Second pharyngeal arch derivatives US Medical PG Practice Questions and MCQs
Practice US Medical PG questions for Second pharyngeal arch derivatives. These multiple choice questions (MCQs) cover important concepts and help you prepare for your exams.
Second pharyngeal arch derivatives US Medical PG Question 1: A 10-month-old boy is brought to the clinic with a history of recurrent episodes of stridor and wheezing. His mother reports that his wheezing is exacerbated by crying, feeding, and flexion of the neck, and is relieved by extension of the neck. Occasionally he vomits after feeding. What is the most likely diagnosis?
- A. Laryngomalacia
- B. Congenital subglottic stenosis
- C. Gastroesophageal reflux disease
- D. Double aortic arch (Correct Answer)
- E. Recurrent viral wheeze
Second pharyngeal arch derivatives Explanation: ***Double aortic arch***
- A **double aortic arch** forms a complete vascular ring around the trachea and esophagus, causing symptoms that worsen with feeding and neck flexion due to increased pressure on these structures.
- The characteristic relief with neck extension and symptoms like stridor, wheezing, and vomiting after feeding are classic signs of airway and esophageal compression by a **vascular ring**.
*Laryngomalacia*
- This condition involves the **collapse of supraglottic structures** during inspiration, typically causing inspiratory stridor, which is often louder when supine or agitated.
- While symptoms can worsen with feeding and crying, the hallmark relief with neck extension and vomiting after feeding due to esophageal compression are not typical features.
*Congenital subglottic stenosis*
- This involves a **narrowing of the airway** below the vocal cords, leading to inspiratory and expiratory stridor, and often biphasic stridor.
- The symptoms are usually persistent and are not characteristically relieved by neck extension or exacerbated by feeding and crying in such a distinct manner.
*Gastroesophageal reflux disease*
- While GERD can cause recurrent vomiting, cough, and even wheezing due to aspiration, it typically does not present with stridor.
- The clear correlation of worsening with neck flexion and relief with neck extension strongly points away from isolated GERD as the primary cause.
*Recurrent viral wheeze*
- This common condition in infants involves episodes of wheezing that are often triggered by **viral respiratory infections**.
- It usually lacks the specific exacerbating and relieving factors related to neck position and feeding, such as relief with neck extension and concurrent vomiting after feeding.
Second pharyngeal arch derivatives US Medical PG Question 2: A 27-year-old man comes to the physician because of a 1-day history of right-sided facial weakness and sound intolerance. Three days ago, he hit the right side of his head in a motor vehicle collision. He neither lost consciousness nor sought medical attention. Physical examination shows drooping of the mouth on the right side. Sensation over the face is not impaired. Impedance audiometry shows an absence of the acoustic reflex in the right ear. Which of the following muscles is most likely paralyzed in this patient?
- A. Anterior belly of the digastric
- B. Stylopharyngeus
- C. Cricothyroid
- D. Tensor tympani
- E. Stylohyoid (Correct Answer)
Second pharyngeal arch derivatives Explanation: ***Stylohyoid***
- The patient presents with **facial nerve (CN VII) injury** following head trauma, evidenced by **facial weakness** and **hyperacusis** (sound intolerance).
- The **absent acoustic reflex** indicates paralysis of the **stapedius muscle** (the primary muscle responsible for the acoustic reflex and sound dampening).
- Among the options provided, **stylohyoid** is the only muscle innervated by the **facial nerve (CN VII)**, making it the correct answer in this context.
- The stylohyoid is innervated by the **nerve to stylohyoid**, a branch of CN VII.
*Anterior belly of the digastric*
- The **anterior belly of the digastric** is innervated by the **mylohyoid nerve**, a branch of the **trigeminal nerve (CN V3)**.
- This would not be affected in facial nerve injury.
*Stylopharyngeus*
- The **stylopharyngeus muscle** is innervated by the **glossopharyngeal nerve (CN IX)**.
