Dr. Christina Tise | Servant Leadership | Best Researcher Award

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Dr. Christina Tise | Servant Leadership | Best Researcher Award

Stanford University, United States

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Early Academic Pursuits 📚

Christina G. Tise, MD, PhD, embarked on her academic journey with a passion for the sciences, particularly in biochemistry. She pursued her undergraduate studies at Virginia Tech, where she obtained a Bachelor of Science in Biochemistry in May 2009. This foundational knowledge set the stage for her future work in medical genetics and genomics. During her time at Virginia Tech, Dr. Tise demonstrated a keen interest in how molecular biology could inform healthcare, leading her to pursue more specialized studies in the medical and genetic sciences.

In pursuit of her medical career, Dr. Tise entered the University of Maryland School of Medicine in 2010, where she completed her Doctor of Medicine (MD) degree in 2018. However, her academic pursuit did not stop there. While studying medicine, she simultaneously worked towards a PhD in Epidemiology and Human Genetics, with a focus on Human Genetics and Genomic Medicine. Her combined approach to MD and PhD studies allowed her to integrate clinical knowledge with a deep understanding of genetic research, particularly in genomics.

Professional Endeavors 🏥

Following her academic achievements, Dr. Tise’s professional career began to take shape at some of the most renowned institutions in the United States. She completed her internship in Pediatrics at Lucile Packard Children’s Hospital, Stanford, in 2019, which marked the start of her clinical journey. She continued her medical training with a residency in Medical Genetics at both Stanford University Medical Center and Lucile Packard Children’s Hospital. Her residency in medical genetics was a pivotal time in her career, as she honed her skills in diagnosing and managing genetic conditions in pediatric populations.

In 2021, Dr. Tise pursued a fellowship in Clinical Biochemical Genetics at Stanford University Medical Center and Lucile Packard Children’s Hospital. This specialized training further refined her expertise in biochemical genetics, a critical field for diagnosing metabolic and other genetic disorders that require advanced biochemical analysis. By June 2022, Dr. Tise’s impressive trajectory in medical genetics had earned her a prominent position as an Assistant Professor of Pediatrics in Medical Genetics at Stanford University, where she currently serves in this role.

Contributions and Research Focus 🔬

Dr. Tise’s research focuses on the intersection of human genetics and genomics, specifically in the field of medical genetics. Her PhD work at the University of Maryland School of Medicine centered on human genetics and genomic medicine, laying the groundwork for her subsequent research. In her clinical work, she has significantly contributed to the understanding of biochemical genetics, working on diagnostic strategies for complex genetic conditions.

As an academic physician, Dr. Tise’s research interests include the integration of genetic testing in clinical settings, advancing methodologies for diagnosing rare and inherited metabolic disorders, and leveraging genomic data to tailor patient care. She has published various studies on genetic disorders and their clinical implications, exploring how genomic data can improve precision medicine. Her research also touches on public health genetics, examining epidemiological patterns of genetic disorders and their environmental interactions.

Accolades and Recognition 🏅

Throughout her career, Dr. Tise has garnered recognition for her expertise and contributions to the field of medical genetics. She is board-certified by the American Board of Medical Genetics and Genomics in both Clinical Genetics and Genomics as well as Clinical Biochemical Genetics. These certifications speak to her depth of knowledge and clinical skills in genetics.

In addition to her academic qualifications, Dr. Tise holds a California Medical License and Drug Enforcement Administration (DEA) registration, enabling her to practice medicine and contribute to clinical research in her specialized areas. Her clinical and academic achievements have earned her a respected position in the field, where she continues to contribute to advancing medical genetics.

Impact and Influence 🌟

Dr. Tise’s work as an Assistant Professor at Stanford University has a significant impact on both her patients and the broader medical community. Through her clinical practice, she has directly influenced the care of patients with genetic disorders, particularly in pediatrics. Her research contributes to the body of knowledge in genetics, which in turn informs clinical practice, offering more accurate diagnostics and treatment strategies for genetic diseases.

Her educational role at Stanford also allows her to mentor and guide the next generation of geneticists and medical professionals. By training residents and fellows, she ensures that the latest genetic knowledge is passed on to those who will continue to innovate in the field. Through her commitment to both clinical care and research, Dr. Tise has become a vital force in the evolution of medical genetics.

