Stanley Zimba | Clinical Neuroscience | Best Researcher Award

Dr. Stanley Zimba | Clinical Neuroscience | Best Researcher Award

Dr. Stanley Zimba | University of Zambia School of Medicine | Zambia

Stanley Zimba is a distinguished neurologist and academic whose career reflects a rare blend of clinical excellence, research innovation, and medical leadership. With a strong educational foundation in medicine and advanced training in neurology, he has dedicated himself to improving neurological care and education in Zambia. His professional endeavors span across clinical practice in leading hospitals, teaching roles at multiple universities, and leadership in professional organizations. His research has focused on neuroHIV, neuromuscular disorders, and epilepsy, often conducted in collaboration with globally recognized institutions. His outstanding work has earned him prestigious international fellowships, awards, and recognition, making him a prominent voice in neurology within sub-Saharan Africa.

Profile

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Early Academic Pursuits

Stanley Zimba began his academic journey with a strong foundation in the sciences, excelling early in his studies and securing recognition as one of the most outstanding students of his time. His pursuit of higher education led him to the University of Zambia, where he undertook rigorous training in medicine. He first completed a degree in Human Biology before advancing to obtain his Bachelor of Medicine and Bachelor of Surgery. His intellectual curiosity and commitment to medical excellence propelled him to further specialization with a Master of Medicine in Internal Medicine. Driven by a passion for advancing neurological sciences, he embarked on advanced fellowship training in Adult Neurology and later pursued doctoral research in Adult Neurology at the University of Zambia, building the foundation for his career as a clinician–scientist.

Professional Endeavors

Zimba’s professional career has been deeply rooted in both clinical practice and academic medicine. As a consultant neurologist, he has played a central role in establishing neurology services within Zambia’s leading medical institutions, including the University Teaching Hospital where he leads the Neurology and Hematology Unit. His expertise has been sought by private hospitals, where he contributes to expanding access to specialized neurological care. Beyond hospital practice, his influence extends into academia, where he serves as an honorary lecturer across several medical universities in Zambia, shaping the next generation of physicians. His leadership extends further into professional organizations, where he has assumed prominent roles that guide the direction of neurological practice and training within the country.

Contributions and Research Focus

At the heart of Zimba’s career lies a dedication to advancing knowledge in neurology, with particular attention to neurological complications of infectious diseases, neuroHIV, neuromuscular disorders, and epilepsy. His research activities have been strengthened through international collaborations with institutions such as Johns Hopkins University, Harvard University, and the University of Cape Town. He has engaged in translational research exploring the interface between infectious diseases and neurological health, addressing critical gaps in understanding how conditions such as HIV contribute to neurological morbidity. His academic work reflects a blend of clinical expertise and research innovation, positioning him as a leading figure in developing evidence-based approaches to neurological care in sub-Saharan Africa.

Accolades and Recognition

Zimba’s academic and professional journey has been marked by significant recognition from both local and international institutions. He has received prestigious scholarships and fellowships from globally renowned organizations, including the American Academy of Neurology, the Fogarty International Center, and the Peripheral Nerve Society. His contributions have also been acknowledged through competitive awards for scholarly excellence, such as recognition for best scientific presentations and leadership fellowships in global health research. These honors reflect not only his personal commitment to academic excellence but also the international value of his work in neurology.

Impact and Influence

Through his roles in clinical practice, teaching, and leadership, Zimba has had a profound impact on the development of neurology in Zambia. As head of neurology services in the nation’s largest teaching hospital, he has shaped clinical protocols and advanced the training of physicians in specialized neurological care. His academic mentorship has inspired many young medical professionals to pursue careers in neurology and internal medicine. His leadership in professional associations has also created platforms for collaboration, advocacy, and policy development, ensuring that neurological health remains a priority in national and regional health agendas.

Legacy in Medical Leadership

Zimba’s leadership extends beyond the clinic and classroom into national medical governance. By directing specialist training programs and contributing to the regulation of internal medicine through the Health Professions Council of Zambia, he has influenced the standards of medical education and practice across the country. His presidency of the Neurological Association of Zambia positions him as a central figure in shaping the future of neurological practice, advocacy, and awareness, ensuring that patients with neurological disorders receive improved recognition and care.

