Dr. Douglas Evans | Surgery | Best Researcher Award

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Dr. Douglas Evans | Surgery | Best Researcher Award

Dr. Douglas Evans, Medical College of Wisconsin, United States

Dr. Douglas B. Evans is a distinguished leader in surgical oncology and currently serves as Chair of the Department of Surgery at the Medical College of Wisconsin. His medical expertise focuses on pancreatic cancer and complex surgical oncology, where he has made significant contributions through his leadership and research. He is highly respected for his extensive work at prestigious institutions, including the University of Texas MD Anderson Cancer Center, where he previously held a tenured professorship. Dr. Evans’ commitment to advancing cancer research and improving patient care has earned him recognition nationally and internationally. He has served on multiple national advisory boards and contributed to various scientific committees. Dr. Evans’ work continues to impact the fields of surgery and oncology, enhancing the understanding and treatment of pancreatic cancer.

Professional Profile

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Summary of Suitability for the Research for Best Researcher Award

Dr. Douglas B. Evans, with his extensive background in surgical oncology and a distinguished career, is highly suited for the Research for Best Researcher Award. His leadership as Chair of the Department of Surgery at the Medical College of Wisconsin since 2009 demonstrates his commitment to advancing surgical practices and medical education. His impressive list of academic and clinical roles, including his tenure as a professor at the University of Texas M. D. Anderson Cancer Center, highlights his sustained contributions to the field of cancer research, particularly in pancreatic and thyroid cancers.

🎓 Education 

Dr. Douglas B. Evans received his foundational education at Oliver Ames High School in North Easton, Massachusetts. He then attended Bates College in Lewiston, Maine, where he earned his Bachelor of Science degree. His medical journey continued at Boston University School of Medicine, where he obtained his M.D. Following this, Dr. Evans pursued postgraduate training in surgery at Dartmouth-Hitchcock Medical Center, where he completed both his internship and residency in general surgery. His specialization in surgical oncology was honed during his fellowship at the University of Texas MD Anderson Cancer Center. This extensive academic background provided him with the expertise required to become a leading figure in the surgical treatment of pancreatic and gastrointestinal cancers. His licensures include multiple states such as Texas and Wisconsin, and he is board-certified by the American Board of Surgery, with recertifications reflecting his continued commitment to excellence in surgical practice.

💼  Experience 

Dr. Douglas B. Evans has an extensive career in surgical oncology, marked by significant leadership roles. He began as an Instructor in Surgery at Dartmouth Medical School and progressed to Teaching Associate at the University of Texas MD Anderson Cancer Center. At MD Anderson, Dr. Evans ascended from Assistant Professor to full Professor of Surgery, eventually securing the Hamill Foundation Distinguished Professorship in honor of Dr. Richard G. Martin, Sr. Since 2009, he has been the Chair of the Department of Surgery at the Medical College of Wisconsin, where he also holds the Ausman Family Foundation Chair. Dr. Evans’ career highlights include serving as Surgeon-in-Chief at Froedtert Hospital and contributing to numerous advisory boards and national committees. His experience and influence in academic surgery, particularly in pancreatic cancer research and treatment, have established him as a key figure in the surgical oncology field.

🏅 Awards and Honors 

Dr. Douglas B. Evans has received numerous awards and honors throughout his distinguished career in surgical oncology. Early recognition came with the Resident’s Publication Award in 1985, followed by the prestigious Thomas P. Almy Award in 1987. His dedication to teaching was acknowledged by multiple Outstanding Teacher Awards, notably in 1995 and 2003 at the University of Texas MD Anderson Cancer Center. In 1999, he was awarded the American College of Surgeons Traveling Fellowship. More recently, Dr. Evans was honored with the Andrew L. Warshaw Master Educator Award in 2014 from the Society for Surgery of the Alimentary Tract, as well as the Wisconsin Way Award in Medicine in 2018. In 2021, he was appointed to the Douglas B. Evans Chair for Surgical Research, a testament to his contributions to both clinical practice and academic surgery. In 2023, he received the Benjamin E. Mays Medal from Bates College, their highest alumni honor.

