Neuroscience

Welcome Message

On behalf of the Organizing Committee, it is our great pleasure to welcome you to the "8^th World Conference on Neuro Science", taking place on Feb 12-13, 2026, in the beautiful city of Singapore City, Singapore.

Our Theme for 2026 “Exploring next generation neuro science through neurotechnology brain, plasticity, and innovative cognitive research”.

We are honoured to gather a global community of scientists, clinicians, innovators, and students who share a passion for understanding the brain—the most intricate and awe-inspiring organ known to science. This conference brings together diverse perspectives and ground breaking research, creating a vibrant space where ideas spark, evolve, and transform into meaningful progress.

Each session, discussion, and collaboration offers a chance to deepen our understanding of neural systems, expand our vision for clinical applications, and inspire new directions for research. Your presence enriches this gathering and contributes to the collective mission of advancing brain science for the benefit of humanity

About Conference

The 8^th World Conference On NeuroScience will be held on Feb 12-13, 2026, in Singapore .The Theme for 2026 “Exploring next generation neuro science through neurotechnology brain, plasticity, and innovative cognitive research". The Neuroscience Conference is a dynamic platform that brings together students, researchers, clinicians, and innovators to explore the remarkable complexities of the human brain. Designed to inspire curiosity and spark meaningful dialogue, the conference highlights emerging discoveries in brain function, neural development, cognitive processes, mental health, and cutting-edge neuro technology.

Across keynote talks, interactive sessions, workshops, and panel discussions, participants gain insights into the latest scientific advancements and real-world applications in neuroscience. The event encourages collaboration between different disciplines merging biology, psychology, engineering, data science, and medicine to better understand the nervous system and improve human health.

This conference serves as a space for learning, networking, and innovation, empowering the next generation of scientists and supporting ongoing progress in brain research. Whether attendees are experienced professionals or students just beginning their journey, the conference offers inspiration, knowledge, and a deeper connection to the evolving world of neuroscience.

Why To Attend

Attending the Neuroscience Conference offers a unique opportunity to explore the latest discoveries and innovations in brain science. Participants will gain insights from leading experts, engage in interactive workshops, and witness cutting-edge research in areas ranging from neural mechanisms and cognitive processes to neuro technology and mental health. The conference provides a platform for networking with fellow students, researchers, clinicians, and industry professionals, fostering collaboration and the exchange of ideas. Attendees can explore diverse career paths, enhance their understanding of the nervous system, and be inspired by ground breaking advancements that shape the future of neuroscience. It is an ideal environment to fuel curiosity, develop critical thinking, and connect with a community passionate about un traveling the mysteries of the brain.

Target Audience:

• Neuro technology professionals
• AI and data science specialists
• Neuropsychologists
• Pharmacologists
• Mental health advocates
• Neurosurgeons
• Lifelong learners /science enthusiasts
• Clinicians (neurologists, psychologists, therapists
• Academic researchers
• Faculty members/educators
• Biomedical engineers
• Entrepreneurs in neuro tech
• Medical students
• Cognitive scientists
• Rehabilitation specialists (occupational & physical therapists)
• Biomedical researchers
• Brain-computer interface developers
• Public health professionals
• Policy makers in mental health
• AI and robotics innovators
• Educators and mentors
• Patient advocacy group.

Sessions and Tracks

Track 1: Molecular Mechanisms Of Neuronal Development And Signalling

Neuronal development is orchestrated by intricate molecular pathways that regulate cell proliferation, differentiation, migration, and connectivity. These processes determine how neurons form functional networks and establish brain architecture. Disruptions in molecular signalling pathways can lead to developmental disorders and cognitive impairments. Research in this area provides insights into potential therapeutic targets for neurodevelopmental diseases and offers opportunities to manipulate signaling pathways for regenerative purposes.

• Gene expression and transcriptional regulation
• Signal transduction pathways
• Protein trafficking and modifications
• Epigenetic regulation of neurons

Track 2: Synaptic Plasticity And Neural Circuit Formation

Synapses are highly dynamic structures that remodel in response to experience, learning, and environmental changes. Plasticity at the synaptic level underlies the brain’s ability to store information and adapt to new circumstances. Understanding the mechanisms of synaptic plasticity is essential for deciphering learning and memory processes, as well as for developing interventions for neurodegenerative and psychiatric disorders where plasticity is impaired.

• Long-term potentiation and depression
• Circuit refinement during development
• Synaptic pruning and formation
• Structural plasticity of dendritic spines

Track 3: Neurogenesis And Stem Cell Applications In Brain Repair

The adult brain retains the ability to generate new neurons in specific regions, offering significant potential for regenerative medicine. Harnessing neurogenesis and stem cell technology can help restore damaged neural circuits caused by injury, stroke, or neurodegenerative diseases. Advances in cell therapy, differentiation protocols, and transplantation strategies are paving the way for personalized treatment approaches aimed at functional recovery.

