophilin as a strong vaccine candidate against cystic echinococcosis.

Title: Multi-epitope vaccine against cystic echinococcosis using immunodominant epitopes from EgA31 and EgG1Y162 antigens
Journal: Informatics in Medicine Unlocked
Summary: This study developed a multi-epitope vaccine model combining epitopes from EgA31 and EgG1Y162 antigens. Findings showed promising potential for designing effective vaccines against cystic echinococcosis.

Conclusion

Dr. Hassan Nourmohammadi exemplifies the integration of clinical expertise, academic leadership, and research innovation in oncology and hematology. His work as a physician-scientist demonstrates a balanced dedication to patient care, medical education, and scientific advancement. By performing complex bone marrow and stem cell transplantations, he has directly improved the lives of patients with life-threatening diseases. As an academic, he has mentored students across various medical disciplines, ensuring the growth of future generations of physicians and researchers. His prolific research output, covering both clinical and bioinformatics-based studies, has contributed valuable insights to cancer treatment, infectious diseases, and immunology. Membership in esteemed international medical organizations highlights his active engagement in global health dialogues. Through his continuous contributions, Dr. Nourmohammadi strengthens the bridge between science and practice, reaffirming his role as a respected leader in oncology, hematology, and advanced medical research.

Denesh Sooriamoorthy | Cardiovascular Engineering | Best Researcher Award

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Dr. Denesh Sooriamoorthy | Cardiovascular Engineering | Best Researcher Award 

Senior Lecturer at Asia Pacific University of Technology & Innovation (APU), Malaysia

Dr Denesh A/L Sooriamoorthy is a distinguished academic and researcher specializing in mechatronic engineering, robotics, and biomedical systems. Currently serving as a Senior Lecturer at Asia Pacific University of Technology & Innovation, he has made impactful contributions to both education and research. His career has been defined by innovative curriculum development, particularly in robotics and mechatronics, alongside leadership in collaborative projects with academia and industry. His doctoral research pioneered early risk prediction methods for cardiovascular diseases, integrating numerical modeling and wearable technologies. He has consistently demonstrated the ability to merge advanced technical knowledge with practical applications, producing outcomes that bridge healthcare, robotics, and intelligent systems. Beyond his technical expertise, he has held leadership roles as programme coordinator, advisor to student clubs, and conference organizer, reflecting his versatility as an academic leader. His professional recognition as a certified engineer and technologist underscores his standing in the engineering community.

Professional Profile

Scopus | Orcid

Education

Dr Denesh A/L Sooriamoorthy has pursued a distinguished educational journey that integrates engineering, research, and teaching excellence. He began with a strong foundation in mechatronic engineering, completing his undergraduate studies with high honors at the University of Nottingham. His academic trajectory advanced through a master’s degree in mechatronic engineering, where he gained extensive technical knowledge in robotics, systems modeling, and intelligent control applications. Building on this foundation, he undertook doctoral research at the University of Nottingham, focusing on innovative cardiovascular disease risk prediction methods. This doctoral work not only strengthened his expertise in biomedical engineering and signal processing but also aligned with his passion for advancing healthcare technologies. To complement his research and academic career, he further specialized in pedagogy by obtaining a postgraduate qualification in teaching and learning. His educational path reflects a seamless integration of engineering, healthcare technology, and academic leadership, preparing him for impactful contributions in academia and industry.

Experience

Dr Denesh A/L Sooriamoorthy has amassed extensive academic and research experience across leading institutions. At Taylor’s University Malaysia, he was instrumental in developing the Mechatronics Engineering programme and played a vital role in robotics curriculum design. He also served as the Work-Based Learning Coordinator for the Robotic Design and Development programme, signing industry collaborations and facilitating practical training opportunities. As an advisor to the Taylor’s Robotics Club, he nurtured student innovation through projects and competitions. His earlier professional experience as a research engineer at Chulia Facilities Management allowed him to bridge industry with research, particularly in cardiovascular modeling and wearable health monitoring. Currently, as a Senior Lecturer at Asia Pacific University, he teaches diverse modules in electronics, robotics, and intelligent systems while leading programme development and accreditation processes. His expertise spans teaching, research, industry collaboration, student mentorship, and professional training, showcasing his commitment to holistic academic and professional excellence.