🌍 Research Focus

Dr. Douglas B. Evans’ research primarily focuses on the surgical treatment of pancreatic cancer and complex gastrointestinal cancers. His work has significantly advanced the understanding of pancreatic tumor biology and the development of surgical techniques to improve patient outcomes. He is particularly interested in translational research that bridges basic science discoveries and clinical applications. Dr. Evans has contributed to groundbreaking studies on the molecular mechanisms driving pancreatic cancer, enhancing the accuracy of surgical interventions and postoperative care. His research has been pivotal in the development of multi-disciplinary treatment approaches that combine surgery with chemotherapy and radiation therapy for pancreatic and other gastrointestinal cancers. As a renowned leader in his field, Dr. Evans has published extensively in high-impact medical journals, and his research efforts continue to shape the landscape of surgical oncology and improve the prognosis for cancer patients worldwide.

📖 Publication Top Notes

  • One hundred years after “carcinoid”: epidemiology of and prognostic factors for neuroendocrine tumors in 35,825 cases in the United States
    • Citation: 5547
  • Management of Thyroid Nodules Detected at US: Society of Radiologists in Ultrasound Consensus Conference Statement
    • Citation: 1921
  • Medullary thyroid cancer: management guidelines of the American Thyroid Association
    • Citation: 1712
  • Cancer-associated stromal fibroblasts promote pancreatic tumor progression
    • Citation: 1310
  • Borderline resectable pancreatic cancer: definitions, management, and role of preoperative therapy
    • Citation: 1012

Ms. Meaad Alqahtany | Education | Research Excellence Award

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Ms. Meaad Alqahtany | Education | Research Excellence Award

Ms. Meaad Alqahtany, King Saud Bin Abdulaziz University for Health Sciences, Saudi Arabia

Meaad Alqahtany is a dedicated biologist specializing in cellular and molecular biology, with a focus on understanding the structural intricacies of prokaryotic cells. Currently a Research Assistant at King Saud bin Abdulaziz University for Health Sciences in Saudi Arabia, Meaad plays a key role in supporting research projects, monitoring ongoing studies, and contributing to data analysis. With prior experience as a part-time lecturer and science teacher, she brings a blend of academic rigor and practical teaching experience. Her research revolves around using high-resolution microscopies to investigate surface cell molecules, particularly in bacterial cells.

Professional Profile

Scopus

Summary of Suitability for the Research for Research Excellence Award

Meaad Alqahtany is a strong candidate for the Research for Research Excellence Award. Her extensive research experience, publication record, leadership initiatives, and passion for education make her well-suited for recognition. Her work in cellular and molecular biology, coupled with her ability to teach and mentor, positions her as a scientist contributing significantly to both her field and the broader scientific community.

🎓 Education

Meaad Alqahtany holds a Master of Science in Cell and Molecular Biology from the University of Arkansas (2019), where she researched bacterial cell proteins using advanced molecular techniques. She completed her Bachelor’s in Biology (Microbiology) at King Abdulaziz University, Saudi Arabia, in 2014. In addition to her formal education, Meaad has also completed several advanced courses and workshops, including research data management, scientific writing, and statistical analysis. Her diverse educational background equips her with a deep understanding of biological sciences and the technical skills needed for cutting-edge research.

💼 Experience

Meaad has amassed significant experience across academic and research settings. As a Research Assistant since 2021, she has supported projects at King Saud bin Abdulaziz University for Health Sciences. Previously, she was a Lecturer at Bisha University, teaching Micro Techniques. From 2019-2021, she taught science to middle school students at Majestic International School, where she also organized science fairs. During her time at the University of Arkansas (2017-2019), she conducted advanced research on bacterial cell proteins as part of her graduate studies. Meaad has also been a Lab Instructor, training undergraduate students in biology lab techniques.

🏅Awards and Honors

  • Founder and active member of the Biology Club at the College of Science
  • Organized New Students Orientation, Bio Day, and other student events
  • Led the 3-Minute Research Proposal competition at KSAU-HS
  • Presented research at international conferences on cellular biology
  • Received recognition for her contribution to scientific publications on antimicrobial mechanisms and nanoparticle effects

🌍  Research Focus

Meaad’s research focuses on cellular and molecular biology, particularly prokaryotic cells. She uses high-resolution microscopy techniques to investigate surface cell molecules, including histone-like proteins and nucleoid structuring in bacteria. Her studies aim to uncover the molecular mechanisms of how silver nanoparticles affect bacterial cells and their proteins, shedding light on antimicrobial actions. Meaad also delves into nanoparticle stability and its impact on biological systems, providing insight into how nanotechnology can influence microbiology.

