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.

πŸŽ“ 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.

πŸ’Ό 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.

πŸ…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.

 πŸ“– 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. Y. Christabel Shaji | Chemistry | Best Researcher Award

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Dr. Y. Christabel Shaji | Chemistry | Best Researcher Award

Dr. Y. Christabel Shaji, Holy Cross College(Autonomous), Nagercoil, India

Dr. Y. Christabel Shaji is an accomplished academic in the field of chemistry with a strong background in teaching and research. She earned her Ph.D. from Manonmaniam Sundaranar University, focusing on synthesizing and characterizing poly(ester-imide)s with bulky pendant groups. Her work extends into various domains of chemistry, particularly in Metal-Organic Frameworks (MOFs), nanoparticle synthesis, and catalysis. Dr. Christabel has also guided Ph.D. scholars in their research, contributing significantly to the academic community. She has received funding for numerous research projects and is known for her ability to seamlessly integrate academic knowledge with practical applications. With several patents filed in nanotechnology and drug delivery systems, her work demonstrates an impactful blend of innovation and scientific rigor.

Professioanl Profile

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Summary of Suitability for the Research for Best Researcher Award – Dr. Y. Christabel Shaji

Dr. Y. Christabel Shaji is an exemplary candidate for the Research for Best Researcher Award. Her robust research portfolio, academic leadership, and innovative patents position her as a strong contender for this award. Her contributions to applied chemistry, particularly in drug delivery and material science, show significant promise for future advancements in these areas.

 πŸŽ“ Education 

Dr. Y. Christabel Shaji’s academic journey is impressive, with qualifications that reflect her dedication to chemistry. She earned her Ph.D. from S.T. Hindu College, Nagercoil, affiliated with Manonmaniam Sundaranar University, specializing in chemistry. Prior to her doctoral studies, she completed an M.Phil. in Chemistry from Vinayaka Mission University with a commendable score of 66.8%. Her postgraduate degree, an M.Sc. in Chemistry, was awarded by Madurai Kamaraj University, where she scored 67%. For her undergraduate education, she studied at Sree Devi Kumari Women’s College, where she majored in Chemistry, along with Maths and Physics, achieving an impressive 73%. Her academic credentials reflect a deep understanding of her field and a clear commitment to advancing her knowledge and skills in chemistry.

πŸ’Ό Experience 

Dr. Y. Christabel Shaji has a rich teaching and research experience that spans over several years. Currently, she is mentoring Ph.D. scholars at Manonmaniam Sundaranar University, guiding their research in advanced chemistry topics. Her research has focused on catalysis, nanoparticle synthesis, and Metal-Organic Frameworks (MOFs), with a particular interest in environmental and biomedical applications. In addition to her academic roles, Dr. Christabel has successfully managed various funded student projects, enabling practical exposure to real-world research challenges. She has played a significant role in conducting and guiding research that bridges the gap between theoretical knowledge and applied science. Her contributions have been acknowledged through multiple research grants and collaborative initiatives with funding agencies, showcasing her commitment to advancing both her students and her field.

πŸ…Awards and Honors 

Dr. Y. Christabel Shaji has been recognized for her significant contributions to chemistry through multiple awards and honors. She has been granted several prestigious research grants, including funds for projects related to Metal-Organic Frameworks (MOFs) for catalytic applications and sensing technologies. She has successfully completed projects under the Crossian Research Forum Seed Money Scheme, reflecting her leadership in research. Dr. Christabel has also been acknowledged through patents in areas such as nanogels for cancer drug delivery and machine learning for composite material design. Her innovations have earned her a reputable status in her field, particularly in materials chemistry and biomedical applications. These achievements highlight her ability to lead cutting-edge research, influence the future of chemistry, and contribute to the academic and scientific community.

🌍 Research Focus

Dr. Y. Christabel Shaji’s research focuses on synthesizing and characterizing advanced materials, particularly Metal-Organic Frameworks (MOFs) and nanoparticles, for catalytic, biomedical, and environmental applications. Her work on nanomaterials, such as the fabrication of Ni-Cu nanoparticles and MOFs, has broad applications in catalysis and sensing. Additionally, Dr. Christabel has contributed to research in drug delivery systems, developing innovative nanogels for targeted cancer therapy. Her recent patents in designing composite materials using machine learning further extend her expertise into interdisciplinary fields. With a focus on green chemistry and sustainable materials, she seeks to develop environmentally friendly solutions for real-world problems. Her guidance of Ph.D. scholars and ongoing projects further her commitment to fostering innovative research in chemistry.

  πŸ“– Publications Top Notes

Synthesis, characterization and evaluation of biological properties of transition metal chelates with Schiff base ligands derived from glutaraldehyde with L-leucine
Cited by: 11
Online acoustic emission measurement of tensile strength and wear rate for AA8011-TiC-ZrB2 hybrid composite
Cited by: 7
Synthesis and characterization of natural fibre with ZnO nanocomposites
Cited by: 3
Antimicrobial screening of novel Schiff base Ni (II) complex derived from glutaraldehyde and L-histidine
Cited by: 1
Synthesis and characterization of nickel-based MOFs: Enhancing photocatalysis and targeted cancer drug delivery

 

Prof. Farid Amirouche | Orthopaedics Surgery | Best Researcher Award

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Prof. Farid Amirouche | Orthopaedics Surgery | Best Researcher Award

Prof. Farid Amirouche, Northshore University, United States

Farid Amirouche is a distinguished Professor and Director of Orthopaedic Research at the University of Illinois at Chicago (UIC), with over 30 years of experience in bioengineering and mechanical engineering. He is an accomplished scholar known for his innovative research in orthopaedic biomechanics, medical device design, and patient-specific implants. Amirouche has held various prominent positions, including Vice Chairman of the Department of Orthopaedic Surgery at Northshore University HealthSystem and Senior Scientist at the Jesse Brown VA Medical Center. His multidisciplinary research has led to significant advancements in orthopaedic technologies and rehabilitation strategies, particularly through the integration of virtual and augmented reality. Amirouche has mentored numerous PhD and MS students and has been an active contributor to scientific communities as a reviewer for NIH and NSF, as well as serving on international scientific advisory boards.

