Anatomy
3 questionsThe main muscle affected in congenital muscular torticollis is?
Where is the auditory cortex primarily located in the brain?
What is the average axial length of the human eyeball?
NEET-PG 2015 - Anatomy NEET-PG Practice Questions and MCQs
Question 821: The main muscle affected in congenital muscular torticollis is?
- A. Sternocleidomastoid (Correct Answer)
- B. Trapezius
- C. Scalenus Anticus
- D. Omohyoid
Explanation: ***Sternocleidomastoid*** - Congenital muscular torticollis (CMT) is primarily caused by **unilateral fibrosis and shortening of the sternocleidomastoid muscle (SCM)**. - This leads to the characteristic **head tilt towards the affected side** and **chin rotation to the opposite side**. *Trapezius* - The trapezius muscle is primarily involved in **shrugging the shoulders**, extending and rotating the head and neck, but is not the main muscle affected in CMT. - While it can become secondarily tight in response to persistent head positioning, it is **not the primary pathological muscle** in CMT. *Scalenus Anticus* - The scalenus anticus (anterior scalene muscle) is involved in **neck flexion and elevation of the first rib** during forced inspiration. - It plays a role in various neck pain syndromes and brachial plexus compression, but it is **not the defining muscle in congenital muscular torticollis**. *Omohyoid* - The omohyoid is a **strap muscle of the neck** that depresses the hyoid bone. - It has no primary involvement in the **pathophysiology or clinical presentation of congenital muscular torticollis**.
Question 822: Where is the auditory cortex primarily located in the brain?
- A. Superior temporal gyrus (Correct Answer)
- B. Inferior temporal gyrus
- C. Area 3,1,2
- D. Cingulate gyrus
Explanation: ***Superior temporal gyrus*** - The **primary auditory cortex** (Brodmann areas 41 and 42) is located in the **superior temporal gyrus**, primarily within the **transverse temporal gyri of Heschl**. [1] - This region is responsible for processing **auditory information**, including pitch, loudness, and sound localization. [1] *Inferior temporal gyrus* - The **inferior temporal gyrus** is a part of the temporal lobe involved in higher-level **visual processing** and object recognition. - It plays a role in the "what" pathway of vision and **memory formation**, not primary auditory processing. *Area 3,1,2* - **Brodmann areas 3, 1, and 2** collectively form the **primary somatosensory cortex**. [2] - This area is located in the **postcentral gyrus** of the parietal lobe and is responsible for processing touch, pain, temperature, and proprioception. [2] *Cingulate gyrus* - The **cingulate gyrus** is a component of the **limbic system**, involved in emotion formation, learning, memory, and executive function. - It plays a role in processing emotional aspects of pain and fear, but not primary auditory perception.
Question 823: What is the average axial length of the human eyeball?
- A. 16 mm
- B. 20 mm
- C. 24 mm (Correct Answer)
- D. 28 mm
Explanation: ***24 mm*** - The **average axial length** of the human eyeball is approximately **24 mm**. - This length is crucial for **emmetropia**, where parallel light rays focus precisely on the retina. *16 mm* - An axial length of **16 mm** would indicate extreme **hyperopia** (farsightedness), as the eyeball would be significantly too short [1]. - This would result in light focusing behind the retina, leading to blurry vision. *20 mm* - An axial length of **20 mm** is still considerably shorter than average, suggesting **significant hyperopia**. - This deviation from the norm would impair visual acuity without corrective lenses. *28 mm* - An axial length of **28 mm** would classify the eye as significantly **myopic** (nearsighted), as the eyeball would be too long [1]. - In this case, light would focus in front of the retina, causing distant objects to appear blurry [1].
Dental
1 questionsCaldwell Luc Surgery has its approach to the maxillary antrum through ?
NEET-PG 2015 - Dental NEET-PG Practice Questions and MCQs
Question 821: Caldwell Luc Surgery has its approach to the maxillary antrum through ?
- A. Gingivolabial sulcus (Correct Answer)
- B. Inferior orbital rim
- C. Nasal septum
- D. Cribriform plate
Explanation: ***Gingivolabial sulcus*** - The Caldwell Luc approach involves an incision made in the **gingivolabial sulcus** of the upper jaw to access the anterior wall of the maxillary sinus. - This provides a direct and wide approach to the maxillary antrum for surgical procedures. *Inferior orbital rim* - An incision near the **inferior orbital rim** is generally used for orbital surgeries or approaches to the orbit, not directly for the maxillary antrum. - This approach offers access to the orbital floor and associated structures. *Nasal septum* - The **nasal septum** is a cartilaginous and bony wall separating the nostrils. Surgical approaches involving the septum are typically for septoplasty or access to the sphenoid sinus. - This anatomical location does not provide direct access to the maxillary antrum. *Cribriform plate* - The **cribriform plate** is a part of the ethmoid bone in the skull base and is associated with the sense of smell. - Access to this area is primarily for anterior cranial fossa surgeries and is entirely separate from the maxillary antrum.