 📖 Publication Top Notes

  • Faculty and students perspectives towards game-based learning in health sciences higher education
  • Nanoscale reorganizations of histone-like nucleoid structuring proteins in Escherichia coli are caused by silver nanoparticles
    • Citations: 18

Dr. Roohollah Shirani Faradonbeh | Mining Engineering | Best Researcher Award

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Dr. Roohollah Shirani Faradonbeh | Mining Engineering | Best Researcher Award

Dr. Roohollah Shirani Faradonbeh, Curtin University, Australia

Dr. Roohollah Shirani Faradonbeh is an accomplished mining engineer with expertise in intelligent mining, mine electrification, and sustainable resource management. Currently, he serves as an Assistant Professor at Curtin University’s WA School of Mines, where he contributes to innovative research in digital mining technologies and advanced rock mechanics. With a PhD in Mining Engineering from the University of Adelaide, his research focuses on AI-driven predictive models for rockburst risk assessment in underground mines. Dr. Shirani has published extensively on topics like mine tailings recovery, blasting optimization, and sustainable mining practices.

Professional profile

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Summary of Suitability for the “Research for Best Researcher Award” – Roohollah Shirani Faradonbeh

Dr. Roohollah Shirani Faradonbeh has an outstanding academic background and extensive experience in the field of mining engineering, making him a highly suitable candidate for the Research for Best Researcher Award. His research focuses on critical areas such as rockburst phenomena in deep underground mining, which has significant implications for safety and operations in the mining industry. His development of AI-based models and novel testing methodologies, as demonstrated in his doctoral work, has opened new frontiers in intelligent mining, especially in predicting and mitigating rockburst risks.

 🎓Education

Dr. Shirani holds a PhD in Mining Engineering from the University of Adelaide, where his thesis explored AI-based models for predicting and controlling rockburst phenomena in deep underground mines. His MSc in Mining Engineering from Tarbiat Modares University focused on minimizing blast-induced ground vibrations using gene expression programming. During his BSc at the University of Kashan, he investigated methods for reducing the back-break phenomenon in Iran’s Sungun Copper Mine. His educational journey highlights his expertise in predictive modeling, experimental mechanics, and sustainable mining practices.

 💼 Experience

Dr. Shirani has held multiple academic and industry roles, including his current position as Assistant Professor at Curtin University’s WA School of Mines. He has served as an industry advisor for Fortescue Metals Group and was a research and teaching assistant at the University of Adelaide. His teaching portfolio covers advanced topics like rock excavation technology, mine automation, and slope engineering. In addition to academic contributions, Dr. Shirani has supervised numerous PhD and M.Phil. students in fields such as autonomous mining systems, rockburst early warning tools, and environmental impact assessments for deep-sea mining.

 🏅Awards and Honors

Throughout his career, Dr. Shirani has received recognition for his contributions to mining engineering and research excellence. He has been honored with multiple academic awards for his innovative work in intelligent mining systems and AI-driven rockburst models. His research on blasting operations and ground vibration prediction has garnered attention from industry and academia alike. Additionally, Dr. Shirani has played a key role in international mining conferences, where his contributions to sustainable mining and resource recovery have been highly regarded by peers and industry professionals.

🌍 Research Focus

Dr. Shirani’s research centers on cutting-edge mining technologies, focusing on areas like mine digitalization, autonomous systems, and AI-based predictive models. He is particularly interested in the electrification and decarbonization of mining operations, as well as sustainable mine rehabilitation and waste management. His work in the experimental analysis of rockburst behavior and mine tailings recovery has paved the way for advancements in mining safety and efficiency. He also explores alternative mining methods, such as deep-sea mining and asteroid mining, reflecting his forward-thinking approach to resource extraction.

 📖 Publications Top Notes

Forecasting blast-induced ground vibration developing a CART model
Cited by: 172
Prediction of ground vibration due to quarry blasting based on gene expression programming: a new model for peak particle velocity prediction
Cited by: 171
Prediction of the uniaxial compressive strength of sandstone using various modeling techniques
Cited by: 164
Combination of neural network and ant colony optimization algorithms for prediction and optimization of flyrock and back-break induced by blasting
Cited by: 153
Long-term prediction of rockburst hazard in deep underground openings using three robust data mining techniques
Cited by: 147

kelig mahe | fisheries research | Research Excellence Award

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Dr kelig mahe | fisheries research | Research Excellence Award

