Our research is aimed at the scientific understanding of human memory and its relationship to other psychological processes. Memory is a critical ingredient for mental functions, including our understanding of the personal past, our current goals and actions, and our plans for the future. The Goldin-Meadow Laboratory is a research lab at the University of Chicago in the Department of Psychology headed by Susan Goldin-Meadow. The lab is composed of graduate students and researchers pursuing independent topics related to cognition, development, education, linguistics, and various other fields, but interrelated by the lab’s main focus – the study of non-verbal communication, specifically gestures.
Neuroscience labs are fascinating places where researchers delve into the complexities of the human brain. These labs are equipped with state-of-the-art technology and tools that allow scientists to study various aspects of the brain’s functions and structures.
In addition, when the research team stimulated the axonal bundles using a technique known as optogenetics, the organoid activity was altered accordingly and the organoids were affected by these changes for some time, in a process known as plasticity. We are committed to providing patient-centered holistic treatments to help patients return to a good quality of life. The lab specifically focuses on long distance neural circuits from the cerebellar cortex involved in social and flexible behavior. This research is motivated by clinical findings describing an increased risk of autism diagnosis in children with a cerebellar injury at birth. Immunology is a thriving field in biomedical science with a focus on defense against pathogens, yet its impact on normal physiology is not well-understood. The Florsheim Lab aims to bridge this gap by exploring the immune system’s role within the broader context of physiology, neuroscience, and animal behavior.
The Role of Neuroscience Labs
Neuroscience labs play a crucial role in advancing our understanding of the brain and its impact on behavior, cognition, and overall health. Researchers in these labs conduct experiments, analyze data, and publish their findings in scientific journals, contributing to the growing body of knowledge in the field of neuroscience.
We use various models, including hiPSCs, patient brain tissue, and animal models, and employ advanced molecular and microscopy techniques. Using both psychophysical and neuroimaging techniques, this lab studies visual, auditory, and visuomotor localization, with the goal of understanding the perceptual, cognitive, and neural mechanisms that allow humans to perceive and interact with objects in a dynamic world. The Kaufer Lab investigates molecular events that underlie brain plasticity and deterioration in the face of stress and neurological insults throughout life. Previous studies have tried to create brain circuits under laboratory conditions, which have been advancing the field. The team did this by linking the organoids via axonal bundles, which is similar to how regions are connected in the living human brain.
The Visualization Laboratory provides a community space for the development of interdisciplinary augmented and virtual reality research projects. We also host a cutting-edge adaptive optics system to enable high-resolution imaging of the human retina. The Behavioral and Functional Neuroscience Laboratory is a state-of-the art facility designed to serve as a time-efficient and cost-effective service center for researchers in need of behavioral and neuropharmacological analyses in rodents. The SOMO lab conducts behavioral science experiments to understand how people make social and morally relevant judgments and decisions in a variety of everyday contexts. This lab leverages neuroplasticity, machine learning, and neurotechnology to ask how the brain learns and controls movement, and to develop smart prosthetics and neurotherapies.
Therefore they are suitable for students thinking about getting involved with research and/or pursuing the honors program. EduRank.org is an independent metric-based ranking of 14,131 universities from 183 countries. We utilize the world’s largest scholarly papers database with 98,302,198 scientific publications and 2,149,512,106 citations to rank universities across 246 research topics. In the overall rankings we add non-academic prominence and alumni popularity indicators.
Types of Research Conducted in Neuroscience Labs
Our neuron diagnostics services are performed with advanced technology to obtain a correct result. In honor of the Alzheimer Awareness Month, this interview aims to raise awareness about the critical importance of early detection and spotlights Bumrungrad Memory Clinic and Neuroscience Center. It helps people to understand what are the risk factors and how they can decrease them. Neurological disorders are preventable or are able to be prevented from becoming severe if they are accurately diagnosed and proper treatment is received.
In neuroscience labs, researchers study a wide range of topics, including:
- Brain development and plasticity
- Neurological disorders
- Cognitive processes
- Neuroimaging techniques
FAQs about Neuroscience Labs
Q: What equipment is typically found in neuroscience labs?
A: Neuroscience labs are equipped with tools such as MRI machines, EEG monitors, fMRI scanners, and specialized microscopes for studying brain tissue.
Q: How can I get involved in neuroscience research?
A: Students interested in neuroscience can pursue internships or volunteer opportunities in neuroscience labs at universities or research institutions.