2nd Annual Summit on
Neuro Science and Neurological Disorders

Millions of people around the world are severely burdened and disabled by neurological illnesses. Psychologists can assess cognitive impairments, help patients with cognitive impairments get better, and treat comorbid psychological illnesses in patients with neurological disorders. Neuropsychological assessment, which entails the systematic examination of the level and type of cognitive functioning impairment caused by neurological illness or injury, may be the most frequent site of interaction between psychologists and people with neurological disorders. The discovery of gene therapy is a promising new approach for treating the neurological disorders.

• Advances in Autism Spectrum Disorder Research
• The Impact of Environmental Factors on Neurodevelopment
• Epigenetic Regulation in Neurodevelopmental Disorders

Recent advances in systems neuroscience have been driven by the development of new experimental techniques and computational tools that allow researchers to study the brain at unprecedented levels of resolution and complexity. 

Neurologists and neuroscientists were finally able to locate the regions involved in particular functions as well as to elucidate the underlying mechanisms thanks to a number of technological and neuroscience advancements. This discovery was primarily made possible by advancements in neurosceince and anaesthetic techniques and the discovery of antibiotics on the medical side, and by the technical development of techniques that allowed single neurons to be recorded in anaesthetized animals first and then in animals that were behaving later. The heyday of system neuroscience was just beginning.

• Sensory Processing and Perception
• Emotion and Affective Neuroscience
• Neurocomputational Modeling

Clinical Neurology remains at the forefront of medical research, driving breakthroughs in understanding, diagnosing, and treating neurological disorders. The conference's focus on this vital topic aims to highlight recent research advancements and underscore the importance of clinical neurology in transforming patient care.

• Clinical Trials in Neurology: Recent Advances and Challenges
• Diagnostics and Biomarkers in Neurological Disorders
• Advances in Treatment and Management of Stroke

A branch of imaging research known as neuroimaging employs a variety of cutting-edge technologies to obtain noninvasive images of the brain or other regions of the CNS. In particular, neuroimaging can offer a variety of quantitative analyses of the anatomy, blood flow, blood volume, electrical activity, metabolism, and many other physiological functions within the CNS in addition to directly or indirectly derived visual representations. Brain scanning is a common description of neuroimaging. The aim is to link normal or abnormal resting-state sensory-motor, cognitive, and conscious activities to normal or abnormal quantifiable brain structure, biochemistry, pathways, functional brain networks, and connectivity using future noninvasive technologies.

The Neuropsychiatry research track at the conference delves into the captivating interface between neuroscience and psychiatry. Recent research in this field has unveiled the profound connections between brain function and mental health. Studies highlight the role of neurotransmitter systems, brain plasticity, and the identification of biomarkers in neuropsychiatric disorders. The track aims to foster a holistic understanding of mental health conditions, advancing patient care through interdisciplinary collaborations.

• Novel Therapies for Mood Disorders
• Neuroscience and Psychosis: New Insights
• The Interplay Between Neurology and Psychiatry in Dual Diagnosis

The Sleep Neuroscience research track at the conference delves into the fascinating realm of sleep and its profound impact on the brain. Recent research in this field has unraveled the complexities of sleep patterns, sleep architecture, and the role of sleep in memory consolidation and emotional regulation. Studies also explore the relationship between sleep and neurological disorders, such as insomnia, sleep apnea, and restless leg syndrome.

• The Impact of Sleep on Cognitive Function
• Circadian Rhythms and Mental Health
• Sleep Disorders and Neurodegenerative Disease

Scientists have wondered how to repair a damaged brain for ages. The concept of placing microchips into a person's mind is now becoming a reality. Neural implants, which sit at the nexus of neurology, engineering, and computers, offer the potential to help people who have lost functionality due to degenerative diseases, accidents, vision or hearing loss, and more. In other words, neural implants make it possible for researchers to compromise the neurological system. Neural implant interventions have the potential to develop into incredibly potent medical instruments, whether you call them electroceuticals, bioelectronics, neuromodulation, or something else entirely.

• Neural Prosthetics and Restorative Devices:
• Neurostimulation and Cognitive Enhancement:
• Neurofeedback and Brain Implants

Cellular and molecular neuroscience research covers a wide range of approaches to understanding the function and dysfunction of specific molecules and cell types in the brain and spinal cord. Ongoing research by the neuroscience's faculty has demonstrated molecular/ elucidating cellular mechanisms. Main topics are ion channels and electrophysiology. In order to learn critical details about the nervous system, the evolution of the human brain, and the role of genes and molecular signals, molecular and cellular neuroscientists examine the impact of these factors on cellular morphology, molecular signals, and gene expression.

