Track Categories

The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.

The complicated, multidisciplinary, and quickly developing field of neuroscience looks at the structure and function of the human brain and nervous system. Neuroscience research draws on cellular and molecular biology, anatomy and physiology, human behaviour and cognition, and other disciplines, to tool out information about how the brain works at levels previously unrecognized. We have a hundred billion neurons, or brain cells, with close to a quadrillion connection between them, and we have yet to fully understand a single cell. Neuroscience is the place where psychology meets biology to further our understanding of physical, psychological, and neurological health conditions, such as the brain’s role in how we perceive different types of pain and the underlying cause of Parkinson’s disease. Computer simulations, imaging, and other tools give researchers and medical experts new insight into the physical anatomy of the brain and its relationship to the rest of the mind and body.

 

  • Track 1-1Behavioural Neuroscience
  • Track 1-2Clinical Neuroscience
  • Track 1-3Molecular Neuroscience
  • Track 1-4Computational Neuroscience
  • Track 1-5Human Anatomy
  • Track 1-6Physiology

Psychology is the scientific study of the mind and behaviour.  Psychology is a multifaceted discipline and comprises many sub-fields of study such areas as human development, sports, health, clinical, social behaviour and cognitive processes. Psychology is the science of behaviour and mind, including conscious and unconscious phenomena, as well as feeling and thought. It is an academic discipline of immense scope and various interests that, when taken together, seek an understanding of the developing properties of brains, and all the variety of epiphenomena they manifest.

 

  • Track 2-1Behaviourism
  • Track 2-2Addiction to Drugs
  • Track 2-3Developmental Psychology
  • Track 2-4Biological Psychology
  • Track 2-5Experimental Psychology
  • Track 2-6Personality Psychology
  • Track 2-7Psychodynamic Theories

Dementia is not a precise disease. It's an overall term that describes a group of symptoms associated with a decline in memory or other thinking skills severe enough to reduce a person's ability to perform everyday activities. Alzheimer's disease accounts for 60 to 80 percent of cases. Vascular dementia, which occurs after a stroke, is the second most common dementia type. But there are many other conditions that can cause symptoms of dementia, including some that are reversible, such as thyroid problems and vitamin deficits. Dementia is often incorrectly referred to as "senility" or "senile dementia," which reflects the formerly widespread but incorrect belief that serious mental decline is a normal part of aging.

  • Track 3-1Vascular Dementia
  • Track 3-2Parkinson's disease dementia
  • Track 3-3Frontotemporal Dementia
  • Track 3-4Mixed Dementia
  • Track 3-5Dementia with Lewy Bodies
  • Track 3-6Case Reports

Neurocognitive disorders are a group of conditions that frequently lead to impaired mental function. Organic brain syndrome used to be the term to describe these conditions, but neurocognitive disorders is now the more commonly used term. Neurocognitive disorders most commonly occur in older adults, but they can affect younger people as well. Neurocognitive disorders can also develop because of brain trauma or substance abuse. Healthcare providers can usually determine the underlying cause of neurocognitive disorders based on the reported symptoms and the results of diagnostic tests. The cause and severity of neurocognitive disorders can help healthcare providers determine the best course of treatment.

 

  • Track 4-1Alzheimer's disease
  • Track 4-2Parkinson's disease
  • Track 4-3Huntington 's disease
  • Track 4-4Down Syndrome
  • Track 4-5Multiple Sclerosis
  • Track 4-6Prion Disease

Neuroimaging is an umbrella term encompassing a variety of methods and technologies. Collectively these varied techniques are oftentimes referred to as “brain scans.” Others use the more scientific term “in vivo imaging,” meaning that biological experiments are carried out on living organisms. Neuroimaging utilizes several technologies to directly or indirectly produce images of the brain. Each technique is designed to convey distinct types of information, depending on the scientific or medical question at hand. There are different kinds of neuroimaging. Structural imaging offers a vision of the structure of the brain to enable diagnosis of larger-scale diseases, tumours, injuries, and stroke.

 

  • Track 5-1Functional Magnetic Resonance Imaging (fMRI)
  • Track 5-2Computed Tomography (CT) Scan
  • Track 5-3Positron Emission Tomography (PET)
  • Track 5-4Magnetoencephalography & Electroencephalography
  • Track 5-5Computed axial tomography
  • Track 5-6Diffuse Optical Imaging
  • Track 5-7Event-related Optical Signal
  • Track 5-8Cranial Ultrasound

Neurobiology is the branch of biology that deals with nervous system functions and structures. More specifically, neurobiology focuses on the cells and tissues of the nervous system and ways in which they can form structures and circuits (pathways) for controlling the body. This system includes common structures, such as the brain and spinal cord, and nerves. Neurobiology can be classified as a sub-discipline within the broader field of physiology. It is relatively broad as a scientific field, and can be applied to multiple organism types, including humans, vertebrate animals (animals with backbones), and invertebrates (animals without backbones). The term 'neurobiology' is often used as a substitute for neuroscience, but the key distinction is that neurobiology is often limited to just the biological aspect of this system, and not the interdisciplinary aspects that we see in neuroscience.

