The cardiac jelly formed around the heart tube during early development contributes to the formation of:
Double inferior vena cava is formed due to?
Sinus venosus receives blood from all EXCEPT:
Which muscle is the deepest in the anterior neck region?
What is Galen's anastomosis?
Which of the following is NOT a content of the occipital triangle?
The roof of the olfactory region is formed by?
Which muscle plays a role in winking?
All pass through jugular foramen except
What is the number of muscles in the middle ear?
NEET-PG 2013 - Anatomy NEET-PG Practice Questions and MCQs
Question 11: The cardiac jelly formed around the heart tube during early development contributes to the formation of:
- A. Pericardium
- B. Mesocardium
- C. Myocardium
- D. Endocardium (Correct Answer)
Explanation: Endocardium (Endocardial Cushions/Valves/Septa) - The **cardiac jelly** is an acellular, gelatinous matrix rich in **hyaluronic acid** that lies between the endocardium and the primordial myocardium during early heart development. - It undergoes **endothelial-to-mesenchymal transformation (EMT)** to form the **endocardial cushions** [1]. - These cushions are critical for forming: - **Atrioventricular (AV) valves** (mitral and tricuspid) [1] - **Semilunar valves** (aortic and pulmonary) [1] - **Cardiac septa** (portions of atrial, ventricular, and AV septa) [1] - While cardiac jelly doesn't form the endocardial lining itself (which is already present as endothelium), it forms the endocardial cushions that are essential endocardial derivatives. *Pericardium* - The **pericardium** develops from the **pleuropericardial folds** and **somatic and splanchnic mesoderm**, forming the fibrous and serous outer coverings of the heart. - It is completely distinct from cardiac jelly, which is an intra-cardiac structure. *Mesocardium* - The **dorsal mesocardium** is a transient mesentery that temporarily connects the developing heart tube to the dorsal wall of the pericardial cavity. - It rapidly degenerates by **day 22-23** to form the **transverse pericardial sinus**. - It does not contribute to cardiac jelly or any heart wall structures. *Myocardium* - The **myocardium** differentiates directly from the **splanchnic mesoderm** surrounding the endocardial tube. - It forms the muscular contractile layer of the heart wall. - Cardiac jelly lies between the endocardium and myocardium but does not form myocardial tissue.
Question 12: Double inferior vena cava is formed due to?
- A. Persistence of both supracardinal and subcardinal veins
- B. Persistence of sacrocardinal veins
- C. Persistence of subcardinal veins
- D. Persistence of supracardinal veins (Correct Answer)
Explanation: ***Persistence of supracardinal veins*** - A double inferior vena cava (IVC) results from the **persistence of the left supracardinal vein**, which normally regresses. - This malformation causes the IVC to be duplicated below the level of the renal veins, creating two parallel venous channels ascending to join the normal IVC or renal veins. *Persistence of sacrocardinal veins* - The sacrocardinal veins are involved in the development of the **iliac veins** and the distal part of the IVC, but their independent persistence does not lead to a double IVC. - Abnormalities in sacrocardinal vein development are more commonly associated with conditions like **agenesis of the infrarenal IVC**. *Persistence of subcardinal veins* - The subcardinal veins mainly contribute to the formation of the **renal segment** of the IVC and the gonadal veins. - Their persistence or malformation can lead to a **retrocaval ureter** or other venous anomalies, but not a double IVC. *Persistence of both supracardinal and subcardinal veins* - While both supracardinal and subcardinal veins are crucial for IVC development, their **simultaneous persistence** in a way that creates a double IVC is not the direct mechanism [1]. - A double IVC is specifically attributed to the **persistence of the left supracardinal vein**, with the right supracardinal vein forming the normal right IVC [1].
Question 13: Sinus venosus receives blood from all EXCEPT:
- A. Vitelline vein
- B. Umbilical vein
- C. Common cardinal vein
- D. Subcardinal vein (Correct Answer)
Explanation: Sinus venosus receives blood from all EXCEPT: ***Subcardinal vein*** - The **subcardinal vein** is primarily involved in draining the developing **kidneys** and gonads during embryonic development. - While it contributes to the formation of the **inferior vena cava**, it does not directly empty into the sinus venosus. - The subcardinal veins are part of a different venous drainage system that develops independently from the sinus venosus tributaries. *Vitelline vein* - The **vitelline veins** drain blood from the **yolk sac**, which is the primary site of early hematopoiesis. - These veins directly empty into the **sinus venosus** in the early embryo. - They eventually give rise to the **hepatic portal system** and hepatic sinusoids. *Umbilical vein* - The **umbilical vein** carries **oxygenated and nutrient-rich blood** from the placenta to the fetus [1]. - In the early embryo, the umbilical veins drain directly into the **sinus venosus**. - Later in development, the left umbilical vein bypasses the liver via the **ductus venosus** to enter the inferior vena cava [1], [2]. *Common cardinal vein* - The **common cardinal veins** collect blood from the entire embryo, draining both the anterior (from the cephalic region) and posterior (from the trunk and lower limbs) parts. - These veins represent the main drainage system of the developing embryo and directly empty into the sinus venosus. - They are the primary tributaries of the sinus venosus during early cardiac development.