- Damage would cause **dysphagia** and **loss of taste** on the posterior third of the tongue, not facial weakness or hyperacusis.
*Cricothyroid*
- The **cricothyroid muscle** is innervated by the **external branch of the superior laryngeal nerve** (from **vagus nerve, CN X**).
- Its paralysis causes **voice changes** and difficulty with high-pitched phonation, not facial nerve symptoms.
*Tensor tympani*
- The **tensor tympani muscle** is innervated by the **nerve to tensor tympani**, a branch of the **trigeminal nerve (V3)**.
- Although it dampens sound, it would not be affected in facial nerve injury; the **stapedius muscle** (CN VII) is responsible for the acoustic reflex and hyperacusis when paralyzed.
Second pharyngeal arch derivatives US Medical PG Question 3: A professional musician visits his physician after a morning concert. He complains of painless swelling in his right cheek when he plays his tuba. Physical examination of the patient reveals slight facial asymmetry due to minor swelling on the right side of the face. The skin over the swelling is smooth without any secondary changes. Palpation reveals a soft and non-tender swelling. The oral opening is normal without any trismus. Further examination reveals swelling of the right buccal mucosa extending from the first to the third molar. Bedside ultrasound shows small areas of high echogenicity consistent with pneumoparotid. Which nerve is associated with motor function to prevent air from entering the affected duct in this patient?
- A. CN VII – Zygomatic branch
- B. V3 – Mandibular nerve
- C. CN VII – Buccal branch (Correct Answer)
- D. CN VII – Marginal mandibular branch
- E. V2 – Maxillary nerve
Second pharyngeal arch derivatives Explanation: ***CN VII – Buccal branch***
- The **buccal branch** of the facial nerve (CN VII) innervates the **buccinator muscle**, which is crucial in preventing air from entering Stensen's duct during playing a wind instrument.
- **Pneumoparotid** results from air reflux into the parotid duct, typically prevented by the buccinator muscle's action in compressing the duct opening.
*CN VII – Zygomatic branch*
- The **zygomatic branch** of the facial nerve innervates muscles around the **eyes**, primarily controlling eyelid closure and facial expressions in that region.
- It does not directly affect the muscles responsible for preventing air entry into the parotid duct.
*V3 – Mandibular nerve*
- The **mandibular nerve (V3)** is a branch of the trigeminal nerve and provides **sensory innervation** to the lower face, as well as **motor innervation** to the muscles of mastication.
- Its primary role is in chewing and sensation, not in controlling the buccinator muscle or preventing parotid duct air entry.
*CN VII – Marginal mandibular branch*
- The **marginal mandibular branch** of the facial nerve innervates the muscles of the **lower lip and chin**, controlling expressions like frowning and pouting.
- It does not have a direct role in the function of the buccinator muscle or preventing air from entering the parotid duct.
*V2 – Maxillary nerve*
- The **maxillary nerve (V2)** is a branch of the trigeminal nerve that provides **sensory innervation** to the midface, upper teeth, and palate.
- It has no motor function related to the muscles of facial expression or the prevention of pneumoparotid.
Second pharyngeal arch derivatives US Medical PG Question 4: A 26-year-old man comes to the physician for a follow-up examination. Two weeks ago, he was treated in the emergency department for head trauma after being hit by a bicycle while crossing the street. Neurological examination shows decreased taste on the right anterior tongue. This patient's condition is most likely caused by damage to a cranial nerve that is also responsible for which of the following?
- A. Facial sensation
- B. Parotid gland salivation
- C. Uvula movement
- D. Tongue protrusion
- E. Eyelid closure (Correct Answer)
Second pharyngeal arch derivatives Explanation: ***Eyelid closure***
- The patient's **decreased taste on the right anterior tongue** indicates damage to the **facial nerve (CN VII)**, specifically the chorda tympani branch.
- The facial nerve is also responsible for innervating the muscles of **facial expression**, including the **orbicularis oculi** which closes the eyelid.
