All are intracranial complications of otitis media except which of the following?
Which of the following statements about tubercular otitis media is false?
In which condition is the Schwartze sign observed?
Most common bone affected by otosclerosis?
In otosclerosis, which structure is primarily affected?
In otosclerosis, the tympanogram is:
Endolymphatic sac decompression is done in?
Which of the following conditions is associated with objective tinnitus?
Electrode of cochlear implant is placed in:
What is a specific indication for the use of a Bone-Anchored Hearing Aid (BAHA)?
NEET-PG 2013 - ENT NEET-PG Practice Questions and MCQs
Question 21: All are intracranial complications of otitis media except which of the following?
- A. Brain abscess
- B. Hydrocephalus
- C. Lateral sinus thrombophlebitis
- D. Facial nerve palsy (Correct Answer)
Explanation: ***Facial nerve palsy*** - This is an **extracranial complication** of otitis media affecting the **facial nerve within the temporal bone**, not an intracranial structure. - The facial nerve (CN VII) runs through the **fallopian canal** in the temporal bone and can be affected by inflammation from adjacent mastoid or middle ear infection. - Classified as a **temporal bone complication** rather than an intracranial complication. *Lateral sinus thrombophlebitis* - This is a true **intracranial complication** involving thrombosis of the **sigmoid and lateral venous sinuses** within the cranial cavity. - Results from direct extension of infection through the **mastoid tegmen** or via septic thrombophlebitis. - Presents with features of sepsis, headache, and papilledema. *Brain abscess* - A severe **intracranial complication** representing focal suppurative infection within the **brain parenchyma** (commonly temporal lobe or cerebellum). - Occurs through direct extension via bony erosion, retrograde thrombophlebitis, or hematogenous spread. - Requires urgent neurosurgical intervention. *Hydrocephalus* - An **intracranial complication** that can occur secondary to **otogenic meningitis** or **lateral sinus thrombosis**. - Results from impaired CSF absorption or obstruction of CSF pathways. - More common in pediatric otitis media with CNS complications.
Question 22: Which of the following statements about tubercular otitis media is false?
- A. Spreads through the eustachian tube
- B. Usually affects only one ear
- C. Causes painful ear discharge (Correct Answer)
- D. May cause multiple perforations
Explanation: ***Causes painful ear discharge*** - **Pain** is typically an **absent or minimal symptom** in tubercular otitis media, even with significant ear discharge. - The discharge is usually **thin, watery, and non-purulent**, reflecting the indolent nature of the infection. *Spreads through the eustachian tube* - Tubercular otitis media can spread via the **eustachian tube** from the nasopharynx, especially in cases of active pulmonary or pharyngeal tuberculosis. - This is a common route for infectious agents to reach the middle ear. *Usually affects only one ear* - Tubercular otitis media predominantly presents as a **unilateral infection**. - While bilateral involvement can occur, it is less common than unilateral presentation. *May cause multiple perforations* - Tubercular otitis media is notorious for causing **multiple, small perforations** in the tympanic membrane. - This feature, often described as a "sieve-like" drum, is a characteristic diagnostic clue for the condition.
Question 23: In which condition is the Schwartze sign observed?
- A. Glomus Jugulare
- B. Otosclerosis (Correct Answer)
- C. Acoustic neuroma
- D. Meniere's disease
Explanation: ***Otosclerosis*** - The **Schwartze sign** is a reddish blush seen through the tympanic membrane, indicative of increased vascularity over the promontory. - It is a classic clinical finding in **active otosclerosis**, distinguishing it from inactive forms. *Glomus Jugulare* - This is a highly **vascular tumor** of the middle ear and mastoid, often presenting with pulsating tinnitus and hearing loss. - While vascularity is present, it manifests as a **reddish-blue mass behind the tympanic membrane**, not the diffuse blush characteristic of Schwartze sign. *Meniere's disease* - Characterized by episodes of **vertigo, fluctuating hearing loss, tinnitus**, and aural fullness due to endolymphatic hydrops. - It does not present with any specific otoscopic findings like the Schwartze sign. *Acoustic neuroma* - This is a **benign tumor of the vestibulocochlear nerve (CN VIII)**, typically causing progressive unilateral sensorineural hearing loss, tinnitus, and balance issues. - It does not produce any visible changes on otoscopy and therefore lacks the Schwartze sign.
Question 24: Most common bone affected by otosclerosis?
