Neuroergonomics specialists apply neuroscience and ergonomics to optimize human performance and safety in complex environments. They study how brain function and cognitive load interact with task demands in areas such as aviation, transportation, medicine, and military operations. Using neuroimaging, eye-tracking, and brainwave monitoring, they evaluate how attention, stress, fatigue, and decision-making are influenced by workspace design and technology interfaces. Their goal is to improve system efficiency and reduce human error by aligning tools and environments with cognitive capabilities.
These specialists work closely with human factors engineers, neuroscientists, and designers to create user-centered systems that enhance mental workload management and reduce cognitive fatigue. Neuroergonomics plays a pivotal role in developing adaptive interfaces, wearable neurotechnologies, and augmented reality systems that respond to users’ mental states. Their contributions extend to workplace safety, rehabilitation, and consumer product development. As artificial intelligence and automation become integrated into daily life, neuroergonomics specialists are ensuring that human brains and machines interact effectively and intuitively. Their research helps shape smarter, safer environments that support both mental well-being and optimal performance.
Title : Personalized and Precision Medicine (PPM), as a unique healthcare model through biodesign-driven biotech and biopharma, translational applications, and neurology-related biomarketing to secure human healthcare and biosafety
Sergey Victorovich Suchkov, N. D. Zelinskii Institute for Organic Chemistry of the Russian Academy of Sciences, Russian Federation
Title : Narrative medicine: A communication therapy for the communication disorder of Functional Seizures (FS) [also known as Psychogenic Non-Epileptic Seizures (PNES)]
Robert B Slocum, University of Kentucky HealthCare, United States
Title : Neuro sensorium
Luiz Moutinho, University of Suffolk, United Kingdom
Title : GBF1 inhibition reduces amyloid-beta levels in viable human postmortem Alzheimer's disease cortical explant and cortical organoid models
Sean J Miller, Yale School of Medicine, United States
Title : Study of resilience in cases of incest, father-daughter, step-father and step-daughter in the pre-pubber and puberous period among adult women and mothers: How to overcome the traumatisms of an incestuous relationship?
Daniele Lapointe, Laval University, Canada
Title : Traumatic Spinal Cord Injuries (tSCI) - Are the radiologically based “advances” in the management of the injured spine evidence-based?
W S El Masri, Keele University, United Kingdom