My research interests are deeply rooted in the exploration of pain development in humans. Specifically, I am intrigued by the intricate mechanisms behind how early-life painful experiences can potentially shape the long-term neurodevelopment of individuals.
To delve into this complex phenomenon, I employ a comprehensive approach that combines various multimodal neurophysiological techniques. By utilizing these advanced tools, I am able to meticulously assess the responses of neonates to painful procedures conducted in the neonatal unit.
In conducting my research, I am particularly focused on understanding the neurophysiological processes underlying the experience of pain in neonates. I aim to unravel the subtle intricacies of how the nervous system of these vulnerable individuals perceives and responds to painful stimuli. By gaining a deeper understanding of these processes, I hope to shed light on potential interventions that can alleviate the stress and discomfort associated with these procedures.
Through the implementation of innovative interventions, I aspire to develop novel strategies aimed at reducing the adverse effects of painful experiences on neonates’ neurodevelopment. By exploring and testing these interventions, I aim to provide valuable insights into how we can better support the well-being and long-term cognitive development of these young individuals.
Ultimately, my research endeavours are driven by a genuine passion for improving the understanding of pain development in humans and finding practical solutions to mitigate its potential long-term consequences.