Future Contributions

Looking forward, Zimba is poised to leave a lasting legacy through his continued commitment to advancing neurological sciences in Zambia and the wider region. His doctoral research and international collaborations promise to generate new insights into neurological disease management, while his leadership roles will likely foster stronger systems for specialist training and healthcare delivery. By combining clinical expertise, academic mentorship, and institutional leadership, he is set to play an instrumental role in positioning Zambia as a center of excellence for neurology in Africa. His career trajectory illustrates a deep dedication not only to scientific advancement but also to the betterment of patient care and health systems in resource-limited settings.

Publications

The Association of Premature Atherosclerosis with Ischemic Stroke in Young People with HIV in Lusaka, Zambia
Authors: Stanley Zimba; Owen Ngalamika; Emmanuel Mukambo; Theresa Shankanga; Bwalya Mulenga; Mike Chisha; Violet Kayamba; Lloyd Mulenga; Omar Siddiqi; Owen A. Ross et al.
Year: 2025

Clinical Reasoning: Rapidly Progressive Dementia in a Man With HIV Infection and Undetectable Plasma Viral Load
Authors: Lorraine Chishimba Chishimba; Mashina Chomba; Stanley Zimba; Melody Tunsubilege Asukile; Obrie Makai; Deanna R. Saylor
Year: 2023

The case of a 42‐year‐old man with progressive gait instability, dysarthria, and dysphagia
Authors: Jennifer Adrissi; Mashina Chomba; Lorraine Chishimba; Stanley Zimba; Igor J. Koralnik; Deanna Saylor
Year: 2023

A Notable Prevalence of HIV-Associated Stroke in an Endemic Region
Authors: Stanley Zimba; Laura Benjamin
Year: 2022

Implementation of a Teleneurology Clinic in Zambia during the COVID‐19 Pandemic
Authors: Melody Asukile; Lorraine Chishimba; Mashina Chomba; Moses Mataa; Frighton Mutete; Naluca Mwendaweli; Kunda Yumbe; Stanley Zimba; Gloria Habanyama; Sydney Shampile et al.
Year: 2022

Inpatient Management of Acute Stroke of Unknown Type in Resource-Limited Settings
Authors: Morgan L. Prust; Deanna Saylor; Stanley Zimba; Fred Stephen Sarfo; Gentle S. Shrestha; Aaron Berkowitz; Nirali Vora
Year: 2022

Clinical Reasoning: An Unusual Case of Acute Psychosis and Tetraparesis in a Young Zambian Man
Authors: Stanley Zimba; Lorraine Chishimba; Mashina Chomba; Deanna Saylor
Year: 2021

Immune reconstitution inflammatory syndrome: a report of TB-IRIS after switching from efavirenz to dolutegravir
Authors: Stanley Zimba; Nyuma Mbewe; Lorraine Chishimba; Mashina Chomba; Deanna Saylor
Year: 2021

Conclusion

Dr. Zimba’s contributions exemplify the qualities of a transformative clinician–scientist who bridges research, practice, and leadership. His work has significantly advanced the understanding and treatment of neurological disorders in Zambia, while also elevating medical education and training standards. Through his leadership positions, he has shaped healthcare policy, specialist training, and advocacy for neurological health. Looking to the future, his research and leadership promise to strengthen neurology as a field in Africa, leaving a legacy of scientific advancement, patient-centered care, and mentorship for future generations.

Rania Awadi | Developmental Neuroscience | Best Researcher Award

Dr. Rania Awadi | Developmental Neuroscience | Best Researcher Award

Dr. Rania Awadi |  Higher Institute of Medical Technologies of Tunis | Tunisia

Dr. Rania Awadi is a biophysics and medical imaging researcher whose work centers on cardiac biomechanics and non-invasive diagnostic techniques. With a PhD in biophysics and medical imaging, she has conducted advanced studies on left ventricle biomechanics using finite element modelling and gained international experience through research internships in France and collaborations with leading medical institutions in Tunisia. Her research expertise lies in cardiovascular MRI, image processing, and myocardial strain assessment, particularly in pediatric populations where diagnostic challenges are more pronounced. Among her significant contributions is a study on Duchenne Muscular Dystrophy, where she applied cardiac MRI feature tracking to identify early subclinical myocardial dysfunction without contrast agents, an advancement with meaningful clinical impact.