Professional Profile

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Evaluation for the Research for Best Researcher Award: Professor Farid Amirouche

Summary of Suitability for Award:

Professor Farid Amirouche exemplifies the qualities and contributions that define excellence in research and academia, making him an outstanding candidate for the Research for Best Researcher Award. With over three decades of experience in bioengineering and mechanical engineering, his extensive background is marked by significant advancements in orthopaedic biomechanics and medical device development. His educational foundation, which includes a BS in Engineering Science, an MS in Aerospace and Applied Mechanics, and a PhD in Mechanical Engineering with an emphasis on Biomechanics from the University of Cincinnati, equips him with a strong technical and theoretical understanding of complex biomechanical systems.

πŸŽ“ Education 

Farid Amirouche earned his Bachelor of Science in Engineering Science from the University of Cincinnati in June 1979. He continued his education at the same institution, completing his Master of Science in Aerospace and Applied Mechanics in June 1981, followed by a PhD in Mechanical Engineering with an emphasis on Biomechanics in June 1984. His educational background laid a strong foundation for his expertise in biomechanical engineering and medical device development. Throughout his academic career, Amirouche has consistently integrated his engineering knowledge with practical applications in orthopaedics, focusing on innovative solutions to complex challenges. His dedication to education is reflected in his commitment to mentoring students, fostering an environment of research excellence, and contributing to the academic community through active participation in various scientific organizations.

 πŸ’Ό Experience 

Farid Amirouche has held numerous influential positions throughout his career, beginning as an Assistant Professor in the Mechanical Engineering Department at the University of Illinois at Chicago (UIC) from 1984 to 1989. He later served as Director of the Undergraduate CAD Laboratory and Research Coordinator at Rush Medical Center. His expertise led to his appointment as Associate Professor in both Mechanical Engineering and Bioengineering Departments. In 1997, he became a Professor of Mechanical Engineering and Director of the Biomechanics Laboratory at UIC. Since 2006, Amirouche has been the Professor and Director of Orthopaedic Research in the College of Medicine at UIC, while also acting as Vice Chairman of Orthopaedic Surgery at Northshore University HealthSystem. He has contributed significantly to the field through his roles as a Senior Scientist at the Jesse Brown VA Medical Center and as a Chief Technology Officer for a medical device startup.

 πŸ… Awards and Honors 

Throughout his distinguished career, Farid Amirouche has received numerous accolades for his contributions to bioengineering and orthopaedic research. He has been an active reviewer and panelist for prestigious organizations, including the NIH and NSF, recognizing his expertise in musculoskeletal research. Amirouche served as Vice President of UNESCO’s World Academy of Biotechnology, highlighting his leadership in the scientific community. He has authored several influential books and technical papers, which have significantly advanced knowledge in orthopaedic biomechanics. Additionally, Amirouche holds multiple patents for innovative medical devices, showcasing his commitment to practical applications of research. His impact on education is evident in the successful mentorship of over 28 PhD and 80 MS students, fostering the next generation of engineers and researchers. His recognition on national and international scientific advisory boards further underscores his esteemed position within the global scientific community.

 πŸŒ Research Focus 

Farid Amirouche’s research focuses on the biomechanics of human joints, specifically in the areas of knee, hip, and spine mechanics, as well as the interface between biological tissues and implants. His work employs both experimental methods and finite element analysis to evaluate the mechanical behavior of medical implants used in orthopaedic and spinal surgery. Amirouche is particularly interested in intelligent prosthetics and patient-specific implants, developing advanced technologies that improve patient outcomes. His recent initiatives include exploring the applications of virtual reality, mixed reality, and augmented reality in surgical planning and rehabilitation, addressing the needs of diverse patient populations. Amirouche has successfully recruited multidisciplinary teams to collaborate on innovative projects that enhance post-operative rehabilitation. His ongoing research at Northshore University HealthSystem’s newly established laboratory emphasizes motion analysis, 3D printing capabilities, and the development of novel rehabilitation strategies, particularly for amputees, aiming to significantly improve their quality of life.

 πŸ“– Publications Top Notes

Robots on the Stage: A Snapshot of the American Robotic Total Knee Arthroplasty Market
Biomechanical Comparison of Unilateral and Bilateral Pedicle Screw Fixation after Multilevel Lumbar Lateral Interbody Fusion
How to Optimize Pedicle Screw Parameters for the Thoracic Spine? A Biomechanical and Finite Element Method Study
A Transplant or a Patch? A Review of the Biologic Integration of Meniscus Allograft Transplantation
Biomechanical Comparison of Multilevel Stand-Alone Lumbar Lateral Interbody Fusion With Posterior Pedicle Screws: An In Vitro Study