What is the correct sequence of uterine blood flow?
Nerve supply of stapedius is:
The sternocleidomastoid muscle is examined by
What is the embryological origin of the ligamentum arteriosum?
What muscle is attached to the superior nuchal line?
Which of the following structures is not related to the third part of the duodenum?
Which nerve is preserved in dissecting the superficial and deep lobes of the parotid gland?
Which intrinsic ocular muscle responsible for pupillary constriction is supplied by parasympathetic innervation?
Lips do not drain into which group of lymph nodes?
What is the medial boundary of the cubital fossa?
NEET-PG 2015 - Anatomy NEET-PG Practice Questions and MCQs
Question 71: What is the correct sequence of uterine blood flow?
- A. Uterine A → Radial A → Arcuate A → Spiral A
- B. Uterine A → Spiral A → Radial A → Arcuate A
- C. Uterine A → Arcuate A → Spiral A → Radial A
- D. Uterine A → Arcuate A → Radial A → Spiral A (Correct Answer)
Explanation: ***Uterine A → Arcuate A → Radial A → Spiral A*** - The **uterine artery** is the primary blood supply, branching into several arteries within the myometrium. - **Arcuate arteries** encircle the uterus, giving off perpendicular branches called **radial arteries**, which then give rise to the **spiral arteries** that supply the endometrium [1]. *Uterine A → Radial A → Arcuate A → Spiral A* - This sequence is incorrect because **radial arteries** arise from **arcuate arteries**, not the other way around. - **Arcuate arteries** are larger circumferential vessels that branch into the smaller radial arteries. *Uterine A → Spiral A → Radial A → Arcuate A* - This sequence is highly incorrect as **spiral arteries** are the most distal branches supplying the endometrium, not preceding radial or arcuate arteries [1]. - The flow is from larger to smaller vessels, with **spiral arteries** being the smallest and most terminal. *Uterine A → Arcuate A → Spiral A → Radial A* - This sequence incorrectly places **spiral arteries** before **radial arteries**. - **Radial arteries** are the immediate precursors to **spiral arteries**, providing direct branches to them.
Question 72: Nerve supply of stapedius is:
- A. Facial nerve (7th nerve) (Correct Answer)
- B. Oculomotor nerve (3rd nerve)
- C. Trigeminal nerve (5th nerve)
- D. Glossopharyngeal nerve (9th nerve)
Explanation: ***Facial nerve (7th nerve)*** - The **facial nerve** is responsible for innervating the **stapedius muscle**, which helps to dampen loud sounds by pulling the stapes away from the oval window. - A lesion in the facial nerve can lead to **hyperacusis** due to the paralysis of the stapedius muscle. *Oculomotor nerve (3rd nerve)* - The **oculomotor nerve** primarily controls **eye movements** and **pupil constriction**. - It does not have any direct involvement in the innervation of middle ear muscles. *Trigeminal nerve (5th nerve)* - The **trigeminal nerve** is responsible for **sensation of the face** and innervates the **muscles of mastication**. - It provides motor supply to the **tensor tympani muscle**, not the stapedius. *Glossopharyngeal nerve (9th nerve)* - The **glossopharyngeal nerve** is primarily involved in **taste sensation** from the posterior tongue, **swallowing**, and mediating the **gag reflex**. - It does not innervate any muscles of the middle ear.
Question 73: The sternocleidomastoid muscle is examined by
- A. Shrugging of shoulder
- B. Overhead abduction
- C. Turning the head towards the same side to assess the muscle on that side
- D. Turning the head towards the opposite side to assess the muscle on that side (Correct Answer)
Explanation: ***Turning the head towards the opposite side to assess the muscle on that side*** - The **sternocleidomastoid muscle** unilaterally acts to rotate the head to the **contralateral side**. - To palpate or visually inspect the right sternocleidomastoid, the patient would turn their head to the left, making the right muscle prominent. *Turning the head towards the same side to assess the muscle on that side* - Turning the head towards the same side primarily engages the **ipsilateral deep neck flexors** and **splenius capitis**, not the sternocleidomastoid. - This action would relax the sternocleidomastoid on the side towards which the head is turned, making it difficult to assess. *Shrugging of shoulder* - Shrugging the shoulder is primarily an action of the **trapezius** and **levator scapulae muscles**. - The sternocleidomastoid does not contribute significantly to shoulder elevation. *Overhead abduction* - Overhead abduction of the arm is primarily performed by the **deltoid muscle** and assisted by the **supraspinatus**. - This movement is entirely unrelated to the function of the sternocleidomastoid muscle.
Question 74: What is the embryological origin of the ligamentum arteriosum?