Profile

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Early Academic Pursuits

From the outset of her academic journey, Dr. Rania Awadi cultivated a strong foundation in biophysics, medical physics, and medical imaging. Her doctoral studies at the Higher Institute of Medical Technologies of Tunis were marked by a deep focus on the biomechanics of the left ventricle, where she applied finite element modelling to explore complex cardiac dynamics. Early research internships at prestigious institutions such as IMT Atlantique in France and Sorbonne University enriched her academic profile, enabling her to refine her expertise in advanced imaging and computational modelling techniques.

Professional Endeavors

Building upon her academic training, Dr. Awadi advanced into professional roles that merged teaching and research. She joined the Higher Institute of Medical Technologies of Tunis as a lecturer in biomechanics, where she has contributed to shaping future professionals in medical physics and imaging. Her work also extended to clinical collaborations, including her involvement with the Principal Military Hospital of Tunis and Monji Ben Hmida Center, emphasizing translational research that bridges scientific innovation with patient care.

Contributions and Research Focus

Dr. Awadi’s contributions to medical science are anchored in cardiovascular imaging and cardiac biomechanics. Her expertise lies in cardiac magnetic resonance imaging, image processing, and computational modelling, with a particular focus on assessing myocardial strain. She has addressed the unique challenges of pediatric populations, where smaller heart sizes, higher heart rates, and variability in strain demand precise methodologies. Her research has sought to make early diagnosis more accessible and reliable, especially in vulnerable groups affected by genetic and muscular disorders.

Pioneering Research on Duchenne Muscular Dystrophy

Among her notable achievements, Dr. Awadi conducted a pioneering study on myocardial strain assessment for early diagnosis of Duchenne Muscular Dystrophy in pediatric patients using cardiac MRI. Through the application of feature tracking techniques, she demonstrated the feasibility of detecting subclinical myocardial dysfunction without the use of contrast agents, reducing risks in younger patients. Her findings, published in Applied Sciences, underscored significant associations between myocardial strain parameters and structural cardiac changes, providing a non-invasive tool for monitoring disease progression in affected children.

Accolades and Recognition

Dr. Awadi’s scholarly contributions have been recognized in the international research community through publication in high-impact journals. Her work in Applied Sciences has strengthened her standing as an emerging researcher in cardiac imaging and biomechanics. Her collaborations with European and Tunisian research institutions reflect her growing reputation as a scientist capable of fostering cross-border innovation in medical imaging and biomechanics.

Impact and Influence

The impact of Dr. Awadi’s research extends beyond academic recognition to meaningful influence on clinical practices. By offering new insights into myocardial strain assessment, she has contributed to refining diagnostic approaches for conditions like Duchenne Muscular Dystrophy, where early intervention can significantly alter outcomes. Her teaching and mentorship also shape a new generation of researchers and clinicians, further amplifying the reach of her work across academia and healthcare.

Legacy and Future Contributions

Looking ahead, Dr. Awadi’s career continues to chart a path of scientific advancement and clinical relevance. With expertise spanning biomechanics, MRI, and computational modelling, she is poised to deepen investigations into cardiac function across diverse patient populations. Her future contributions are expected to expand the frontiers of non-invasive diagnostics, ensuring that her legacy in cardiovascular biomechanics and imaging is defined by both innovation and tangible impact on patient health.

Publications

Numerical study of two microwave antennas dedicated to superficial cancer hyperthermia
N. Benameur, R. Awadi, A. Bouabidi, M.A. Mohammed, M.U. Rehman, … – 2024

A quasi-static biomechanical model of the human myocardium based on Cardiac Magnetic Resonance images
R. Awadi, N. Benameur, T. Kraiem, L. Salam – 2023

Comparison of Left Ventricle Deformation Analysis Using Abaqus and CVi42 Software: Insights from Healthy Subjects and patients with Myocardial Infarction
R. Awadi, N. Benameur, A. Sleimi, L. Salam – 2025

Myocardial Strain Assessment for Early Duchenne Muscular Dystrophy Diagnosis in Pediatric Patients Using Cardiac MRI
R. Awadi, N. Benameur, H. Hafsi, T.B. Younes, Y. Arous, S. Labidi, … – 2024

