Lucas Lopes | Medicina | Best Researcher Award

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Mr. Lucas Lopes | Medicina | Best Researcher Award

Mr. Lucas Lopes, Universidade de São Paulo, Faculdade de Medicina de Bauru,  Brazil.

Lucas Casagrande Passoni Lopes has made significant strides in medical research, academic publishing, and global scientific collaboration. His expertise in pediatric medicine, endocrinology, and healthcare disparities has been widely recognized through his editorial leadership, peer-review contributions, and multilingual engagements. His published works address critical healthcare issues, further cementing his influence in the medical community.

Profile

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🎓 Early Academic Pursuits

Lucas Casagrande Passoni Lopes embarked on his academic journey with an unwavering passion for medicine, enrolling in the prestigious Faculdade de Medicina de Bauru at the Universidade de São Paulo, Brazil. His commitment to excellence and keen interest in pediatric and clinical research set the foundation for his future endeavors. Throughout his academic years, he demonstrated exceptional dedication, immersing himself in scientific studies and medical advancements, laying the groundwork for a promising career in healthcare and medical research.

👩‍🎓 Professional Endeavors

Beyond his medical studies, Lucas took on significant roles in the academic publishing landscape. As the In-Chief Editor of Advances in Modern Paediatrics Journal, he has played a pivotal role in shaping pediatric research dissemination. His editorial contributions extend to renowned medical journals, including Journal of Anaesthesia and Global Open Share Publishing, Clinics of Neurology, Annals of Pediatrics and Neonatal Care, and the European Journal of Cancer. Through his editorial expertise, he has facilitated the publication of groundbreaking research, furthering advancements in multiple medical disciplines.

🔬 Contributions and Research Focus

Lucas has established himself as a prolific researcher, focusing on pediatric medicine, endocrinology, and public health concerns. His notable studies include an in-depth analysis of treatments for dysmenorrhea in adolescents, published in Contemporânea – Revista de Ética e Filosofia Política, and a groundbreaking study on the underreporting of diabetes mellitus as a cause of death over 40 years in Bauru, published in Archives of Endocrinology and Metabolism. His work sheds light on critical gaps in healthcare reporting and patient management, making substantial contributions to medical literature and clinical practice.

🏆 Accolades and Recognition

Lucas’ dedication to medical research has earned him esteemed recognition within the scientific community. As an invited reviewer for numerous high-impact journals, including Current Pediatric Reviews, World Journal of Clinical Cases, International Journal of Clinical and Experimental Medical Sciences, World Journal of Gastroenterology, and Frontiers in Medicine, he has been entrusted with evaluating and shaping contemporary medical research. His expertise is widely acknowledged, with his insights influencing the peer-review process across various fields of medicine.

📚 Impact and Influence

Lucas’ influence extends far beyond his research and editorial roles. His multilingual proficiency in Portuguese, English, French, Italian, Spanish, and German allows him to engage with diverse international scientific communities, fostering cross-border collaborations. His involvement in global medical discourse ensures that cutting-edge research reaches a broader audience, ultimately contributing to the improvement of healthcare systems worldwide. His mentorship and editorial leadership have guided emerging researchers, amplifying the impact of his contributions to medical academia.

🌟 Legacy and Future Contributions

With a strong foundation in medical research and editorial expertise, Lucas continues to shape the future of pediatric and clinical medicine. His ongoing commitment to identifying healthcare disparities, advancing treatment methodologies, and supporting evidence-based medical practices positions him as a key figure in modern medical research. As he forges ahead, his contributions promise to enhance patient care, influence policy reforms, and inspire future generations of medical professionals. His legacy in scientific inquiry and knowledge dissemination will undoubtedly leave a lasting mark on the field of medicine.

 

publication

  • Title: Association between exanthematous diseases and earlier age at Type 1 diabetes diagnosis
    Authors: Lucas C.P. Lopes, Lenita Zajdenverg, Rodrigo L.M. Martins, Gabriel Araujo Medeiros, Marina D. Louro, João V.M. Lanzarin, Carlos A. Negrato
    Year: 2025

 

  • Title: Mortality trends from all causes and diabetes mellitus according to sex between 1998 and 2021
    Authors: Carlos Antonio Negrato, Gabriel Araújo Medeiros, Giordano Bruno Duarte de Souza, Lucas Casagrande Passoni Lopes
    Year: 2024

 

  • Title: Relationship between early age at menarche, older age at menopause and subtypes of breast cancer: a scoping review
    Authors: Lucas Casagrande Passoni Lopes, Gabriel Araújo Medeiros, Igor José Nogueira Gualberto, Thales Baptista Gut, Rafael Vasconcelos Silva Ferrazini, Carlos Antonio Negrato
    Year: 2024