• Neural stem cell therapy
• Differentiation into functional neurons
• Integration into neural circuits
• Brain repair strategies

Track 4: Glial Cell Functions And Neuron-Glia Interactions

Glial cells, including astrocytes, microglia, and oligodendrocytes, play critical roles in maintaining neuronal health, regulating synaptic activity, and controlling neuroinflammatory responses. Disruptions in glial function contribute to neurodegenerative diseases and psychiatric conditions. Research into glial-neuron interactions is uncovering novel therapeutic targets and strategies to modulate inflammation, support synaptic function, and promote neural repair.

• Astrocyte-mediated signalling
• Microglial surveillance and immunity
• Myelination and oligodendrocyte function
• Neuroprotective roles of glia

Track 5: Cellular mechanisms underlying neurodegenerative disorders

Neurodegenerative diseases, such as Alzheimer’s, Parkinson’s, and Huntington’s, arise from complex cellular dysfunctions, including protein misfolding, mitochondrial deficits, oxidative stress, and cell death pathways. Understanding these mechanisms provides a foundation for developing targeted therapies, biomarkers, and strategies for early detection. Investigating these cellular pathways also offers insights into disease progression and potential neuroprotective interventions.

• Protein misfolding and aggregation
• Mitochondrial deficits and oxidative stress
• Autophagy and apoptosis mechanisms
• Cellular stress responses

Track 6: Advanced Imaging Of Cellular Neural Processes

Imaging technologies have transformed neuroscience by allowing researchers to visualize neurons and glia at high resolution in live and fixed tissue. Techniques such as fluorescence, confocal, two-photon, and super-resolution microscopy enable detailed analysis of structural, functional, and molecular dynamics in the brain. These methods provide critical insights into cellular behaviour, neural connectivity, and disease mechanisms, supporting both basic research and clinical applications.

• Confocal and fluorescence microscopy
• Two-photon and live-cell imaging
• In vivo neural activity mapping
• Structural and functional imaging

Track 7: Brain Networks Underlying Cognition And Decision-Making

Cognition and decision-making emerge from the coordinated activity of distributed brain networks, including the prefrontal cortex, parietal cortex, and subcortical structures. Studying these networks helps us understand how information is processed, integrated, and transformed into behaviour.Disruptions in network connectivity are associated with psychiatric and neurological disorders, making this research critical for developing interventions to restore cognitive function.

• Executive Function And Prefrontal Connectivity
• Functional Network Integration
• Decision-Making Pathways
• Effects Of Network Disruptions

Track 8: Memory, Learning, And Attention Processes

Memory formation, learning, and attention depend on complex interactions among hippocampal, cortical, and subcortical regions. Neural circuits continuously adapt to encode, consolidate, and retrieve information. Investigating these processes improves our understanding of cognitive function, age-related decline, and disorders such as Alzheimer’s and ADHD, and informs strategies for enhancing learning and memory performance.

• Hippocampal memory mechanisms
• Attention modulation pathways
• Cognitive enhancement strategies
• Neural plasticity in learning

Track 9: Neural Correlates Of Emotions And Social Behaviour

Emotional and social behaviors are mediated by specific neural circuits involving the amygdala, prefrontal cortex, and other limbic structures. Understanding the neural basis of these behaviors informs research into mood disorders, autism spectrum disorders, and social cognition deficits. Insights into emotion and social neural circuits can guide therapeutic approaches for psychiatric and behavioral interventions.

• Limbic system function
• Emotional regulation
• Neural basis of social interactions
• Brain-behaviour mapping

Track10: Cognitive Aging and neuroplasticity

Cognitive aging is accompanied by changes in neural plasticity, synaptic density, and network connectivity. Studying these changes helps identify interventions to preserve cognitive function and mitigate age-related decline. Research in this field explores lifestyle factors, pharmacological interventions, and neurostimulation techniques to enhance plasticity and support healthy brain aging.

• Synaptic remodeling in aging
• Neuroprotective interventions
• Cognitive resilience strategies
• Plasticity enhancement

Track 11: Neural Basis Of Perception And Sensory Integration

Perception arises from the integration of information from multiple sensory modalities across brain regions. Investigating sensory processing mechanisms helps elucidate how the brain constructs a coherent representation of the environment. This research has applications in rehabilitation, sensory disorders, and designing artificial sensory systems.