Left Ventricle Wall Motion Abnormalities Detection in Cardiac MRI
N. Benameur, R. Awadi, R. Mahmoudi, M. Deriche, M. Al Betar – 2023

Finite Element of Biomechanical Model of the Human Myocardium from a Cardiac MRI Images
A. Rania, N. Benameur, T. Kraiem, S. Labidi – 2022

of the Human Myocardium from a Cardiac MRI Images
A. Rania, N. Benameur, T. Kraiem, S. Labidi – 2022

Conclusion

Dr. Awadi’s career reflects a blend of academic rigor, professional dedication, and innovative research that addresses pressing clinical needs in pediatric cardiology. Her work has advanced the understanding of myocardial strain assessment, offering tools that improve early diagnosis and patient care. Through her teaching, collaborations, and published research, she has established herself as a promising figure in cardiac imaging and biomechanics. Looking forward, her contributions are set to further bridge the gap between research and clinical application, reinforcing her role as a driving force in the development of non-invasive diagnostic technologies.

Watit Sontising | Neuroscience | Best Researcher Award

Dr. Watit Sontising | Neuroscience | Best Researcher Award

Dr. Watit Sontising | Icahn school of medicine at mount sinai | United States

Dr. Watit Sontising is a distinguished chemist whose career seamlessly integrates academic scholarship, industrial innovation, and biomedical research. With a foundation built through advanced studies in chemistry, his expertise spans computational modeling, analytical method development, and environmental compliance. His academic contributions include years of teaching and mentoring in general chemistry, fostering critical thinking and practical skills among diverse student groups. Professionally, he has advanced laboratory efficiency in environmental and industrial chemistry while later transitioning into biotechnology and biomedical research. His current postdoctoral work at the Icahn School of Medicine at Mount Sinai exemplifies his interdisciplinary impact, where he pioneers mass spectrometry imaging and metabolomic profiling to explore neurological disorders. Through a robust portfolio of publications and methodological innovations, he has significantly contributed to the fields of crystallography, material science, and spatial metabolomics.

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Early Academic Pursuits

Dr. Watit Sontising began his academic journey in chemistry with a strong foundation developed during his undergraduate studies in Thailand. His early exposure to chemical sciences sparked a curiosity for understanding molecular interactions and their implications in both natural and applied systems. Pursuing graduate studies in the United States, he advanced his expertise through master’s and doctoral programs in chemistry at the University of California, Riverside. During this time, he immersed himself in research on molecular interactions, computational chemistry, and crystallography, laying the groundwork for a career that bridges theory, experimentation, and application.

Professional Endeavors

His professional trajectory reflects a balance between academia and industry, allowing him to refine skills across diverse environments. At California State University, Fullerton, and later at the University of California, Riverside, he served as a teaching assistant in general chemistry, where he engaged directly with undergraduate students through lectures, laboratory instruction, and mentorship. Following his doctoral studies, he contributed to environmental chemistry as a laboratory manager, spearheading compliance-driven analytical methods, and later transitioned into the biotechnology sector as a research scientist, applying analytical and modeling techniques to sustainable material development. His current role as a postdoctoral fellow in neurology at the Icahn School of Medicine at Mount Sinai demonstrates his interdisciplinary adaptability, integrating chemistry with neuroscience to advance biomedical research.

Contributions and Research Focus

Dr. Sontising’s research has spanned computational chemistry, analytical method development, and biomedical applications. His doctoral work contributed to the understanding of crystal structures, intermolecular forces, and novel phases of elemental and molecular systems. In industry, he developed high-throughput analytical methods that accelerated workflows and improved efficiency in biomaterial research. At Mount Sinai, his focus has shifted toward metabolomics, lipidomics, and mass spectrometry imaging, where he is developing novel methods to study the chemical architecture of the brain. By combining advanced instrumentation with computational pipelines in R and Python, he has been able to elucidate metabolic pathways in neurological disease models, reinforcing the role of chemistry in unraveling complex biological processes.

