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.

Neuroscience is a multidisciplinary branch involving the methodical study of the Nervous system. Traditionally neuroscience has been considered as the branch of biology. However, considering the present advances in this field it had been redefined as Associate as an interdisciplinary knowledge domain information that collaborates with the fields of drugs, genetics, psychiatry, chemistry, technology, engineering, and allied disciplines of science. Neuroscientists explore every component of the nervous system and their functioning to develop drugs for treating neurological disorders.

Neurological disorder is an umbrella term represents diseases and disorders that affect the brain and nervous system. The cause of neurological disorders is diverse. The vital components of CNS like Brain and Spinal cord are encapsulated in copious membranes which are assailable to force and pressure. The peripheral nerves situated deep under the skin also susceptible to damages. The damages result in disorder which in turn affects one neuron or entire nervous system. The symptom of neurological disorders varies based on upon on type of disorder and Specific area affected. Based on the report by WHO, Millions of people around the world are affected by various kind of neurological disorders. Predominantly 10% of the world’s death is caused by neurological disorders.

  • Track 2-1Alzheimer
  • Track 2-2Brain Injury
  • Track 2-3Dementia
  • Track 2-4Epilepsy
  • Track 2-5ADHD
  • Track 2-6Huntington
  • Track 2-7Parkinson

Central nervous system is the intrinsic reality of the body. Brain and the spinal cord are the core part of CNS.  Serving as the largest part of the nervous system, It regulates the thought process, the functioning of organs and movement associated with the body. The brain is encompassed in the cranial cavity and consists of neurons and glial cells. CNS is responsible for all involuntary actions

  • Track 3-1Central Nervous System Disorders
  • Track 3-2CNS Neuroscience & Therapeutics
  • Track 3-3Expression of neuron transmitters
  • Track 3-4Transformation of neuronal precursors
  • Track 3-5CNS Biomarkers
  • Track 3-6Multiple Sclerosis

Neurophysiology is the branch of neuroscience and physiology that exploits the functioning of the nervous system. These studies are carried out using electrophysiological or molecular biological tools.  Insights of neurophysiology render the elaborate description of the revolutionized anatomy of nervous system, the motor response control system, thought processing and memory management system. Discussions can also be made in neuromuscular physiology, neural mechanisms of higher nervous activity and contemporary problems of Neuroscience can also be conferred.

  • Track 4-1Clinical Neurophysiology
  • Track 4-2Surgical Neurophysiology
  • Track 4-3Systemic Neurophysiology
  • Track 4-4Disorder Diagnostics Modalities
  • Track 4-5Metabolic Disorders in Neurophysiology
  • Track 4-6Physio-therapy
  • Track 4-7Neurophysiology of Pain

The compounds (neurochemicals) that are produced by and that control the nervous system includes the attention in the arena of neurochemistryNeurochemistry deals with the progression of neurotransmission with the help of neurochemicals like oxytocin, serotonin, dopamine and other neurotransmitters and neurotransmitter-regulating substances.

  • Track 5-1Chemical Neurobiology
  • Track 5-2Key Aspects of Neurochemistry
  • Track 5-3Molecular and Cellular neurochemistry
  • Track 5-4Molecular Mechanisms & Regulation of Nervous System
  • Track 5-5Neurotransmitters and signalling molecule

Neurogenetics attributes to the study of the genetic role in the development and functioning of the nervous system. Many of the fundamental processes underlying neurological disease remain elusive and/or poorly understood. Genetics and proteomics (the study of proteins produced by genes) can increase our understanding of predisposition to diseases so we can develop the next wave of therapies to treat neurological disease. Mapping the gene of Huntington disease, unveiling the cause for hereditary neuropathy with liability to pressure palsy(HNPP) using Neurogenetics is marked as landmark discoveries in the field of neurobiology.

  • Track 6-1Neurogenetic Disorders
  • Track 6-2Diagnosis of Neurogenetic Diseases
  • Track 6-3Treatment for Neurogenetic Diseases
  • Track 6-4Myotonic Dystrophy

Neuropathology deals with the study of the pathology of nervous tissue in the form of biopsy or autopsy. Pathological study of brain and spinal cord aids in the diagnosis of the disease. In certain countries, still, neuropathology is deemed as a subcategory of anatomical pathology. Rudimental understanding of nervous system pathology is indispensable to provide efficient, safe evidence-based care to patients with neurological diseases.