*Facial sensation*
- **Facial sensation** (touch, pain, temperature) is primarily mediated by the **trigeminal nerve (CN V)**, not the facial nerve.
- Damage to the trigeminal nerve would result in sensory deficits, not taste disturbances on the anterior tongue.
*Parotid gland salivation*
- **Parotid gland salivation** is primarily controlled by the **glossopharyngeal nerve (CN IX)** via the otic ganglion.
- The facial nerve (CN VII) innervates the **submandibular and sublingual glands**, but not the parotid gland.
*Uvula movement*
- **Uvula movement** and elevation of the soft palate are primarily controlled by the **vagus nerve (CN X)**, specifically through the pharyngeal plexus.
- Damage to CN X would typically lead to deviation of the uvula away from the paralyzed side.
*Tongue protrusion*
- **Tongue protrusion** (moving the tongue out) is the primary function of the **hypoglossal nerve (CN XII)**.
- Damage to the hypoglossal nerve would cause the tongue to deviate towards the lesioned side upon protrusion due to unopposed action of the healthy genioglossus muscle.
Second pharyngeal arch derivatives US Medical PG Question 5: A 65-year-old female with a past medical history of hypertension presents to her primary care doctor with a 3 month history of spasmodic facial pain. The pain is located in her right cheek and seems to be triggered when she smiles, chews, or brushes her teeth. The pain is sharp and excruciating, lasts for a few seconds, and occurs up to twenty times per day. She denies headaches, blurry vision, facial weakness, or changes in her memory. She feels rather debilitated and has modified much of her daily activities to avoid triggering the spasms. In the clinic, her physical exam is within normal limits. Her primary care doctor prescribes carbamazepine and asks her to follow up in a few weeks. Which cranial nerve is most likely involved in the patient's disease process?
- A. CN III
- B. CN V (Correct Answer)
- C. CN VI
- D. CN VII
- E. CN IV
Second pharyngeal arch derivatives Explanation: ***CN V***
- The patient's presentation of **recurrent, sharp, excruciating, unilateral facial pain** triggered by movements like chewing, smiling, or brushing teeth is classic for **trigeminal neuralgia**.
- **Trigeminal neuralgia** specifically affects the **trigeminal nerve (CN V)**, which has sensory branches covering the face, and is often treated with **carbamazepine**.
*CN III*
- The **oculomotor nerve (CN III)** is primarily involved in **eye movement** and **pupillary constriction**.
- Damage to CN III typically causes **diplopia, ptosis,** and **pupil dilation**, which are not present in this patient's symptoms.
*CN VI*
- The **abducens nerve (CN VI)** controls the **lateral rectus muscle**, responsible for **abducting the eye** (moving it outward).
- Dysfunction typically results in **diplopia** and an inability to move the eye laterally, not facial pain.
*CN VII*
- The **facial nerve (CN VII)** controls **facial expressions**, taste sensation from the anterior two-thirds of the tongue, and lacrimation/salivation.
- While it innervates facial muscles, its involvement typically presents as **facial weakness** or **paralysis** (e.g., Bell's palsy), not sharp, spasmodic pain.
*CN IV*
- The **trochlear nerve (CN IV)** innervates the **superior oblique muscle**, which is involved in rotating and depressing the eye.
- Lesions usually lead to **vertical diplopia**, particularly when looking down and inward, which is unrelated to the described facial pain.
Second pharyngeal arch derivatives US Medical PG Question 6: Where does the only cranial nerve without a thalamic relay nucleus enter the skull?
- A. Superior orbital fissure
- B. Internal auditory meatus
- C. Foramen rotundum
- D. Jugular foramen
- E. Cribriform plate (Correct Answer)
Second pharyngeal arch derivatives Explanation: ***Cribriform plate***
- The **olfactory nerve (CN I)** is the only cranial nerve that does not have a thalamic relay nucleus before reaching the cerebral cortex.