ENT
3 questionsIn Caldwell Luc operation, the approach is through the?
Which of the following is not a complication of maxillary sinus lavage and insufflation?
All of the following are features of Tubotympanic CSOM except which of the following?
NEET-PG 2015 - ENT NEET-PG Practice Questions and MCQs
Question 821: In Caldwell Luc operation, the approach is through the?
- A. Opening of maxillary antrum through gingivolabial approach (Correct Answer)
- B. Transnasal endoscopic approach through the middle meatus
- C. Through the sphenopalatine recess for maxillary sinus access
- D. Accessing the maxillary sinus via superior meatus
Explanation: ***Opening of maxillary antrum through gingivolabial approach*** - The **Caldwell-Luc operation** involves creating a surgical window in the anterior wall of the **maxillary sinus** via an incision in the **gingivolabial sulcus** (also called sublabial sulcus). - This **open surgical approach** through the canine fossa provides direct access to the antrum for removal of pathology, foreign bodies, or drainage of chronic infections. - The incision is made above the canine tooth, and the anterior wall of the maxilla is fenestrated. *Transnasal endoscopic approach through the middle meatus* - This describes **functional endoscopic sinus surgery (FESS)**, which is a minimally invasive endoscopic technique, not the traditional open Caldwell-Luc procedure. - While FESS accesses the maxillary sinus through the natural ostium or by creating a middle meatal antrostomy, it is a fundamentally different approach. - Caldwell-Luc is an **extranasal, open approach**, whereas FESS is an **intranasal, endoscopic approach**. *Through the sphenopalatine recess for maxillary sinus access* - The **sphenopalatine recess** is primarily associated with endoscopic approaches to the sphenoid sinus or procedures involving the **pterygopalatine fossa**, not the Caldwell-Luc approach. - This approach does not involve breaching the anterior wall of the maxillary sinus through the canine fossa. *Accessing the maxillary sinus via superior meatus* - The **superior meatus** is not used for accessing the maxillary sinus in any standard surgical approach. - The natural ostium of the maxillary sinus opens into the **middle meatus**, not the superior meatus. - The superior meatus drains the posterior ethmoid cells, not the maxillary sinus.
Question 822: Which of the following is not a complication of maxillary sinus lavage and insufflation?
- A. Orbital injury
- B. Epistaxis
- C. Facial nerve injury (Correct Answer)
- D. Air embolism
Explanation: ***Facial nerve injury*** - The **facial nerve (CN VII)** passes through the parotid gland and temporal bone, far from the maxillary sinus. - There is no anatomical proximity or procedural mechanism during maxillary sinus lavage and insufflation that would put the facial nerve at risk of injury. *Air embolism* - **Insufflation of air** into the maxillary sinus, especially under pressure, can lead to air entering the bloodstream if a blood vessel is inadvertently punctured. - This can result in a serious and potentially fatal **air embolism**, particularly if the air reaches the cerebral circulation. *Orbital injury* - The **medial wall of the maxillary sinus** is in close proximity to the orbit, separated by thin bone. - During lavage, excessive force or incorrect angulation of instruments can perforate this thin bone, leading to **orbital complications** such as periorbital hematoma or injury to orbital contents. *Epistaxis* - During the procedure, the **mucosa of the nasal cavity** or the sinus itself can be traumatized by the instruments used for lavage. - This local trauma to the rich blood supply of these areas can easily cause **nasal bleeding (epistaxis)**.
Question 823: All of the following are features of Tubotympanic CSOM except which of the following?
- A. Profuse discharge
- B. Hearing loss
- C. Extreme pain (Correct Answer)
- D. Facial nerve paralysis
Explanation: ***Extreme pain*** - **Extreme pain** is NOT a characteristic feature of **tubotympanic CSOM**. This type is typically associated with a history of **painless otorrhea**. - Tubotympanic CSOM is considered the "safe" type with inflammation limited to the mucosa without bone erosion. - The presence of severe pain should raise suspicion for complications or the **atticoantral (unsafe) type** of CSOM. *Profuse discharge* - **Profuse, mucoid** or **mucopurulent discharge** is a hallmark feature of tubotympanic CSOM. - This discharge results from chronic inflammation of the **middle ear mucoperiosteum** through a central perforation in the **pars tensa**. - The discharge is typically non-foul smelling (unlike atticoantral CSOM). *Hearing loss* - **Conductive hearing loss** is a universal feature of tubotympanic CSOM. - Results from **tympanic membrane perforation**, middle ear effusion, and potential ossicular discontinuity. - The degree of hearing loss correlates with the size and location of the perforation. *Facial nerve paralysis* - Facial nerve paralysis is **NOT a typical feature** of tubotympanic (safe) CSOM. - This complication is characteristically associated with **atticoantral (unsafe) CSOM** with cholesteatoma causing bone erosion. - While theoretically possible in very advanced neglected tubotympanic disease, it would indicate transformation to unsafe disease or secondary complications. - **Note:** Some sources may list this as a rare complication, but it is not a characteristic feature distinguishing tubotympanic CSOM, making this option potentially ambiguous in an "EXCEPT" question format.
