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Hemanth Vamanshankar, Medicine, Innovative Researcher Award

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Doctorate Hemanth Vamanshankar: Specialist ENT Surgeon atAl Hilal Multispeciality Hospital, Bahrain

Dr. Hemanth Vamanshankar is an accomplished otolaryngologist with over 15 years of experience in clinical practice and surgical management of ENT disorders. His expertise lies in rhinology, skull base surgery, and micro ear surgeries. Dr. Hemanth has worked extensively in tertiary care hospitals across India and Bahrain and has a strong academic background supported by international qualifications from the Royal College of Surgeons, Edinburgh. He is passionate about integrating clinical practice with research to enhance patient outcomes and is committed to teaching and mentoring the next generation of ENT specialists.

Online Profiles

ORCID Profile

Dr. Hemanth maintains an active professional presence on several platforms, including LinkedIn and ResearchGate, where he disseminates his research findings and engages with peers globally. His online profiles highlight his contributions to ENT surgery, publications, and collaborations. Additionally, he is an author of a specialized textbook on CSF Rhinorrhoea management, which is referenced internationally and available through major academic publishers, reflecting his leadership in endoscopic skull base surgery.

Education

Dr. Hemanth earned his MNAMS in Otolaryngology in 2016 and completed his DNB-ENT postgraduate training at Southern Railway HQ Hospital, Chennai, in 2014. He holds prestigious diplomas MRCS-ENT and DOHNS from the Royal College of Surgeons, Edinburgh (2011), along with a DLO from St. John’s Medical College, Bangalore. His foundational medical degree (MBBS) was completed at K.S. Hegde Medical Academy, Mangalore, in 2008. Complementing his formal medical education, he has completed certified courses in Advanced Cardiac Life Support, Yoga Instruction, and Medicine and Law, underscoring his commitment to continuous professional development.

Research Focus

Dr. Hemanth’s research interests focus on clinical and surgical otolaryngology, including sinonasal diseases, allergic rhinitis, personality traits related to ENT disorders, and safety protocols such as needle stick injury prevention in healthcare settings. His research combines retrospective and prospective observational studies to develop improved clinical guidelines. He is particularly invested in understanding anatomical variations of the paranasal sinuses and advancing minimally invasive endoscopic techniques for better patient outcomes.

Experience

With extensive clinical experience spanning over a decade, Dr. Hemanth has held key roles such as Senior Resident at JIPMER, a premier government teaching hospital, and Divisional Medical Officer for ENT at South-Western Railway Hospital, Bangalore. Currently, he serves as a Specialist ENT Surgeon at Al Hilal Multispecialty Hospital, Bahrain. His clinical expertise includes complex head and neck surgeries, emergency airway management, facial trauma reconstruction, and advanced endoscopic nasal surgeries, including Functional Endoscopic Sinus Surgery (FESS) and CSF rhinorrhoea repair.

Research Timeline

Dr. Hemanth’s research career began in 2009 as a research assistant focusing on speech and videolaryngoscopy at St. John’s Medical College. Over the years, he advanced to principal investigator roles for studies on needle stick injuries and personality traits in allergic rhinitis patients, contributing to national conferences and peer-reviewed journals. His research has consistently addressed clinically relevant ENT challenges, with published case reports, observational studies, and review articles that have informed both academic and practical aspects of ENT medicine.

Awards & Honors

Throughout his career, Dr. Hemanth has been recognized for both academic and extracurricular excellence. He secured 2nd place for his paper on “Isolated Sphenoid Sinus Disease” at SINOCON 2010, a prestigious national conference on sinonasal disorders. He received the Best Hostellite Award from K.S. Hegde Medical Academy in 2008. Additionally, his artistic talents in painting and sketching have earned him multiple awards, reflecting a well-rounded personality. His participation in personality development workshops and professional certifications also highlight his dedication to personal and professional growth.

Top-Noted Publication

Among his many publications, the study titled “Does Allergic Rhinitis confer to a particular personality trait?” published in The Journal of Laryngology & Otology (2013), stands out for its innovative approach combining otolaryngology with psychological evaluation. This study reviewed 50 cases and explored the behavioral dimensions of allergic rhinitis, providing insights that bridge clinical treatment with patient-centered care. The paper is widely cited and demonstrates Dr. Hemanth’s ability to conduct interdisciplinary research with practical clinical implications.

  • The Effectiveness of Sphenopalatine Ganglion Block and its Assessment To the Quality of Life in Patients of Chronic Migraine
    Indian Journal of Otolaryngology and Head & Neck Surgery, 2025
    DOI: 10.1007/s12070-025-05874-x
    Contributors: Hemanth Vamanshankar, Zahra Jaafar Abdulla Ahmed Rashed, Hasan Abdulhadi Isa Ali Saeed

  • CSF Rhinorrhea (Book)
    CRC Press, 2020
    DOI: 10.1201/9780429019814
    Contributors: Jyotirmay S. Hegde, Hemanth Vamanshankar

  • Endoscopic Tragal Cartilage Graft for Tympanoplasty: A Case Series
    Japan Journal of Otolaryngology, 2020
    Contributors: Hemanth Vamanshankar, Ramakanth Mokshagundam

  • Repurcussions of Concurrent Chemoradiotherapy for Head and Neck Cancers
    Annals of International Medical and Dental Research, 2019
    Contributors: Hemanth Vamanshankar, Satish Kumar C, Prakash M, Musarrat F, Preetham A. P

  • Radiological Study of the Myriad Variations in Frontal Sinus Anatomy: An Institutional Study
    International Journal of Otorhinolaryngology and Head and Neck Surgery, 2019
    DOI: 10.18203/issn.2454-5929.ijohns20190762
    Contributors: Sreenivas Vepamininti, Soumya M. Seetharam, Jomy George, Hemanth Vamanshankar, Poonam K. Saidha

Strengths for the Innovative Researcher Award

  1. Interdisciplinary Research Approach
    Dr. Hemanth’s work uniquely integrates clinical otolaryngology with psychological and behavioral sciences, as demonstrated by his study on allergic rhinitis and personality traits. This innovative blending of disciplines promotes holistic patient care and opens new avenues for treatment strategies.

  2. Commitment to Translational Research
    His research is not just theoretical but focuses on improving real-world clinical outcomes. Studies such as the assessment of sphenopalatine ganglion block for chronic migraine show a clear dedication to translating scientific findings into practical interventions that enhance patient quality of life.

  3. Strong Clinical and Academic Synergy
    Balancing over 15 years of surgical and clinical experience with active research roles and teaching, Dr. Hemanth exemplifies a productive synergy between hands-on medical practice and academic inquiry, vital for innovative advancements in medicine.

  4. Track Record of Peer-Reviewed Publications and Collaborations
    With multiple publications in reputable journals and a co-authored specialized textbook, Dr. Hemanth has contributed original insights to ENT surgery and skull base disorders. His international collaborations reflect a global impact and recognition of his research.

  5. Focus on Minimally Invasive Techniques and Patient Safety
    His research emphasis on endoscopic approaches and safety protocols such as needle stick injury prevention highlights innovation in surgical methods and healthcare worker safety, aligning with current healthcare priorities and technological advancement.

Eligibility for the Innovative Researcher Award

  • Academic Qualifications & Professional Standing:
    Dr. Hemanth holds advanced qualifications (MNAMS, DNB, MRCS-ENT, DOHNS) from recognized institutions, supporting his eligibility as a senior clinician-researcher.

  • Research Experience:
    Over 15 years of continuous research involvement since 2009, including leading principal investigator roles and publishing multiple impactful papers.

  • Innovative Contributions:
    Demonstrated innovation through interdisciplinary studies, advancement of minimally invasive techniques, and publication of a specialized textbook on CSF Rhinorrhoea.