Scholarly Publications

His contributions to the scientific community are reflected in a body of published work spanning computational chemistry, crystallography, photomechanical materials, polymerization mechanisms, and spatial metabolomics. His publications in journals such as Chemical Science, CrystEngComm, and Physical Review Materials highlight his ability to merge theoretical approaches with practical applications. Recent work in spatial metabolomics protocols has further expanded the methodological toolkit available to researchers studying brain metabolism, representing a bridge between chemical sciences and medical research.

Accolades and Recognition

Throughout his academic and professional career, Dr. Sontising has been recognized for his commitment to both research excellence and teaching impact. His role as a mentor, educator, and scientific contributor has been acknowledged through opportunities to supervise students, lead laboratory teams, and co-author impactful studies. His ability to secure and contribute to grant-funded projects demonstrates not only trust in his expertise but also recognition of his potential to shape innovative research directions.

Impact and Influence

The impact of his work can be seen in multiple spheres—students he has mentored, laboratories he has organized and modernized, and scientific knowledge he has advanced through publications and method development. By linking fundamental chemistry with applied biomedical research, Dr. Sontising has influenced how metabolomics and mass spectrometry are utilized in the study of neurological disorders. His interdisciplinary perspective allows for meaningful collaborations across chemistry, biology, and medicine, creating pathways for innovation that resonate beyond a single discipline.

Legacy and Future Contributions

Looking forward, Dr. Sontising is positioned to make lasting contributions at the intersection of chemistry and neuroscience. His ongoing development of novel imaging and analytical methods will continue to expand the understanding of brain chemistry and its relationship to disease. As an educator, he remains committed to shaping the next generation of scientists by integrating critical thinking, computational literacy, and practical laboratory expertise into the learning process. His legacy will likely be defined by both the scientific advancements he enables and the careers he helps foster, ensuring his influence endures in both the laboratory and the classroom.

Publications

  • Theoretical study on the mechanism and kinetics of ring-opening polymerization of cyclic esters initiated by tin(II) n-butoxide — C. Sattayanon, W. Sontising, J. Jitonnom, P. Meepowpan, W. Punyodom, … — 2014

  • Structural switching in self-assembled metal–ligand helicate complexes via ligand-centered reactions — L.R. Holloway, H.H. McGarraugh, M.C. Young, W. Sontising, G.J.O. Beran, … — 2016

  • Theoretical predictions suggest carbon dioxide phases III and VII are identical — W. Sontising, Y.N. Heit, J.L. McKinley, G.J.O. Beran — 2017

  • Effect of halogen substitution on energies and dynamics of reversible photomechanical crystals based on 9-anthracenecarboxylic acid — T.J. Gately, W. Sontising, C.J. Easley, I. Islam, R.O. Al-Kaysi, G.J.O. Beran, … — 2021

  • Theoretical study of the hydrogen abstraction of substituted phenols by nitrogen dioxide as a source of HONO — A. Shenghur, K.H. Weber, N.D. Nguyen, W. Sontising, F.M. Tao — 2014

  • Effects of alkoxide alteration on the ring-opening polymerization of ε-caprolactone initiated by n-Bu3SnOR: a DFT study — C. Sattayanon, W. Sontising, W. Limwanich, P. Meepowpan, W. Punyodom, … — 2015

  • Theoretical assessment of the structure and stability of the ε phase of nitrogen — W. Sontising, G.J.O. Beran — 2019

  • Combining crystal structure prediction and simulated spectroscopy in pursuit of the unknown nitrogen phase ε crystal structure — W. Sontising, G.J.O. Beran — 2020

  • Protocol for spatial metabolomics and isotope tracing in the mouse brain — W. Sontising, F. Yanchik-Slade, C. Rodriguez-Navas, M.A. Hossen, … — 2025

  • Combining Crystal Structure Prediction and Simulated Spectroscopy to Investigate Challenging High Pressure Phases — W. Sontising — 2020

Conclusion

Dr. Sontising’s career demonstrates a rare combination of scientific versatility, teaching excellence, and interdisciplinary innovation. His ability to move fluidly from theoretical chemistry to practical laboratory applications, and finally to biomedical research, underscores a dynamic approach that bridges multiple fields of science. He continues to shape the future of chemistry and neuroscience by developing novel analytical tools while inspiring the next generation of scientists through mentorship and education. His enduring influence lies in both his contributions to advancing knowledge and his commitment to empowering others, marking him as a researcher and educator of lasting impact.