Guide to the Parietal Lobe and its Functions

What is the parietal lobe

The parietal lobe is located in the back part of the brain. It has a number of functions, including processing sensory input and providing balance.

Parietal Lobe at a Glance

The parietal lobe is the part of the brain that helps us to orient ourselves in time and space, as well as make sense of our sensory input. It also plays an important role in a number of cognitive tasks.

The parietal lobe is located at the top-back part of the brain, and it sits right beneath your temple. The parietal lobe is responsible for helping with many different types of cognition, including language comprehension and production, physical awareness such as sensing objects around you or knowing where your limbs are, spatial reasoning such as estimating where something is based on its position relative to you or navigating through a three-dimensional environment like a maze, and sensory discrimination like telling the difference between textures or telling what something tastes like.

Functions of the Parietal Lobe

The parietal lobe is the region of the brain responsible for interpreting sensory input. The parietal lobe also plays a role in some higher-level thinking and reasoning.

The parietal lobe is the brain's sensory processing center and it's involved in everything from how we perceive space to how we use parts of our body. It helps us understand abstract concepts and math, for example, by performing calculations quickly in our head. The parietal lobe also helps us with symbolic reasoning, that is understanding things based on their meaning rather than what they look like or sound like.

The parietal lobe also helps us interpret other people's expressions and faces.

This area also plays a role in language, that is recognizing language and being able to understand it.

What are some uses of neuroimaging?

Neuroimaging is a medical test that can be done with the help of MRI scans. MRI stands for Magnetic Resonance Imaging, and it takes pictures of the inside of your body using a magnetic field. Neuroimaging is used to identify things like tumors, strokes, or brain injuries.

Neuroimaging can also be used to measure brain activity in patients with psychiatric disorders such as schizophrenia, bipolar disorder, and depression. It gives doctors an idea of where major anatomical differences are in the brain and how they correlate with different types of mental illness. Doctors use this information to determine which treatments should work best for each individual patient.

Neuroimaging has been used to test whether there are any differences in adult brains that could affect the risk of developing Alzheimer’s disease or dementia later in life.Dr. Moustafa found that the brains of people with a strong sense of smell had more connections between neurons, which help transmit signals from one brain cell to another. Brain cells need these connections to transmit signals about odors to other parts of the brain. The stronger connections also led to better cognitive performance in people with a good sense of smell, such as in the case of wine tasters.