  • Impact on Clinical Practice:
    His research has directly influenced clinical guidelines and patient care protocols in otolaryngology.

  • International Exposure:
    Work in India and Bahrain and collaborations with global peers enhance the relevance and reach of his research.

Soumyajit Das, Engineering, Young Researcher Award

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Asst. Prof Soumyajit Das: Assistant Professor at Techno India University, Kolkata, India

Soumyajit Das is a multidisciplinary engineer specializing in Industrial and Mechanical Engineering with a passion for ergonomics, smart manufacturing, and advanced digital technologies like augmented reality and Industry 4.0. He holds a postgraduate degree from Maulana Abul Kalam Azad University of Technology and has combined his academic rigor with hands-on research and teaching experience. Soumyajit’s work bridges human factors engineering and emerging technology to create safer, more efficient, and sustainable industrial solutions.

Online Profiles

Google Scholar Profile

Soumyajit actively maintains professional and academic profiles on platforms such as Google Scholar, ResearchGate, and LinkedIn, where he showcases his published research, patents, and conference presentations. These platforms serve as a hub for collaboration and knowledge dissemination, connecting him with a global community of researchers and industry professionals focused on ergonomics, manufacturing innovations, and digital transformation.

Since 2020, Soumyajit Das has accumulated a total of 72 citations, reflecting the impact and recognition of his research within the academic community. His work has contributed to an h-index of 4, indicating that at least four of his publications have each been cited four or more times. Additionally, he has an i10-index of 1, with at least one publication receiving ten or more citations, highlighting his growing influence in the fields of industrial engineering and applied research.

Education

He completed his Master’s in Industrial Engineering and Management at MAKAUT in 2021 with a distinguished DGPA of 9.71, demonstrating academic excellence in both theoretical and applied domains. His Bachelor of Technology in Mechanical Engineering, also from MAKAUT (formerly WBUT), was completed in 2017 with a DGPA of 7.72. Prior academic achievements include strong performances in Higher Secondary and Secondary examinations from Howrah Zilla School, reflecting a solid foundation in science and mathematics.

Research Focus

Soumyajit’s research primarily focuses on ergonomic assessment and cognitive workload analysis of industrial and transport workers to improve workplace safety and productivity. He applies advanced analytical methods including Fault Tree Analysis, Work Ergonomic Risk Assessment (WERA), and Lean Six Sigma techniques. Additionally, he explores augmented reality applications in marketing and education, and the development of functionally graded materials with an emphasis on thermal and mechanical performance.

Experience

Currently a Junior Research Fellow at NIT Jamshedpur, Soumyajit has contributed significantly to government-sponsored projects involving thermal shock analysis and smart tribal eco-platforms at IIT Kanpur. His previous roles include assistant professorship at Techno India University and lecturer positions, where he taught mechanical engineering fundamentals. His industrial background spans machine operation, maintenance engineering, and hands-on training at Visakhapatnam Steel Plant and the Electric Locomotive Assembly Factory, providing him with practical insights into manufacturing processes.

Research Timeline

Starting with his undergraduate thesis on tool-workpiece interactions during machining operations in 2016-17, Soumyajit has evolved his research portfolio to include comprehensive studies on musculoskeletal disorders among e-rickshaw and bus drivers between 2019 and 2021. From 2021 onwards, he engaged in advanced material analysis and smart eco-platform development through prestigious research fellowships, culminating in multiple publications and patents that reflect his progressive growth as a researcher.

Awards & Honors

Soumyajit has been recognized for his academic and research excellence with awards such as the Best Paper Award at the 2021 International Conference on Industrial Engineering and first place in oral presentations at the 2020 National Science Day organized by MAKAUT. He has also earned accolades in inter-school academic contests and received multiple certifications including Lean Six Sigma Green Belt and Industrial Safety training, underscoring his commitment to professional development.

Top-Noted Publication

His influential 2024 publication, “Recent developments in modeling and analysis of rotating functionally graded panels: A review,” featured in Materials Today: Proceedings, provides a comprehensive overview of advances in functionally graded materials. This work is widely cited for its in-depth analysis of material behavior under thermal and mechanical stress, and its relevance to aerospace and manufacturing industries aiming to enhance component reliability and performance.

  • Narayan, P., & Das, S. (2025). Socio-Cultural Variations in Consumer Preferences on Sexual Wellness Products in Urban and Rural Communities: A Comprehensive Analysis. Danadyaksa: Post Modern Economy Journal, 2(1), 58-77. [Citations: 1]
    An insightful study examining how cultural and social factors influence consumer behavior regarding sexual wellness products across diverse communities.

  • Das, S. (2024). Design for the Body: How Ergonomics Transforms Modern Clothing into Comfortable, Functional, and Stylish Garments. Ergonomics International Journal (EOIJ), 8(4), 1-8. [Citations: 1]
    This publication explores the role of ergonomic principles in revolutionizing modern apparel design to enhance comfort and functionality.

  • Das, S. (2023). An Article on Food Supply Chain: Find Risk of System Disruptions through Blockchain Technology. [Citations: 1]
    A research article investigating the application of blockchain technology to identify and mitigate risks in food supply chains.

  • Das, S. (2023). An Article On: Augmented Reality Contrast to Ergonomic Design. Human-Computer Interaction eJournal, 6(7). [Citations: 1]
    This paper discusses how augmented reality interfaces can be contrasted with traditional ergonomic design methodologies in human-computer interaction.

  • Das, S., Mallick, B., & Danda, S. (2021). Application of the Workplace Ergonomic Risk Assessment (WERA) Methodology on E-rickshaw Drivers. Available at SSRN 3965806. [Citations: 1]
    A significant study applying the WERA methodology to evaluate ergonomic risks faced by e-rickshaw drivers, highlighting implications for occupational health and safety.

Akshay Kumar Yogi, Agriculture, Climate Action Award

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Doctorate Akshay Kumar Yogi: Associate Scientist at International Crops Research Institute for the Semi-Arid Tropics – India

Dr. Akshay Kumar Yogi is an Associate Scientist in Agronomy at the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), India, where he leads pioneering work in sustainable agriculture and climate-resilient millet-based systems. With a deep-rooted commitment to addressing challenges in dryland agriculture, Dr. Yogi integrates advanced agronomic practices with grassroots innovations to empower smallholder farmers. His expertise spans conservation agriculture, nutrient-use efficiency, water-smart techniques, and cropping system intensification. Through large-scale field research and farmer-participatory trials, he is developing scalable models for climate adaptation and food security, especially in ecologically fragile and resource-poor regions.

Online Profiles

Google Scholar Profile

As of 2025, Dr. Akshay Kumar Yogi has accumulated 54 citations, with an h-index of 3 and an i10-index of 2, reflecting the growing recognition and impact of his research in sustainable agriculture, conservation agronomy, and climate-resilient cropping systems since 2020. His work continues to gain traction within the academic and applied agronomy communities.

Education

Dr. Yogi holds a Ph.D. in Agronomy from ICAR-IARI, New Delhi (2019–2023), where he focused on developing sustainable intensification options for conservation agriculture-based pearl millet–mustard systems. His M.Sc. in Agronomy, also from ICAR-IARI (2017–2019), involved work on zinc biofortification in upland rice in North-East India. He completed his B.Sc. (Hons.) Agriculture from SKNAU, Jobner, Rajasthan (2013–2017). His academic background laid a strong foundation in field experimentation, nutrient management, and agro-ecological adaptation strategies for resilient food systems.