Dr.kelig mahe, Ifremer, France

Dr. Kélig MAHE is a leading researcher at IFREMER, specializing in marine science, particularly in the fields of sclerochronology and fisheries. Since 2021, he has been the head of the Halieutiques Manche-Mer du Nord Unit, overseeing numerous national and European projects related to fish age estimation and stock management. Dr. MAHE’s expertise spans biological data coordination, fish age determination workshops, and the development of TNPC software. He has co-supervised 11 PhD students and 12 master’s students, contributing significantly to scientific innovation, as demonstrated by his 2010 award for scientific and technological innovation at IFREMER. His contributions extend internationally, with leadership in numerous European research collaborations.

Professinal Profile

  • orcid

    Education 

    Dr. Kélig MAHE’s academic journey is rooted in marine and environmental sciences. He earned his PhD in Marine Biology from Université du Littoral Côte d’Opale (ULCO) in 2019, focusing on fisheries and environmental ecosystems. Prior to this, he completed his Diplôme d’Etudes Approfondies (DEA) in Coastal and Littoral Ecosystem Dynamics from ULCO in 2002. Dr. MAHE’s foundational knowledge in marine resource management was shaped during his engineering studies at the prestigious Ecole Nationale Supérieure d’Agronomie de Rennes (ENSAR), where he graduated with a specialization in Halieutics in 2003. His multidisciplinary education also includes a Maîtrise des Sciences et Techniques in Environmental Sciences from the University of Rouen, completed in 2001, providing him with a well-rounded scientific background in both marine biology and environmental management.

    Experience 

    Dr. MAHE Kélig has an extensive research career at IFREMER, where he has been actively engaged since 2007. His role evolved from a research cadre to leading the Halieutiques Manche-Mer du Nord Unit in 2021. His vast experience includes coordinating national biological data, managing research programs on fish age estimation, and providing expert advice on stock management. His involvement in European research projects is extensive, including leadership positions in projects like Med-Units, Sumaris, and Microtolithe. Dr. MAHE has also represented IFREMER in international workshops and played a pivotal role in advancing sclerochronology, both through research and the development of TNPC software. His management experience includes overseeing teams and mentoring students, making significant contributions to both scientific research and talent development.

    Awards and Honors 

    Dr. MAHE Kélig’s distinguished contributions to marine science have earned him notable recognition. In 2010, he was awarded the IFREMER Trophée de l’innovation for his pioneering work in scientific, technical, and technological fields. His leadership and contributions have made a global impact, notably in European research collaborations, where he co-chaired 13 international workshops and participated in 4 European working groups. His expertise in sclerochronology has positioned him as an expert for IFREMER in international fora. Dr. MAHE’s influence extends to organizing international symposia, such as the 6th International Symposium on Biological Shape Analysis in 2019. His collaborative spirit and innovative work have consistently advanced marine research, particularly in fisheries biology, earning him respect and recognition within the global scientific community.

    Research Focus

    Dr. MAHE Kélig’s research centers on sclerochronology, the study of calcified structures in fish, to improve age determination methods and enhance fisheries management. His work plays a critical role in understanding fish population dynamics and the impacts of environmental changes, such as temperature fluctuations and CO2 levels, on marine species. Dr. MAHE has been at the forefront of integrating modern technologies in fisheries research, particularly through his contributions to the TNPC software for processing calcified structures. His research also extends to interdisciplinary collaborations, where he has led and participated in numerous European projects, focusing on sustainable fishery practices, species population structures, and biogeographical studies. His commitment to research excellence is evidenced by his active role in advancing knowledge in otolith morphogenesis, age determination, and stock management, all of which are pivotal for sustainable marine resource management.

     Publications Top Notes

    1. 🐟 Asymmetry of Sagittal Otolith Shape in Mediterranean Red Mullet: Comparative Analysis of 2D and 3D Otolith Shape Data (2023).
    2. 🌊 Effect of Temperature and CO2 on Morphogenesis of Sagittal Otoliths in Atlantic Herring (2023).
    3. 📊 Spatial Structuring of Demersal Fish Around Réunion Island Based on Otolith Shape (2023).
    4. 🧬 New Scale Analyses Reveal Centenarian African Coelacanths (2021).
    5. 🐠 Complementarity and Discriminatory Power of Genotype and Otolith Shape in Eastern English Channel Sole (2020).