 

  • Title: Association between perinatal and obstetric factors and early age at diagnosis of type 1 diabetes mellitus: a cohort study
    Authors: Carlos A. Negrato, Rodrigo L. de M. Martins, Marina D. Louro, Gabriel A. Medeiros, João V.M. Lanzarin, Lenita Zajdenverg, Lucas C.P. Lopes
    Year: 2024

 

  • Title: Underreporting of diabetes mellitus as the cause of death in Bauru, State of São Paulo, Brazil over 40 years: a documental study
    Authors: Lucas Casagrande Passoni Lopes, Gabriel Araújo Medeiros, Mauro Wieczorek, Marina dos Santos de Carvalho Pinto, Carlos Antonio Negrato
    Year: 2024

 

🎉 Conclusion

As a dedicated researcher, editor, and medical professional, Lucas Passoni continues to push the boundaries of medical knowledge and patient care. His contributions have not only enriched scientific literature but have also fostered meaningful discussions on global healthcare improvements. With his unwavering commitment to excellence, Lucas is poised to leave a lasting legacy in the field of medicine, inspiring future generations of researchers and practitioners alike.

 

 

Baoshun Shi | Metal artifact reduction| Best Researcher Award

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Assoc.Prof.Dr. Baoshun Shi | Metal artifact reduction| Best Researcher Award

Assoc. Prof. Dr.  Baoshun Shi,  Yanshan University,  China.

Baoshun Shi is an esteemed researcher and academic in medical imaging, specializing in CT/MRI reconstruction, deep dictionary learning, and computational imaging. His academic journey from Yanshan University to his current role as an Associate Professor has been marked by groundbreaking research and mentorship. His work has significantly contributed to medical diagnostics, receiving recognition through prestigious grants and impactful publications. His innovations continue to shape the future of medical imaging technologies.

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Google Scholar

 

Early Academic Pursuits ✨

Baoshun Shi embarked on his academic journey with a deep fascination for electronic science and technology. His rigorous training at Yanshan University laid a strong foundation for his expertise in imaging sciences. Under the mentorship of Prof. Qiusheng Lian, he pursued both his Master’s and Ph.D. degrees from 2012 to 2017, immersing himself in advanced research on electronic imaging and computational techniques. His early studies revolved around the intricacies of image reconstruction and enhancement, which would later define his contributions to medical imaging and deep learning methodologies.

Professional Endeavors 🎓

After completing his doctorate, Baoshun Shi transitioned into academia as a Lecturer at the School of Information Science and Engineering at Yanshan University in 2017. His passion for research and education quickly propelled him to the position of Associate Professor in 2021. In this role, he has been instrumental in shaping the next generation of scholars while spearheading groundbreaking studies in medical imaging. His dedication to academic excellence is evident in his mentorship and continuous efforts to push the boundaries of imaging technology.

Contributions and Research Focus 🌍

Baoshun Shi’s research is centered on revolutionizing medical imaging through advanced computational models. His work spans multiple domains, including CT/MRI reconstruction, medical image analysis, deep dictionary learning, and compressed imaging. He has extensively explored imaging inverse problems, leveraging deep learning and model-driven approaches to enhance diagnostic accuracy and efficiency. His innovative methodologies in sparse-view CT reconstruction and metal artifact reduction have significantly contributed to the evolution of medical imaging solutions, making them more precise and accessible.

Accolades and Recognition 🏆

Recognized for his pioneering work, Baoshun Shi has secured prestigious research grants and accolades. As the Principal Investigator, he has led multiple national and provincial research projects, including grants from the National Natural Science Foundation of China and the Hebei Natural Science Foundation. His projects, focused on deep dictionary learning and unsupervised imaging techniques, have earned him a distinguished reputation in the field of medical imaging. His contributions are acknowledged not only through research funding but also through the impact his findings have had on computational imaging advancements.

Impact and Influence 🔄

Baoshun Shi’s research has had far-reaching implications, transforming the landscape of medical imaging and computational diagnostics. His deep-learning-driven approaches have set new benchmarks in image reconstruction, enabling more accurate and efficient analysis of CT and MRI scans. His work has been instrumental in reducing imaging artifacts, improving resolution, and optimizing sparse-view imaging, thereby enhancing diagnostic capabilities. His influence extends beyond research papers, as his findings are being implemented in real-world medical applications, benefiting both practitioners and patients alike.