• Visual, auditory, and somatosensory pathways
• Multisensory integration
• Perceptual learning
• Neural computation of sensory signals

Track 12: Behavioural Neuroscience Approaches To Mental Health

Behaviorual Neuroscience Links Brain Function With Behaviour, Providing insights into psychiatric disorders such as depression, anxiety, and schizophrenia. Animal and human studies reveal mechanisms of stress, emotion, and cognition that guide therapeutic interventions. Translational research aims to bridge basic neuroscience findings with clinical applications for improving mental health outcomes.

• Animal Models For Psychiatric Research
• Stress And Behavioural Regulation Studies
• Translational Interventions
• Evidence-Based Mental Health Strategies

Track 13: Brain-Computer Interfaces And Neural Prosthetics

Brain-computer interfaces (BCIs) enable direct communication between the brain and external devices, offering rehabilitation solutions and assistive technologies. Research focuses on decoding neural signals, optimizing interface design, and enhancing motor and cognitive function in individuals with neurological impairments. BCIs have transformative potential for restoring independence in patients with paralysis or sensory deficits.

• Neural decoding for prosthetic control
• Rehabilitation devices
• Adaptive brain-computer interfaces
• Assistive neurotechnologies

Track 14: Computational Modeling Of Neural Circuits

Computational models provide frameworks for understanding the dynamics of neural circuits and predicting brain behaviour. Simulations help test hypotheses, explore complex interactions, and guide experimental design. Integrating computational neuroscience with experimental data accelerates discovery and facilitates development of neuro-inspired algorithms and AI applications.

• Network simulations
• Predictive modelling of neuronal activity
• System dynamics analysis
• Virtual experiments for neuroscience

Track 15: Artificial intelligence applications in neuroscience

AI and machine learning are revolutionizing neuroscience by enabling large-scale data analysis, pattern recognition, and predictive modeling of brain function. These approaches accelerate discovery in neuroimaging, genetics, and behavior, providing tools for personalized medicine, disease diagnosis, and cognitive modeling.

• Deep learning for imaging data
• Predictive analytics in brain research
• Cognitive simulations
• AI-guided experimental design

Track 16: Neuroinformatics And Big Data Analysis

Neuroinformatics integrates diverse datasets from molecular, cellular, and systems neuroscience to derive comprehensive insights. Large-scale brain mapping, data sharing, and computational analytics facilitate collaborative research and accelerate scientific discovery. Big data approaches help identify biomarkers, disease patterns, and functional connectivity trends.

• Data mining and pattern recognition
• Brain mapping databases
• Multimodal data integration
• Computational analytics

Track 17: Advanced Electrophysiology Techniques

Electrophysiology provides direct measurement of neuronal activity, revealing how neural circuits encode information. Modern techniques enable high-resolution recordings from single neurons to large populations, supporting studies of synaptic function, network dynamics, and brain rhythms relevant to cognition and disease.

• Multi-electrode arrays
• In vivo and in vitro electrophysiology
• Signal analysis methods

Track 18: Neuroengineering For Therapeutic Interventions

Neuroengineering combines engineering principles with neuroscience to develop devices and techniques for treating neurological disorders. Approaches include neural stimulation, optogenetics, tissue engineering, and prosthetic integration, aiming to restore function and improve quality of life.

• Optogenetic interventions
• Neural stimulation devices
• Brain-computer therapeutics
• Tissue engineering for repair

Track 19: Mechanisms Of Neurodegenerative And Psychiatric Disorders

Neurodegenerative and psychiatric disorders result from complex interactions of genetic, cellular, and environmental factors. Research focuses on molecular pathways, neurotransmitter systems, and network dysfunctions to identify novel therapeutic targets and improve patient outcomes.

• Protein aggregation and misfolding
• Neuroinflammation
• Genetic and epigenetic contributions
• Neurotransmitter dysregulation

Track 20: Biomarkers, Diagnosis, And Patient-Centered Approaches

Identifying biomarkers and developing patient-centered strategies improve diagnosis, monitoring, and personalized treatment of neurological conditions. Integrating molecular, imaging, and behavioral markers facilitates early detection, effective therapy, and better clinical outcomes.

• Imaging and fluid biomarkers
• Early detection strategies
• Clinical trials and protocols
• Translational and personalized medicine

Market Analysis

The global neuroscience market is growing steadily, with projections showing an increase from USD 44.65 billion in 2023 to about USD 65.2 billion by 2030, driven by rising neurological and neuropsychiatric disorders. Innovation is accelerating through advances in neuroimaging, neurostimulation, AI-based diagnostics, and brain-computer interfaces. North America leads the market, while Asia-Pacific is emerging as the fastest-growing region due to expanding healthcare investment. Growth is further supported by rising R&D funding, digital therapeutics, and precision medicine developments. Despite challenges such as high costs, regulatory hurdles, and ethical concerns, opportunities in neurodiagnostics, neurorehabilitation, and digital neurohealth are expected to reshape the industry over the next decade.