Research Focus

Dr. Yogi’s research is centered around the integration of conservation agriculture principles with climate-smart practices to improve the sustainability and resilience of dryland cropping systems. His work emphasizes millet-based innovations, regenerative farming, site-specific nutrient management, and resource-use efficiency. He also works on biofortification and soil health improvement through residue management, precision inputs, and crop diversification strategies. His goal is to develop scalable, context-specific farming models that not only enhance productivity but also address long-term ecological and socio-economic sustainability.

Experience

Currently serving as an Associate Scientist at ICRISAT since 2024, Dr. Yogi leads multidisciplinary programs across Eastern India with a focus on millet-centered agro-innovation platforms. Previously, from 2019 to 2023, he worked as a Senior Research Fellow at ICAR-IARI on national and international collaborative projects in conservation agriculture and sustainable intensification. He has hands-on experience in designing and managing long-term field trials, farmer participatory research (OFTs), data analytics (R Studio), scientific communication, and capacity-building programs. His work connects scientific innovation with extension outreach, making real impact at the grassroots.

Research Timeline

From 2017 to 2019, Dr. Yogi worked on zinc biofortification in upland rice during his master’s research, addressing hidden hunger through agronomic interventions. His Ph.D. (2019–2023) focused on system-level intensification strategies under conservation agriculture for pearl millet–mustard systems. During this period, he led field trials exploring tillage, residue retention, and crop productivity. From 2023 onward, at ICRISAT, he has been actively implementing millet-based interventions in Bihar, integrating water-smart and regenerative practices to combat climate variability and soil degradation, with a vision to create scalable impact across rainfed regions.

Awards & Honors

Dr. Yogi has been the recipient of several prestigious fellowships and recognitions for his academic and research excellence. These include the ICAR National Talent Scholarship (PG) in 2017, IARI Junior Fellowship (2017), and IARI Senior Fellowship (2019). He qualified the ASRB-NET in Agronomy in 2022 and secured the UGC-JRF in Environmental Science the same year. He also represented IARI in multiple National Agri Sports Meets and cultural fests, and delivered national-level radio talks on millets, further highlighting his contributions to both science and outreach.

Top-Noted Publication

One of Dr. Yogi’s most cited and impactful publications is: Yogi A.K. et al. (2023), “Elucidating the interactive impact of tillage, residue retention, and system intensification on pearl millet yield stability and biofortification under rainfed agro-ecosystems,” published in Frontiers in Nutrition. This study provides critical insights into how conservation agriculture-based practices can simultaneously improve yield stability, micronutrient content, and sustainability in dryland farming systems. DOI: 10.3389/fnut.2023.1205926

  • Dawar R., Nirmal R.C., Yogi A.K., Kakraliya M., Vishwakarma H., Bana R.S. (2025). Agro-Techniques for the Cultivation of Sesame. In: Sesame: Sustainable Production and Applications, pp. 57–80.
    A comprehensive chapter outlining improved agro-techniques for sesame cultivation, including water, nutrient, and pest management practices for climate-resilient production.

  • Yogi A.K. (2023). Developing intensification options to enhance productivity and resource use efficiency of conservation agriculture-based pearl millet–mustard cropping system. Ph.D. Thesis, Division of Agronomy, ICAR-IARI, New Delhi.
    This doctoral research explored integrated tillage, residue, and nutrient strategies to sustainably intensify dryland cereal-legume systems under conservation agriculture.

  • Meena D.K., Kumar A., Bhatnagar A., Yogi A.K., Dawar R., Singh T. (2023). Development, productivity and profitability of two cultivars of soybean (Glycine max L.) under the effect of foliar spray of thiourea. Annals of Agricultural Research, 44(2): 204–209.
    Evaluated the role of thiourea foliar spray in enhancing productivity and economic returns in soybean under rainfed conditions.

  • Yogi A.K., Bana R.S., Bamboriya S.D. (2023). Effect of zinc management practices on growth, yield and biofortification of upland rice genotypes under Eastern Himalayas ecologies. Annals of Agricultural Research, 43(4): 391–395.
    Studied the interactive effects of zinc fertilization strategies on rice performance and nutritional quality in fragile hill ecosystems.

Strength for the Climate Action Award

1. Innovation in Climate-Smart Agriculture

Dr. Yogi has pioneered a millet-centered innovation model that integrates conservation agriculture, regenerative farming, precision nutrient application, and water-smart practices. His scientifically grounded approach directly addresses the climate crisis by promoting low-carbon, high-efficiency farming tailored to semi-arid and rainfed ecosystems.

2. Scalable Impact on Smallholder Farmers

Through large-scale field trials and on-farm demonstrations in Bihar and Eastern India, Dr. Yogi’s interventions have reached over 500,000 smallholder farmers. His models are context-specific yet replicable, enabling widespread adoption of climate-resilient practices in ecologically vulnerable regions.

3. Strengthening Soil Health and Resource Efficiency

His research emphasizes residue recycling, zinc biofortification, and reduced tillage—strategies that enhance soil organic carbon, improve nutrient use efficiency, and reduce emissions from farming activities. These practices contribute to long-term ecological sustainability and climate mitigation.

4. Science-Policy-Farmer Integration

Dr. Yogi bridges the gap between research and field application by collaborating with institutions, policymakers, and local farming communities. His communication skills and scientific outreach—through publications, workshops, and national radio programs—foster greater awareness and faster dissemination of climate-smart practices.

5. Alignment with Global and National Climate Goals

His work directly contributes to SDG 13 (Climate Action), SDG 2 (Zero Hunger), and India’s National Mission on Sustainable Agriculture (NMSA). By promoting millet adoption and climate-resilient cropping systems, Dr. Yogi supports both nutritional security and ecological restoration.

Eligibility for the Climate Action Award

Dr. Akshay Kumar Yogi is highly eligible for the Climate Action Award due to his leadership in designing and implementing scalable, science-backed solutions for climate adaptation in agriculture. His integrated models address soil degradation, climate vulnerability, and food insecurity in some of India’s most stressed regions. With a strong research foundation (Ph.D. in Agronomy), international institutional backing (ICRISAT), field-level success, and policy-aligned impact, Dr. Yogi exemplifies the criteria required for recognition in climate innovation, community transformation, and sustainable agricultural development.

Musa Esit, Environmental Science, Best Researcher Award

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Assoc. Prof Musa Esit: Researcher at Adiyaman University, Turkey

Musa Eşit is a highly accomplished Turkish civil engineer with a deep specialization in hydraulic engineering, hydrology, and climate change impacts on water resources. Holding a PhD from Gaziantep University, Musa has built a career focused on understanding and managing hydrological droughts. His research is driven by the application of advanced statistical techniques, such as copula functions, to analyze drought severity, duration, and frequency in Turkish river basins. His academic journey has included substantial international exposure as a visiting scientist at Auburn University in the USA, where he collaborated on soil moisture drought forecasting and climate-hydrological modeling. A passionate researcher and educator, Musa aims to contribute to sustainable water management strategies for regions prone to extreme climate conditions.

Online Profiles

Google Scholar Profile

Musa Eşit maintains an active presence on several academic and professional platforms. His publications are available on ResearchGate, where his work on drought analysis and hydrological modeling has been widely cited. His Google Scholar profile further reflects his contributions to the field, showcasing an impressive list of peer-reviewed articles. Musa is also active on LinkedIn, where he connects with fellow academics, researchers, and professionals in the civil engineering and water resources sectors. His online presence serves as a bridge for collaboration on ongoing and future research projects, fostering discussions in his areas of expertise.