Question 14: Which muscle is the deepest in the anterior neck region?
- A. Sternocleidomastoid
- B. Platysma
- C. Longus colli (Correct Answer)
- D. Trapezius
Explanation: ***Longus colli*** - The **longus colli** muscle is the **deepest muscle** located in the anterior neck region, running along the front of the cervical vertebral column from C1 to T3. - It lies in the **prevertebral layer**, deep to all other anterior neck structures including the carotid sheath, visceral compartment, and superficial muscles. - Its position directly anterior to the vertebral bodies makes it the deepest anterior neck muscle. *Platysma* - The platysma is the **most superficial muscle** of the neck, located just beneath the skin in the superficial fascia. - It is not a deep muscle and lies superficial to all other neck muscles. *Sternocleidomastoid* - The sternocleidomastoid is enclosed within the **investing layer of deep cervical fascia**, making it relatively superficial. - While prominent in the anterior and lateral neck, it is not the deepest anterior neck muscle. *Trapezius* - The trapezius is a large, **superficial muscle of the back and posterior neck**. - It is not located in the anterior neck and is a superficial, not deep, muscle.
Question 15: What is Galen's anastomosis?
- A. Recurrent laryngeal nerve and external laryngeal nerve
- B. Internal laryngeal nerve and recurrent laryngeal nerve (Correct Answer)
- C. None of the options
- D. Recurrent laryngeal nerve and sympathetic trunk
Explanation: ***Internal laryngeal nerve and recurrent laryngeal nerve*** - **Galen's anastomosis** (also known as **ansa Galeni**) is the connection between the **internal laryngeal nerve** (a sensory branch of the superior laryngeal nerve) and the **recurrent laryngeal nerve** (motor branch of the vagus nerve). - This anastomosis occurs in the **laryngeal mucosa** and allows for communication between these two important nerves. - The **internal laryngeal nerve** provides **sensory innervation** to the larynx above the vocal cords, while the **recurrent laryngeal nerve** provides **motor innervation** to most intrinsic laryngeal muscles (except cricothyroid). - This anastomosis is clinically significant in understanding the complex innervation patterns of the larynx. *Recurrent laryngeal nerve and external laryngeal nerve* - While both nerves are branches of the vagus nerve and innervate laryngeal structures, this connection does not constitute **Galen's anastomosis**. - The recurrent laryngeal nerve innervates intrinsic laryngeal muscles (except cricothyroid), while the external laryngeal nerve innervates the **cricothyroid muscle** and is motor in nature. *None of the options* - This option is incorrect because the correct definition of **Galen's anastomosis** is provided in the first option. *Recurrent laryngeal nerve and sympathetic trunk* - While there may be sympathetic contributions to laryngeal innervation, this does not represent **Galen's anastomosis**. - The sympathetic trunk provides autonomic innervation but the specific named anastomosis refers to the connection between the internal laryngeal and recurrent laryngeal nerves.
Question 16: Which of the following is NOT a content of the occipital triangle?
- A. Lesser occipital nerve
- B. Occipital artery
- C. Suprascapular nerve (Correct Answer)
- D. Great auricular nerve
Explanation: Suprascapular nerve - The **suprascapular nerve** originates from the brachial plexus and supplies the supraspinatus and infraspinatus muscles; it travels through the suprascapular notch and is not found within the occipital triangle. - Its primary course and innervation are associated with the shoulder, entirely separate from the neck region defining the occipital triangle. *Great auricular nerve* - The **great auricular nerve** emerges from the cervical plexus and supplies sensory innervation to the skin over the parotid gland, mastoid process, and auricle, courses superficially across the sternocleidomastoid in the region of the occipital triangle. - It is a recognized content of the posterior triangle of the neck, which encompasses the occipital triangle. *Lesser occipital nerve* - The **lesser occipital nerve** arises from the cervical plexus at C2 and C3, providing sensory innervation to the skin of the neck and scalp posterior to the auricle. - It ascends along the posterior border of the sternocleidomastoid muscle, placing it within the boundaries of the occipital triangle. *Occipital artery* - The **occipital artery** is a branch of the external carotid artery that supplies blood to the posterior scalp. - It traverses the apex of the posterior triangle (including the occipital triangle) as it ascends to the back of the head.