The molecular underpinnings of behavior are the main subject of the Cognitive and Behavioral Neuroscience (CBN) emphasis More and more, studies looking at the effects of psychotherapy on a variety of psychiatric diseases use cognitive neuroscience methods. By improving our knowledge of how to evaluate, comprehend, predict, enhance, and manage human behavior, behavioral science research studies equip us with the means to handle a wide range of societal problems.We now know more about the neurobiology of addiction, ageing, sleep, trauma, anxiety, autism spectrum disorder, bipolar disorder, epilepsy, and immune system problems thanks to the studies of behavioral neuroscientists.

• Mapping the Neural Correlates of Consciousness
• Neuroimaging and Cognitive Performance
• Cognitive Enhancement: Current Research and Ethical Implications

The Department of Pharmacology has a long and illustrious history in the study of Neuroscience and Neuropharmacology, with ongoing research examining the biology of receptors, transporters, and ions channels, cellular signaling, synaptic plasticity, sensory mechanisms in pain and hearing, the neurobiology of addiction, and mechanisms of nerve injury, protection, and repair. Because to the worldwide trend in population ageing and the consequent rise in patients with neuropsychiatric diseases, the field of neuropharmacology research has been gradually expanding. To improve clinical outcomes and strengthen the discipline of neuropharmacology, a study area that bridges basic and clinical sciences, it is hoped that the discovery of novel pharmaceutically relevant compounds or new clinical applications will continue in the future.

• The Development of Novel Neuroprotective Agents
• Cannabinoids and the Brain: Emerging Treatments
• Psychedelics and Neuroscience: Therapeutic Potential

Neurosurgery was regarded as a specialization around the turn of the 20th century. Using neurological testing and clinical history, the clinical neurologist would form conclusions about lesions in the brain. It made it possible to diagnose brain tumors, spinal conditions, and vascular lesions. Vascular diseases and brain malignancies might be detected indirectly throughout the second and third decades of the 20th century using procedures like angiography, ventriculography, and pneumoencephalography. Yet, there were high rates of morbidity and mortality from neurological diseases due to the poor operating methods and widespread shortage of qualified experts.

• Immune Response in Neurological Disorders
• The Gut-Brain Axis: Microbiota's Role in Neurological Health
• Emerging Therapies in Neuroimmunology

New studies on the use of psychedelic chemicals for treating conditions like addiction, depression, anxiety, and posttraumatic stress disorder are being conducted in clinical research settings all over the world. It's possible that psychedelics could be used to treat a variety of mental and drug issues. In order to conclusively demonstrate the efficacy and safety of psychedelic therapy's different forms and uses, additional substantial research are required. As of Now, the body of high-quality evidence on psychedelic therapy is still comparatively modest.

Neurologists have during the past century given varying amounts of attention to the direct, indirect, and treatment-related consequences of cancer on the neurological system. Throughout the past 30 years, both the disorders covered by the discipline of neuro-oncology and our understanding of them have grown significantly. Technological advancements in neuroimaging, particularly computed tomography and magnetic resonance imaging, have contributed to the progress. The central nervous system (CNS) anatomy and pathology, as well as, to some extent, areas of the peripheral nervous system that may be impacted by cancer or its treatment, may now be seen in unprecedented detail thanks to these developments. There have been noticeable improvements in the accuracy of diagnosis, safety of neurosurgery, simplicity of tumor removal, and safer and more accurate radiotherapy.

• Recent Advances in Brain Tumor Research
• Neuro-oncology and Immunotherapy
• Radiosurgery and Other Emerging Treatments in Neuro-oncology

Neurosurgery was regarded as a specialization around the turn of the 20th century. Using neurological testing and clinical history, the clinical neurologist would form conclusions about lesions in the brain. It made it possible to diagnose brain tumors, spinal conditions, and vascular lesions. Vascular diseases and brain malignancies might be detected indirectly throughout the second and third decades of the 20th century using procedures like angiography, ventriculography, and pneumoencephalography. Yet, there were high rates of morbidity and mortality from neurological diseases due to the poor operating methods and widespread shortage of qualified experts.