1. Market Growth Values (Exact from Your Data)

The market growth values show a steady rise in the global neuroscience industry from USD 44.65 billion in 2023 to USD 65.2 billion by 2030. This upward trend reflects increasing demand driven by neurological disorders, technological advancements, and expanded research investments. The consistent growth highlights strong market stability and long-term potential. These values provide a clear foundation for visualizing year-to-year expansion.

 2. Regional Market Values (Estimated Based on Description)

The regional market values illustrate how North America currently leads the neuroscience sector due to advanced healthcare infrastructure and strong R&D funding. Asia-Pacific follows as the fastest-growing region, driven by rising healthcare investments and increasing prevalence of neurological conditions. Europe maintains a moderate share, while other regions contribute smaller but steady growth. These estimates help visualize comparative regional dominance and emerging opportunities.

Benefits Of Participation

Benefits of Participation- Speaker

• Worldwide acknowledgment of Researcher’s profile
• Make Lasting connections at Networking and Social Events
• An opportunity to give One-page advertisement in abstract book and flyers distribution which eventually gets 1 Million views and add great value to your research profile
• Learn beyond your field of interest, a change to know more about the new topics and research apart from your core subject from Neurohealth. We provide unique convergence of Networking, Learning and Fun into a single package

Benefits of Participation- Delegate

• Professional Development –Uplift the knowledge and skills
• Attendance inspires, rejuvenates, and energizes delegates
• Your participation at our conference will be helpful for a new approach and ideology that can be utilized for the extending the outcome of companies or industries.
• Opportunities to meet through online webinar for Neuroscience researchers and experts of same field and share new ideas.

Benefit of Participation- Sponsor

• Exposure to the international atmosphere will increase the odds of getting new business
• Opportunity to showcase the new technology, new products of your company, or the service your industry to a broad international participant.
• World’s No. 1 platform to show case products.
• Increase business by lead generation through our conference participants.
• NEUROSCIENCE 2026 conferences create opportunities for greater focus& that could help you take your business to the next level.
• Benchmarking key strategies for business and moving it forward
• Real Benefits in New business-Many Organizations make deals and sign contracts at our NEUROSCIENCE 2026.

Benefit of Association for Collaborators

• No one in the world have this huge visitor towards NEURO SCIENCE 2026, this is the best platform to showcase the society create long-lasting relationships with the peers
• Promotional content and Logo of your Association at our conference banner, website and other proceedings, branding and marketing material will increase your subscribers/Members.
• Our event visibility to your Organization page can give a great impact for your association.
• Your representatives can network with key conference delegates to update their knowledge and understanding of your organization and services.
• Details will be incorporated with Neuroscience promotional materials like flyers, brochure, pamphlets, program which will be distributed to Hospitals, Universities, Society and Researchers.

Visa Trip Advisor

Planning a trip to Singapore ? Attend our Meeting!

Issue with VISA?

To support participants in their Visa Application Process, we provide VISA support documents as follows:

1. Official Letter of Invitation
2. Official Letter of Abstract Acceptance
3. Receipt of Payment

Points to note:

• Visa Letter (official letter of invitation) will be issued only after successful registration and payment for the conference.
• Visa Letters can be issued only for the individual accepted to attend the conference.
• Please contact the Program Manager via meevents@memeetings.com to arrange for a Visa Letter.

Kindly provide us with the following information for Visa Letters:

• Your name as it appears on your passport
• Passport Scan Copy (passport number and date of birth)
• Abstract Acceptance letter

Having trouble with registration?

Please contact Program Manager via meevents@memeetings.com NEUROSCIENCE 2026, team will provide you with an INVOICE for the requested price, enabling you to make the Bank-to-Bank transfer.

Past Conference

In 2025, several major neuroscience conferences brought together researchers, clinicians, and industry leaders worldwide. Key events included the Society for Neuroscience (SfN) Annual Meeting in San Diego, the Global Summit on Neuroscience & Neurological Disorders in Valencia, and the World Brain Disorders & Neuroscience Summit in Japan. Other notable gatherings were the International Conference on Neuroscience & Brain Disorders in Amsterdam and the Neuroscience & Neurological Disorders Conference in Rome. These events focused on emerging neurotechnologies, AI-driven diagnostics, neuromodulation therapies, and advancements in brain health research, fostering global collaboration and innovation in the field.