Musa Eşit’s research has had a significant impact on the scientific community, as reflected in his citation metrics. As of now, his work has accumulated 551 total citations, with 520 citations coming since 2020, showing the recent relevance and growing influence of his research. His h-index stands at 13, with 12 in the last few years, demonstrating that his research has been consistently cited and widely recognized. Furthermore, Musa has an i10-index of 15, with 14 articles cited at least 10 times, which highlights his continued contribution to the field and his growing presence in the academic literature. These metrics underscore the importance of his work in the domain of hydrology, climate change, and water resources management.

Education

Musa Eşit’s educational background is rooted in civil engineering, with a strong focus on hydraulic engineering and hydrology. He completed his undergraduate studies in Civil Engineering at Gaziantep University, graduating in 2012. Building on this foundation, he pursued a master’s degree at the same institution, where he delved into the hydraulic geometry of the Seyhan River. His doctoral work, completed in 2021, was dedicated to the application of copula functions for bivariate drought frequency analysis in the Ceyhan Basin. The depth of his academic training enables him to blend practical engineering knowledge with advanced research methodologies, making him a leading expert in his field.

Research Focus

Musa’s research focuses on the intersection of hydrology, climate change, and water resources management. A significant portion of his work examines the spatiotemporal variability of drought events in Turkish river basins, using both traditional and innovative statistical techniques. By applying copula-based models, Musa investigates the relationships between different hydrological variables to better understand drought risk. His research also explores the use of machine learning and artificial intelligence to predict meteorological and hydrological variables, aiming to improve drought early warning systems and management strategies. Additionally, he studies the influence of climatic extremes on river basin dynamics, with a focus on the implications for sustainable water resource planning.

Experience

Musa Eşit has extensive research and teaching experience in the field of hydraulic engineering. His tenure at Adıyaman University, where he has been working since 2013, has seen him involved in various high-impact research projects on water resources and climate change. During his time as a visiting scientist at Auburn University (2019-2020), Musa collaborated with global experts to develop cutting-edge drought forecasting methods. Earlier in his career, he worked on projects related to hydraulic geometry and the low-flow analysis of the Seyhan and Ceyhan rivers. His work spans a broad spectrum of applications, including environmental flow assessments, water quality monitoring, and the use of GIS and remote sensing technologies for hydrological analysis. Musa’s multidisciplinary expertise allows him to address both the technical and environmental challenges associated with hydrological extremes.

Research Timeline

Musa Eşit’s research trajectory began with his master’s thesis on the hydraulic geometry of the Seyhan River, a foundational project that set the stage for his future work. In 2015, he started his PhD, where his focus shifted to analyzing drought events in the Ceyhan Basin, using advanced statistical tools such as copula-based models. By 2020, Musa was working on ongoing projects like drought risk maps for the Middle Euphrates, Kızılırmak, and Yeşilırmak Basins, integrating hydrological data with copula models to predict future drought scenarios. His later work includes investigating drought trends using deep learning and AI, pushing the boundaries of traditional hydrology. As of 2023, Musa continues to explore the impacts of climate change on hydrological systems, contributing significantly to both national and international research efforts.

Awards & Honors

Musa Eşit’s dedication to advancing hydrological science has earned him recognition at both national and international levels. Notably, his work during his time as a visiting scientist at Auburn University garnered significant praise for its methodological innovation in drought prediction. His contributions to international conferences and symposia, particularly on topics related to water resource management and climate change, have established him as a leading researcher in the field. His research outputs have not only been influential in the academic world but have also had practical implications for water management policies in regions susceptible to drought. Musa’s work continues to inspire young researchers and practitioners in the field of civil engineering and hydrology.

Top-Noted Publication

Musa Eşit’s publication record includes several high-impact articles, but perhaps his most influential work is the 2021 paper “Seasonal to Multi-Year Soil Moisture Drought Forecasting,” published in npj Climate and Atmospheric Science, co-authored with Sanjiv Kumar. This paper has significantly advanced the understanding of multi-year drought forecasting by incorporating both seasonal variability and long-term soil moisture trends. The publication has been widely cited in climate science and hydrology, highlighting its impact on the field of drought prediction. Other notable works include his deep learning-based approaches to meteorological drought estimation, and his copula-based bivariate drought frequency analysis, both of which have received attention for their novel applications in hydrology and water resources engineering.

  • Seasonal and Annual Precipitation Characteristics of Türkiye and the Influence of Atmospheric-Ocean Interactions
    M. Esit, M.I. Yuce, I. Yasa, I.H. Deger
    Stochastic Environmental Research and Risk Assessment, 1-18, 2025
    This paper investigates the seasonal and annual precipitation patterns across Türkiye and explores how atmospheric and oceanic interactions influence these precipitation characteristics. The study emphasizes the complex relationship between climatic patterns and hydrological impacts in the region.

  • Climate Change Impacts on Hydrological and Meteorological Variables in Diyarbakır Province: Trend Analysis and Machine Learning-Based Drought Forecasting
    E. Akbas, R. Çelik, M. Esit, I.H. Deger
    Theoretical and Applied Climatology, 156 (6), 295, 2025
    This research analyzes the impacts of climate change on hydrological and meteorological variables in Diyarbakır, using trend analysis and machine learning techniques to forecast drought conditions. The paper underscores the role of advanced modeling in understanding regional climate dynamics and improving drought preparedness.

  • Spatio-Temporal Variability of Hydrological Drought and Trends: Implementation of Classical and Innovative Approaches
    I.H. Deger, M.I. Yuce, M. Esit
    Water Resources Management, 1-32, 2025
    This paper focuses on the spatio-temporal variability of hydrological droughts and trends across Türkiye. It contrasts classical approaches with innovative methods in drought trend analysis, contributing new insights into the temporal dynamics of hydrological drought events.

  • Enhancing Sub-Seasonal Soil Moisture Forecasts Through Land Initialization
    Y. Duan, S. Kumar, M. Maruf, T.M. Kavoo, I. Rangwala, J.H. Richter, et al.
    npj Climate and Atmospheric Science, 8 (1), 100, 2025
    In collaboration with other experts, Musa contributes to improving soil moisture forecasting techniques. This study explores how land initialization techniques can enhance sub-seasonal forecasts, with significant implications for drought and water resource management.

  • Better with Fewer Features: Climate Dynamics Estimation for Van Lake Basin Using Feature Selection
    Ö. Çoban, M. Esit, S. Yalçın, F. Bozkurt
    Environmental Science and Pollution Research, 32 (10), 5849-5873, 2025
    This paper focuses on climate dynamics in the Van Lake Basin, utilizing feature selection methods to enhance the accuracy of climate dynamics estimation models. The work highlights the importance of reducing complexity in predictive models without compromising their performance.

Saurabh Pandey, Agriculture, Best Researcher Award

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Asst. Prof Saurabh Pandey: Assistant Professor at Indira Gandhi Agricultural University (IGKV) Raipur, India

Saurabh Pandey is an Assistant Professor in the Department of Molecular Biology and Biotechnology at IGKV, Raipur, India, with a keen focus on plant stress biology, crop improvement, and molecular plant-pathogen interactions. He completed his PhD from the National Institute of Plant Genome Research (NIPGR), New Delhi, with his research centered on heat stress tolerance in plants and developing genetic tools for stress resilience. Throughout his academic journey, he has built expertise in genomic approaches, particularly in studying heat stress mechanisms, and applied these to improve crop resilience to environmental challenges. Dr. Pandey has been an active researcher in plant molecular biology and has contributed extensively to understanding plant responses to both biotic and abiotic stress factors. His research aims to create sustainable, climate-resilient crops that can thrive under extreme environmental conditions.

Online Profiles

Scopus Profile

LinkedIn: Saurabh Pandey – LinkedIn
Dr. Pandey’s LinkedIn profile serves as a networking platform for fellow researchers, students, and professionals in the field of molecular biology and biotechnology. It provides a glimpse into his academic journey, research projects, professional engagements, and collaborations. His active presence on LinkedIn allows for fruitful discussions and exchanges with experts in the molecular plant sciences and allied sectors.