Legacy and Future Contributions 🌟

As a thought leader in medical imaging and computational science, Baoshun Shi continues to shape the future of imaging technologies. His ongoing research in deep dictionary networks and unsupervised learning models aims to push the boundaries of what is possible in diagnostic imaging. With an unwavering commitment to scientific advancement, he strives to develop cutting-edge solutions that will further enhance medical diagnostics, making them more efficient and accessible. His legacy is one of innovation, mentorship, and transformative contributions to the field of imaging science, paving the way for future breakthroughs.

 

Publication

  • Research advances on dictionary learning models, algorithms and applications – QS Lian, BS Shi, SZ Chen (2015)

 

  • Constrained phase retrieval: when alternating projection meets regularization – B Shi, Q Lian, X Huang, N An (2018)

 

  • Deep prior-based sparse representation model for diffraction imaging: A plug-and-play method – B Shi, Q Lian, H Chang (2020)

 

  • Multi‐scale cross‐path concatenation residual network for Poisson denoising – Y Su, Q Lian, X Zhang, B Shi, X Fan (2019)

 

  • Compressed sensing MRI based on the hybrid regularization by denoising and the epigraph projection – L Qiusheng, F Xiaoyu, S Baoshun, Z Xiaohua (2020)

 

  • Compressed sensing MRI with phase noise disturbance based on adaptive tight frame and total variation – F Xiaoyu, L Qiusheng, S Baoshun (2017)

 

  • Provable general bounded denoisers for snapshot compressive imaging with convergence guarantee – B Shi, Y Wang, D Li (2023)

 

  • FASPR: A fast sparse phase retrieval algorithm via the epigraph concept – B Shi, S Chen, Y Tian, X Fan, Q Lian (2018)

 

  • PPR: Plug-and-play regularization model for solving nonlinear imaging inverse problems – B Shi, Q Lian, X Fan (2019)

 

  • Transfer orthogonal sparsifying transform learning for phase retrieval – Q Lian, B Shi, S Chen (2017)

 

Conclusion 📝

Baoshun Shi’s contributions to medical imaging and computational diagnostics have been transformative. His expertise in deep learning, imaging inverse problems, and artifact reduction has paved the way for more accurate and efficient diagnostic methods. As he continues to push the boundaries of scientific discovery, his legacy remains one of innovation and impact, ensuring that medical imaging evolves to better serve the healthcare industry and patients worldwide.

Zakyeh Akrami | Analytical Chemistry | Best Researcher Award

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Dr. Zakyeh Akrami | Analytical Chemistry | Best Researcher Award

Dr. Zakyeh Akrami, Farhangian University, Iran.

Zakyeh Akrami is a distinguished Assistant Professor at Farhangian University with a rich academic background in applied chemistry, electroanalytical chemistry, and nanotechnology. Her research focuses on the development of innovative electrochemical sensors using nanocomposites like ZnS/MIL-125, which significantly enhance sensor performance. She has made notable contributions to the fields of analytical chemistry, chemistry education, and nanotechnology, producing 18 SCI-indexed publications and an impressive h-index of 9. Throughout her career, she has earned recognition for her work on cost-effective and highly sensitive sensor technologies, which have applications in healthcare, environmental monitoring, and industry. Her legacy extends through her mentorship of students and ongoing contributions to scientific research and education.

 

profile

Scholar

Early academic pursuits 📚

Zakyeh Akrami’s academic journey began with her undergraduate studies at the University of Kashan, where she earned her BSc in Applied Chemistry in 2002. Driven by a passion for chemistry, she continued her studies at the University of Yazd, completing her MSc in 2004 with excellent distinction under the guidance of Professor M.M. Ardakani. Her interest in the intricate world of chemical processes and their applications laid a strong foundation for her subsequent research career. She then pursued a PhD in Electroanalytical Chemistry at the University of Yazd, working under Professor R.K. Shervedani on the functionalization of self-assembled monolayers (SAMs) for the development of innovative electrochemical sensors.

Professional endeavors 👩‍🔬

Zakyeh Akrami is currently an Assistant Professor at Farhangian University, where she imparts her deep knowledge of analytical chemistry and its applications in sensor technology. She has built a reputation for her expertise in electrochemical systems and nanotechnology, particularly focusing on developing highly efficient sensors for detecting both inorganic and biological species. As a passionate educator, she integrates her research findings into her teaching, enriching the learning experience for her students. Beyond academia, Dr. Akrami has also contributed to consultancy projects, helping industries harness the power of electrochemical sensors for practical applications.