  • Track 7-1Neuropathological disease
  • Track 7-2Neuropathology of Dementia Disorders
  • Track 7-3Vasculitis
  • Track 7-4Amyloidosis
  • Track 7-5Neuropathological assessment of Parkinson Disease

The Study of interaction between the nervous system and the immune system is interpreted as Neuroimmunology. The cross talk between these two complex systems is a continuing mystery to be deciphered by neuroscientists. Later researches in this area have focused on the role of immune cells and immune mediators in the initiation and progression of specific neurological diseases, such as multiple sclerosis and Alzheimer's disease. Yet how do autoimmune T cells get into the brain and how do they contribute to neurological diseases and does the microglial cell activation in the brain Neurodestructive or Neuroprotective. Can serum antibodies affect brain function and what are the functional contributions of genetic determinants to multiple sclerosis susceptibility? These and other questions need a clear discussion that has important implications for the treatment of neurological disorders with an inflammatory component. 

  • Track 8-1Neuroimmune System
  • Track 8-2Neuro Immunological Disorders
  • Track 8-3Neuro-immune Interactions
  • Track 8-4Neuroinflammation

Addiction is defined as a constantly persistent, relapsing mental disorder. It is considered a mental disorder because drugs change the function of the brain and its structure. These brain changes can be long-lasting and can lead to the harmful behaviors. Most abused drugs produce intense feelings of pleasure. The initial decision to take drugs is typically voluntary. The common characteristic of all addictive substances is that they activate the brain’s reward system, either directly or indirectly. The positive and negative consequences of substance use vary greatly depending on the specific drug being used. The primary features of substance use disorders are a mixture of cognitive, behavioral, and physiological symptoms.

  • Track 9-1Therapies
  • Track 9-2Psychological behavioral change
  • Track 9-3Neurotransmitters

Exploration of neurology or all of those questions has been and is being undertaken in such disciplines as cognitive psychologyneuro linguistics, philosophy, artificial intelligence, robotics, neuroscience, training, cognitive sciences, behavioural economics, and others. The fundamentals and the minor in Cognitive scienceneurology conferences consequently, constitute a proper means of bringing collectively students and neuro physicians in exclusive disciplines who percentage common interests. From our neuroscience conference, we are seeking to enhance the view supplied by way of every person discipline through exploration or the methodologies of Neurology. Interdisciplinary group of psychiatrists, clinical psychologists, forensic psychologists, neuropsychologists, occupational psychologists and health psychologists based within the Institute of Mental Health and enjoying close links with topics related to the neurosciences and the behavioural sciences.

  • Track 10-1Cognitive Neuropsychology
  • Track 10-2Neuro Psychological tests
  • Track 10-3Behavioral Psychiatry
  • Track 10-4Sleep Disorders
  • Track 10-5Psychoanalysis
  • Track 10-6Brain Cells Neurophysiology
  • Track 10-7Neural Plasticity in Auditory Cortex
  • Track 10-8Neurological Monitoring

Neuroradiology and Neuroimaging pave the path to visualize the brain and spinal cord which is critical for diagnosing and treating the patient with the neurological illness. Neuroradiology is maneuvered to image the structure, functions of the central nervous and peripheral nervous system using neuroimaging techniques. Neuroimaging can be exploited for plain film diagnosis of the skull, sinuses, mastoids, spine, and head, and neck structures, and all other imaging and special procedures related to the central nervous system and head and neck including angiography, myelography, interventional techniques, and magnetic resonance imaging. Our session mainly focusing on Basics of NeuroradiologyPediatric NeuroradiologyFunctional NeuroradiologyEmergency NeuroradiologySpine InterventionsNeuroradiology, and Patient safety and on Preventive Neuroradiology.

  • Track 11-1Brain Monitoring
  • Track 11-2Implant Technologies
  • Track 11-3Use of Neuroimaging in various Diseases

Neurosurgery is the youngest surgical discipline that focuses on diagnosis, treatment, and rehabilitation of neuro-related diseases and disorders. The history of neurosurgery dates back to the early 1990s. High quality and life-sustaining treatments can be endowed for patients with advanced neurosurgical devices. Some of the common neurosurgeries include craniotomy, microsurgery, oncological neurosurgery, neuro-endoscopy (endoscopic endonasal surgery), and stereotactic neurosurgery. Flow diversion devices, neuroendovascular stents, liquid embolic, clot retrieval, and balloon catheters are the innovative neurosurgical devices playing significant growth in the market. Due to its potential outcomes, global investors contribute more investments in R&D.

  • Track 12-1Advancements in Neurological Surgeries by Operations
  • Track 12-2Brain Neurosurgery
  • Track 12-3Epilepsy Surgery
  • Track 12-4Peripheral Nerve Surgery
  • Track 12-5Pediatric Neurosurgery
  • Track 12-6Spinal Neurosurgery

Neuro-oncology paraphrases the study of tumors in the brain and spinal cord. The global incidence of brain tumor is higher than 45/100,000 patients a year. According to National brain tumor society, there are about 120 types of brain tumor. The widely known type of brain tumor is glioma that originates from glial tissues. Meningioma is the most common type of spinal cord tumor which originates from CNS. The treatment given for neurological tumors is based upon the type of tumor, position in the spine and the age of the patient.

