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Analyze the three sections of the brain stem, their individual functions, and their component role in brain physiology.
Categorize the brainstem, cerebellum, and cerebrum in terms of anatomy and functions.
Evaluate the functions of the ventricles of the brain and the choroid plexus, including their role in the formation and maintenance of CSF.
Distinguish the cranial nerves and categorize if the nerve is sensory, motor, or mixed and its major function(s).
Peer response must be at least 150 words
Maria:
Analyze the three sections of the brain stem, their individual functions, and their component role in brain physiology
The brain stem is divided into three sections: the medulla oblongata, the pons, and the midbrain. Each section has its own specific functions and plays a crucial role in brain physiology.
Medulla Oblongata:
Located at the base of the brain stem.
Controls vital functions such as breathing, heart rate, and blood pressure.
Regulates reflexes like coughing, sneezing, and swallowing.
Coordinates signals between the brain and spinal cord.
Pons:
Situated above the medulla oblongata.
Acts as a bridge connecting different parts of the brain.
Helps relay signals between the cerebrum and cerebellum.
Plays a role in controlling sleep, arousal, and facial movements.
Assists in regulating breathing.
Midbrain:
Located above the pons.
Involved in sensory and motor functions.
Helps control eye movements and visual reflexes.
Plays a role in auditory processing and reflexes.
Contains the substantia nigra, which produces dopamine and is involved in movement control.
(Basinger & Hogg, 2023)
Categorize the brainstem, cerebellum, and cerebrum in terms of anatomy and functions
Brain Stem
It consists of posterior of brain, it includes midbrain, medulla oblongata and pons varoli, it is site for origin of 10 cranial nerves out of total of 10 cranial nerves
Coordinates message flow between brain and spinal cord, it is also site of controlling involuntary activities like blood pressure, regulation, breathing rate, reflex actions, etc.
Cerebrum
It is part of forebrain, it consists of functional areas: temporal, occipital, parietal, frontal, it doesn’t not contain branched white matter, it is the largest part of the brain, it consists of two cerebral hemispheres and connecting bundle of fibres called corpus callosum.
It has functional areas for mental activities (frontal), emotions, fear, anger(Parietal), Auditory(Temporal), vision (occipital). It also helps in association of sensory information with learning and memory.
Cerebellum
It is part of hind brain, it consist of three lobes and cerebellar vermis, it contains branched white matter called arbor vitae, it is second largest part of brain, it consists of cerebellar hemispheres and connecting vermis.
It helps in maintain balance and posture of body. It helps in balancing movements like cycling, walking, writing etc.
Evaluate the functions of the ventricles of the brain and the choroid plexus, including their role in the formation and maintenance of CSF.
The ventricles of the brain and the choroid plexus play crucial roles in the formation and maintenance of cerebrospinal fluid (CSF). CSF is a clear, colorless fluid that surrounds and protects the brain and spinal cord. It provides nutrients, removes waste products, and acts as a cushion against mechanical shocks.
-Production of CSF:
The choroid plexus, located in the ventricles of the brain, is responsible for producing CSF.
Specialized cells in the choroid plexus called ependymal cells actively transport ions and other substances from the blood into the ventricles.
These substances include water, electrolytes, glucose, and certain proteins.
The ependymal cells regulate the composition of CSF by selectively allowing certain substances to pass through while preventing others from entering.
-Circulation of CSF:
CSF is produced in the lateral ventricles, which are located in the cerebral hemispheres.
From the lateral ventricles, CSF flows into the third ventricle through the interventricular foramina.
The third ventricle is located in the diencephalon, between the two halves of the brain.
CSF then passes through the cerebral aqueduct, a narrow channel, into the fourth ventricle located in the brainstem.
From the fourth ventricle, CSF can exit the ventricular system through three openings: the median aperture and two lateral apertures.
-Absorption and circulation of CSF:
CSF is absorbed into the bloodstream through structures called arachnoid granulations or villi.
These structures are located in the meninges, the protective membranes surrounding the brain and spinal cord.
Arachnoid granulations protrude into the venous sinuses, which are large blood vessels in the brain.
CSF is reabsorbed into the bloodstream through these arachnoid granulations, maintaining a balance between CSF production and absorption.
Distinguish the cranial nerves and categorize if the nerve is sensory, motor, or mixed and its major function(s).
The cranial nerves can be categorized as sensory, motor, or mixed based on their functions. Here are the major functions of each cranial nerve:
Olfactory (I) – Sensory: Responsible for the sense of smell.
Optic (II) – Sensory: Responsible for vision.
Oculomotor (III) – Motor: Controls most of the eye movements, including constriction of the pupil and accommodation of the lens for near vision.
Trochlear (IV) – Motor: Controls the superior oblique muscle of the eye, which helps with downward and inward eye movements.
Trigeminal (V) – Mixed: Sensory function includes sensation in the face, scalp, and teeth, while motor function involves the muscles of mastication (chewing).
Abducens (VI) – Motor: Controls the lateral rectus muscle of the eye, which helps with outward eye movements.
Facial (VII) – Mixed: Sensory function includes taste sensation on the anterior two-thirds of the tongue, while motor function involves facial expression muscles and control of tear and salivary glands.
Vestibulocochlear (VIII) – Sensory: Responsible for hearing and balance.
Glossopharyngeal (IX) – Mixed: Sensory function includes taste sensation on the posterior one-third of the tongue, while motor function involves swallowing and control of salivary glands.
Vagus (X) – Mixed: Sensory function includes sensation in the throat, larynx, and thoracic and abdominal organs, while motor function involves swallowing, speech, and control of thoracic and abdominal organs.
Accessory (XI) – Motor: Controls the sternocleidomastoid and trapezius muscles, which are involved in head and shoulder movements.
Hypoglossal (XII) – Motor: Controls the muscles of the tongue, which are involved in speech and swallowing.
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