NEET-PG 2015 - Anatomy Practice Questions

Q: In a patient with chronic sinusitis, which of the following structures is associated with the presence of ethmoidal bullae?

Anterior ethmoidal air cells. ***Anterior ethmoidal air cells*** - The **ethmoidal bulla** is the largest and most constant **anterior ethmoidal air cell**, located in the lateral wall of the middle meatus. - It is a key component of the **ostiomeatal complex** and its inflammation or blockage can contribute to chronic sinusitis by obstructing drainage pathways. - The ethmoidal bulla drains into the **middle meatus** via the hiatus semilunaris and is positioned superior to the uncinate process. *Posterior ethmoidal air cells* - These are located more posteriorly and drain into the **superior meatus**, not the middle meatus where the ethmoidal bulla drains. - The posterior cells are separated from the anterior cells by the **basal lamella of the middle turbinate. - The **ethmoidal bulla** is an anterior structure, clearly distinguished from the posterior ethmoidal cell group. *Superior ethmoidal air cells* - This is **not a standard anatomical classification** for ethmoidal air cells. - The ethmoid labyrinth is divided into **anterior and posterior groups**, not superior/inferior or middle classifications. - The ethmoidal bulla belongs to the anterior ethmoid complex. *Inferior ethmoidal air cells* - This is **not a recognized anatomical classification** for ethmoidal air cells. - Standard classification divides ethmoidal cells into **anterior** (including the bulla) and **posterior** groups. - The ethmoidal bulla is specifically an anterior ethmoidal air cell, the largest of this group.

Q: What is the type of epithelium of the adenoid?

Pseudostratified ciliated columnar epithelium. ***Pseudostratified ciliated columnar epithelium*** - The adenoid (pharyngeal tonsil) is located in the nasopharynx, which is part of the upper respiratory tract and is lined with **pseudostratified ciliated columnar epithelium** with goblet cells [1]. - This type of epithelium is also known as **respiratory epithelium**, and its cilia and mucus-producing goblet cells help to trap and clear inhaled particles and pathogens [1]. *Non-keratinized squamous epithelium* - This type of epithelium is found in areas subject to friction and abrasion, such as the oral cavity, oro- and laryngopharynx, and esophagus, not typically in the nasopharynx. - It provides protection but lacks the ciliated and mucus-producing cells necessary for clearing respiratory passages. *Cuboidal epithelium* - This epithelium is typically found in glands and ducts, secretory and absorptive surfaces, such as renal tubules and thyroid follicles. - It does not have the specialized functions (cilia, mucus production) required for the respiratory system's protective lining. *Columnar epithelium with goblet cells* - While the adenoid epithelium does contain **goblet cells** for mucus production, specifically stating "columnar epithelium" is not as precise as "pseudostratified ciliated columnar epithelium." - The key feature of being **pseudostratified** and **ciliated** is crucial for its function in the nasopharynx [1].

Q: Anterior tonsillar pillar is formed by?

Palatoglossal fold. Palatoglossal fold - The palatoglossal fold (anterior faucial pillar) is formed by the mucous membrane covering the palatoglossus muscle. - It defines the anterior boundary of the tonsillar fossa, hence forming the anterior tonsillar pillar. - Clinical relevance: This landmark is important during tonsillectomy and for identifying peritonsillar abscess location. Palatopharyngeal fold - This fold is formed by the mucous membrane covering the palatopharyngeus muscle. - It forms the posterior boundary of the tonsillar fossa, thus being the posterior tonsillar pillar (posterior faucial pillar). Pterygopalatine arch - This is not a recognized anatomical structure related to the tonsillar region. - The term appears to conflate "pterygopalatine fossa" (a skull space) with the palatine arches (tonsillar pillars), making it an effective distractor. Valleculae - The valleculae are depressions located between the base of the tongue and the epiglottis. - They are part of the laryngopharynx involved in swallowing and are not associated with the tonsillar pillars.

Q: Which of the following is not an extrinsic laryngeal membrane?

Quadrangular membrane. **Quadrangular membrane** - The quadrangular membrane is an **intrinsic laryngeal membrane**, originating and inserting within the larynx itself, forming the false vocal cords and epiglottic folds. - It does not connect the larynx to external structures like the hyoid bone or trachea. *Hyoepiglottic ligament* - This is an **extrinsic laryngeal ligament** that connects the anterior surface of the epiglottis to the body of the hyoid bone. - It helps anchor the epiglottis to a structure outside the larynx. *Cricotracheal membrane* - The cricotracheal membrane is an **extrinsic laryngeal membrane** connecting the inferior border of the cricoid cartilage of the larynx to the first tracheal ring. - It forms the connection between the larynx and the trachea, an external structure. *Thyrohyoid membrane* - This is an **extrinsic laryngeal membrane** that connects the superior border of the thyroid cartilage of the larynx to the first tracheal ring. - It provides a broad connection between the larynx and the hyoid bone, an external laryngeal structure.

Q: Where is the auditory cortex primarily located in the brain?

Superior temporal gyrus. ***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.

Q: Pupillary reflex pathway - All of the following are a part except?