  • Track 13-1Treatments involved in Brain Tumors
  • Track 13-2Advancements in Neuro Oncology
  • Track 13-3Tumors of the Central Nervous System
  • Track 13-4Brain Metastasis

Neuropharmacology divulges on understanding the effects of chemical agents with neurobiological processes of the nervous system. The study involves various aspects of nervous system interrogating single neuron to the whole region of the brain and spinal cord. Experiments are carried out on Mammalian, non-mammalian and invertebrates organism to obtain novel insights on neurobiological mechanisms. In order to design a drug for the neurological disorder, one must understand how neurons communicate with each other. The neuropharmacology market can be categorized on the basis of technology, application, and region.

  • Track 14-1Current research in Neuropharmacology
  • Track 14-2Pharmacokinetic studies
  • Track 14-3Pharmacodynamic studies
  • Track 14-4Clinical Neuropharmacology
  • Track 14-5Study of drugs for Neurological Disorders
  • Track 14-6Effect of drugs for Neurological Disorders

Reconditioning and retraining of the brain waves employing real-time display electroencephalography (EEG) are termed as NeurofeedbackNeurofeedback also called as Neurotherapy is a therapeutic tool that improves a variety of health conditions. During the treatment, the EEG is recorded from a subject scalp which is further extracted into various components and fed to subjects in form of video and audio, where the subject should alter these parameters to attain more efficient mode of brain functioning. Recent studies reflecting evidenced-based efficacy proved this technique a more viable option for clinical intervention. Embedded with technology, EEG-biofeedback is a non-invasive, drug-free, brain training system that aids the central nervous system (CNS) make the best use of your brain’s natural resources.

  • Track 15-1Neurofeedback as a Therapeutic Tool
  • Track 15-2Neurofeedback - Experimental Methods
  • Track 15-3Different systems in Neurofeedback

Neuroscience nursing deals with aiding the patient experiencing neurological problems. This may involve injuries due to the head and spinal trauma from mishaps, or ailments, as an example, shaking palsy illness, meningitis, redness, epilepsy, and diverse pathology.

  • Track 16-1Care of patients suffering with mental illness
  • Track 16-2Healthcare nursing

Pediatric Neurology deals with the management and diagnosis of neurological conditions in neonates, children, infants and adolescents. The discipline of child neurology encompasses diseases and disorders of the brain, peripheral nervous system, spinal cord, autonomic nervous system and blood vessels that affect individuals in these age groups.

  • Track 17-1Pediatric Neurological disorders
  • Track 17-2Therapies for Child Neurological Disorders

The central neuroendocrine systems serve in as an interface between the brain and a significant number of the peripheral endocrine systems. A neuroendocrine system can be characterized as the glands and non-endocrine tissues, arrangements neurons and hormones, the neurochemicals and humoral signs they produce and receive, that work in a coordinated manner to collectively regulate a physiological or behavioural state. In this session, we define and describe different types of neuroendocrine systems, and review the basic integrative mechanisms that each people to operate under normal physiological circumstances.

  • Track 18-1Homeostasis
  • Track 18-2Growth Hormone
  • Track 18-3Obstructive Sleep Apnea Risk
  • Track 18-4Neuro inflammation
  • Track 18-5Pituitary

Neurological disorders are the most terrible nightmare of an individual’s life. Since the cause of those diseases are not known that  leads us in dimness to perform the cure also. There are some treatments and techniques that a neurologist uses on the patient to make them improve.

  • Track 19-1Tapping
  • Track 19-2Brushing
  • Track 19-3Cryotherapy-Brief
  • Track 19-4Passive Stretching - Fast/Quick
  • Track 19-5Joint Compression
  • Track 19-6Vibration
  • Track 19-7Vestibular Stimulation

With a regularly expanding future, Neuroscience is turning out to be more common in the public arena. The monetary and social expenses of Neurological and Neurology Disorders to society are immense. Numerous enormous pharmaceutical organizations have moved far from CNS and Neurology look into. This meeting will give designates a chance to increase extra profound experiences into the accepted procedures in clinical trials, and also tending to the difficulties in Neuroscience and Neurology inquire about and by taking a gander at the most recent preclinical and clinical studies.

  • Track 20-1Life Concepts Across Neurological Conditions
  • Track 20-2Case Studies
  • Track 20-3Advancements in Neurological Techniques
  • Track 20-4Clinical Traits of Neuronal Disorders