Neuroscience and Neuropsychiatry

Understanding the evolution of the brain and the central nervous system (CNS) has always been a key research interest as it reflects the importance of identification of mechanistic basis of crucial processes including learning, memory, perception and reactions in normal and dysfunctional conditions.  This field of research has been well recognized for long time however several aspects of the connection and the communication between the neurons are yet to be identified.  In addition, bridging the brain and mind and translating the neural mechanisms to neurocognitive functions represents the main pathway to draw futuristic prospects to understand the mental capacities.  

Several studies have highlighted the significance of neuroscience in the educational and learning experiences which are strongly associated with neural changes in response to various learning tasks (neuroplasticity) and production of new neurons (neurogenesis).  It is evident that the involvement of multiple brain regions and recruitment of substantial number of neurons to support the learning experiences are associated with higher functions such as memory and executive function.

The control of the centralized brain reaches beyond the CNS and influences various reactions via sophisticated networks including spinal cord and neuroendocrine systems.  These systems establish informed bodily decisions about several stimuli including stress and manipulate the awareness and production of appropriate responses. Dysfunction of the neural systems at any level jeopardizes the critical involvement of the CNS in tuning of a wide range of vital neurophysiological, behavioral and neurocognitive processes.  The global burden of the neuropsychiatric and neurological disorders has been fully appreciated by several international health organizations given the serious consequences for individuals, their families, and the healthcare systems. Specifically, neuropsychiatric disorders are the leading cause of disability in the United States, accounting for almost 19% of all years of life lost due to disability and premature death.  Depression affects nearly 300 million people globally, and suicide as one of its worst outcomes, it is the second leading cause of death in 15-29-year-old individuals. Overall, nearly 800,000 people of all ages worldwide die by suicide every year. Among the population in the UAE, the prevalence of depression is reported to be 12.5–28.6% and depression has been shown to be one of the top three causes of disability-adjusted life years (DALYs) as per the Global Burden of Disease study (GBD Profile: United Arab Emirates, 2010).

Worldwide, more than 50 million people are living with dementia and every 3 seconds there is a new case of dementia and the projection for dementia and other neurological disorders is alarming.  Compared to the rest of the world, few studies in the United Arab Emirates have focused on the pathogenesis and the prevalence of these disorders and this accounts for the limited advances in research and implementation of specialized care and management plans in the clinical practice.  

The pathophysiological mechanisms underlying brain disorders range from disruption of molecular pathways and homeostatic neural environment to dysfunctional communication between higher-order neural networks.  In this context, sustained neuroinflammation is a common hallmark shared by a large spectrum of incurable disorders including Alzheimer's, Parkinson's, multiple sclerosis, and migraine.  Prevention and development of effective treatments represents a challenge due to the lack of knowledge about the processes driving the etiology, pathogenesis, and progression of these diseases.

Recognizing the necessity of advanced research in this field, we, as faculty members at the medical, pharmacy and health science colleges at University of Sharjah and University Hospital Sharjah, aim at launching a "Neurosciences and Neuropsychiatry Research Group" that will examine diverse aspects of CNS research at the basic and clinical levels.  

• To identify the neural circuits of the limbic system that are involved in modulation of vital neurocognitive functions                                                                                           
• To investigate the role of neuroinflammation, oxidative stress, epigenetic processes in development of neuropsychiatric and neurological disorders.
• To ascertain and validate novel and potential therapeutic targets and biomarkers for the prevention and early detection of diseases and to introduce more effective care and management strategies for neuropsychiatric and neurological disorders.
• To establish successful national and international collaboration at all levels, research and academia, to tackle the devastating impact of the neurological and neuropsychiatric disorders. 
• To bridge the gap between the basic and clinical research by facilitating the translation of the lab findings to improve the quality of life of individuals with neurological and neuropsychiatric disorders.
• To promote the awareness of the local community via innovative approaches to improve the perception of neuropsychiatric and neurological disorders.
• Designing strategic plans to challenge the stigma, enhance resilience and improve people's wellbeing during pandemics and other global crises.