Dr. Saurabh Pandey has made notable contributions to the fields of molecular biology, plant biotechnology, and stress physiology, with a particular emphasis on improving crop resilience under biotic and abiotic stresses. His research has been extensively cited, with 949 citations spread across 883 documents. As an active researcher, he has contributed to 57 scientific publications, and his h-index stands at 15, reflecting the impact and quality of his work in the academic community.

Education

Dr. Pandey’s educational background is deeply rooted in plant molecular biology. After completing his undergraduate and postgraduate degrees in Biotechnology, he pursued a PhD in Plant Stress Biology at NIPGR, New Delhi. His doctoral research was centered around identifying molecular markers for heat stress tolerance in crops. During his postdoctoral training at NIPGR, he investigated host-pathogen interactions, focusing on viral diseases in plants and their molecular control. His work has provided valuable insights into the functional genomics of stress responses, particularly related to viral resistance and heat tolerance mechanisms in food crops.

Research Focus

Dr. Pandey’s primary research focus lies in enhancing plant resilience against biotic and abiotic stress factors, with an emphasis on understanding how molecular pathways can be engineered to boost crop productivity under challenging environmental conditions. His current research explores the molecular mechanisms underlying heat stress tolerance, with a particular interest in how crops can adapt to rising global temperatures. Additionally, his work on plant-virus interactions aims to develop genetic strategies for controlling plant viral diseases, particularly in tropical crops like banana. Dr. Pandey also investigates the potential of molecular markers and gene editing tools to enhance crop breeding strategies, with an aim to improve food security through more resilient crops.

Experience

Dr. Pandey has gained considerable experience in both academic and research environments. His tenure as a Project Scientist-I at NIPGR allowed him to delve deep into plant-virus interactions, where he worked on improving viral resistance in important crop species. His academic career includes positions as an Assistant Professor at Guru Nanak Dev University, Amritsar, and IGKV, Raipur, where he teaches courses on plant biotechnology, molecular biology, and genetic engineering. In addition to his teaching, Dr. Pandey actively mentors graduate students and leads several research projects focused on plant stress biology and molecular crop improvement.

Research Timeline

  • 2016-2020: PhD in Plant Stress Biology, NIPGR, New Delhi – Focused on heat stress tolerance and molecular mechanisms in plants.

  • 2020–2021: Project Scientist-I, NIPGR, New Delhi – Investigated molecular aspects of plant-virus interactions.

  • 2021–2024: Assistant Professor, Guru Nanak Dev University, Amritsar – Contributed to teaching, research, and student mentorship.

  • 2024–Present: Assistant Professor, IGKV, Raipur – Focus on plant resilience, stress biology, and molecular interventions for crop improvement.

This timeline marks Dr. Pandey’s academic growth and his continuous efforts to bridge the gap between plant molecular research and practical applications in crop improvement.

Awards & Honors

Dr. Pandey’s scientific achievements have been recognized through various awards, including the prestigious SERB Start-up Research Grant, awarded for his work on developing molecular strategies for viral resistance in banana. He has also received recognition for his contributions to climate-resilient agriculture and plant biotechnology, including Best Paper Awards in national and international conferences. In 2022, Dr. Pandey was invited to present his research at the International Conference on Plant Stress Tolerance and Crop Biotechnology. His dedication to innovation in plant molecular biology has earned him accolades both within India and internationally.

Top-Noted Publication

Dr. Pandey has contributed to several impactful publications that have significantly advanced the understanding of plant stress mechanisms and crop improvement. Notable publications include:

  1. “Interaction between Pathogenesis‐Related (PR) Proteins and Phytohormone Signaling Pathways in Conferring Disease Tolerance in Plants”, Physiologia Plantarum, 2025 – Explores how plant defense mechanisms, mediated by PR proteins, contribute to stress tolerance in plants.

  2. “Salicylic Acid: A Key Player in the Regulation of Interactions Between Heat Stress and Plant Defense”, Journal of Plant Growth Regulation, 2024 – Highlights the role of salicylic acid in mitigating the impacts of heat stress and enhancing disease resistance in crops.

  3. “Genome-Wide Comparative Analysis of Photosynthetic Enzymatic Genes Provides Novel Insights into Foxtail Millet and Other Cereals”, Frontiers in Genetics, 2024 – Offers a genome-wide perspective on photosynthetic enzymes, focusing on their role in crop adaptation to environmental stress.

Olanireti Oni, Environmental Science, Best Researcher Award

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Doctorate Olanireti Oni: PhD. Graduate at Cyprus International University, Turkey

Dr. Olanireti Olasehinde Oni is an Environmental Scientist with a Ph.D. from Cyprus International University, where he specializes in applying Artificial Intelligence (AI) to environmental research. His expertise spans a range of fields, from predictive modeling and environmental informatics to pollution monitoring and ecosystem assessment. With an interdisciplinary approach, Dr. Oni integrates machine learning techniques into environmental data analysis, particularly for time-series and numerical datasets. Over the years, he has developed a passion for using computational methods to solve pressing environmental challenges, and is committed to advancing the field by contributing to projects that bridge environmental science and emerging technologies. He is currently seeking research-focused roles in institutes that emphasize computational solutions for environmental sustainability.

Online Profiles

Google Scholar Profile

Dr. Oni maintains an active presence in the academic and professional community. He is a peer reviewer for multiple high-impact journals including AI, Life, Data, Sensors, and Applied System Innovation, all published by MDPI. Through these platforms, he contributes to the advancement of knowledge in the intersection of AI and environmental sciences. Additionally, Dr. Oni shares his academic work and research findings on platforms like LinkedIn, GitHub, and ResearchGate, where his research on AI applications in environmental science is readily accessible. His professional network continues to grow as he engages with fellow researchers, policymakers, and industry experts, contributing his insights to broader conversations on sustainability, data science, and environmental preservation.

Education

Dr. Oni’s academic background is marked by a strong foundation in geosciences and a progressive focus on environmental science and technology. He is currently pursuing a Ph.D. in Environmental Science at Cyprus International University (2017-2025), with a focus on integrating AI into environmental research. Before this, Dr. Oni obtained an MSc. in Petroleum Geology and Sedimentology from the University of Ibadan (2012-2014), where he gained a deeper understanding of petroleum exploration, sedimentary processes, and geological formations. His journey began with a BSc. in Geology and Mineral Sciences from the University of Ilorin, Ilorin (2006-2010), where he developed a strong analytical foundation in earth sciences. His educational experiences have shaped his interdisciplinary approach to environmental issues, combining traditional geology with modern AI techniques to find innovative solutions.

Research Focus

Dr. Oni’s research focuses on the convergence of Artificial Intelligence and environmental science. Specifically, his work aims to address key global challenges such as climate change, environmental degradation, pollution monitoring, and ecosystem health. By applying machine learning algorithms—ranging from supervised and unsupervised learning to deep learning and recommendation systems—he analyzes large-scale environmental datasets to predict and mitigate environmental risks. His research also explores how AI can improve environmental decision-making processes, whether in assessing the impact of climate change on ecosystems or predicting air and water pollution levels. Furthermore, Dr. Oni is dedicated to ensuring that his research has practical applications, including using AI for real-time monitoring and management of environmental hazards.