- It passes through the **cribriform plate** of the ethmoid bone to reach the olfactory bulbs.
*Superior orbital fissure*
- This opening transmits the **oculomotor (CN III), trochlear (CN IV), ophthalmic division of trigeminal (CN V1)**, and **abducens (CN VI)** nerves.
- These nerves all have sensory or motor components that relay through the thalamus, directly or indirectly.
*Internal auditory meatus*
- This canal transmits the **facial (CN VII)** and **vestibulocochlear (CN VIII)** nerves.
- The vestibulocochlear nerve's auditory pathway involves a thalamic relay in the **medial geniculate nucleus**.
*Foramen rotundum*
- The **maxillary division of the trigeminal nerve (CN V2)** passes through the foramen rotundum.
- Sensory information carried by CN V2 relays through the **thalamus**.
*Jugular foramen*
- This opening transmits the **glossopharyngeal (CN IX), vagus (CN X)**, and **accessory (CN XI)** nerves.
- Sensory components of these nerves, particularly taste and visceral sensation, involve thalamic nuclei.
Second pharyngeal arch derivatives US Medical PG Question 7: A 61-year-old man sustains an intracranial injury to a nerve that also passes through the parotid gland. Which of the following is a possible consequence of this injury?
- A. Changes in hearing (Correct Answer)
- B. Horner's syndrome
- C. Paralysis of lateral rectus muscle
- D. Loss of taste from posterior 1/3 of tongue
- E. Loss of general sensation in anterior 2/3 of tongue
Second pharyngeal arch derivatives Explanation: ***Changes in hearing***
- The **facial nerve (CN VII)** is the only cranial nerve that has both an **intracranial course** and passes **through the parotid gland**.
- The facial nerve gives off the **nerve to stapedius muscle** within the facial canal (before it exits the stylomastoid foramen).
- Damage to this nerve can lead to **hyperacusis** (increased sensitivity to sound), as the stapedius normally dampens excessive sound vibrations.
- **Note**: Facial nerve injury would also cause facial paralysis (the most prominent feature), loss of taste from anterior 2/3 of tongue via chorda tympani, and decreased lacrimation/salivation, but these are not among the answer choices.
*Horner's syndrome*
- This syndrome results from damage to the **sympathetic pathway** (hypothalamus → spinal cord → superior cervical ganglion → eye).
- Characterized by **ptosis**, **miosis**, and **anhidrosis**.
- Not related to facial nerve injury.
*Paralysis of lateral rectus muscle*
- The **lateral rectus muscle** is innervated by the **abducens nerve (CN VI)**.
- CN VI does not pass through the parotid gland.
*Loss of taste from posterior 1/3 of tongue*
- Taste from the **posterior 1/3 of the tongue** is carried by the **glossopharyngeal nerve (CN IX)**.
- CN IX does not pass through the parotid gland.
- **Note**: The facial nerve actually carries taste from the **anterior 2/3** of the tongue via the chorda tympani branch.
*Loss of general sensation in anterior 2/3 of tongue*
- **General sensation** (touch, pain, temperature) from the **anterior 2/3 of the tongue** is carried by the **lingual nerve** (branch of CN V3).
- The lingual nerve does not pass through the parotid gland.
Second pharyngeal arch derivatives US Medical PG Question 8: A 2850-g (6-lb 5-oz) newborn is delivered at term to a 19-year-old primigravid woman via normal spontaneous vaginal delivery. The mother has had no prenatal care. Examination of the newborn in the delivery room shows malformed external ears, facial nerve palsy, and absence of the stapes bone on audiological testing. This patient's condition is most likely caused by abnormal development of the structure that also gives rise to which of the following?