Awards and Honors

Dr Denesh A/L Sooriamoorthy has been recognized with multiple prestigious awards that highlight his academic excellence, research impact, and teaching innovation. His research on cardiovascular disease risk prediction and robotics applications has received accolades at international conferences and innovation exhibitions, including gold and silver awards at technology expos. He has been honored with best paper awards and has received recognition for his inventive contributions to healthcare and intelligent systems. His outstanding teaching abilities have earned him university-level awards, including recognition for his mentorship and dedication to students. He has also been celebrated for his communication and presentation skills, achieving notable positions in competitions such as the Three Minute Thesis. Beyond academic recognition, he has been commended for his leadership roles, including conference chairing and programme coordination. These honors collectively underscore his ability to excel across research, teaching, innovation, and professional service, strengthening his reputation as an accomplished engineer and educator.

Research Focus

Dr Denesh A/L Sooriamoorthy’s research spans mechatronics, robotics, biomedical engineering, and intelligent systems. His work uniquely bridges healthcare and engineering, particularly through pioneering methods for early prediction of cardiovascular diseases. Using numerical modeling of circulatory systems, coupled with wearable monitoring devices and predictive algorithms, his studies aim to advance preventive healthcare solutions. Beyond biomedical applications, he has contributed significantly to robotics, focusing on sensors, actuators, machine vision, swarm intelligence, and embedded systems. His expertise extends into renewable energy management and electric vehicle battery optimization, integrating artificial intelligence with engineering systems to enhance sustainability. He has led and collaborated on multiple funded projects, ranging from industrial robotics to intelligent autonomous navigation. His interdisciplinary approach combines theory, experimentation, and practical deployment, ensuring his research addresses real-world challenges. By aligning healthcare innovation with robotics and energy technologies, his work continues to influence both academic research and industrial applications globally.

Publication Top Notes

Title: An integrated convolutional neural network with zero-dimensional cardiovascular hemodynamics parameters for early cardiovascular disease detection

Journal: Biomedical Signal Processing and Control 
Summary: This paper introduces a hybrid diagnostic model that integrates convolutional neural networks (CNNs) with zero-dimensional cardiovascular hemodynamics parameters for early cardiovascular disease detection. The combination of deep learning and physiological modeling improves accuracy, interpretability, and clinical relevance, offering a reliable tool for risk assessment and decision support in healthcare.

Title: Optimizing solar maximum power point tracking with adaptive PSO: A comparative analysis of inertia weight and acceleration coefficient strategies

Journal: Results in Engineering 
Summary: This study investigates maximum power point tracking (MPPT) in photovoltaic systems using adaptive particle swarm optimization (PSO). By analyzing different inertia weight and acceleration coefficient strategies, the research demonstrates improved convergence speed, tracking stability, and energy harvesting efficiency. The adaptive PSO approach outperforms traditional methods, making it well-suited for practical solar energy applications.

Conclusion

Ir Ts Dr Denesh A/L Sooriamoorthy exemplifies the integration of engineering expertise, research innovation, and academic leadership. His contributions span mechatronics, robotics, healthcare technologies, and sustainable energy systems, reflecting his commitment to interdisciplinary solutions for global challenges. As an academic, he has nurtured future engineers through curriculum development, teaching, and mentorship, while also building bridges between academia and industry through impactful collaborations. His recognition as a professional engineer and technologist highlights his credibility and standing in the engineering profession. With a proven record of securing research grants, publishing in high-impact journals, and leading innovative projects, he continues to advance knowledge and practical applications in engineering. His long-term vision is to remain at the forefront of research, education, and innovation, contributing to the development of intelligent systems that benefit society. Through his dedication, versatility, and leadership, he stands as a valuable asset to any institution or research initiative he engages with.

Behablom Meharenet | Immunology | Best Researcher Award

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Dr. Behablom Meharenet | Immunology | Best Researcher Award 

Senior Researcher at Animal Health Institute, Ethiopia

Dr. Behablom Meharenet is a distinguished Ethiopian veterinarian and senior researcher at the Animal Health Institute. His expertise spans parasitology, public health, entomology, and immunology, with a special focus on Human and Animal African Trypanosomiasis. He has played a pivotal role in advancing national disease control programs, combining scientific innovation with practical field applications. Known for his problem-solving approach, he has led impactful projects targeting tsetse fly control and livestock disease management. His publications in reputable journals have informed both veterinary and public health strategies, benefiting rural communities dependent on livestock. Dr. Meharenet’s leadership extends beyond research to capacity building, fostering collaboration between scientists, government agencies, and international partners. His dedication to addressing neglected tropical diseases has enhanced Ethiopia’s position in global health research. Through his work, he continues to promote sustainable livestock health solutions that improve livelihoods and contribute to national food security and economic development.