 

  • Track 6-1Nervous System
  • Track 6-2Molecular Neurobiology
  • Track 6-3Neuronal Networks
  • Track 6-4Perception
  • Track 6-5Nerve Cells

“Most people think of neurosurgery as brain surgery — but it is much more”!

It is the medical specialty concerned with the diagnosis and treatment of patients with injury to, or diseases/disorders of the brain, spinal cord and spinal column, and peripheral nerves within all parts of the body. The specialty of neurosurgical care includes both adult and paediatric patients. Dependent upon the nature of the injury or disease a neurological surgeon may provide surgical and/or non-surgical care. The precise planning and performance of neurosurgical procedures on the brain, spine, spinal cord and peripheral nerves require the operating surgeon’s utmost concentration. Every decision has consequences and must be made with great care. Every step carries risks and must be approached with caution. Every surgery is strongly connected with hopes and fears of the patient and their relatives in anticipation of a full recovery some of its types are as follows.

  • Track 7-1Paediatric Neurosurgery
  • Track 7-2Spinal Neurosurgery
  • Track 7-3Neurovascular Surgery
  • Track 7-4Skull Based Surgery
  • Track 7-5Traumatic Brain Injury
  • Track 7-6Robotic Neurosurgery
  • Track 7-7Neuro Oncology

Neuropharmacology is the study of the effects of drugs on the nervous system, with the goal of developing compounds that offer therapeutic benefit in humans with psychiatric and neurological disease. We believe that an understanding of a drug’s action requires an integrated knowledge of the cellular and molecular mechanisms by which the drug exerts its effects upon brain circuitry and ultimately human behaviour. Neuro pharmacology is a very vast field in the area Neurology were treatment is being provided for the neurological disorder patient by the use of Neuro-transmitters and Chemicals.

 

  • Track 8-1Endogenous Chemical Agents
  • Track 8-2Molecular Neuropharmacology
  • Track 8-3Behavioural Neuropharmacology
  • Track 8-4Neuroimmune Pharmacology
  • Track 8-5Neurochemical Transmission
  • Track 8-6Neuro Transmitters
  • Track 8-7Neuro-Chemical Interactions
  • Track 8-8Agonist
  • Track 8-9Competitive &Non-competitive Antagonist

Neuropathology is a specialty within the study of pathology focused on the disease of the brain, spinal cord, and neural tissue. This includes the central nervous system and the peripheral nervous system. Tissue analysis comes from either surgical biopsies or post mortem autopsies. Common tissue samples include muscle fibres and nervous tissue. Common applications of neuropathology include studying samples of tissue in patients who have Parkinson's disease, Alzheimer's disease, dementia, Huntington's disease, amyotrophic lateral sclerosis, mitochondria disease, and any disorder that has neural deterioration in the brain or spinal cord.

 

  • Track 9-1Pathologic Reactions in CNS
  • Track 9-2Inflammation
  • Track 9-3Congenital Malformations
  • Track 9-4Intoxications
  • Track 9-5Infections

Neurogenetics is the study of role of genetics in the function and development of the nervous system. This draws aspects from both neuroscience and genetics but particularly it focusses on how the genetic code carried by an organism express its characteristics in terms of neurology. This is very helpful in finding the genetic base of several neural disorders. The genetic behind complex neurological disorders are the source of ongoing research, but the genetic basis of simple diseases and neurological disorders has been accurately pinpointed. One of the most important factors that drag researchers for the study continuation in neurogenetics is greater knowledge of gene loci that represents linkage of genetics to neurological disorders.

 

  • Track 10-1Neurological Disorders
  • Track 10-2Gene Sequencing
  • Track 10-3Statistical Analysis
  • Track 10-4Recombinant DNA
  • Track 10-5Animal Model Assay
  • Track 10-6Human Research
  • Track 10-7Genetic Mutation

Neurorehabilitation is a complex medical process which aims to aid recovery from a nervous system injury, and to minimize and/or compensate for any functional alterations resulting from it. Rehabilitation of sensory and cognitive function typically involves methods for retraining neural pathways or training new neural pathways to regain or improve neurocognitive functioning that has been diminished by disease or trauma. Three common neuropsychological problems treatable with rehabilitation are attention deficit/hyperactivity disorder (ADHD), concussion, and spinal cord injury. Rehabilitation research and practices are a fertile area for clinical neuropsychologists and others.

 

  • Track 11-1General aspects of Neurorehabilitation
  • Track 11-2Health & Wellness in Rehabilitation
  • Track 11-3Physiological Consequences of CNS Damage
  • Track 11-4Neuroplasticity and Repair
  • Track 11-5Medical Screening
  • Track 11-6Interventions in Neurological Rehabilitation

Neurochemistry refers to the chemical processes that occur in the brain and nervous system. The fact that one can read this text, remember what has been read, and even breathe during the entire time that these events take place relies on the amazing chemistry that occurs in the human brain and the nerve cells with which it communicates. It is the study of the identities, structures and functions of compounds (neurochemicals) that are generated by and that modulate the nervous system. Neurochemicals include oxytocin, serotonin, dopamine and other neurotransmitters and neurotransmitter-regulating substances.

