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24th International Conference on Neuroscience and Neurochemistry, will be organized around the theme “Perspectives of Neurochemistry in Neuroscience and Neurological Disorders”

Neurochemistry 2018 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Neurochemistry 2018

Submit your abstract to any of the mentioned tracks.

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Neuroscience emphasizes the vivid structure with the anatomy, biochemistry, molecular biology, and physiology of neurons and neural circuits of human brain. The disciplines of neurosciences like Affective neuroscience, Behavioral neuroscience, Cellular neuroscience, Clinical neuroscience, Cognitive neuroscience, Molecular neuroscience and Neuroimaging focusing on novel approaches to study the molecular, cellular, developmental, structural, functional, evolutionary, computational, psychosocial and medical aspects of the nervous system.

Exploring the complex structure of brain and pragmatic studies of neuroscience is always an innovative research to the field.

  • Track 1-1Neuroscience: Explorations into Brain Function
  • Track 1-2Neurodegenerative disorders and Neurocritical Care
  • Track 1-3Cognitive & Behavioral Neuroscience
  • Track 1-4Nursing and Neuroscience
  • Track 1-5Computational Neuroscience: Trends in Research
  • Track 1-6Clinical Trials and Case Reports
  • Track 1-7Neuroscience- Inspired Bioengineering
  • Track 1-8Neurotechnology

Neurochemistry deals with the amazing chemistry that occurs in the brain, nervous system and the nerve cell with which it communicates. The phenomenon of chemistry that generates electrical signals which propagate along nerve cells and the chemistry at the synapse by neurotransmitters are the prime locations.

Robust research work on brain and its impact on behavior and cognitive functions will portray the neurochemical behavior and illness due to chemical imbalance which will explore the possibilities of advances in the field of neurosciences and disorders.

  • Track 2-1Molecular and Cellular neurochemistry
  • Track 2-2Clinical Studies, Biomarkers and Imaging
  • Track 2-3Brain Development and Cell Differentiation
  • Track 2-4Neuropharmaceuticals and Therapeutics
  • Track 2-5Key Aspects of Neurochemistry
  • Track 2-6Molecular Neurobiology
  • Track 2-7Neuroinflammation and Neuroimmunology
  • Track 2-8Neural development—Plasticity and degeneration
  • Track 2-9Gene Regulation and Genetics
  • Track 2-10Neurotransmitters and signalling molecule

Clinical Neurochemistry illustrates the chemistry involved in the brain and nervous system function, and also how it influences the internal chemical environment. It is essential for a wide research in clinical neurochemistry as it plays part in understanding and treating neurological and psychiatric disorders.

  • Track 3-1Clinical neurochemistry of Brain Disorders
  • Track 3-2Clinical neurochemistry of CNS-active drugs
  • Track 3-3Clinical Neuroimaging
  • Track 3-4Neuroimaging agents and technologies
  • Track 3-5Neurotoxicity of Drugs
  • Track 3-6Neurochemistry and Nutrition

The peculiar function of the Blood Brain Barrier is selective permeability that hinders transport of molecules through it. This distinct function also inhibits the passage of the drugs across it. To overcome the blood-brain barrier, methods and developments of nanotechnology are assuring to deliver drugs across it by carry out multiple tasks in a predefined sequence.

Significant amount of research in nanotechnology in neurochemistry is required to explore the methods to deliver across the blood brain barrier.

  • Track 4-1Nanoneuroscience and Nanoneurosurgery
  • Track 4-2Neuroelectronics
  • Track 4-3Nano Neuro Knitting
  • Track 4-4Nanotechnology in Neurology—Current Status and Future Possibilities
  • Track 4-5Nanoscale Devices

Self-renewing, multi potent cells of nervous system that generate the neurons and glia are neural stem cells. The prime function of neural stem cells is continuous production of neurons by engaging in migration and replacing dying neurons.  Stem cell technologies have developed to understand the cellular and molecular properties of neural stem and progenitor cells to develop cell therapies to treat CNS injuries and diseases.

  • Track 5-1Stem cells: Basic Biology and Culture
  • Track 5-2Isolation Strategies for Neural Stem Cells
  • Track 5-3Neural Stem Cell Characterization
  • Track 5-4Clinical Applications of Stem Cells

Intensive research and development is needed to cure the neurological diseases and neurological disorders of the nervous system. There are more than 600 disease of nervous system which occurs at several locations and effect severely. To understand the multiple factors and fluctuation exhibited by these diseases advanced therapeutic methods and analytical study also required for novel diagnostic approaches.