Experience

Dr. Oni’s professional journey spans multiple roles that combine technical expertise with project management responsibilities. As a Geotechnician/Petroleum Geologist at Albean Integrated Services Limited (2011-2017), he led a number of high-profile projects in petroleum exploration, mining, and civil engineering. His primary tasks included conducting geological surveys, performing stability studies for slopes and fills, and developing geotechnical data acquisition plans. He also worked on evaluating ore deposits, calculating ore reserves, and designing mine layouts. Beyond fieldwork, Dr. Oni utilized his data analysis skills to implement quality control measures, resulting in improved safety and efficiency in drilling operations. His experience also extends to computer applications in geophysics and petroleum geology, where he developed software solutions for geological data processing and analysis. His diverse background provides him with a unique perspective on how geotechnical and environmental issues can be addressed through AI-based technologies.

Research Timeline

Dr. Oni’s research timeline reflects an evolving interest in the intersection of computational methods and environmental science. His early academic work involved geotechnical and geological studies, laying the groundwork for his subsequent exploration of machine learning and AI. Since starting his Ph.D. in 2017, he has shifted his focus toward developing AI-based models for environmental data analysis. Key milestones in his research include the creation of predictive models for climate science, the application of machine learning to monitor and mitigate pollution, and the development of algorithms for assessing ecosystem health. Dr. Oni’s ongoing Ph.D. work involves refining these methodologies and applying them to real-world environmental challenges. Throughout this journey, he has collaborated with international researchers and participated in interdisciplinary research initiatives that emphasize the role of AI in advancing environmental sustainability.

Awards & Honors

Dr. Oni’s contributions to environmental science and AI have been widely recognized. His work has earned him invitations to review for prestigious academic journals, which is a testament to the high regard in which his research is held by the scientific community. Additionally, Dr. Oni has been awarded research grants and fellowships, enabling him to pursue projects at the cutting edge of AI and environmental science. His leadership in interdisciplinary research teams has been instrumental in the success of several collaborative projects. Furthermore, Dr. Oni’s innovative work has been acknowledged in various academic conferences, where he has presented his findings and engaged in discussions on the future of AI in environmental research. His ongoing contributions to the scientific community continue to influence both academic and practical approaches to environmental challenges.

Top-Noted Publication

Dr. Oni’s notable publication, “Ultrasound and Ultraviolet Activated Persulfate Oxidation for the Removal of Paracetamol from Water,” published in Water, Air, and Soil Pollution (2025), demonstrates his ability to integrate environmental science with cutting-edge technology. In this study, he explores novel methods for removing pharmaceutical contaminants from water, focusing on the use of advanced oxidation processes activated by ultrasound and ultraviolet light. This research has significant implications for water treatment and pollution control, offering a potential solution to pharmaceutical contamination—a growing environmental concern. The publication has already garnered attention for its innovative approach to addressing emerging contaminants in aquatic environments, and is expected to influence future research and policy in water quality management.

  • Ultrasound and Ultraviolet Activated Persulfate Oxidation for the Removal of Paracetamol from Water
    O.O. Oni, Ş. Doğan, Water, Air, & Soil Pollution, 236(8), 508, 2025
    This research presents an innovative method for removing pharmaceutical contaminants, specifically paracetamol, from water using ultrasound and ultraviolet-activated persulfate oxidation. The study has significant implications for water treatment processes and environmental pollution control, especially in addressing emerging contaminants in aquatic systems.

  • Lithostratigraphy and Palynofacies Appraisal of the Northern Depobelt Onshore, Niger Delta
    O.A. Boboye, Journal of Science Research, 15(1), 11-11, 2016
    This publication focuses on the lithostratigraphic and palynofacies analysis of the northern depobelt in the Niger Delta region. It provides valuable geological insights into the sedimentary processes and depositional environments in this key oil-producing area.

Halah Amer Abduljabbar, Medicine, Best Researcher Award

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Doctorate Halah Amer Abduljabbar: Doctoral Candidate at Department of Biology, College of Science, Al-Mustansiriyah University, Iraq

Hala Amer Abd Al-Jabbar is an accomplished Assistant Lecturer in Biology at Al-Mustansiriyah University, where she specializes in teaching medical laboratory techniques and advancing research in immunology and molecular biology. With a Master’s degree earned with distinction, she combines strong practical skills in DNA sequencing and immunological assays with a passion for fostering academic growth and social initiatives, particularly those supporting women’s empowerment. Hala is recognized for her dedication to both scientific excellence and community engagement.

Online Profiles

ORCID Profile

Hala actively maintains an ORCID profile to showcase her research outputs and academic achievements: https://orcid.org/0000-0003-1710-7472. Beyond this, she participates in academic networks and collaborates with colleagues locally and internationally. Her professional presence also supports her outreach efforts in volunteer projects and university committees, amplifying her role as an educator and advocate.

Education

Hala completed her Master’s degree in Biology from Al-Mustansiriyah University in 2020, graduating second in her class with distinction, which reflects her strong academic performance and research aptitude. Prior to this, she earned a Turkish Language Diploma from Ondokuz Mayıs University in Turkey in 2017, where she ranked first in her cohort with a 90% score. She also holds a Bachelor’s degree in Biology from the University of Baghdad, awarded in 2014, providing her with a solid foundation in biological sciences.

Research Focus

Her research primarily explores the application of immunological techniques such as ELISA, flow cytometry, and immunoassays to investigate autoimmune disorders and reproductive immunology. Additionally, she is proficient in molecular techniques including DNA and RNA extraction, PCR amplification, gel electrophoresis, and next-generation sequencing (NGS). Hala integrates bioinformatics tools and statistical software in analyzing genetic and immunological data, aiming to bridge laboratory findings with clinical applications.

Experience

Hala has been serving as an Assistant Lecturer in the Department of Biology at Al-Mustansiriyah University since 2020, where she teaches a variety of courses in medical laboratory techniques and supervises practical lab sessions. From 2021 to 2023, she lectured at Al-Turath University College, further expanding her teaching portfolio. She actively contributes to the academic community through her membership in examination and departmental committees and plays a pivotal role in the Women Empowerment Unit and event organizing committees within her institutions.

Research Timeline

Her research journey began during her Master’s studies and has continued steadily since 2020. Throughout this period, she has contributed to several projects and publications focusing on immunological diagnostics and molecular biology techniques. Her recent work investigates the correlation between clinical grading scales and biochemical markers, reflecting her interest in translational research that can improve patient care in medical laboratory sciences.

Awards & Honors

Hala has been recognized for academic excellence throughout her career, graduating with distinction and securing top ranks in her Master’s program and Turkish language studies. These honors underscore her commitment to high standards in both academic and extracurricular pursuits. Her active participation in university committees and social initiatives further highlights her leadership qualities and dedication to fostering an inclusive educational environment.

Top-Noted Publication

One of her most notable publications is: AL-Shargi, S. A., Amer, H., & Sharba, Z. (2022). Relationship Between Brodsky Grading Scale of Palatine Tonsils and Vitamin D in Recurrent Tonsillitis. This work highlights her contribution to understanding the clinical significance of immunological markers in common ENT conditions, demonstrating her ability to combine clinical insights with laboratory research for meaningful outcomes.

  • Halah Amer Abduljabbar, Majid Mohammed Mahmood, Methaq J. Al-Jbooriay, Manal Taha Al-obaidi.
    Concurrent autoimmune and endocrine dysregulation in polycystic ovary syndrome.
    Middle East Fertility Society Journal, 2025-07-12.
    DOI: 10.1186/s43043-025-00236-7

  • Ismael, R., Alhameedawi, A., Abbas, R., Alsallameh, S., Amer, H., Firat, M., Karkhane, M.
    Staphylococcus aureus virulence genes and methicillin-resistant gene detection and antimicrobial resistance profiles isolated from different infection sites.
    Egyptian Pharmaceutical Journal, 2023.
    DOI: 10.4103/epj.epj_187_22

  • AL-Sharqi, S. A. H., Amer, H., Sharba, Z.
    Relationship between Brodsky Grading Scale of Palatine Tonsils and Vitamin D of Recurrent Tonsillitis and Tonsillar Hyperplasia in Children.
    Malaysian Journal of Medicine and Health Sciences, 2022.

