Dr. Keiichiro Kuronuma – Nuclear Imaging – Best Researcher Award

Dr. Keiichiro Kuronuma - Nuclear Imaging - Best Researcher Award

National Hospital Organization Okayama Medical Center - Japan

Author Profile 

SCOPUS

Early academic pursuits 🎓

Keiichiro Kuronuma's academic journey began at nihon university, where he earned both his m.d. and ph.d., laying the foundation for his illustrious career in cardiology. his early studies focused on the intricacies of heart disease, providing him with the knowledge and skills needed to excel in this highly specialized field. his dedication to both medicine and research was evident from the beginning, paving the way for his future successes.

Professional endeavors 🏥

After completing his education, keiichiro embarked on a path of clinical excellence. he trained as a fellow in cardiology at nihon university, further sharpening his expertise. seeking to enhance his skill set in advanced imaging, he pursued a fellowship in advanced cardiac imaging at cedars-sinai medical center under the mentorship of dr. daniel berman. this prestigious training led to roles such as chief physician of cardiology at kawaguchi municipal medical center and assistant professor of cardiology at nihon university. today, he serves as the attending physician of cardiology at the national hospital organization okayama medical center.

Contributions and research focus 🔬

Keiichiro’s work is centered around improving diagnostic techniques in cardiology, with a particular focus on nuclear medicine and cardiovascular imaging. his Nuclear Imaging research delves into the use of advanced cardiac imaging techniques like cardiovascular computed tomography and nuclear imaging to enhance the early detection and treatment of heart diseases. through his research, he has contributed to the development of non-invasive methods that provide crucial insights into cardiovascular health.

Accolades and recognition 🏅

Keiichiro’s dedication to his field has earned him board certifications in multiple specialties, including internal medicine, cardiology, nuclear medicine, cardiovascular Nuclear Imaging computed tomography, and cardiovascular interventional therapeutics. these certifications reflect his extensive expertise and his commitment to both patient care and clinical innovation. his accomplishments in the field have positioned him as a respected figure in cardiology.

Impact and influence 🌍

Keiichiro kuronuma’s work has a significant impact on the field of cardiology, particularly in the realm of diagnostic imaging. his expertise in advanced cardiac imaging techniques has improved the accuracy of cardiovascular diagnoses, leading to better treatment outcomes for patients. his contributions have not only enhanced Nuclear Imaging clinical practice but have also inspired other physicians and researchers to explore innovative methods in cardiac care.

Legacy and future contributions 🔮

As Keiichiro continues his work at the national hospital organization okayama medical center, his legacy in cardiology grows. his dedication to improving diagnostic techniques and his commitment to patient care ensure that his influence will endure. future generations of cardiologists will undoubtedly benefit from his pioneering work in advanced cardiac imaging and his leadership in the field.

Notable Publications 

  • Title: Self-reported exercise activity influences the relationship between coronary computed tomography angiographic finding and mortality
    Authors: Natanzon, S.S., Han, D., Kuronuma, K., Berman, D.S., Rozanski, A.
    Journal: Journal of Cardiovascular Computed Tomography, 2024, 18(4), pp. 327–333
  • Title: Downward myocardial creep during stress PET imaging is inversely associated with mortality
    Authors: Kuronuma, K., Miller, R.J.H., Wei, C.-C., Berman, D.S., Slomka, P.J.
    Journal: European Journal of Nuclear Medicine and Molecular Imaging, 2024, 51(6), pp. 1622–1631
  • Title: Patient-Specific Myocardial Infarction Risk Thresholds from AI-Enabled Coronary Plaque Analysis
    Authors: Miller, R.J.H., Manral, N., Lin, A., Slomka, P.J., Dey, D.
    Journal: Circulation: Cardiovascular Imaging, 2024, e016958
  • Title: Automated Motion Correction for Myocardial Blood Flow Measurements and Diagnostic Performance of 82Rb PET Myocardial Perfusion Imaging
    Authors: Kuronuma, K., Wei, C.-C., Singh, A., Berman, D.S., Slomka, P.J.
    Journal: Journal of Nuclear Medicine, 2024, 65(1), pp. 1–8
  • Title: Cardiac Computed Tomography for Quantification of Myocardial Extracellular Volume Fraction: A Systematic Review and Meta-Analysis
    Authors: Han, D., Lin, A., Kuronuma, K., Berman, D.S., Tamarappoo, B.K.
    Journal: JACC: Cardiovascular Imaging, 2023, 16(10), pp. 1306–1317

Dr. Amina Benabid – Medical image analysis – Best Researcher Award

Dr. Amina Benabid - Medical image analysis - Best Researcher Award

Zhejiang Normal University - China

Professional Profile

SCOPUS

Early Academic Pursuits

Amina Benabid embarked on her academic journey with a Bachelor's degree in Mathematics from Université Frères Mentouri - Constantine 1, Algeria, which she completed in July 2016. She continued her education with a Master's degree in Mathematics from the same university, focusing on Statistical Tests, and graduated in July 2018. Her academic pursuits culminated in a Doctor of Natural Science in Mathematics from Zhejiang Normal University, China, in June 2022. Her doctoral thesis, supervised by Prof. Dao-Hong Xiang, explored the Convergence Theory of Large Margin Learning.

Professional Endeavors

Dr. Amina Benabid has gained diverse professional experience in both research and academic roles. She served as a Research Assistant at the School of Data Science, City University of Hong Kong, under the supervision of Prof. Ding-Xuan Zhou in July 2019. Subsequently, she held a Medical image analysis Postdoctoral fellowship position at Zhejiang Normal University's College of Mathematical Medicine from August 2022 to August 2024, working under the guidance of Prof. Yuan Jing.