- A. Muscles of mastication (Correct Answer)
- B. Maxillary process
- C. Meckel's cartilage
- D. Palatine tonsil
- E. Trigeminal nerve (CN V)
Second pharyngeal arch derivatives Explanation: ***Muscles of mastication***
- The patient's presentation with **malformed external ears, facial nerve palsy (CN VII), and absence of the stapes** is characteristic of **second pharyngeal arch** abnormalities (seen in conditions like hemifacial microsomia or other branchial arch syndromes).
- The **second pharyngeal arch** (Reichert's cartilage) gives rise to the stapes, muscles of facial expression, styloid process, and is associated with CN VII (facial nerve).
- However, this question asks what else derives from "the structure" causing these findings. Since the **muscles of mastication derive from the first pharyngeal arch**, this appears to test understanding that they are NOT from the same arch as the stapes.
- **NOTE:** If this represents a combined first and second arch syndrome, then muscles of mastication (first arch) could be co-affected, making this the correct answer in that clinical context.
*Maxillary process*
- The maxillary process is derived from the **first pharyngeal arch** and forms the maxilla, zygoma, and part of the temporal bone.
- This is not derived from the second pharyngeal arch, which is primarily affected in this patient based on the stapes absence and facial nerve palsy.
*Meckel's cartilage*
- **Meckel's cartilage** is the cartilaginous component of the **first pharyngeal arch** and gives rise to the malleus, incus, anterior ligament of malleus, and sphenomandibular ligament.
- The **stapes** originates from the **second pharyngeal arch** (Reichert's cartilage), not Meckel's cartilage, making this an incorrect association.
*Palatine tonsil*
- The palatine tonsil develops from the **second pharyngeal pouch** (endoderm), not from the pharyngeal arches (mesoderm).
- Pouch derivatives are distinct from arch derivatives and are not involved in the skeletal and nerve malformations described.
*Trigeminal nerve (CN V)*
- The trigeminal nerve is the nerve of the **first pharyngeal arch** and provides sensory innervation to the face and motor innervation to the muscles of mastication.
- The **facial nerve (CN VII)** is the nerve of the **second pharyngeal arch**, which is the arch primarily affected in this clinical presentation.
Second pharyngeal arch derivatives US Medical PG Question 9: A group of investigators studying embryological defects in mice knock out a gene that is responsible for the development of the ventral wing of the third branchial pouch. A similar developmental anomaly in a human embryo is most likely to result in which of the following findings after birth?
- A. Cleft palate
- B. Discharging neck sinus (Correct Answer)
- C. Carpopedal spasm
- D. Conductive hearing loss
- E. White oral patches
Second pharyngeal arch derivatives Explanation: ***Discharging neck sinus***
- The **ventral wing of the third pharyngeal pouch** gives rise to the **thymus**
- During embryonic development, the thymus descends from the pharynx into the anterior mediastinum via the **thymopharyngeal duct**
- Normally, this duct obliterates completely, but **failure of obliteration** can result in a **cervical thymic cyst** or **persistent thymic tract**
- This presents as a **discharging neck sinus** along the lateral neck (anterior border of sternocleidomastoid), which may drain clear fluid or become infected
- This is a classic presentation of a **third pharyngeal pouch anomaly** affecting the thymic descent pathway
*Carpopedal spasm*
- **Carpopedal spasm** is a sign of **hypocalcemia** due to **hypoparathyroidism**
- The **dorsal wing** (not ventral wing) of the third pharyngeal pouch forms the **inferior parathyroid glands**
- Since the question specifically identifies a defect in the **ventral wing** (thymus), hypoparathyroidism would not result
- A dorsal wing defect would cause absent inferior parathyroid glands and hypocalcemia
*Cleft palate*
- Results from failure of **palatine shelf fusion** during weeks 8-12 of development
- Associated with **maxillary prominence** derivatives (first pharyngeal arch) and secondary palate formation
- Not related to third pharyngeal pouch development
*Conductive hearing loss*
- Associated with **first and second pharyngeal arch** derivatives affecting the middle ear structures
- First arch: malleus, incus (in part); Second arch: stapes (in part)
- The **third pharyngeal pouch** does not contribute to auditory structures
*White oral patches*
- Typically represent **mucosal lesions** (leukoplakia, candidiasis, lichen planus)
- Not associated with embryological defects of the pharyngeal apparatus
- Unrelated to third pharyngeal pouch derivatives
Second pharyngeal arch derivatives US Medical PG Question 10: A 10-year-old boy comes for a post-operative clinic visit with his ENT surgeon three months after airway reconstruction surgery and placement of a tracheostomy tube. Since the surgery, he says that he has been able to breathe better and is now getting used to tracheostomy care and tracheostomy tube changes. In addition to this surgery, he has had over twenty surgeries to implant hearing aids, reconstruct his cheekbones, and support his jaw to enable him to swallow. He was born with these abnormalities and had difficult breathing, hearing, and eating throughout his childhood. Fortunately, he is now beginning to feel better and is able to attend public school where he is one of the best students in the class. Abnormal development of which of the following structures is most likely responsible for this patient's malformations?