- A. Remnant of the ductus arteriosus (Correct Answer)
- B. Remnant of the ductus venosus
- C. Remnant of the ductus utriculosaccularis
- D. Remnant of the ductus reuniens
Explanation: ***Remnant of the ductus arteriosus*** - The **ductus arteriosus** is a fetal blood vessel connecting the **pulmonary artery** to the **aorta**, bypassing the non-functional lungs [1]. - After birth, due to increased oxygen tension and decreased prostaglandins, it typically constricts and obliterates, forming the **ligamentum arteriosum** [2]. *Remnant of the ductus venosus* - The **ductus venosus** is a fetal shunt connecting the **umbilical vein** to the **inferior vena cava**, bypassing the liver's circulatory bed [2]. - After birth, it closes and becomes the **ligamentum venosum**, not the ligamentum arteriosum [2]. *Remnant of the ductus utriculosaccularis* - This is an **inner ear structure** connecting the utricle and saccule in the membranous labyrinth. - It is **not a cardiovascular structure** and has no relation to the ligamentum arteriosum. *Remnant of the ductus reuniens* - The **ductus reuniens** (also called ductus utriculosaccularis) is an **inner ear structure**, not a fetal cardiovascular shunt. - It has **no remnant** related to the ligamentum arteriosum or cardiovascular system.
Question 75: What muscle is attached to the superior nuchal line?
- A. Trapezius muscle (Correct Answer)
- B. Scalenus anterior
- C. Coracobrachialis muscle
- D. Biceps Brachii muscle
Explanation: ***Trapezius muscle*** - The **trapezius muscle** is a large, triangular muscle of the back that extends from the **occipital bone** (including the superior nuchal line) to the lower thoracic vertebrae. - Its **superior fibers** originate from the **medial one-third of the superior nuchal line** and the external occipital protuberance. *Scalenus anterior* - The **scalenus anterior** muscle originates from the **transverse processes of cervical vertebrae**, specifically C3-C6. - It inserts onto the **first rib** and is involved in neck flexion and elevation of the first rib during forced inspiration. *Coracobrachialis muscle* - The **coracobrachialis muscle** originates from the **coracoid process of the scapula**. - It inserts into the **medial surface of the humerus** and is involved in shoulder flexion and adduction. *Biceps Brachii muscle* - The **biceps brachii muscle** has two heads: the short head originates from the **coracoid process**, and the long head originates from the **supraglenoid tubercle of the scapula**. - It inserts onto the **radial tuberosity** and is primarily responsible for elbow flexion and forearm supination.
Question 76: Which of the following structures is not related to the third part of the duodenum?
- A. Superior mesenteric vessels
- B. Right ureter
- C. Head of pancreas
- D. Quadrate lobe of liver (Correct Answer)
Explanation: ***Quadrate lobe of liver*** - The **quadrate lobe of the liver** is located on the visceral surface of the liver, bounded by the gallbladder fossa, ligamentum teres, and porta hepatis. [1] - It is anatomically related to the **first part of the duodenum** and the pylorus, but has **no direct relationship** with the retroperitoneal **third part of the duodenum**, which lies at the L3 vertebral level. [2] - The third part of the duodenum is too inferior and posterior to have any relationship with the quadrate lobe. *Superior mesenteric vessels* - The **superior mesenteric artery** and **vein** cross **anteriorly** to the **third part of the duodenum** as it runs horizontally from right to left. - The duodenum passes between the aorta posteriorly and the superior mesenteric vessels anteriorly, creating a potential site for compression (**superior mesenteric artery syndrome**). *Right ureter* - The **right ureter** is a **posterior relation** of the **third part of the duodenum**, as both structures are retroperitoneal. [2] - The ureter descends on the psoas major muscle, passing behind the third part of the duodenum during its course toward the pelvis. *Head of pancreas* - The **head of pancreas**, specifically the **uncinate process**, lies **superior and posterior** to the **third part of the duodenum**. - The uncinate process hooks around posteriorly to the superior mesenteric vessels and has an intimate relationship with the third part of the duodenum.
Question 77: Which nerve is preserved in dissecting the superficial and deep lobes of the parotid gland?