Contributions and research focus 🔬

Dr. Akrami’s research primarily revolves around analytical chemistry, with a focus on creating innovative electrochemical sensors. One of her notable contributions includes the development of a cost-effective and highly sensitive electrochemical sensor using a ZnS/MIL-125 nanocomposite. This research explores the synergistic effects of combining metal-organic frameworks (MOFs) with nanomaterials to enhance sensor performance, including increased sensitivity, faster response times, and improved durability. Her work also extends to exploring the potential of nanotechnology in supercapacitors, corrosion prevention, and fuel cell development, showcasing her commitment to advancing sustainable and efficient technologies in the field of chemistry.

Accolades and recognition 🏅

Throughout her career, Zakyeh Akrami has garnered significant recognition for her groundbreaking work in electroanalytical chemistry. With an impressive h-index of 9, Dr. Akrami has published 18 papers in prestigious SCI-indexed journals, solidifying her position as a leading researcher in her field. Her work on electrochemical sensors has attracted considerable attention for its innovative approach and practical applications, earning her the respect of both her peers and industry professionals. As a recognized expert, she has also served on editorial boards for scientific journals, further amplifying her influence in the academic community.

Impact and influence 🌍

Dr. Akrami’s contributions to the field of analytical chemistry have made a significant impact on both academic research and industrial applications. Her development of nanocomposite-based sensors has opened new avenues for more sensitive, cost-effective, and durable detection methods, benefiting environmental monitoring, healthcare, and industrial sectors. Moreover, her educational influence extends beyond the classroom, as she mentors the next generation of chemists and engineers, fostering a passion for research and scientific inquiry. Her work continues to inspire students and colleagues alike, reinforcing the importance of innovation and sustainability in chemistry.

Legacy and future contributions 🔮

As Zakyeh Akrami looks toward the future, her passion for research and development in electrochemical systems remains as strong as ever. Her legacy in the academic community is defined by her unwavering commitment to innovation, as well as her desire to make a tangible difference through the practical application of her research. Moving forward, Dr. Akrami aims to explore the potential of new nanomaterials and their integration into sensor technologies, with an eye toward further advancements in renewable energy and environmental sustainability. Her future contributions promise to shape the future of analytical chemistry and inspire breakthroughs in multiple industries.

📚 Publications

  • Electrocatalytic characteristics of uric acid oxidation at graphite–zeolite-modified electrode doped with iron (III)
    Authors: MM Ardakani, Z Akrami, H Kazemian, HR Zare
    Year: 2006

 

  • Nanostructure Molecular Assemblies Constructed Based on Ex-Situ and In-Situ Layer-by-Layer Ferrioxamation Characterized by Electrochemical and Scanning
    Authors: R Karimi Shervedani, Z Akrami, H Sabzyan
    Year: 2011

 

  • Gold–deferrioxamine nanometric interface for selective recognition of Fe (III) using square wave voltammetry and electrochemical impedance spectroscopy methods
    Authors: RK Shervedani, Z Akrami
    Year: 2013

 

  • Preconcentration and electroanalysis of copper at zeolite modified carbon paste electrode
    Authors: M Mazloum-Ardakani, Z Akrami, H Kazemian, HR Zare
    Year: 2009

 

  • A simple route to surface functionalization of graphene nanosheets by benzoic acid and its application toward Pb (ii) sensing
    Authors: S Rooyanian, M Bagherzadeh, Z Akrami, AN Golikand
    Year: 2018

 

  • The effectiveness of education with the STEM approach in the development of entrepreneurial thinking in chemistry students
    Author: Z Akrami
    Year: 2022

 

  • Accumulation and voltammetric determination of cobalt at zeolite-modified electrodes
    Authors: MM Ardakani, Z Akrami, H Kazemian, HR Zare
    Year: 2008

 

  • One-step synthesis of reduced graphene oxide and magnetic graphene: characterization and its application in electrochemical detection of lead (II) ions
    Authors: M Bagherzadeh, M Jabouri-Abassi, Z Akrami
    Year: 2019

 

  • Sulfate-selective electrode based on a complex of copper
    Authors: MM Ardakani, Z Akrami, M Mansournia, HR Zare
    Year: 2006

 

  • Electrochemical detection of Cr (III) and Cr (VI) in solution by using ZrO2 modified magnetic nanoparticles by redox probes
    Authors: M Bagherzadeh, Z Hadizadeh, Z Akrami, ZS Ghahfarokhi
    Year: 2021

 

Conclusion

Zakyeh Akrami’s career reflects a remarkable commitment to advancing scientific knowledge and practical applications in electrochemical sensing and nanotechnology. Her innovative research continues to make a significant impact on both academia and industry, and her educational efforts shape the future of the chemistry field. With her strong track record of publications, collaborations, and recognition, Dr. Akrami is poised to make even greater contributions in the years to come, driving advancements that will benefit various industries and inspire future generations of researchers.