Hassana Mahfoud, Engineering, Best Researcher Award

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Prof. Dr Hassana Mahfoud: Professor and researcher at ENSAM Moulay Ismail University Meknes Morocco, Morocco

Prof Dr. Hassana Mahfoud is a university lecturer and researcher from Morocco, specializing in industrial engineering, maintenance systems, and quality management. With a diverse background spanning academia, research, and industry, she has developed expertise in smart maintenance, sustainability, and digital transformation. Over the past decade, she has contributed to numerous academic programs across Morocco and supervised a wide range of student projects, from undergraduate to doctoral levels. Her work focuses on improving performance and reliability in both healthcare and industrial sectors through innovative engineering methods and data-driven decision-making.

Online Profiles

Google Scholar Profile

As of 2025, Dr. Hassana Mahfoud’s research has been cited 169 times in total, with 119 citations since 2020. She has an h-index of 5 and an i10-index of 4, reflecting a growing impact in the fields of maintenance engineering, healthcare systems optimization, and industrial sustainability.

Education

Dr. Mahfoud earned her PhD in Industrial Engineering from the Faculty of Science and Technology in Fez in 2017. Her doctoral research focused on maintenance optimization in the healthcare domain, blending reliability modeling and decision analysis. She previously completed her engineering degree from the National School of Applied Sciences, Fez, in 2011, specializing in industrial systems. Her academic journey began with a Baccalaureate in Science Mathematics from Moulay Driss High School in 2006, laying the foundation for her analytical and systems-based thinking.

Research Focus

Her current research lies at the intersection of predictive maintenance, smart technologies, and sustainable engineering practices. She investigates how Industry 4.0 tools—such as AI, IoT, and data analytics—can be applied to improve maintenance strategies, especially in the healthcare and energy sectors. Additionally, she explores the role of education in shaping resilient industrial actors by rethinking curricula, integrating digital tools, and promoting project-based learning approaches. Circular economy concepts and eco-responsible maintenance systems are also key pillars in her work.

Experience

Dr. Mahfoud has over 12 years of academic and industry experience. Since 2022, she has been a full-time lecturer at ENSAM Meknes (Moulay Ismail University), teaching core subjects like Production Systems, Statistical Process Control, and Maintenance Engineering. Before that, she served as an assistant professor at Cadi Ayyad University (2019–2022) and a permanent professor at ESISMP Casablanca (2017–2019). Her early career included R&D roles in biomedical maintenance at FST Fez and industrial leadership at SBS Porcher in Kenitra, where she oversaw technical operations and industrial project management.

Research Timeline

Her early research (2014–2016) focused on reliability models and maintenance strategies for critical healthcare equipment, contributing to the development of delay time models and risk prioritization tools. Between 2016 and 2020, she advanced hybrid decision-making frameworks and explored cost-effective healthcare maintenance models. From 2020 onwards, her focus shifted toward predictive and sustainable maintenance 4.0, with applications in solar energy plants and circular supply chains. More recently, she has been working on smart systems for maintenance, digital prototyping, and AI-driven educational tools.

Awards & Honors

Dr. Mahfoud has been recognized for her academic contributions and peer-review excellence. She received a Certificate of Excellence in Reviewing from the Journal of Advances in Mathematics and Computer Science. She has also served as a scientific committee member for major conferences, including AI2SD, FSDM, and ICSIEM. She completed a certified training program in University Pedagogy at CFCC Marrakech, enhancing her competencies in digital teaching, assessment, and educational innovation. Her work in Fab Lab innovation and 3D printing has been supported by the AUF as part of Morocco’s digital transformation efforts in education.

Top-Noted Publication

One of her most impactful publications is the 2018 article titled “Dependability-based maintenance optimization in healthcare domain”, published in the Journal of Quality in Maintenance Engineering (Emerald Publishing). The paper offers a dependability-driven framework for optimizing maintenance operations in medical settings, integrating reliability modeling and cost analysis. This work has been widely cited and serves as a foundation for subsequent research in evidence-based, smart healthcare maintenance. Other notable publications include contributions to Springer’s Lecture Notes series and IEEE conference proceedings on predictive maintenance and circular healthcare supply chains.

  • Real-Time Predictive Maintenance-Based Process Parameters: Towards an Industrial Sustainability Improvement
    H. Mahfoud, O. Moutaoukil, M. Toum Benchekroun, A. Latif
    International Conference on Advanced Intelligent Systems for Sustainable Development (AI2SD), 2023 — 4 citations

  • What can we learn about educational project management in times of covid-19?
    H. Mahfoud
    International Journal of Educational Research Review, Vol. 6(2), 2021, pp. 75-81 — 3 citations

  • Etude des stratégies de maintenance biomédicale: Situation actuelle et perspectives
    H. Mahfoud, A. El Barkany, A. El Biyaali
    Xème Conférence Internationale: Conception et Production Intégrées, 2015 — 3 citations

  • Optimisation des stratégies de maintenance d’un système complexe – Analyse bibliographique
    H. Mahfoud
    Congrès International du Génie Industriel et Management des Systèmes (CIGIMS), 2015 — 3 citations

  • A novel conceptual framework for predictive maintenance of medical devices in a circular healthcare supply chain
    O. Moutaoukil, H. Mahfoud, I. Bouhaddou
    International Conference on Control, Automation and Diagnosis (ICCAD), 2024 — 2 citations

Andréa Jorge Silva, Engineering, Best Researcher Award

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Doctorate Andréa Jorge Silva: Medical Anesthesiologist and Head of Medical Care Division, Antônio Pedro University Hospital – Federal Fluminense University – Faculty of Medicine, Brazil

Dr. Andréa Jorge Silva is a highly experienced Brazilian anesthesiologist and academic, currently serving as the Head of the Medical Care Division at Antonio Pedro University Hospital, part of the Federal Fluminense University. With over 30 years in clinical practice, she has consistently integrated her medical expertise with research and innovation. Her work focuses on improving patient care, especially in the field of airway management and anesthesia safety. Dr. Silva is known for her ability to lead multidisciplinary teams, translating clinical needs into practical technological solutions. Her recent innovations in 3D-printed medical devices during the COVID-19 pandemic highlight her commitment to accessible healthcare in low- and middle-income settings.

Online Profiles

ORCID Profile

Dr. Silva maintains a professional digital presence primarily through LinkedIn, where she shares updates about her research, medical innovations, conference presentations, and collaborations with interdisciplinary teams. Her profile also highlights her experience in medical education, leadership roles in hospital management, and interest in emerging healthcare technologies. Her LinkedIn profile serves as a platform for networking with peers, students, and international researchers in anesthesiology and surgical sciences. You can connect with her here: linkedin.com/in/andréa-silva-872949247.

Education

Dr. Andréa Jorge Silva graduated with her Doctor of Medicine (MD) degree from the Federal Fluminense University on October 31, 1991. She went on to complete a medical residency in anesthesiology, gaining in-depth training in perioperative care, airway management, and intensive care support. Her formative academic years laid the foundation for her later role as both a clinician and a researcher. Her education at one of Brazil’s top public universities continues to influence her practice and teaching as she now mentors medical students and residents at the same institution.

