Allahyar Geramy | Dental Biomechanics | Best Researcher Award

Posted on by sciencefather

Prof. Allahyar Geramy | Dental Biomechanics | Best Researcher Award

Professor, Tehran University of Medical Sciences, Iran

Dr. Allahyar Geramy, DDS, MSc, is a distinguished orthodontist and academic, holding prominent positions in the field of dental medicine. Born on July 20, 1966, in Kermanshah, Iran, Dr. Geramy is a Professor in the Department of Orthodontics at Tehran University of Medical Sciences. With extensive experience and contributions in orthodontics, he has earned his recognition as a researcher, educator, and clinician. He has published widely in dental biomechanics, particularly focusing on orthodontic tooth movements, finite element analysis, and implant-supported restorations. His career has been marked by numerous roles, including Associate Editor of the Iranian Journal of Orthodontics and Vice-Dean in research affairs at TUMS. His research and clinical work continue to influence the orthodontic community globally.

Profile

Education

Dr. Geramy’s educational journey began at the Alborz High School in Tehran, where he excelled, earning his High School Diploma in 1983. He pursued his dental studies at Tehran University of Medical Sciences, where he earned his DDS degree in 1989. Dr. Geramy furthered his expertise by completing a post-graduate training program in Orthodontics at Tehran University of Medical Sciences from 1991 to 1995, where he specialized in orthodontics and advanced dental practices. This solid foundation in academic and clinical training set the stage for his future contributions to the field of orthodontics. Over the years, Dr. Geramy has also participated in numerous workshops on medical education, research, and orthodontic treatment methodologies, further refining his skills and knowledge. His ongoing pursuit of excellence in dental education and research continues to shape his career today.

Experience

Dr. Allahyar Geramy has accumulated over three decades of experience in the field of orthodontics. He began his academic career as an Assistant Professor of Orthodontics at Shiraz University of Medical Sciences from 1995 to 2003. During this period, he also served as a Visiting Lecturer at Yazd University of Medical Sciences. In 2004, Dr. Geramy joined Tehran University of Medical Sciences, where he has held roles ranging from Assistant Professor to Associate Professor and, later, a full Professor in the Department of Orthodontics. His leadership experience includes serving as the Head of the Department of Orthodontics at TUMS from 2017 to 2021 and Coordinator for post-graduate studies at the university from 2003 to 2017. Dr. Geramy’s extensive clinical experience includes supervising dental students, providing patient care, and contributing to orthodontic research and practice in various hospitals across Iran.

Awards and Honors

Dr. Allahyar Geramy’s outstanding academic and professional contributions have earned him multiple prestigious awards and honors. In 1983, he received his High School Diploma with high grades, and later, he was selected for inclusion in several editions of Who’s Who in the World and Who’s Who in Medicine and Healthcare. In 2000, Dr. Geramy was named the pioneer researcher of Shiraz University of Medical Sciences. He also earned the third prize at the 11th Razi International Research Festival in 2005. His recognition as a leading figure in orthodontics and dental biomechanics is a testament to his dedication to advancing the field. His clinical excellence, groundbreaking research, and tireless commitment to dental education have made him a respected and highly influential figure in the global orthodontic community.

Research Focus

Dr. Allahyar Geramy’s research interests are centered around dental biomechanics, particularly the application of finite element analysis (FEA) in orthodontics. His work focuses on understanding the stresses and forces acting on teeth and the surrounding tissues during orthodontic treatment. His pioneering research on alveolar bone resorption, implant-supported restorations, and orthodontic tooth movements has garnered significant attention in the field. Dr. Geramy has explored the impact of orthodontic forces on the periodontal membrane and bone remodeling, contributing to a deeper understanding of tooth movement and retention. His work on implant-assisted restorations, especially the stress distribution around implants and the impact of various treatments on dental health, has been instrumental in advancing the field of orthodontics. Through his research, Dr. Geramy continues to bridge the gap between theoretical knowledge and clinical application, making significant strides in orthodontic care and dental research.