At the nexus of information neuroinformatics is the fast growing feild in neuroscience. The efficiency of data sharing through databases and by using theoretical and computational models to solve complicated problems in the field has been demonstrated by other sciences, such as genomics. Researchers can share their data through neuroinformatics facilities and contribute to other fields by using the tools for data analysis and integration that are readily available. With computational modelling, researchers may also more quickly quantitatively verify their working hypotheses. Furthermore,neuroinformatics encourages more collaborative research, one goal of which is to improve opportunities for studying the brain at various levels of brain structure.

In order to choose clinically significant endpoints for interventional clinical trials, the Division of Neurogenetics studies the natural history of genetic illnesses affecting the neurological system, such as lysosomal storage disorders.

• The Role of Genetics in Neurodegenerative Diseases
• Cutting-edge Techniques in Neurogenomic Research
• Understanding Brain Disorders Through the Lens of Genetics

One of the most common disorders that affect children and result in neuromotor impairments is chronic non-progressive encephalopathy, also known as cerebral palsy (CP). Children with PC may display postural tone changes, aberrant posture patterns, sensory problems, and cognitive disorders. According to its criteria, Neuro pediatrics impact score for 2021 is 1.50, which is calculated in 2022. When compared to the prior year 2020, Neuro pediatrics IS is increased by a factor of 0.25, and the approximate percentage change is 20%, indicating an upward trend.

It was once thought by scientists that the brain could not evolve. We now know that neuroplasticity is possible. Throughout your life, you have several opportunities to remodel your brain. Your brain can be impacted by events both inside and outside of you. When you consider the possibilities and modifications that neuroplasticity may make to your body and your life in general, it is truly amazing.

• Neuroplasticity and Rehabilitation
• Effects of Stress and Trauma on Neuroplasticity
• The Role of Neuroplasticity in Learning and Memory

The study of neuro engineering has constantly benefited from the use of modelling and signal processing methods . More specifically, EMG, EEG, brain-computer and brain-machine interfaces, neural computing and modelling, neural prostheses, neuro-robotics, neuromodulation, and neuroscience are all areas where these cutting-edge approaches are used.

Clinical neurophysiology has made significant strides in the comprehension, identification, and even therapy of certain movement disorders. The most significant technological advancement has been transcranial magnetic stimulation. Improved understanding of bradykinesia in Parkinson's disease, loss of inhibition and enhanced plasticity in dystonia, aberrant startle in hyperekplexia, and different aspects of psychogenic movement disorders that might help with diagnosis are examples of pathophysiology advancements. Non-invasive brain stimulation for therapy has been the subject of studies, but the results are often modest.

• Brain-Machine Interfaces: Latest Developments
• Neural Prosthetics and Sensory Restoration
• The Promise and Perils of Neurotechnology

New studies on the use of psychedelic chemicals for treating conditions like addiction, depression, anxiety, and posttraumatic stress disorder are being conducted in clinical research settings all over the world. It's possible that psychedelics could be used to treat a variety of mental and drug issues. In order to conclusively demonstrate the efficacy and safety of psychedelic therapy's different forms and uses, additional substantial research are required. As of Now, the body of high-quality evidence on psychedelic therapy is still comparatively modest.

A revolution in biology has created unprecedented opportunities to understand the pathogenesis of neuroinfectious diseases. Important discoveries by medical professionals and scientists are made in an atmosphere that seeks to unravel fundamental biological processes. Central nervous system (CNS) infections can have a wide range of origins, symptoms, and prognoses. They have the potential to cause considerable morbidity and mortality and can manifest suddenly. The highly isolated nature of the CNS and its defence mechanisms make treating CNS infections particularly difficult.

The Wireless Brain-Spine Interface is an innovative technology that aims to bridge the communication gap between the brain and the spinal cord. It holds great promise in the field of neuroscience and has the potential to revolutionize paralysis treatment and improve the quality of life for individuals with neurological disorders.

The Wireless Brain-Spine Interface utilizes advanced neuroscience techniques, including neural recording and stimulation, to decode brain signals and translate them into commands that stimulate specific regions of the spinal cord. This approach holds immense potential for re-establishing neural pathways and restoring lost motor functions.

Stroke and Central Nervous System (CNS) disorders continue to be major global health challenges, affecting millions of individuals each year. Recent research in these fields has highlighted the critical need for advancing our understanding, diagnosis, treatment, and management of these conditions to improve patient outcomes and enhance quality of life.

At Neuroscience conference, we recognize the paramount importance of stroke and CNS research in shaping the future of neurology and neuroscience. This track offers a platform for leading experts, researchers, and clinicians to share their recent findings, explore novel therapeutic avenues, and collaborate on innovative approaches to tackle these complex neurological conditions.