Pons - External and Internal (White & Grey matter) + QUIZ | Anatomy

Taim Talks Med

12 Sept 202116:51

Summary

TLDRThis educational video script delves into the anatomy of the Pons, a critical part of the brainstem. It covers the Pons' external and internal structures, highlighting its role in cranial nerve connections and the arrangement of grey and white matter. The script also discusses the Pons' interaction with other brain regions, emphasizing its importance in motor control and sensory processing.

Takeaways

🧠 The central nervous system is divided into the encephalon and the spinal cord, with the encephalon further divided into the brainstem, cerebellum, diencephalon, and telencephalon.
🌉 The brainstem includes the medulla, pons, and midbrain, and the pons is the focus of the video, located above the medulla and in front of the cerebellum.
👀 The pons has an anterior surface with a basilar sulcus and forms the middle cerebellar peduncles, which connect to the cerebellum.
🤖 Several cranial nerves emerge from the anterior part of the pons, including the 5th (trigeminal), 6th (abducens), 7th (facial), and 8th (vestibulocochlear) nerves.
🔍 The posterior surface of the pons is covered by the cerebellum and works with the medulla and midbrain to form structures like the rhomboid fossa.
📚 Grey matter in the pons contains nuclei, while white matter contains nerve fibers that form tracts.
🧬 The pontine nuclei in the basal part of the pons are crucial for the frontopontine tract, which synapses with the pontine nuclei and projects to the cerebellum.
🔄 The trapezoid body, formed by crossing fibers of the auditory nerve, divides the internal surface of the pons into the tegmentum and basal part.
🚀 Descending tracts in the pons include the corticopontine tracts, which are extrapyramidal and originate from various areas of the cerebral cortex.
🌐 Ascending tracts in the tegmentum of the pons include the medial lemniscus, spinal lemniscus, trigeminal lemniscus, and lateral lemniscus, which are involved in sensory perception.
🏃‍♂️ Descending tracts in the tegmentum of the pons include the tectospinal, rubrospinal, reticulospinal, and vestibulospinal tracts, which are involved in motor control and coordination.

Q & A

What are the two main parts of the central nervous system?
-The central nervous system consists of the encephalon and the spinal cord.
What is the brainstem composed of?
-The brainstem is composed of the Medulla, Pons, and Midbrain or mesencephalon.
What is the Pons' location in relation to other brain structures?
-The Pons is located above the medulla and in front of the Cerebellum, with the spinal cord below it.
What is the function of the basilar sulcus found on the anterior surface of the Pons?
-The basilar sulcus is a prominent groove on the anterior surface of the Pons where it turns backwards toward the Cerebellum, forming the middle cerebellar peduncles.
Which cranial nerve is associated with the lateral extraocular muscles of the eyes?
-The 6th cranial nerve, the nervus abducens, is associated with the lateral extraocular muscles of the eyes, aiding in the abduction of the eyeballs.
What is the role of the facial nerve (cranial nerve number 7)?
-The facial nerve provides motor innervation for the facial muscles, which helps with facial expressions.
How does the Pons contribute to the formation of the Rhomboid Fossa?
-The upper part of the Rhomboid Fossa is formed by the Pons, while the lower part is formed by the medulla.
What is the significance of the Trapezoid Body within the Pons?
-The Trapezoid Body is formed by fibers of the cochlear nerve that cross within the Pons to the other side, dividing the internal surface of the Pons into the Tegmentum and the Basilar Part.
What is the primary function of the Pontine Nuclei?
-The Pontine Nuclei are significant as they receive synapses from the Frontopontine Tract and then send fibers to the Cerebellum through the middle cerebellar peduncles as the Pontocerebellar tracts.
What type of tracts are found in the Basilar Part of the Pons?
-The Basilar Part of the Pons contains only descending tracts or motor tracts, including the Frontopontine tract and the Corticopontine tract.
How does the Tectospinal tract contribute to eye and neck movements?
-The Tectospinal tract, originating from the tectum of the Midbrain, is responsible for coordinated eye and neck movements, allowing the neck muscles to unconsciously follow eye movements.