The Human Brain, Its Structure and Functions

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The brain is the most vital component of the human body. It directs and organizes actions and responses, helps think and feel, and provides human experiences such as memories and emotions. This research paper consists of three parts that highlight the three-dimensional sagittal view model of the brain, the structure that underlies neuronal communication, and three projects to get some first-hand understanding of sensation and perception. The sections aim to explore the brains role in developing perception necessary in the sense of awareness essential in human existence.

Model of the Brain

Figure 1 shows a sagittal view model of the brain modeled to represent different sections responsible for the brains functioning. The labeling shows the shape and relative position, including cerebellum, thalamus, hypothalamus, pituitary gland, amygdala, hippocampus, medulla, and pons. All the brains four lobes, including the frontal lobe, parietal lobe, occipital lobe, and temporal lobe, are also labeled. Table 1 provides a key that explains where each required part is represented in the models as per the alphabetic sequence used. The intention is to visualize and locate some of the critical structures in the human brain.

The constructed model of the brain.
Figure 1: The constructed model of the brain.

Table 1: Figure 1 Key.

Symbol on Model Brain Part
A Cerebellum
B Thalamus
C Hypothalamus
D Pituitary gland
E Amygdala
F Hippocampus
G Medulla
H Pons

The structure that Underlies Neuronal Communication

Part B involves understanding the neurobiology that underlies human experience. This section explores how communication occurs in the brain, specifically how neurons communicate with each other. Figure 2 shows a 3D model of communicating neurons with labeled cell body, dendrites, axon, myelin sheath, axon terminal, containing vesicles of the neurotransmitter, on the sending neuron and synapse. The neurotransmitter molecules and receptor sites are also labeled on the receiving neuron.

3D model neuron.
Figure 2: 3D model neuron.

Table 2: Figure 2 Key.

Symbol on Model Neuron Part
A Cell body
B Dendrites
C Axon
D Myelin sheath
E Axon terminal, containing vesicles of the neurotransmitter, on the sending neuron
F Synapse
G Neurotransmitter molecules
H Receptor sites, on the receiving neuron

Sensation and Perception Demonstrations

Part C of this research paper experiments on understanding sensation and perception through small, first-hand demonstrations. The three selected projects include Tasty Buds, The Nose Knows, and Two-Point Discrimination. The procedure involved getting support from a friend. Based on the ethical code in experiments involving humans, this segment engages a 31-year-old friend after agreeing to participate. The participant understands that participation is optional and may withdraw at any moment. The participant is instructed on the procedures involved in data management. After the experiment, the volunteer was informed about the purpose of the research, the hypothesis, and the findings.

Tasty Buds

The tasty Buds experiment draws a map of the tongue indicating the sensations most sensitive to the different substances. Figure 3 labels some parts of the tongue that were good at detecting tastes from the foods in the experiment. Part F of the tongue did not detect any of the tastes. The most likely reason is that the human tongues dorsal core is devoid of fungiform papillae and taste buds.

Tongue sensation of different stimuli.
Figure 3: Tongue sensation of different stimuli.

Table 3: Figure 3 Key.

Symbol on Model Stimuli
A Salty water
B Sugary water
C Lemon juice
D Juice from a cut onion
E Toothpicks and A glass of water
F No sensation

The Nose Knows

The Nose Knows experiment involves engaging a friend based on the ethical codes on testing mashed banana, avocado, potato, melted butter, eggs, applesauce, jelly beans, garbanzo beans, sweet potatoes, and Weetabix baby food. The experiments observed that the tester could identify mashed bananas and applesauce only. Foods that seem to be strongly associated with smell in the selected category include melted butter, eggs, jelly beans, garbanzo beans, sweet potatoes, and Weetabix baby food. The commonality with these foods is that they do not have a uniquely distinctive taste. During the interview, it emerged that humans tend to find rotten eggs to smell disgusting, probably because of the hydrogen sulfide composition, which smells like Sewer gas. The nose seems to function closely with the tongue to taste in foods.

Two-Point Discrimination

Two-Point Discrimination was also conducted as per the ethical codes in research, with the results showing that the forearms are the most sensitive parts of the body with 2.5mm. The observations are similar to the skins senses table research by Dan R. Kenshalo that shows fingers are the most sensitive at 23 mm (Sawai et al., 2019). Figure 4 relates to the experiment data as it reflects on the somatosensory cortex area responsible for receiving and interpreting relevant stimuli, including touch.

Section of the somatosensory cortex
Figure 4: Section of the somatosensory cortex (Hughes et al., 2021).

Conclusion

The insights into the brains structure, the communication between nerves, sensations, and perception demonstrations reveal the importance of the brain in human life. Part A sagittal view modeling has brought some transparency to the structure of the human brain. Part B complements Part A demonstrating that neural transmission is a complicated electrochemical process whose understanding is beneficial in psychology, especially in determining why some ideas or behaviors become obsessive or unrestrained and how repetition alters the brain. Part C connects the two concepts in Part A and Part B as it demonstrates sensation and perception, an experience that seems to rely on communication between nerves and brains.

References

Hughes, C. L., Flesher, S. N., Weiss, J. M., Boninger, M., Collinger, J. L., & Gaunt, R. A. (2021). Perception of microstimulation frequency in human somatosensory cortex. ELife, 10, e65128. Web.

Sawai, H., Kohda, K., & Kurahashi, T. (2019). The effect of temporal adaptation to different temperatures and osmolarities on heat response of TRPV4 in cultured cells. Journal of thermal biology, 85, 102424. Web.

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