  • Track 6-1Clinical Neurology and Neurodiagnostic Techniques
  • Track 6-2Neuro-Stimulants
  • Track 6-3Psychotherapy
  • Track 6-4Drug Therapies
  • Track 6-5Biomarkers and Biosensors
  • Track 6-6Neurofeedback
  • Track 6-7Neural Repair and Regeneration
  • Track 6-8Animal Models and Case Reports

Neurogenesis produces the neurons by neural stem cells. In all animals during embryogenesis, neurons of the organism are produced by neurogenesis. On the other side communication between two neurons is processed by neurotransmission.  Both the process plays a major role in producing neurons and communication between them. 

  • Track 7-1Chemical, physical, and computational methods in neuroscience
  • Track 7-2Signal Transduction and Synaptic Transmission
  • Track 7-3Pain and sensory processing
  • Track 7-4Neurodegeneration and Repair
  • Track 7-5Neuronal diseases—basis, detection, and treatment
  • Track 7-6Physiology and Signalling
  • Track 7-7Neuroendocrinology

The action of drug on the nervous system and the neural mechanisms through which they influence behavior is studied in neuropharmacology. Studying these interactions will help the researchers in developing drugs to treat neurological disorders, psychological disorders, pain, addiction and other diseases.

  • Track 8-1Molecular Neuropharmacology
  • Track 8-2Behavioral Neuropharmacology
  • Track 8-3Clinical Neuropharmacology
  • Track 8-4Neuropharmacology of Nicotinic drugs
  • Track 8-5Neuropharmacology of Anxiety

Neuroimmunology deals with the immune system in nervous system. The study of neuroimmunology improves the development of neuropharmacological treatments for several disorders of nervous, psychological and immunological disorders. Neuropathology is the study of disease of nervous system tissue. Analyzing the tissue will help in diagnosis of disease.

  • Track 9-1Clinical and Experimental Neuroimmunology
  • Track 9-2Neuropathology of Neurodegenerative Diseases
  • Track 9-3Animal models in Neuroimmunology
  • Track 9-4Immunotherapeutics for Nervous system disorders
  • Track 9-5Autoimmune Neurology
  • Track 9-6Neuroimmune Psychiatry
  • Track 9-7Demyelinating disorders and MS
  • Track 9-8Degeneration and Regeneration in the Nervous System
  • Track 9-9Neuroimmunological Disorders, Diagnosis and Therapy
  • Track 9-10Neuropathological Techniques

Abnormality in the brain, spinal cord or other nerves triggers the symptoms producing the disorders of the nervous system.  Even though the brain and spinal cord are surrounded by tough membranes they are very susceptible if compromised. Neurological disorders occur at several locations and are categorized on the primary location affected. There are more than 600 diseases of nervous system, among which Parkinson’s disease, epilepsy and brain tumors are mostly affected. The prime challenge is to understand the pathogenesis of the disease and develop effective forms to cure. Research in this field is to be advanced to reduce the death rate.

  • Track 10-1Alzheimer disease and Dementia
  • Track 10-2Neurodevelopmental and Genetic Disorders of the Nervous System
  • Track 10-3Vascular Disorders of the Nervous System
  • Track 10-4Neurodegenerative Disorders
  • Track 10-5Epilepsy and Sleep Disorders
  • Track 10-6Traumatic Brain Injury and Stroke
  • Track 10-7Neurological Symptoms, Signs and Investigations

Psychiatric disorders like depression, anxiety, schizophrenia, and bipolar disorder, affect millions of people around the world. These disorders comprises of wide range of problems with different symptoms varying from individual to individual

For treating this type of disorders we have many types of therapies which collectively shall come under Behavioral Therapy. Behavioral therapy can benefit individuals with a wide range of disorders.