Legacy and Future Contributions 🌱

Dr. Tise’s legacy is one of excellence in academic medicine, research, and clinical care. As she continues to make strides in the fields of genetic medicine and biochemistry, her contributions are setting the stage for groundbreaking work in genetic testing, diagnosis, and treatment. She is expected to have a long-lasting impact on how genetic conditions are understood and managed, particularly in pediatric populations.

Looking ahead, Dr. Tise plans to continue her research into the biochemical and genetic underpinnings of rare diseases. Her future work is likely to have a significant influence on personalized medicine, especially in the field of metabolic disorders. With her leadership at Stanford and her ongoing research endeavors, Dr. Tise will undoubtedly remain a key figure in the evolving field of medical genetics, pushing the boundaries of what is possible in genomic medicine and improving the lives of countless individuals affected by genetic conditions.

📝Notable Publications

Considerations for Reporting Variants in Novel Candidate Genes Identified During Clinical Genomic Testing

Authors: Chong, J.X., Berger, S.I., Baxter, S., Bamshad, M.J., Rehm, H.L.

Journal: Genetics in Medicine

Pages: 101199

Fetal Phenotype and Diagnosis of Autosomal Dominant Robinow Syndrome Due to Novel DVL1 Variant

Authors: Smith, C.M., Guinon, K., Bachir, S., Tise, C.G.

Journal: Prenatal Diagnosis

Year: 2024

Newborn Screening for X-Linked Adrenoleukodystrophy (X-ALD): Biochemical, Molecular, and Clinical Characteristics of Other Genetic Conditions

Authors: Mares Beltran, C.F., Tise, C.G., Barrick, R., Enns, G.M., Abdenur, J.E.

Journal: Genes

Year: 2024

Molecular Testing in Newborn Screening: VUS Burden Among True Positives and Secondary Reproductive Limitations via Expanded Carrier Screening Panels

Authors: Cook, S., Dunn, E., Kornish, J., Cusmano-Ozog, K.P., Tise, C.G.

Journal: Genetics in Medicine

Year: 2024

Monozygotic Twins Discordant for a Congenital Cranial Dysinnervation Disorder with Features of Moebius Syndrome

Authors: Gates, R.W., Webb, B.D., Stevenson, D.A., Ruzhnikov, M.R.Z., Tise, C.G.

Journal: American Journal of Medical Genetics, Part A

Year: 2023

Mr. Andrews Tang | Ethical Leadership |Best Researcher Award

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Mr. Andrews Tang | Ethical Leadership |Best Researcher Award

KNUST, Ghana

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Early Academic Pursuits 🎓

Andrews Tang’s academic journey began at the prestigious Kwame Nkrumah University of Science and Technology (KNUST) in Ghana, where he pursued a Bachelor of Science degree in Computer Engineering. A driven and focused scholar, Andrews consistently achieved high academic marks, earning First Class Honours with a CGPA of 3.74 out of 4.0, which corresponds to an impressive 76.18% Cumulative Weighted Average (CWA). His performance not only demonstrated his dedication to excellence but also solidified his foundational knowledge in engineering principles, mathematics, and computer science—skills he would later leverage in research. Andrews’ early interest in computer vision and deep learning set him apart, leading him to specialize in these advanced fields of study. Through rigorous coursework and early exposure to complex computational concepts, he built a solid academic background that would fuel his research ambitions in both blockchain and artificial intelligence.

Professional Endeavors 🌍

After excelling academically, Andrews immersed himself in hands-on research, working with KNUST’s Distributed IoT-based Platforms, Privacy, and Edge-Intelligence Research (DIPPER) Lab. Here, he first served as an Undergraduate Student Researcher, focusing on blockchain-based decentralized systems. His initial project, aimed at developing a fully decentralized food traceability system, addressed critical issues in Ghana’s agricultural supply chains. Utilizing platforms like Hyperledger Fabric, Docker, and Docker Compose, Andrews designed a system that enhances transparency and security in food distribution—an innovation that speaks directly to Ghana’s agricultural priorities. In addition, he furthered his expertise as a Research Assistant, working on a deep learning project that applied computer vision to assess the condition of tomatoes. By integrating tools like MobileNetV2 and Trident-YOLO, Andrews developed models that accurately classified tomato diseases, and, by combining them with Support Vector Regression (SVR) models, he created comprehensive solutions for agricultural quality control.