Pharmacology
1 questionsIn primary open-angle glaucoma, pilocarpine eye drops lower intraocular pressure primarily by acting on which of the following?
NEET-PG 2015 - Pharmacology NEET-PG Practice Questions and MCQs
Question 821: In primary open-angle glaucoma, pilocarpine eye drops lower intraocular pressure primarily by acting on which of the following?
- A. All of the options
- B. Trabecular meshwork
- C. Ciliary epithelium
- D. Longitudinal fibres of the ciliary muscle (Correct Answer)
Explanation: ***Longitudinal fibres of the ciliary muscle***- Pilocarpine is a **muscarinic agonist** that contracts the **longitudinal fibers of the ciliary muscle** [1, 3].- This contraction pulls on the **scleral spur**, separating the **trabecular meshwork** sheets, which increases conventional **aqueous humor outflow** [2, 3].*Trabecular meshwork*- While the **trabecular meshwork** is the site where aqueous humor exits the eye, pilocarpine primarily acts on the ciliary muscle to **indirectly affect** the meshwork's outflow facility [2, 3].- Pilocarpine does not directly alter the structure or function of the trabecular meshwork cells.*Ciliary epithelium*- The **ciliary epithelium** is responsible for **aqueous humor production** [1, 2].- Pilocarpine primarily affects **outflow**, not production, through its action on the ciliary muscle [1, 2].*All of the options*- Pilocarpine does not act on **all** these structures; its primary mechanism is through the ciliary muscle to enhance outflow.- It has no direct significant effect on **ciliary epithelium** or direct action on the **trabecular meshwork** itself.
Physiology
1 questionsMiracle fruit is used to change the taste from?
NEET-PG 2015 - Physiology NEET-PG Practice Questions and MCQs
Question 821: Miracle fruit is used to change the taste from?
- A. Sour to Bitter
- B. Sour to Sweet (Correct Answer)
- C. Bitter to Sweet
- D. Salty to Sweet
Explanation: ***Sour to Sweet*** - The **miracle fruit** (Synsepalum dulcificum) contains a glycoprotein called **miraculin**. - Miraculin binds to taste receptors on the tongue and modifies their perception, making **sour foods taste sweet**. *Sour to Bitter* - The primary effect of miracle fruit is to convert **sour tastes into sweet tastes**, not bitter ones. - No known natural compound consistently changes sour perception to bitter. *Bitter to Sweet* - While miraculin makes sour foods sweet, it does not typically convert **bitter tastes into sweet sensations**. - Bitter taste perception involves different receptor pathways that are not significantly altered by miraculin. *Salty to Sweet* - Miracle fruit primarily targets **sour taste receptors**. - It does not have a significant effect on altering the perception of **salty tastes to sweet**.
Surgery
1 questionsWhat is the treatment of choice for Deviated Nasal Septum (DNS) in adults?
NEET-PG 2015 - Surgery NEET-PG Practice Questions and MCQs
Question 821: What is the treatment of choice for Deviated Nasal Septum (DNS) in adults?
- A. Medical management with decongestants
- B. Observation
- C. Turbinoplasty
- D. Septoplasty (Correct Answer)
Explanation: ***Septoplasty*** - **Septoplasty** is the surgical procedure of choice to correct a deviated nasal septum by **realigning the cartilage and bone** in the septum. - It is performed to improve nasal airflow and address symptoms like **nasal obstruction** or recurrent sinusitis. *Medical management with decongestants* - **Decongestants** provide temporary relief from nasal congestion but do not correct the underlying **anatomical deviation** of the septum. - Prolonged use of decongestants can lead to **rhinitis medicamentosa**, a rebound congestion. *Observation* - **Observation** is not an appropriate long-term solution for symptomatic DNS as the **anatomical deviation** will persist and symptoms are unlikely to improve spontaneously. - Patients with significant symptoms impacting their quality of life require active intervention rather than just monitoring. *Turbinoplasty* - **Turbinoplasty** is a procedure to reduce the size of the **turbinates**, which are bony structures in the nasal cavity that can contribute to nasal obstruction. - While it can be performed concurrently with septoplasty, it does not correct the **deviated septum itself**.