- A. Stapes (Correct Answer)
- B. Bony labyrinth
- C. Mastoid process
- D. Incus
Explanation: ***Stapes*** - **Otosclerosis** is characterized by abnormal bone remodeling in the otic capsule, primarily affecting the **stapes footplate**. - This leads to its fixation in the oval window, causing **conductive hearing loss**. - The **stapediovestibular joint** is the most common site, occurring in over 90% of cases. *Bony labyrinth* - While otosclerosis originates in the **otic capsule** (which forms the bony labyrinth), the term refers to a broader anatomical structure. - The specific site of clinical significance is the **stapes footplate**, not the labyrinth as a whole. *Mastoid process* - The **mastoid process** is part of the temporal bone but is structurally distinct from the middle ear and otic capsule. - It is not involved in otosclerosis pathology. *Incus* - While the **incus** is a middle ear ossicle, it is rarely affected by otosclerosis. - The disease process specifically targets the **stapes footplate** at the oval window, not other ossicles.
Question 25: In otosclerosis, which structure is primarily affected?
- A. Round window
- B. Utricle
- C. Oval window
- D. Foot plate of stapes (Correct Answer)
Explanation: ***Foot plate of stapes*** - Otosclerosis is a disease of the **temporal bone** that causes abnormal bone growth, primarily affecting the footplate of the stapes. - This abnormal bone growth leads to the **fixation of the stapes** in the oval window, impairing sound conduction and causing **conductive hearing loss**. *Oval window* - While the oval window is the location where the stapes articulates, otosclerosis specifically affects the **footplate of the stapes**, causing it to become fixed within the oval window. - The oval window itself is a structure of the inner ear, but the primary pathology involves the **stapes bone**. *Round window* - The round window plays a role in relieving pressure in the **cochlea** by bulging outwards when the oval window bulges inwards. - It is **not directly affected** by the abnormal bone growth characteristic of otosclerosis. *Utricle* - The utricle is a part of the **vestibular system** in the inner ear, responsible for sensing linear acceleration and head tilt. - It is **not involved** in the pathogenesis of otosclerosis, which is primarily a conductive hearing loss disorder.
Question 26: In otosclerosis, the tympanogram is:
- A. Low compliance (Correct Answer)
- B. High compliance
- C. Normal compliance
- D. None of the options
Explanation: ***Low compliance*** - In **otosclerosis**, the **stapes footplate** becomes fixed in the **oval window**, hindering sound transmission. - This fixation leads to reduced movement of the **tympanic membrane** and ossicular chain, resulting in a **low-compliance tympanogram** (Type As). *High compliance* - **High compliance** (Type Ad tympanogram) indicates a very mobile or **flaccid tympanic membrane**, often seen in conditions like **ossicular discontinuity**. - This is opposite to the stiffening effect seen in otosclerosis. *Normal compliance* - A **normal tympanogram** (Type A) signifies healthy middle ear function with appropriate pressure and mobility. - This would not be observed in otosclerosis, where there is a clear pathology affecting the **ossicular chain** and sound conduction. *None of the options* - This is incorrect because **otosclerosis** presents with a characteristic **low-compliance tympanogram**. - The disease specifically impairs the **mobility of the middle ear system**, which directly impacts tympanometric findings.
Question 27: Endolymphatic sac decompression is done in?
- A. Management of endolymphatic hydrops in early-stage Meniere's disease
- B. Prophylactic treatment in recurrent vertigo syndromes
- C. Definitive treatment for intractable vertigo in Meniere's disease (Correct Answer)
- D. Primary surgical approach for cochlear disorders
Explanation: ***Definitive treatment for intractable vertigo in Meniere's disease*** - **Endolymphatic sac decompression** is a surgical procedure aimed at relieving pressure in the inner ear for patients with **Meniere's disease** who experience **intractable vertigo** despite medical management. - It works by improving fluid drainage from the **endolymphatic sac**, thereby reducing episodes of vertigo without significantly affecting hearing. *Management of endolymphatic hydrops in early-stage Meniere's disease* - This procedure is typically reserved for **later stages** of Meniere's disease when medical treatments have failed, not early-stage management. - Early-stage management usually involves **dietary modifications**, **diuretics**, and other medical therapies. *Prophylactic treatment in recurrent vertigo syndromes* - Endolymphatic sac decompression is a **therapeutic intervention** for diagnosed Meniere's disease, not a prophylactic treatment for general recurrent vertigo syndromes. - Its use is specific to the underlying **endolymphatic hydrops** of Meniere's disease. *Primary surgical approach for cochlear disorders* - This procedure addresses issues related to the **vestibular system** and fluid balance in Meniere's disease, not primary cochlear disorders like hearing loss unrelated to hydrops. - **Cochlear disorders** primarily affecting hearing might involve different surgical approaches, such as **cochlear implantation**.