- A. Second branchial cleft
- B. First branchial pouch
- C. Third and fourth branchial pouches
- D. First branchial arch (Correct Answer)
- E. Second branchial arch
Second pharyngeal arch derivatives Explanation: ***First branchial arch***
- The clinical presentation describes features consistent with **Treacher Collins syndrome** (TCS), also known as mandibulofacial dysostosis, which results from maldevelopment of **both the first and second branchial arches**.
- However, the **predominant and most characteristic features** arise from **first branchial arch** abnormalities: **mandibular hypoplasia** (requiring jaw support for swallowing), **malar/zygomatic hypoplasia** (reconstructed cheekbones), and **maxillary hypoplasia**.
- These first arch skeletal abnormalities cause the **airway obstruction** (requiring tracheostomy) and feeding difficulties.
- The first branchial arch gives rise to: **mandible, maxilla, zygomatic bone, incus, malleus, muscles of mastication, and CN V** (trigeminal nerve).
- While hearing issues may involve second arch structures (stapes), the **overwhelming majority** of this patient's clinical problems stem from first arch malformations.
*Second branchial cleft*
- The second branchial cleft typically forms the **cervical sinus**, which normally obliterates. Persistence can lead to **cervical cysts or fistulas**, presenting as neck masses.
- Abnormalities of the second branchial cleft do not explain the extensive craniofacial malformations, hearing deficits, or airway compromise seen in this patient.
*First branchial pouch*
- The first branchial pouch gives rise to the **auditory (eustachian) tube** and the **tympanic cavity** (middle ear).
- While isolated first pouch defects could contribute to hearing problems, they would **not explain** the severe facial bone malformations (mandibular and malar hypoplasia), airway obstruction, or feeding difficulties.
- The pouch is distinct from the arch, which forms the skeletal and muscular structures.
*Third and fourth branchial pouches*
- The third branchial pouch contributes to the **inferior parathyroid glands** and the **thymus**. The fourth branchial pouch contributes to the **superior parathyroid glands** and the **ultimobranchial body** (parafollicular C cells of the thyroid).
- Abnormalities in these pouches, such as in **DiGeorge syndrome (22q11.2 deletion)**, lead to **T-cell immunodeficiency, hypocalcemia, and cardiac defects** but do not account for the craniofacial and hearing abnormalities described.
*Second branchial arch*
- The second branchial arch gives rise to the **stapes**, **styloid process**, **lesser horn and upper body of hyoid bone**, **stapedius muscle**, and **CN VII** (facial nerve).
- While Treacher Collins syndrome involves both first and second arch abnormalities, the **second arch contributions** are less prominent clinically.
- Second arch defects could contribute to **conductive hearing loss** (via stapes abnormalities) and **facial nerve issues**, but these are not the predominant features in this case.
- The critical skeletal malformations causing airway compromise, feeding difficulties, and facial dysmorphism are primarily **first arch** derivatives.
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