• Neuroinflammation. Immune responses within the CNC are complex. This line of research focuses on investigating the dual role of immune responses within CNS during health and neurological pathologies including Alzheimer's, Parkinson's, multiple sclerosis (MS), stroke, and traumatic brain injury.
• Dendritic cells (DCs) trafficking in the brain. DCs are key innate immune cells that orchestrate the adaptive immune responses. Their role connection between CNS and systemic compartments is investigated.
• Multiple Sclerosis. A debilitating neuroinflammatory disorder that primarily affects the central nervous system (brain, spinal cord, and optic nerves). In MS, the body's immune system mistakenly attacks the protective coating around nerve fibers, called myelin, which disrupts the flow of information between the brain and the rest of the body. The research interest addresses the involvement of DCs and the blood brain barrier in the pathology of MS.
• Iron metabolism interruption during MS. With the help of experimental autoimmune encephalitis (EAE) mouse model, the group is interested in the role of iron deposition in causing neurotoxicity.
• Pharmacology of Learning and Memory
• Neuropsychiatric diseases: Anxiety, Depression, PTSD, Chronic Stress, etc.
• Neuroprotective agents
• Neurodegenerative diseases and conditions
• Microbial crosstalk with brain, the back fungus Rhizopus delemar rhinosinosis as a model
• Behavioral Neuropharmacology
• Brain Carcinoma with brain cell line as a model
• Vascular Protection
• Stroke Recovery
• Blood-brain barrier in health and disease

1. Collaborative project work with Prof. Mohammad Semreen from the Human Disease Biomarkers Discovery Research Group. 2024-2025.
2. Collaborative project work with Dr. Jalal Taneera from the Metabolic Syndrome and related disorders Group, College of Medicine, University of Sharjah. 2024-2025.
3. Collaborative project work with Dr. Hasan Alnis from at the Drug Design and Discovery Group, Research Institute of Medical and Health Sciences, University of Sharjah. 2024-2025.
4. Collaborative project work with Prof. AB Rani Samsudin from the Department of Oral and Craniofacial Health Sciences, College of Dentistry, University of Sharjah. 2024-2025.
5. Pharmacokinetics of non-steroidal anti-inflammatory drugs (NSAIDs), celecoxib, diclofenac, ibuprofen, and naproxen in the inflamed rat prostate, collaborative project work with Prof. Rajan Radhakrishnan, Professor of Pharmacology, College of Medicine, Mohammed Bin Rashid University, Dubai, UAE. 2024-2025.
6. Assessing the effect of social media addiction on cognitive abilities and mental health, Collaboration through group member Dr. Ahmed Alhusban with New York Abu Dhabi University. 2024-2025.
7. Development of local hormone-modulated therapeutics for hair loss using functionalized graphene nanoparticles, Korea Advanced Institute of Science and Technology, Korea. 2024-2025.

Dr. Rania Harati

• Winner of the University of Sharjah Annual Incentive Award for Distinguished Faculty Member in Teaching, 2021.
• Winner of the Sharjah Islamic Bank Award for Distinguished Student's Research Article as supervisor, Student: Saba Hammad, awarded by Sharjah Islamic Bank, May 2022
• Second place in Poster Competition at the 6th International Conference of Pharmacy and Medicine as supervisor, Poster title “Evaluating the therapeutic potential of miR-let-7c to suppress extravasation of brain metastatic breast cancer cells", Student: Dua Hammash, awarded by The 6th International Conference of Pharmacy and Medicine, 2022
• Third place in Poster Competition at the 6th International Conference of Pharmacy and Medicine as supervisor, Poster title “miR-27a-3p regulates expression of P-glycoprotein at the brain endothelium", Student: Saba Hammad, awarded by The 6th International Conference of Pharmacy and Medicine, 2022
• Winner of the 5th best Pharmacy Student Poster Presentation Award as supervisor (Students Munazza Ahmed and Grace Daoud), Title: CRISPR-Cas9 as a potential therapeutic platform for breast cancer, Dubai International Pharmaceuticals and Technologies Conference and Exhibition (DUPHAT), Dubai, UAE, 2021.

Dr. Ahmed Alhusban:

• Chancellor's Teaching Excellence and Innovation, 2022