Publication Top Notes

📚 Alveolar bone resorption and the center of resistance modification (3-D analysis by means of the finite element method)
📚 Finite element analysis of three designs of an implant-supported molar crown
📚 Initial stress produced in the periodontal membrane by orthodontic loads in the presence of varying loss of alveolar bone: a three-dimensional finite element analysis
📚 Non-adult dental age assessment: correspondence analysis and linear regression versus Bayesian predictions
📚 Abfraction: 3D analysis by means of the finite element method
📚 Secondary trauma from occlusion: three-dimensional analysis using the finite element method
📚 Influence of implant position on stress distribution in implant-assisted distal extension removable partial dentures: a 3D finite element analysis
📚 The effect of vertical bracket positioning on torque and the resultant stress in the periodontal ligament—a finite element study
📚 The effects of splinting periodontally compromised removable partial denture abutments on bone stresses: a three-dimensional finite element study
📚 Displacement and force distribution of splinted and tilted mandibular anterior teeth under occlusal loads: an in silico 3D finite element analysis
📚 Stress distribution around maxillary anterior implant as a factor of labial bone thickness and occlusal load angles: a 3D finite element analysis

Fatemeh Farhadi | Sports Injuries Prevention | Best Researcher Award

Posted on by sciencefatherLeave a Comment on Fatemeh Farhadi | Sports Injuries Prevention | Best Researcher Award

Dr Fatemeh Farhadi | Sports Injuries Prevention | Best Researcher Award

Dr Fatemeh Farhadi , Essex University, United Kingdom

Fatemeh Farhadi is a dedicated researcher in the field of biomechanics with a Ph.D. in Mechanical Engineering from the University of Michigan and Shanghai Jiao Tong University, specializing in sports biomechanics and injury prevention. Her academic journey began with a B.Sc. in Biomedical Engineering, where she was the top-ranked student, followed by an M.Sc. in Biomedical Engineering, both from the Science and Research University, Tehran, Iran. Farhadi’s research focuses on computational modeling, experimental biomechanics, and the development of innovative injury prevention strategies. She has authored numerous publications in prestigious journals and presented her work at international conferences. Known for her technical proficiency in software like ABAQUS, MATLAB, and SolidWorks, Farhadi excels in finite element analysis, experimental testing, and gait analysis. Her contributions to the field have been recognized with awards, including the Student Travel Grant from the International Society of Biomechanics in 2019.

Publication Profile

Scopus

Strengths for the Award

  1. Strong Educational Background: Fatemeh Farhadi has a comprehensive academic history with a Ph.D. in Mechanical Engineering, focusing on sports biomechanics and injury prevention practices. Her education spans prestigious institutions like the University of Michigan and Shanghai Jiao Tong University.
  2. Relevant Research Focus: Her work in sports biomechanics, particularly in injuries prevention, aligns perfectly with the objectives of the award. This focus is further supported by her expertise in computational modeling, experimental biomechanics, and gait analysis, which are critical areas in sports injury research.
  3. Significant Publications: Fatemeh has a strong publication record in high-impact journals, covering topics such as stress fractures in metatarsals, gait retraining, and biomimetic constructs for osteochondral regeneration. These publications demonstrate her active contribution to advancing knowledge in her field.
  4. Technical Proficiency: She is proficient in various advanced software tools and methodologies, such as Finite Element Analysis (FEA), MATLAB, SolidWorks, and image processing, which are essential for cutting-edge research in sports biomechanics.
  5. Research Achievements: Fatemeh has been recognized for her academic excellence, consistently ranking at the top of her class during her B.Sc. and M.Sc. studies. Her accomplishments also include receiving a Student Travel Grant from the International Society of Biomechanics.

Areas for Improvement

  1. Broader Impact: While Fatemeh’s research is highly specialized and technical, expanding the applicability of her work to a broader range of sports or injuries could enhance her candidacy. Diversifying her research portfolio to include more interdisciplinary collaborations might also be beneficial.
  2. Leadership and Mentorship Roles: To strengthen her profile for the award, demonstrating leadership in research groups or mentorship of junior researchers would be advantageous. While her technical skills are strong, evidence of guiding others in the field could showcase her as a leader in the research community.
  3. Outreach and Public Engagement: Increasing her involvement in outreach activities or public engagement related to injury prevention in sports could help in building a more well-rounded profile. This could include workshops, webinars, or community-based projects that disseminate her research findings to a broader audience.