Research Focus

Dr. Silva’s current research is centered on the development and clinical validation of a low-cost, 3D-printed videolaryngoscope (VLG3DUFF) designed to improve access to safe intubation techniques in settings with limited resources. Her work addresses a critical gap in the availability of high-cost airway management devices in developing countries. By combining medical insight with engineering principles, she aims to create durable, efficient, and accessible alternatives to traditional videolaryngoscopes. This research also includes simulation-based testing and clinical comparisons, highlighting safety, usability, and performance during rapid sequence induction.

Experience

Throughout her career, Dr. Silva has held multiple roles within the medical and academic community, most notably as Head of the Medical Care Division at Antonio Pedro University Hospital. She has extensive experience in anesthesia for complex surgical procedures and has been involved in postgraduate education and research development for many years. Her leadership during the COVID-19 pandemic was marked by innovation, as she initiated technology-driven solutions to improve clinical response. She is also an active participant in academic congresses and has contributed significantly to curriculum development in anesthesiology at the Faculty of Medicine, Federal Fluminense University.

Research Timeline

Dr. Silva began her most notable research work in mid-2020, at the height of the COVID-19 pandemic, when she led a multidisciplinary team to develop a 3D-printed videolaryngoscope in response to the shortage of airway management devices. The project spanned five months (June–November 2020), focusing on design, prototyping, and simulation testing. In 2021, she coordinated a follow-up clinical study from April to November, comparing the VLG3DUFF device to the standard Macintosh blade in actual surgical settings. These two consecutive projects mark a key period in her research career and have resulted in peer-reviewed publications and a pending medical patent.

Awards & Honors

While no specific awards are listed in her record, Dr. Silva’s work has been recognized through national and international conference invitations and publications in high-impact journals. The innovation behind the VLG3DUFF videolaryngoscope was selected for presentation at the Brazilian Congress of Anesthesiology and the Latin American Congress of Anesthesiology in 2023 and 2024, indicating peer recognition of her project’s impact. The pending patent for her device also reflects its value as an original contribution to clinical practice. Her recognition continues to grow through interdisciplinary collaboration and advancements in affordable medical technology.

Top-Noted Publication

Dr. Silva’s most distinguished publication is titled “3D Printing of a Low-Cost Videolaryngoscope for Tracheal Intubation,” published in Scientific Reports in July 2025. This paper outlines the complete process of developing a novel airway management tool using additive manufacturing technology. The research was driven by the urgent need for affordable medical devices during the COVID-19 pandemic and showcases a successful collaboration between medical professionals and engineers. The study has garnered attention for offering a viable solution to a global healthcare challenge and has laid the groundwork for future innovations in low-cost medical equipment for emergency and surgical use.

Ximenes, T. N., Resende, M. A. C., Videira, R. L. R., Silva, A. J., Figueiredo, J. A., Gonçalves, I. T., & Resende, B. C. (2025). Alternative method for airway approach in anesthesia of a newborn with occipital encephalocele. Brazilian Journal of Case Reports, 5(1). https://doi.org/10.52600/2763-583X.bjcr.2025.5.1.bjcr22

Panagiotis Tsamos, Chemistry, Best Researcher Award

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Panagiotis Tsamos: Post Doc Researcher at A.U.Th. , Faculty of Sciences, School of Chemistry, Greece

Dr. Panagiotis Tsamos is a dedicated Postdoctoral Researcher at Aristotle University of Thessaloniki (A.U.TH.), specializing in environmental chemistry with an emphasis on radiological protection and heavy metal contamination. He holds a PhD in Chemistry and has extensive experience studying radionuclide behavior and removal in aquatic environments. His research aims to develop innovative, sustainable methods to mitigate environmental pollution caused by industrial activities, contributing to public health and ecological safety.

Online Profiles

ORCID Profile

Dr. Tsamos, While he currently does not maintain a LinkedIn profile or personal website, his research and academic contributions are well-documented through his institutional affiliation with A.U.TH., Faculty of Sciences, School of Chemistry. He actively participates in international conferences and collaborations, enhancing his visibility in the environmental chemistry research community.

Education

He completed his doctoral studies at Aristotle University of Thessaloniki, graduating in July 2022 with a PhD in Chemistry. His academic training included advanced coursework and research in radiochemistry, environmental toxicology, and analytical techniques. His thesis work involved the study of uranium and toxic metal contamination in natural and industrial environments, providing a strong scientific foundation for his ongoing postdoctoral research.

Research Focus

Dr. Tsamos’s research primarily focuses on improving the removal of radionuclides and toxic metals from aqueous solutions through novel sorbent materials and chemical methods. He investigates the environmental impact of industrial pollutants, particularly from oil and coal-fired power plants, aiming to develop effective remediation technologies that reduce radiological and chemical hazards in water bodies and soil.

Experience

With over a decade of experience, Dr. Tsamos has contributed significantly to environmental monitoring and remediation research. He has authored numerous peer-reviewed articles and presented his findings at major international conferences. His collaborations span interdisciplinary teams working on environmental safety, radiological risk assessment, and sustainable pollution control, reflecting a comprehensive approach to addressing complex environmental challenges.

Research Timeline

Beginning his research career in 2014, Dr. Tsamos has steadily expanded his expertise from investigating radionuclide distribution in mining and power plant areas to exploring biosorption techniques and competing cation effects on radionuclide sorption. His progression culminated in a PhD focused on environmental contamination and has now transitioned into postdoctoral work aimed at advancing nuclide removal methodologies and assessing environmental risks associated with industrial pollutants.

Awards & Honors

Although specific awards are not explicitly listed, Dr. Tsamos’s participation in multiple international conferences as an invited speaker and his certification (3EHKR-Z6U8B-YW2O7-G9ITM) demonstrate professional recognition and credibility in his field. His work continues to be cited in environmental science literature, indicating respect and acknowledgement from the academic community.

Top-Noted Publication

Among his most influential works is the 2025 article “The Impact of Crude Oil Facilities on the Accumulation of Heavy Metals and Radionuclides in a Coastal Environment,” published in Water Air Soil Pollution. This study provided critical insights into how industrial operations affect local ecosystems and offered data-driven recommendations for pollution mitigation and environmental monitoring programs, highlighting Panagiotis’s expertise in applied environmental radiochemistry.

  • Noli, F., Papalanis, E., Tsamos, P., Kapnisti, M. (2021). The effect of humic acid and competing cations Na⁺ and Ca²⁺ on the sorption of uranium and europium onto bentonite from Kimolos Island (Greece). Journal of Radioanalytical and Nuclear Chemistry. DOI: 10.1007/s10967-021-07722-y.
    This study investigates the complex interactions affecting radionuclide sorption in bentonite, highlighting environmental factors that influence contaminant mobility in natural clays.

  • Noli, F., Tsamos, P. (2018). Seasonal variations of natural radionuclides, minor and trace elements in lake sediments and water in a lignite mining area of North-Western Greece. Environmental Science and Pollution Research. DOI: 10.1007/s11356-017-9801-z.
    An in-depth analysis of seasonal changes in radionuclide and trace element levels, contributing valuable data on environmental impact related to mining activities.

  • Noli, F., Tsamos, P., Stoulos, S. (2017). Spatial and seasonal variation of radionuclides in soils and waters near a coal-fired power plant of Northern Greece: environmental dose assessment. Journal of Radioanalytical and Nuclear Chemistry. DOI: 10.1007/s10967-016-5082-0.
    This paper provides a comprehensive dose assessment based on radionuclide distribution, offering insights into environmental safety around coal power plants.

  • Noli, F., Tsamos, P. (2016). Concentration of heavy metals and trace elements in soils, waters and vegetables and assessment of health risk in the vicinity of a lignite-fired power plant. Science of the Total Environment. DOI: 10.1016/j.scitotenv.2016.04.098.
    This research evaluates contamination levels and potential health risks from industrial emissions, supporting efforts to manage and mitigate environmental hazards.