Jack Ng Kok Wah | Public Health | Best Health Science Research Award

Published on by Scientific World Research Awards

Dr. Jack Ng Kok Wah | Public Health | Best Health Science Research Award

Senior Lecturer | Multimedia University | Malaysia

 

Dr. Jack Ng Kok Wah’s research lies at the intersection of artificial intelligence (AI), surgical innovation, and biomedical engineering, with a strong emphasis on developing AI-driven robotic systems that enhance precision, reduce surgical risks, and revolutionize patient outcomes. His body of work demonstrates a deep commitment to integrating machine learning algorithms and intelligent automation into modern surgical practices, thereby addressing one of the most critical needs in healthcare—precision and safety in complex procedures.A significant aspect of his research explores how robotic technologies and AI-assisted decision systems can transform traditional surgical approaches. By leveraging real-time data analytics, sensor fusion, and computer vision, Dr. Wah contributes to the design of systems that support surgeons in performing minimally invasive procedures with unprecedented accuracy. His work not only advances the technical frontiers of robotic surgery but also examines the broader ethical, clinical, and operational implications of implementing such technologies in real-world healthcare environments.Beyond surgical robotics, Dr. Wah’s research interests extend to digital health innovation, medical imaging, and intelligent clinical systems. He investigates how data-driven approaches can improve diagnostic accuracy, predict patient outcomes, and personalize treatment protocols. Through his publications, he emphasizes the transformative potential of AI to bridge gaps between human expertise and machine efficiency, promoting a synergistic model of healthcare delivery that enhances both safety and accessibility.With a growing citation record and interdisciplinary collaborations, Dr. Wah continues to contribute to the advancement of next-generation medical technologies that merge computing power with human insight. His vision encapsulates a future where AI and robotics are not merely tools but trusted partners in surgical and clinical decision-making, ultimately redefining standards of care in the medical field. His scholarly contributions reinforce his standing as a forward-thinking researcher committed to shaping the future of intelligent healthcare systems and precision surgery.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate 

Featured Publications

  1. Wah, J. N. K. (2025). Revolutionizing surgery: AI and robotics for precision, risk reduction, and innovation. Journal of Robotic Surgery, 19(Article No. 47).
    Citations: 39

  2. Wah, J. N. K. (2025). Revolutionizing e-Health: The transformative role of AI-powered hybrid chatbots in healthcare solutions. Frontiers in Public Health, 13.
    Citations: 29

  3. Wah, J. N. K. (2025). The rise of robotics and AI-assisted surgery in modern healthcare. Journal of Robotic Surgery, 19(1), 311.
    Citations: 13

  4. Ng, J., Wah, K., Fitriana, M., & Arumugam, T. (2023). Assumptions for structural equation modeling (SEM), normality of data distribution analysis & model fit measures. In Normality of Data Distribution Analysis & Model Fit Measures.
    Citations: 12

  5. Wah, K., & Ng, J. (2025). AI-driven robotic surgery in oncology: Advancing precision, personalization, and patient outcomes. Journal of Robotic Surgery, 19(1), 1–11.
    Citations: 7

Dr. Jack Ng Kok Wah envisions a future where artificial intelligence and robotic systems seamlessly integrate into healthcare, enabling safer, smarter, and more precise surgical interventions. His pioneering research drives innovations that enhance patient outcomes, optimize clinical workflows, and redefine the frontiers of intelligent medicine.

Manouchehr Ashrafpour | Medicine | Best Scholar Award

Published on by Scientific World Research Awards

Dr. Manouchehr Ashrafpour | Medicine | Best Scholar Award

Faculty Member | Babol University of Medical Sciences | Iran

Dr. Manouchehr Ashrafpour is a prominent neuroscientist and biomedical researcher at Babol University of Medical Sciences, renowned for his extensive contributions to neuropharmacology, molecular neuroscience, and neurodegenerative disease research. He earned his advanced degrees in medical sciences and neuroscience, building a strong academic foundation that bridges cellular biology and clinical neurotherapeutics. Throughout his professional career, Dr. Ashrafpour has demonstrated exceptional expertise in experimental neurobiology, drug delivery systems, and the molecular mechanisms underlying brain disorders such as Alzheimer’s disease, Parkinson’s disease, epilepsy, and multiple sclerosis. His research primarily focuses on the neuroprotective effects of natural bioactive compounds and nanotechnology-based formulations, including curcumin-, piperine-, arbutin-, and quercetin-loaded nanoparticles, which have shown promising results in reducing oxidative stress, glial activation, and neuronal degeneration. He possesses advanced research skills in animal modeling, histopathological assessment, biochemical analysis, neurobehavioral testing, and nanomedicine formulation, complemented by a strong command of cellular electrophysiology and molecular signaling studies. His professional experience encompasses collaborations with leading neuroscientists on projects exploring the role of vitamins, antioxidants, and receptor modulation (notably adenosine A2A receptor blockade) in promoting neural repair and functional recovery. Dr. Ashrafpour’s scholarly achievements are reflected in his strong Scopus record, which includes over 700 citations, numerous peer-reviewed documents, and an h-index of 17, underscoring his global academic influence. He has received recognition and academic honors for his innovative work in neurotherapeutic discovery and translational neuroscience, highlighting his commitment to improving treatment strategies for neurodegenerative diseases. In conclusion, Dr. Manouchehr Ashrafpour stands as a distinguished figure in contemporary neuroscience, whose multidisciplinary approach—spanning nanotechnology, pharmacology, and neurobiology—continues to shape the future of neuroprotective medicine and inspire emerging researchers in biomedical sciences worldwide.

Profiles: ORCID | Google Scholar 

Featured Publications

  1. Naeimi, R., Safarpour, F., Hashemian, M., Tashakorian, H., Ahmadian, S. R., & Ashrafpour, M. (2018). Curcumin-loaded nanoparticles ameliorate glial activation and improve myelin repair in lyolecithin-induced focal demyelination model of rat corpus callosum. Neuroscience Letters, 674, 1–10. Cited by 71.

  2. Mansoor, S. R., Hashemian, M., Khalili-Fomeshi, M., Ashrafpour, M., & Moghadamnia, A. A. (2018). Upregulation of klotho and erythropoietin contributes to the neuroprotection induced by curcumin-loaded nanoparticles in an experimental model of chronic epilepsy. Brain Research Bulletin, 142, 281–288. Cited by 52.

  3. Khalili-Fomeshi, M., Azizi, M. G., Esmaeili, M. R., Gol, M., Kazemi, S., & Ashrafpour, M. (2018). Piperine restores streptozotocin-induced cognitive impairments: Insights into oxidative balance in cerebrospinal fluid and hippocampus. Behavioural Brain Research, 337, 131–138. Cited by 49.

  4. Dastan, Z., Pouramir, M., Ghasemi-Kasman, M., Ghasemzadeh, Z., Dadgar, M., & Ashrafpour, M. (2019). Arbutin reduces cognitive deficit and oxidative stress in an animal model of Alzheimer’s disease. International Journal of Neuroscience, 129(11), 1145–1153. Cited by 45.

  5. Dadgar, M., Pouramir, M., Dastan, Z., Ghasemi-Kasman, M., & Ashrafpour, M. (2018). Arbutin attenuates behavioral impairment and oxidative stress in an animal model of Parkinson’s disease. Avicenna Journal of Phytomedicine, 8(6), 533–540. Cited by 43.