Question 28: Which of the following conditions is associated with objective tinnitus?
- A. Acoustic neuroma
- B. Ear wax
- C. Glomus tumor (Correct Answer)
- D. Ménière's disease
Explanation: ***Glomus tumor*** - A glomus tumor is a **vascular tumor** that can cause turbulent blood flow, leading to a pulsatile, objective tinnitus that can be heard by an examiner. - The sound is often described as a **thumping or whooshing** sound synchronous with the patient's heartbeat. *Ménière's disease* - **Ménière's disease** is associated with subjective tinnitus, a ringing or roaring sensation perceptible only to the patient. - It is characterized by the triad of **vertigo, fluctuating hearing loss, and tinnitus**. *Acoustic neuroma* - An acoustic neuroma (vestibular schwannoma) typically causes **unilateral, subjective tinnitus**, often described as a high-pitched ringing. - It is a benign tumor on the **vestibulocochlear nerve** and is also associated with sensorineural hearing loss and balance issues. *Ear wax* - **Impacted ear wax** can cause subjective tinnitus due to its interference with sound conduction and resonance within the ear canal. - The tinnitus is not typically audible to an examiner, making it a **subjective finding**.
Question 29: Electrode of cochlear implant is placed in:
- A. Horizontal semicircular canal
- B. Scala media
- C. Scala tympani (Correct Answer)
- D. Scala vestibuli
Explanation: ***Scala tympani*** - The electrode array of a **cochlear implant** is carefully inserted into the **scala tympani** of the cochlea. - This placement allows the electrodes to directly stimulate the **spiral ganglion neurons**, bypassing damaged hair cells and transmitting electrical signals to the auditory nerve. *Horizontal semicircular canal* - The **horizontal semicircular canal** is part of the **vestibular system**, responsible for sensing angular head movements, not hearing. - Placing an electrode here would cause **vestibular dysfunction** and would not restore hearing. *Scala media* - The **scala media** (cochlear duct) contains the **organ of Corti** and **endolymph**, which has a high potassium concentration. - Inserting an electrode here would damage the delicate structures essential for natural sound transduction and could lead to electric potential imbalances. *Scala vestibuli* - The **scala vestibuli** is filled with **perilymph** and receives sound vibrations from the stapes. - While it's adjacent to the scala tympani, the **scala tympani** offers a safer and more direct path for optimal electrode insertion with less trauma to the sensory structures.
Question 30: What is a specific indication for the use of a Bone-Anchored Hearing Aid (BAHA)?
- A. Bilateral conductive hearing loss
- B. Unilateral sensorineural hearing loss
- C. Congenital canal atresia (Correct Answer)
- D. Conductive hearing loss due to other causes
Explanation: ***Congenital canal atresia*** - **Congenital canal atresia** represents a classic, specific indication for BAHA because the ear canal is congenitally absent or severely stenosed, making conventional hearing aids impossible to fit or ineffective. - BAHA bypasses the absent ear canal entirely by transmitting sound vibrations directly to the **cochlea through bone conduction**, providing an ideal solution for this anatomical abnormality. *Bilateral conductive hearing loss* - While BAHA can be used for conductive hearing loss, **conventional hearing aids** are typically the first-line treatment when ear canals are intact and functional. - Bilateral cases often benefit from traditional amplification devices or **surgical correction** of the underlying conductive pathology before considering BAHA. *Unilateral sensorineural hearing loss* - BAHA is commonly used for **single-sided deafness (SSD)** to route sound from the deaf ear to the hearing ear via bone conduction using the **CROS principle**. - However, this indication is less specific than congenital canal atresia, as other treatment options like **conventional CROS hearing aids** may also be considered. *Conductive hearing loss due to other causes* - This option is too **broad and non-specific** as it encompasses many different etiologies of conductive hearing loss. - Many other causes of conductive hearing loss have **alternative treatments** such as surgical repair, conventional hearing aids, or medical management, making BAHA a secondary consideration.