- A. Glossopharyngeal
- B. Hypoglossal
- C. Lingual
- D. Facial (Correct Answer)
Explanation: ***Correct: Facial*** - The **facial nerve (CN VII)** passes directly through the parotid gland, dividing it into superficial and deep lobes. Dissection of these lobes requires careful identification and preservation of the facial nerve and its branches to avoid paralysis. - Injury to the facial nerve during parotidectomy can lead to various degrees of **facial paralysis**, affecting muscle movements like smiling, eye closure, and forehead wrinkling. *Incorrect: Glossopharyngeal* - The **glossopharyngeal nerve (CN IX)** supplies the carotid sinus and stylopharyngeus muscle and provides secretomotor innervation to the parotid gland via the otic ganglion. - It does not traverse the parotid gland itself, so it is not directly at risk during the dissection of the superficial and deep lobes. *Incorrect: Hypoglossal* - The **hypoglossal nerve (CN XII)** primarily controls the intrinsic and extrinsic muscles of the tongue, responsible for tongue movement. - It is located inferior to the parotid gland and is not in the field of dissection for separating the parotid lobes. *Incorrect: Lingual* - The **lingual nerve**, a branch of the mandibular nerve (CN V3), provides sensation to the **anterior two-thirds of the tongue** and carries parasympathetic fibers for submandibular and sublingual glands. - While it is in the general vicinity of the orofacial region, it does not pass through the parotid gland and is therefore not directly at risk during the dissection of the parotid lobe.
Question 78: Which intrinsic ocular muscle responsible for pupillary constriction is supplied by parasympathetic innervation?
- A. Constrictor pupillae (Correct Answer)
- B. Dilator pupillae
- C. Levator palpebrae superioris
- D. Ciliary muscle
Explanation: ***Constrictor pupillae*** - The **constrictor pupillae** (or **sphincter pupillae**) muscle is responsible for **miosis** (pupil constriction) and is innervated by **parasympathetic fibers** from the **oculomotor nerve (CN III)** via the **ciliary ganglion** [1]. - Stimulation of this muscle reduces the pupil size, which is a key part of the **light reflex** and **accommodation reflex** [1]. - This is the **only pupillary muscle** with parasympathetic innervation. *Ciliary muscle* - The **ciliary muscle** is involved in **accommodation**, altering the shape of the lens for focusing on near objects [1]. - While it also receives **parasympathetic innervation** from the ciliary ganglion, it does **not control pupil size**. - Its function is to change **lens curvature**, not pupillary diameter. *Levator palpebrae superioris* - This muscle is responsible for **elevating the upper eyelid**. - It is innervated by the **somatic motor fibers** of the **oculomotor nerve (CN III)**, not parasympathetic fibers. - It is **not an intrinsic ocular muscle** but rather an extraocular muscle. *Dilator pupillae* - The **dilator pupillae** muscle causes **mydriasis** (pupil dilation). - This muscle is innervated by **sympathetic fibers**, originating from the superior cervical ganglion, not parasympathetic fibers.
Question 79: Lips do not drain into which group of lymph nodes?
- A. Submandibular nodes
- B. Preauricular parotid (Correct Answer)
- C. None of the options
- D. Submental nodes
Explanation: ***Preauricular parotid*** - Lymph from the lips primarily drains into the **submental**, **submandibular**, and **deep cervical lymph nodes** [1]. - **Preauricular parotid nodes** primarily drain the lateral surface of the auricle, external auditory canal, temporoparietal scalp, and lateral parts of the eyelids and cheek. - The lips do **NOT** drain into preauricular nodes. *Submandibular nodes* - The **lateral parts of the lower lip** and the **entire upper lip** drain into the submandibular lymph nodes [1]. - These nodes are a primary drainage pathway for the oral region. *Submental nodes* - The **central part of the lower lip** drains into the submental lymph nodes [1]. - These nodes lie between the anterior bellies of the digastric muscles beneath the chin. - They receive lymph from the central lower lip, floor of mouth, and tip of tongue. *None of the options* - This option is incorrect because there is a specific group of nodes listed that the lips do *not* drain into (preauricular parotid).
Question 80: What is the medial boundary of the cubital fossa?
- A. Brachioradialis
- B. Pronator teres (Correct Answer)
- C. Supinator
- D. None of the options
Explanation: ***Pronator teres*** - The **pronator teres muscle** forms the **medial boundary** of the cubital fossa, running obliquely from the medial epicondyle to the lateral side of the radius. - This muscle defines the medial aspect of the triangular space at the anterior elbow. *Brachioradialis* - The **brachioradialis** muscle forms the **lateral boundary** of the cubital fossa. - It arises from the humerus and inserts into the distal radius, helping to delineate the region laterally. *Supinator* - The **supinator muscle** is located deep within the forearm and is not a direct boundary of the cubital fossa. - It lies on the posterior aspect of the radius and ulna, deep to some of the cubital fossa contents. *None of the options* - This option is incorrect because the **pronator teres** clearly defines the medial boundary of the cubital fossa.