Contributions and Research Focus 🔬

Throughout his career, Andrews has contributed meaningfully to diverse fields, including computer vision, blockchain, and machine learning. One of his notable achievements was developing the AfroPALM collective, a set of deep learning models for detecting adulteration in red palm oil. Working with DIPPER Lab and the Responsible Artificial Intelligence Lab (RAIL), he collected data from multiple Ghanaian regions and applied deep learning methods like GhostNet and SqueezeNet to create AfroPALM-Custom. This model achieved an impressive test accuracy and F1-score exceeding 90%, setting new standards for food safety and quality control in Africa. Furthermore, Andrews ventured into aviation safety with his recent project on predictive modeling for the Instrument Landing System (ILS). By applying the CatBoost classifier and leveraging Python for predictive analytics, he improved ILS accuracy under low-visibility conditions, thus addressing significant challenges in aviation safety.

Accolades and Recognition 🏆

Andrews Tang’s research has earned him recognition within academic and professional circles. His contributions to computer engineering, particularly in creating practical solutions for real-world issues, have positioned him as a promising young researcher. His publication on blockchain applications in food traceability received attention for its innovative use of decentralized platforms, demonstrating his commitment to applying academic knowledge to critical, real-world problems. Andrews’ work on the AfroPALM models, with its impressive performance metrics, has established him as a researcher capable of pioneering new approaches in machine learning and food quality analysis.

Impact and Influence 🌟

Andrews’ work extends beyond academic achievement; it represents impactful contributions to Ghana’s agriculture and food industries, aviation, and public safety. His blockchain-based food traceability project not only supports Ghana’s agricultural development but also encourages transparency and efficiency in food distribution systems—a necessity for health and economic security. Similarly, his work on detecting adulteration in red palm oil helps to protect consumers from unsafe products while preserving the economic integrity of local producers. His aviation research on ILS reliability also underscores his commitment to public safety, showcasing the far-reaching impact of his work in various sectors.

Legacy and Future Contributions 🚀

Looking to the future, Andrews aims to continue advancing research in deep learning and computer vision, with a particular focus on their applications in sectors crucial to Ghana’s development. His recent ventures into machine learning for predictive modeling in aviation safety suggest an evolving focus on high-stakes industries that rely heavily on accuracy and reliability. Andrews envisions expanding his research to include broader aspects of artificial intelligence, with a goal to address challenges not only in agriculture and aviation but also in healthcare, environmental monitoring, and energy sectors.

By focusing on practical, solution-oriented research, Andrews Tang is building a legacy of innovation and dedication to societal improvement. His journey from a dedicated student to a visionary researcher reflects his passion for harnessing technology to tackle complex problems, paving the way for a future of meaningful contributions in the fields of AI, machine learning, and blockchain.

📝Notable Publications

Assessing blockchain and IoT technologies for agricultural food supply chains in Africa: A feasibility analysis

Authors: A. Tang, E.T. Tchao, A.S. Agbemenu, E. Keelson, G.S. Klogo, J.J. Kponyo

Journal: Heliyon

Year: 2024

An Open and Fully Decentralised Platform for Safe Food Traceability

Authors: E.T. Tchao, E.M. Gyabeng, A. Tang, J.B.N. Benyin, E. Keelson, J.J. Kponyo

Journal: 2022 International Conference on Computational Science and Computational

Year: 2022

Assist Prof Dr. Maryam Ghiyasiyan-Arani | Authentic Leadership | Young Scientist Award

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Assist Prof Dr. Maryam Ghiyasiyan-Arani | Authentic Leadership | Young Scientist Award

 

Tsinghua University, China

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🎓 Early Academic Pursuits

Maryam Ghiyasiyan-Arani began her academic journey with a Bachelor of Science in Pure Chemistry at Kashan University (2010-2014), where she demonstrated remarkable academic prowess, ranking 1st in her class with a GPA of 18.09/20. Following this success, she pursued a Master of Science in Nanoscience and Nanotechnology (Nanochemistry) at the same institution from 2014 to 2016, again ranking 1st in her class with an even higher GPA of 19.35/20. Her interest in nanotechnology and materials science became evident during her MSc studies, where her thesis focused on the synthesis, characterization, and investigation of nanomaterials like vanadates of metals such as Copper(II), Nickel(II), and Cobalt(II) for photocatalytic and optical properties.