 

Education 

Fatemeh Farhadi’s academic foundation is rooted in Biomedical and Mechanical Engineering. She earned her Ph.D. in Mechanical Engineering from the University of Michigan and Shanghai Jiao Tong University (2015-2023), with a focus on sports biomechanics and injury prevention practices. During her Ph.D., she conducted groundbreaking research in biomechanics, aiming to develop innovative strategies for injury prevention. Prior to her Ph.D., she completed an M.Sc. in Biomedical Engineering (2009-2012) from the Biomedical Engineering Department of Science and Research University, Tehran, Iran, achieving a GPA of 17.60/20. Her master’s research was centered around biomaterials, laying the groundwork for her expertise in the biomechanics of human movement. Farhadi’s academic journey began with a B.Sc. in Biomedical Engineering (2005-2009) from the same university, where she was the first-ranked student, graduating with a GPA of 17.31/20. Her consistent academic excellence has been a hallmark of her educational journey.

Experience 

Fatemeh Farhadi has amassed extensive experience in the field of biomechanics, focusing on both academic research and practical applications. Her Ph.D. research, conducted at the University of Michigan and Shanghai Jiao Tong University, involved pioneering studies in sports biomechanics and injury prevention. Farhadi’s expertise extends to the proficient use of advanced software tools such as ABAQUS, MATLAB, SolidWorks, and IA-FEMesh for the simulation and modeling of the human body, coupled with a strong foundation in finite element analysis and experimental testing. Throughout her career, she has contributed to several high-impact research projects, ranging from gait analysis to the development of smart passive gait retraining interventions. Additionally, Farhadi has presented her research at international conferences, earning recognition within the biomechanics community. Her skills in project management, technical writing, and statistical analysis have further enhanced her ability to lead and contribute to multidisciplinary research teams effectively.

Research Focus

Fatemeh Farhadi’s research is deeply rooted in sports biomechanics and injury prevention, with a particular focus on the lower extremities. Her work integrates computational modeling, experimental biomechanics, and innovative design to address critical challenges in injury prevention. Farhadi’s Ph.D. research explored finite element analysis of metatarsal stress fractures, providing new insights into injury mechanisms during dynamic activities like running and jumping. She has also developed smart passive gait retraining interventions aimed at reducing plantar pressure, which have shown promising short-term results in preventing common foot injuries. Farhadi’s interest in hip, knee, and foot injury prevention extends to gait analysis, where she investigates the biomechanics of movement to develop ergonomic solutions that enhance athletic performance and reduce injury risk. Her interdisciplinary approach combines technical expertise in simulation and modeling with a practical understanding of biomechanical testing and prototyping, positioning her as a leading researcher in sports injury prevention.

Publication Top Notes

🦵 Fatemeh Farhadi, “Extended finite element analysis for the 2nd and 3rd metatarsals stress fracture during push-off.” Computer Methods in Biomechanics and Biomedical Engineering 27 (2024): 1-11. DOI:10.1080/10255842.2024.2374528

🏃‍♀️ Fatemeh Farhadi, “Two Dimensional Finite Element Modeling of Metatarsal Stress Fracture during Push-off.” 29th Congress of the European Society of Biomechanics (2024), Edinburgh: Oral presentation.

👟 Farhadi, F., Ou, H., Shull, P., & Johnson, S. “Smart passive gait retraining intervention via pebbles for reducing peak plantar pressure: short-term results.” Medicine in Novel Technology and Devices 19 (2023): 100242-53. DOI:10.1016/j.medntd.2023.100242

🦶 Farhadi, F., Faraz, M., Heng, M., & Johnson, S. “An ergonomic testing system for the first metatarsophalangeal joint stiffness.” Biomechanical Engineering 140.10 (2018): 104501-7. DOI:10.1115/1.4040248

Conclusion

Fatemeh Farhadi is a highly qualified candidate for the Research for Best Researcher Award, particularly due to her specialized focus on sports biomechanics and injury prevention. Her strong academic background, extensive publication record, and technical expertise make her a compelling nominee. However, to further strengthen her candidacy, expanding the impact of her research, demonstrating leadership in the academic community, and engaging in broader outreach could be beneficial. Overall, she is a strong contender for this award, with the potential for significant contributions to the field of sports injury prevention.