  • Track 11-1Future of Psychiatric Diagnosis and Treatment
  • Track 11-2Behaviorial Research and Therapy
  • Track 11-3Mental and Behavioural Disorders
  • Track 11-4Anxiety and Depression
  • Track 11-5Autism and Schizophrenia
  • Track 11-6Psychiatric Epigenetics
  • Track 11-7Behavioral Research and Therapy
  • Track 11-8Cognitive-behavioral therapies
  • Track 11-9Neurochemistry and Forensic Psychiatry

All the neurological and psychiatric disorders are the result of the damage caused either to brain or spinal cord which together comprises of CNS. This session deals with the various neurobiological and genetic aspects of CNS disorders, their causes, and diagnosis and treatment options for these disorders.

  • Track 12-1CNS Drug Discovery
  • Track 12-2CNS Patterning
  • Track 12-3Neurobiology of CNS disorders
  • Track 12-4Genetic aspects of CNS function
  • Track 12-5Neurochemical pathophysiology of neurological disorders
  • Track 12-6Neurochemical pathophysiology of psychiatric disorders
  • Track 12-7Understanding the Complexities of the Human Brain
  • Track 12-8Animal models for CNS diseases

Psychopharmacology is the study of how the drugs affect our behavior. In this session, we discuss about the neurological process involved in Addiction, Experimental Models and Neurobiological Mechanisms, Psychoactive Drugs and Interactions, Drug Abuse and Pharmacological Treatment, Drug Applications to other Addictions and Substance Misuse and many more interesting topics.

  • Track 13-1Addiction, Experimental Models and Neurobiological Mechanisms
  • Track 13-2Psychopharmacological research
  • Track 13-3Psychoactive Drugs and Interactions
  • Track 13-4Drug Abuse and Pharmacological Treatment
  • Track 13-5Brain Imaging in Psychopharmacology
  • Track 13-6Drug Applications to other Addictions and Substance Misuse

Neuroinflammation has been closely linked with various neurodegenerative pathways. Inflammation plays major role as a driving force that can modulate the development of various neuropathologies. This session addresses the various issues relating the inflammation with the neurodegenartive disorders. 

  • Track 14-1Cytokine networks in Neuroinflammation
  • Track 14-2Recovery from Brain Damage
  • Track 14-3Inflammatory Disorders of the Nervous System
  • Track 14-4Novel Pathomechanisms in inflammatory Neuropathies

Neuroplasticity is known as brain plasticity. An interesting consequence of this neuroplasticity is that the activity of brain associated with a specific function can be transferred to another location. It makes your brain extremely resilient. Neuroplasticity also enables to recover from brain injury, stroke, and improve symptoms of autism, ADHD, learning disabilities and other brain deficits, pull out of depression and addictions, and reverse obsessive-compulsive patterns.

  • Track 15-1Neuronal Plasicity and Behaviour
  • Track 15-2Science of Neuroplasticity and the Brain 
  • Track 15-3Neuroplasticity and the Senses
  • Track 15-4Cognitive Growth and Decline
  • Track 15-5Brain-Computer Interface
  • Track 15-6Plasticity and the Brain Training

Neuro-ophthalmology is a subspecialty that merges the fields of neurology and ophthalmology that focuses on nervous system diseases that affect vision. This session deals about diagnosing and managing a wide spectrum of neuro-ophthalmic disorders. Some of the common problems discussed are optic nerve problems, Optic Neuritis, Nutritional Optic Neuropathy, visual disturbances, abnormal eye movements, double vision, thyroid eye disease, unequal pupil size, myasthenia gravis, and eyelid abnormalities.

  • Track 16-1Neurochemistry of the Retina
  • Track 16-2Eye Stroke
  • Track 16-3Optic Nerve Disorders
  • Track 16-4Optic Neuritis
  • Track 16-5Nutritional Optic Neuropathy
  • Track 16-6Diabetic Neuropathy

Neuroethics is concerned with ethical, legal and social implications of neuroscience. As the neuroscience research is getting evolved day by day at an exponential rate, an increased attention need to be paid to public understanding of science. Thus arises the importance of neuroethics in neuroscience. This session addresses Bioethics of Neuroscience, Insights and tools of Neuroscientific Research, ethics of Neuroimaging techniques and Neuropharmacology & Neurotechnology.

  • Track 17-1Bioethics of Neuroscience
  • Track 17-2Ethical, legal, and social implications of Neuroscience
  • Track 17-3Insights and tools of Neuroscientific Research
  • Track 17-4Ethics of Neuroimaging techniques, Neuropharmacology & Neurotechnology