Continuing her academic pursuit, she earned her Ph.D. in Nanoscience and Nanotechnology from Kashan University (2016-2020), where she once again ranked at the top of her class. Her doctoral research explored the electrochemical performance of lithium-ion batteries (LIBs) and hydrogen storage materials, particularly focusing on vanadate, niobate, and spinel nanostructures. Her Ph.D. work was supported by industrial collaborations with the Power Energy Organization and Saba Battery Company, indicating her work’s relevance to real-world energy applications.

🧑‍🔬 Professional Endeavors

Dr. Ghiyasiyan-Arani is currently a faculty member at the Institute of Nanoscience and Nanotechnology, University of Kashan, where she continues her research and mentorship in nanotechnology. Her career is marked by an impressive array of projects focusing on nanomaterials for energy storage, particularly hydrogen storage and lithium-ion batteries. She has been involved in several research projects, including the synthesis of active materials for energy storage, investigation of clay as a hydrogen storage material, and the design of separators for lithium-ion batteries.

Beyond her academic roles, she is a member of several prestigious organizations, including the Iran Nanotechnology Initiative Council (INIC), Young Research and Elite Club, and Iran’s National Elites Foundation, reflecting her recognition as a leading figure in nanoscience.

🔬 Contributions and Research Focus

Dr. Ghiyasiyan-Arani has made significant contributions to the field of nanotechnology, with a strong focus on energy storage materials and environmental applications. Her research interests include:

Synthesis and Characterization of Nanomaterials: She specializes in creating nanomaterials with different morphologies using various chemical methods like precipitation, sonochemistry, microwave, hydrothermal, and sol-gel synthesis.
Electrochemical Hydrogen Storage: A major focus of her work involves improving the capacity of nanomaterials for hydrogen storage, a crucial area for clean energy technologies.
Lithium-Ion Batteries: Her work on LIBs extends to synthesizing active materials (both cathode and anode), designing battery separators, and studying the electrochemical properties of batteries through techniques like impedance spectrometry, galvanostatic charge-discharge, and cyclic voltammetry.
Water Treatment: She is also exploring photocatalytic activities of nanomaterials for water treatment, indicating her focus on environmental sustainability.

🏅 Accolades and Recognition

Dr. Ghiyasiyan-Arani has earned numerous accolades throughout her career. Some notable recognitions include:

Stanford University Top 2% Scientists Worldwide: She was listed among the Top 2% Scientists Worldwide in 2022 and 2023 by Stanford University, highlighting the global impact of her work.
Reviewer of Prestigious Journals: She serves as a reviewer for several ISI-indexed journals like Ultrasonics Sonochemistry, Journal of Alloys and Compounds, International Journal of Hydrogen Energy, and Nanoscale Advances, which reflects her expertise and standing in the academic community.
Reviewer for International Congress on Nanoscience and Nanotechnology: She has also reviewed work for major conferences such as the 7th International Congress on Nanoscience and Nanotechnology (ICNN2018), further contributing to the growth of nanoscience.

🌍 Impact and Influence

Dr. Ghiyasiyan-Arani’s work is particularly impactful in the field of clean energy. Her focus on hydrogen storage materials and lithium-ion batteries positions her research at the forefront of the global push towards sustainable energy solutions. Her publications on electrochemical hydrogen storage and battery materials have added significant insights to the scientific community, advancing the development of more efficient and environmentally friendly energy storage technologies.

Additionally, her contributions to photocatalytic water treatment show her dedication to addressing environmental issues, particularly in developing sustainable methods for cleaning water, a critical resource in a world facing climate change.

🏛️ Legacy and Future Contributions

Dr. Maryam Ghiyasiyan-Arani is poised to leave a lasting legacy in the fields of nanotechnology and energy storage. As a leading researcher in Iran and a globally recognized scientist, her continued work will likely contribute to critical advancements in renewable energy technologies and environmental sustainability. With her ongoing involvement in academia and collaborations with industrial partners, her future contributions are expected to further bridge the gap between fundamental research and practical, real-world applications.

In the coming years, she is likely to make strides in developing next-generation energy storage systems and green technologies, contributing to global efforts to combat climate change and reduce reliance on fossil fuels. Her innovative approaches to nanomaterial synthesis and energy storage position her as a key player in the ongoing evolution of sustainable energy solutions.

📝Notable Publications