Professional Profile

Scopus

Education

Dr. Behablom Meharenet holds advanced academic qualifications that provide a solid foundation for his research and professional practice. He earned his Doctor of Veterinary Medicine from Hawassa University, where he built expertise in animal health and disease management. To expand his understanding of public health systems and disease prevention, he pursued a Master’s in Public Health at Addis Ababa Medical and Business College. His academic journey also includes specialized training in parasitology, epidemiology, and immunology, equipping him to address complex veterinary and public health challenges. Through research fellowships and professional development programs, he has strengthened his skills in laboratory diagnostics, vector control, and epidemiological survey techniques. His educational achievements have not only enhanced his technical abilities but also fostered a multidisciplinary approach to problem-solving. By integrating veterinary medicine and public health principles, Dr. Meharenet is able to design and implement effective strategies that safeguard both human and animal populations from infectious diseases.

Experience

Dr. Behablom Meharenet has extensive professional experience as a senior researcher, consultant, and project leader in veterinary and public health fields. At the Animal Health Institute, he has overseen national strategies for controlling Human and Animal African Trypanosomiasis, integrating vector control, field epidemiology, and community engagement. His role includes designing and executing experimental trials, such as optimizing sterile insect technique applications for tsetse control. He has led numerous epidemiological studies assessing disease prevalence, vector distribution, and associated risk factors across Ethiopia. Beyond technical research, he has managed multi-stakeholder collaborations with international organizations, ensuring research outcomes translate into practical policy recommendations. His work has improved livestock health, increased rural productivity, and strengthened national capacity to respond to disease threats. Through editorial and peer-review contributions to scientific journals, he has influenced research quality standards. His combined leadership, technical expertise, and field experience make him a recognized authority in vector-borne livestock disease control.

Research Focus

Dr. Behablom Meharenet’s research centers on the epidemiology, prevention, and control of vector-borne diseases, particularly trypanosomosis affecting both humans and animals. His studies investigate disease prevalence, vector biology, and environmental factors influencing transmission. By integrating laboratory diagnostics, field surveys, and intervention trials, he develops strategies for sustainable disease control. His work on tsetse fly population management, including the application of sterile insect techniques, has contributed to innovative approaches in vector suppression. He also explores co-infections such as fascioliasis, providing a broader understanding of disease interactions in livestock. His research addresses the socio-economic impacts of animal diseases, emphasizing the importance of disease-free livestock for rural livelihoods. Collaborations with international agencies strengthen the application of his findings in real-world settings. His multidisciplinary approach combines veterinary medicine, entomology, and public health principles, ensuring that his research outcomes are relevant, scalable, and effective in improving animal health and community well-being.

Publication Top Notes

Title: Implemented strategic trypanosomosis and vector control activities along the Birbir River Basin through the application of deltamethrin-based insecticides using stationary attractive devices (targets), ground spraying, and live bait techniques

Summary:
A baseline and intervention study was conducted from September 2016 to February 2018 measuring entomological and parasitological indicators. After implementing vector control using deltamethrin-treated stationary targets, ground spraying, and live bait techniques, the apparent fly density dropped from 2.61 to 1.68 flies/trap/day (−64.37%). The prevalence of bovine trypanosomosis declined from 7.91% to 4.81% (−60.81%), accompanied by improved mean packed cell volume (PCV) in infected cattle (from 21.87 ± 4.57 to 22.53 ± 4.48 and from 25.41 ± 4.27 to 25.68 ± 4.04). These results demonstrate effective suppression of both vector population and parasite prevalence through the implemented strategies

Conclusion

Dr. Behablom Meharenet exemplifies the blend of academic excellence, field expertise, and practical innovation required to address complex veterinary and public health challenges. His career demonstrates a commitment to both scientific advancement and societal benefit. By tackling neglected tropical diseases such as trypanosomosis, he contributes directly to improving food security, rural livelihoods, and national economic stability. His leadership in multi-disciplinary teams ensures that research findings are translated into actionable strategies adopted by policymakers and implemented in communities. Through partnerships with local and international stakeholders, he fosters sustainable solutions to persistent animal health problems. His editorial and peer-review roles reflect his dedication to maintaining high research standards in the scientific community. Driven by a vision of healthier livestock and resilient communities, Dr. Meharenet continues to advance research that bridges the gap between science and practice, making him a strong candidate for the Best Researcher Award.