Question 17: The roof of the olfactory region is formed by?
- A. Nasal bone
- B. Sphenoid
- C. Temporal bone
- D. Cribriform plate of ethmoid (Correct Answer)
Explanation: ***Cribriform plate of ethmoid*** - The **cribriform plate** of the ethmoid bone forms the superior boundary, or roof, of the nasal cavity specifically in the olfactory region [1]. - It is perforated by numerous **olfactory foramina** through which the olfactory nerves pass from the nasal cavity to the olfactory bulb of the brain [2]. *Nasal bone* - The **nasal bones** form part of the bridge of the nose and contribute to the anterior part of the bony framework of the external nose. - They do not form the roof of the olfactory region within the nasal cavity. *Sphenoid* - The **sphenoid bone** is a complex bone at the base of the skull, contributing to the posterior wall of the nasal cavity and parts of the cranial floor. - It does not directly form the roof of the olfactory region. *Temporal bone* - The **temporal bones** are located on the sides and base of the skull, housing structures related to hearing and balance. - They are not involved in forming the roof of the nasal cavity or the olfactory region.
Question 18: Which muscle plays a role in winking?
- A. Levator labii superioris
- B. Orbicularis oculi (Correct Answer)
- C. Levator palpebrae
- D. Corrugator supercilii
Explanation: ***Orbicularis oculi*** - This muscle is responsible for **closing the eyelid** and is essential for actions like blinking, squinting, and winking. - Its fibers encircle the eye and facilitate the **controlled closure** required for winking. *Levator labii superioris* - This muscle primarily functions to **elevate the upper lip**, playing a role in facial expressions such as sneering or smiling. - It has no direct involvement in the movement of the eyelids or the act of winking. *Corrugator supercilii* - This muscle is located in the eyebrow region and is responsible for **drawing the eyebrows medially and inferiorly**, creating vertical wrinkles between the eyebrows. - It is associated with expressions of frowning or concern, not eyelid closure. *Levator palpebrae* - This muscle is responsible for **opening the upper eyelid**, thus counteracting the action of the orbicularis oculi. - While essential for eye movement, it is not involved in the closing action required for winking.
Question 19: All pass through jugular foramen except
- A. Mandibular nerve (Correct Answer)
- B. Vagus nerve
- C. Internal jugular vein
- D. Glossopharyngeal nerve
Explanation: ***Mandibular nerve*** - The **mandibular nerve** (CN V3) exits the skull through the **foramen ovale**, not the jugular foramen. - It is a branch of the **trigeminal nerve** and is responsible for motor innervation to muscles of mastication and sensory innervation to the lower face and mouth. *Glossopharyngeal nerve* - The **glossopharyngeal nerve** (CN IX) is one of the three cranial nerves that exit through the **jugular foramen**. - It provides motor, sensory, and parasympathetic innervation including taste from posterior third of tongue and motor to stylopharyngeus muscle. *Vagus nerve* - The **vagus nerve** (CN X) is one of the major cranial nerves that exits the skull through the **jugular foramen**. - It provides extensive motor, sensory, and parasympathetic innervation to the head, neck, thorax, and abdomen. *Internal jugular vein* - The **internal jugular vein** is formed at the jugular foramen by the continuation of the **sigmoid sinus**, and it exits the skull through this foramen. - It is one of the primary venous drainage pathways for the brain.
Question 20: What is the number of muscles in the middle ear?
- A. One
- B. Two (Correct Answer)
- C. Three
- D. Four
Explanation: ***Two*** - The middle ear houses two muscles: the **tensor tympani** and the **stapedius muscle** [1]. - These muscles play a crucial role in the **acoustic reflex**, protecting the inner ear from loud sounds. *One* - This option is incorrect as there are two muscles, not one, involved in middle ear function [1]. - Specifying one muscle would neglect the complementary role of the other in the acoustic reflex. *Three* - This option is incorrect because the middle ear only contains two muscles [1]. - There are no additional muscles associated with the ossicles or tympanic membrane. *Four* - This option is incorrect as the middle ear is only comprised of the **tensor tympani** and **stapedius** muscles [1]. - The number four is not associated with the muscular anatomy of the middle ear.