Contributions and Research Focus

Dr. Benabid's research interests are focused on Statistical Learning Theory, Medical Image Analysis, Deep Learning, and Semantic Segmentation. She has made significant contributions to these fields through several publications and ongoing research projects. Her work includes papers Medical image analysis such as "Comparison theorems on large-margin learning" and "CFNet: Cross-scale Fusion Network for Brain Tumor Segmentation on 3D MRI Scans." Her research emphasizes integrating contextual information for enhanced brain tumor classification and developing real-time semantic segmentation models.

Accolades and Recognition

Throughout her career, Dr. Benabid has been recognized for her academic achievements and contributions. She received the Outstanding Award for academic innovation in 2021 and was honored as an Excellent Student in 2022. Her work has been acknowledged at various international conferences, including the 4th International Symposium on Artificial Intelligence for Medical Sciences and the 6th International Symposium on Medical image analysis Image Computing and Digital Medicine.

Impact and Influence

Dr. Amina Benabid's research has had a profound impact on advancing the understanding and application of deep learning techniques in medical image analysis, particularly in the context of brain tumor segmentation. Her contributions to the development of real-time semantic segmentation models using innovative approaches like CFNet and P2AT have set benchmarks in the field.

Legacy and Future Contributions

Looking ahead, Dr. Benabid aims to continue her research endeavors, focusing on further advancements in medical image analysis and deep learning. Her commitment to leveraging artificial intelligence for improving healthcare outcomes underscores her dedication to making significant contributions to the field. Through ongoing research and mentorship, she seeks to inspire future generations of researchers and contribute to transformative innovations in medical imaging technologies.

NOTABLE PUBLICATIONS

Dr. Nathalie Asherie – Medicine and Health Sciences – Best Researcher Award

Dr. Nathalie Asherie - Medicine and Health Sciences - Best Researcher Award

Hadassah University Medical Center - Israel

AUTHOR PROFILE

SCOPUS

EARLY ACADEMIC PURSUITS

Dr. Nathalie Asherie began her academic journey with a Bachelor of Science in Biotechnology Engineering from ORT Braude College in Karmiel, Israel, graduating cum laude in 2000. She then pursued a Master’s degree in Microbiology at the Hebrew University, Hadassah Medical School, Jerusalem, from 2002 to 2005. Her thesis focused on the involvement of the CD44 molecule in Type 1 diabetes of non-obese diabetic (NOD) mice. She continued her education at the same institution, earning a Ph.D. in Immunology, also with honors, and receiving the Excellence Prize for her Ph.D. thesis in 2012. Her doctoral research delved into the role of CD44 in Type 1 diabetes, identifying a redundant molecule, RHAMM, that supports the migration of inflammatory cells, and examining CD44’s role in β-cell demise.

PROFESSIONAL ENDEAVORS

Dr. Asherie's professional career began with a research associate position at Omrix Biopharmaceuticals, where she contributed to the development of life-saving products derived from human plasma. She then interned at Alomone Labs, focusing on polyclonal antibody design and production. Her extensive industry experience provided a solid foundation for her later roles in academia and clinical research.

CONTRIBUTIONS AND RESEARCH FOCUS ON MEDICINE AND HEALTH SCIENCES

Dr. Asherie's research focuses on finding applicative solutions to immune disorders, including autoimmunity, immune deficiency, and cancer. Her significant contributions include the optimization of anti-BCMA CAR-T cells, process development, Medicine and Health Sciences and CAR humanization. Her work on the anti-BCMA CAR-T based treatment for MM and AL is particularly noteworthy, having enrolled and treated nearly 80 patients. Her innovative research has been published extensively, highlighting her role in advancing cellular therapies and immunological treatments.

IMPACT AND INFLUENCE

Dr. Asherie’s impact is evident in her numerous publications and the successful clinical trials she has led. Her work has garnered recognition in the scientific community, evidenced by awards such as the First Best Abstract Award at the 7th Congress on Controversies in Stem Cell Transplantation and Cellular Therapies in 2022 and the Excellence Prize for her Ph.D. thesis. Her contributions to the field of immunology and cellular therapy have influenced current practices and opened new avenues for treatment.

ACADEMIC CITES

Dr. Asherie’s research has been widely cited in the scientific literature, reflecting her influence in the field. Key publications include her work on the anti-BCMA CAR-T cells published in Haematologica and the Journal of Clinical Oncology, Medicine and Health Sciences which have contributed significantly to the understanding and treatment of multiple myeloma and other immune-related disorders. Her research on the molecular mechanisms involving miR-103 in glucocorticoid-induced apoptosis of hemopoietic tumor cells has also been influential.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Asherie’s legacy is marked by her pioneering research and successful implementation of advanced cellular therapies. Her work on CAR-T cell therapy for cancer treatment represents a significant advancement in the field. Moving forward, she aims to continue her research in immunology, focusing on developing novel treatments for immune disorders and enhancing the efficacy of existing therapies. Her commitment to training new personnel and her ongoing contributions to clinical trials ensure that her impact will extend well into the future.

NOTABLE PUBLICATIONS

Development and Validation of a Prediction Model of Outcome After B-Cell Maturation Antigen-Directed   2024(1)

Clonal Myeloid Dysplasia Following CAR T-Cell Therapy: Chicken or the Egg?   2023(3)

Development and manufacturing of novel locally produced anti-BCMA CART cells for the treatment   2023(9)

Early lymphocyte collection for anti-CD19 CART production improves T-cell fitness in patients with relapsed/refractory  2023(4)

Feasibility of a Novel Academic BCMA-CART (HBI0101) for the Treatment of Relapsed and Refractory AL Amyloidosis   2022(11)