Brain surface regions
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We began this series with the journey to the brain covers.
This post journeys on the brain’s surface. The brain surface is full of ridges (bumps) and valleys (grooves) (see Figure 1). Experts have given specific names to recognize these bumps and grooves. Moreover, in the medical field, the bumps are named gyri (its singular word is gyrus) and grooves as sulci (its singular word is sulcus).
The purpose of these ridges and valleys is to increase their surface area. As a result, the surface areas assigned to specific jobs have enough space for their work.
Naming the brain regions
Experts have categorized the brain surface into four different regions; they call it lobes: The frontal lobe, parietal lobe, temporal lobe, and occipital lobe. This naming depends on the region placed within the skull. Interestingly, each lobe carries out specific jobs. Figure 1 shows those four lobes on the left half of the brain. Similarly, we have the same mirror lobes on the right side too.
Demarcations of the lobes
As shown in Figure 2, the Central groove (Sulcus) separates the Frontal lobe from the Parietal lobe. Moreover, another groove that sits between the Parietal lobe and the Occipital lobe separates those two lobes. Similarly, a large groove, called the Lateral fissure, separates the Parietal lobe from the Temporal lobe.
Brain regions (lobes) in detail:
In Figure 2, I am starting my walk from the front end of the Frontal lobe. When I climb to the top, I meet the Central groove (sulcus). The Frontal lobe ends there.
We – humans – own the largest Frontal lobe proportionate to the body size among all animals. This lobe carries out jobs that no other animal can do: higher jobs such as thinking, speaking, and decision-making jobs. However, every single area of this lobe is specialized for one job. If something happens to this area, we lose that function. For example, if a stroke attack prevents blood supply to Broca’s area, specialized in speech production, we lose speech.
As soon as I jump over the Central groove from the Frontal lobe’s edge to the other side, I land on the Parietal lobe. It lays behind the Frontal lob. The Parietal lobe extends back until it meets the next lobe – The occipital lobe.
We see the upper-left side view of the left Parietal lobe in Figure 2. The parietal lobe reads messages related to taste, touch, and temperature and controls our balance while standing and walking. That means if this area inflicts any damage, we will not be able to taste, feel touch, or temperature and will fall.
Now, walk with me over to the brain’s left side to meet another larger groove, called Lateral Fissure.
Once I cross over this fissure, I land on the Temporal lobe. The part above is the side view of the left Frontal lobe.
The Temporal lobe’s main job is to understand and interpret the language.
Behind the parietal and Temporal lobes, we find the Occipital lobe. This lobe spreads over the back of the brain. Without this area, we cannot see, recognize, and interpret anything although we have eyes.
In our next journey, we will meet the “two little humanoids” who live on our brain surface.
- Brain covers protect the brain: Journeys to the brain – 1
- Two little humans on the brain surface: Journeys to the brain-3
- Neuron forest: Journeys to the brain – 4
- Neurons: Journeys to the brain-5
- Glial cells: journeys to the brain – 6
- Brain’s blood supply routes:7
- Types of stroke: Journeys to the brain -8
- “Time is brain”: Journeys to the brain-9
- Brain’s recovery attempts after stroke: Journeys to the brain-10
- Broca’s area: Journeys to the brain-11
- Broca’s aphasia: Journeys to the brain-12
- Wernicke’s aphasia: journeys to the brain-13