 

  • Track 12-1Neuro Transmitters
  • Track 12-2Growth , Development and Differentiation
  • Track 12-3Intracellular Signalling
  • Track 12-4Intercellular Signalling
  • Track 12-5Metabolism
  • Track 12-6Neural processing and Behavior
  • Track 12-7Sensory Transduction

Neuroimmunology is a field combining neuroscience, the study of the nervous system, and immunology, the study of the immune system. Neuroimmunologist’s seek to better understand the interactions of these two complex systems during development, homeostasis, and response to injuries. A long-term goal of this rapidly developing research area is to further develop our understanding of the pathology of certain neurological diseases, some of which have no clear etiology. In doing so, neuroimmunology subsidizes to development of new pharmacological treatments for several neurological conditions. Many types of interactions involve both the nervous and immune systems including the physiological functioning of the two systems in health and disease, malfunction of either and or both systems that leads to disorders, and the physical, chemical, and environmental stressors that affect the two systems daily.

 

  • Track 13-1Clinical Neuro Immunology
  • Track 13-2Neuro Immunological Disorders
  • Track 13-3Neuro Inflammation
  • Track 13-4Neurodevelopmental Disorders
  • Track 13-5Depression

Psychiatry is the medical specialty devoted to the diagnosis, prevention and treatment of mental disorders. These include various mal adaptations related to mood, behaviour, cognition, and perceptions. psychiatric assessment of a person typically begins with a case history and mental status examination. Physical examinations and psychological tests may be conducted. On occasion, neuroimaging or other neurophysiological techniques are used. Neuropsychiatry is a branch of medicine that deals with mental disorders attributable to diseases of the nervous system. It preceded the current disciplines of psychiatry and neurology, which had common training however, psychiatry and neurology have subsequently split apart and are typically practiced separately. Nevertheless, neuropsychiatry has become a growing subspecialty of psychiatry and it is also closely related to the fields of neuropsychology and behavioural neurology.

 

  • Track 14-1Behaviour
  • Track 14-2Medication
  • Track 14-3Psychotherapy
  • Track 14-4Psychiatry in Addiction
  • Track 14-5Psycho Pharmacology

Neurophysiology is broadly defined as the study of nervous system function. In this field, scientists investigate the central and peripheral nervous systems at the level of whole organs, cellular networks, single cells, or even subcellular compartments. A unifying feature of this wide-ranging discipline is an interest in the mechanisms that lead to the generation and propagation of electrical impulses within and between neurons. This subject is important not only for our understanding of the fascinating processes driving human thought, but also for our ability to diagnose and treat disorders related to nervous system malfunction.

 

  • Track 15-1Clinical Neurophysiology
  • Track 15-2Cellular and Molecular Neuro Physiology
  • Track 15-3Quantitative Neurophysiology
  • Track 15-4Neuro Mechanisms
  • Track 15-5Sensory Functions

Neuroinformatic is an examination field worried with the association of neuroscience information using computational models and explanatory apparatuses. These territories of research are critical for the coordination and investigation of progressively extensive volume, high-dimensional, and fine-grain exploratory information. Neuroinformaticians give computational instruments, scientific models, and make interoperable databases for clinicians and research researchers. Neuroscience is a heterogeneous field, comprising of numerous and different sub-disciplines (e.g., Cognitive Psychology, behavioural neuroscience, and behavioural hereditary qualities). All together for our comprehension of the mind to keep on deepening, it is fundamental that these sub-orders can share information and discoveries definitively; Neuroinformaticians encourage this. Neuroinformatic remains at the convergence of neuroscience and data science.

 

  • Track 16-1Data Processing
  • Track 16-2Brain Computer Interface
  • Track 16-3Computational Neuroscience
  • Track 16-4Neural Computation
  • Track 16-5Neuro Engineering
  • Track 16-6Brain Informatics
  • Track 16-7Analysis and Modelling of CNS and Neuronal System

Case reports in Cognitive Neuroscience supports the comprehensive report of causes, symptoms, treatment and possible outcome. Each case report distinguishes in conditions such as age, family background, treatment given and effects of it. This all helps to design, categorize the future aspects of disease. Case report will be highly helpful for the researchers to develop new methods for physicians to develop quick diagnosis methods in  Neuroscience and Neurologically affected patients. Case reports in Cognitive Neuroscience gives some thought regarding diagnosis, treatment and level of cure perhaps conceivable prevention to be taken moreover. Cognitive Neuroscience 2019 conference would be extremely useful to researchers to carry on with their work.

 

  • Track 17-1Case report in Neuro Psychology
  • Track 17-2Case report in Psychiatry
  • Track 17-3Case report in Cognitive Neuroscience
  • Track 17-4Case report in Neurosurgery
  • Track 17-5Case Report in Neuro Cognitive Disorders