Medial geniculate body. ***Medial geniculate body*** - The **medial geniculate body** is part of the **auditory pathway**, involved in processing sound information [2]. - It does not play a role in the **afferent** or **efferent** limbs of the pupillary light reflex. *Edinger Westphal nucleus* - The **Edinger-Westphal nucleus** is the **parasympathetic nucleus** of cranial nerve III (**oculomotor nerve**) [1]. - It provides preganglionic parasympathetic fibers that lead to pupillary constriction via the **ciliary ganglion** [1]. *Pretectal nuclei* - The **pretectal nuclei** receive input from the **retina** and are critical for the **afferent limb** of the pupillary light reflex [1], [3]. - They send fibers to the **Edinger-Westphal nuclei** bilaterally, mediating the direct and consensual light reflexes [1]. *Retinal ganglion cell* - **Retinal ganglion cells** are responsible for transmitting visual information from the **retina** to the brain [4]. - A subset of these cells, containing **melanopsin**, are photosensitive and specifically mediate the input for the **pupillary light reflex** [3].

Q: The zonules suspending the lens are attached to the?

Ciliary body. ***Ciliary body*** - The **suspensory ligaments of the lens**, also known as zonules of Zinn, connect the **lens capsule** to the **ciliary body**. - These zonules play a crucial role in **accommodation** by transmitting forces from the ciliary muscle to alter the shape of the lens. *Root of iris* - The **root of the iris** attaches the iris to the ciliary body but does not directly connect to the lens zonules. - The iris primarily controls the **pupil size** and light entry, while the zonules are involved in lens suspension and focusing. *Anterior vitreous* - The **anterior vitreous** is the part of the vitreous humor located in front of the lens. - While it is in close proximity to the lens, the zonules do not directly attach to the vitreous but rather to the ciliary body. *Limbus* - The **limbus** is the transitional zone between the cornea and the sclera, the white outer layer of the eye. - It is an important anatomical landmark for eye surgery and drainage of aqueous humor, but it has no direct role in suspending the lens.

Q: Lens is attached to ciliary body via?

Zonular fibers. ***Zonular fibers*** - The **suspensory ligaments** of the lens, known as zonular fibers (or **Zonules of Zinn**), connect the lens capsule to the ciliary body. - These fibers play a crucial role in **accommodation** by transmitting the tension from the ciliary muscle to the lens, causing it to change shape [2]. *Limbus* - The **limbus** is the junction between the cornea and the sclera, serving as a transitional zone [3]. - It does not directly attach the lens to the ciliary body but is an important anatomical landmark for eye surgery. *Vitreous Humour* - The **vitreous humor** is the clear, gel-like substance that fills the space between the lens and the retina [4]. - It maintains the shape of the eye and holds the retina in place, but it does not provide structural attachment for the lens. *Root of iris* - The **root of the iris** is the outermost part of the iris where it attaches to the ciliary body. - While it is adjacent to the ciliary body, it is the iris structure itself and does not serve to attach the lens [1].

Q: Cephalic index is calculated as

Biparietal Diameter / Occipitofrontal Diameter. ***Biparietal Diameter / Occipitofrontal Diameter*** - The **cephalic index** is a measure used in **craniometry** to describe the shape of the skull, calculated by dividing the maximum **biparietal diameter** (width) by the maximum **occipitofrontal diameter** (length) and multiplying by 100. [1] - This ratio helps classify head shapes into **brachycephalic** (short, wide), **mesocephalic** (medium), and **dolichocephalic** (long, narrow). *Biparietal Diameter / Head Circumference* - This ratio is not the standard definition for the **cephalic index**; head circumference is a measure of overall head size, not its proportional shape in terms of width to length. - While both parameters are used in fetal biometry, their ratio does not define the **cephalic index**. *Head Circumference / Femur Length* - This ratio is completely unrelated to the **cephalic index**. - **Head circumference** estimates head size, and **femur length** estimates fetal long bone growth, both used for gestational age assessment, but not for skull shape. *Occipitofrontal Diameter / Biparietal Diameter* - This formula represents the inverse of the **cephalic index**, which would yield a different and non-standard index for skull shape. - The traditional and medically recognized formula for the **cephalic index** places the **biparietal diameter** in the numerator.

Q: Traumatic optic neuropathy due to closed head trauma commonly affects which part of the optic nerve?

Optic canal. ***Optic canal*** - The **optic nerve** is highly susceptible to injury within the **optic canal** due to its tight anatomical confines and the close proximity of the optic nerve to rigid bone. - Trauma to this region can lead to direct compression, shearing injury, or ischemia from damage to surrounding vasculature, resulting in significant visual impairment. *Intra ocular part* - The intraocular part of the optic nerve, including the **optic disc**, is typically protected by the globe and orbit against blunt trauma. - Direct intraocular trauma, such as a penetrating injury, would be required to significantly affect this segment, which is not usually the cause in closed head trauma. *Intracranial part* - The intracranial part of the optic nerve is relatively mobile within the cerebrospinal fluid and is less prone to direct compression or shearing forces from closed head trauma compared to the optic canal. - While it can be affected by diffuse axonal injury or mass effects within the cranium, it is not the most commonly affected segment for traumatic optic neuropathy in closed head injuries. *Optic tract* - The **optic tract** lies posterior to the optic chiasm and is part of the central nervous system pathways for vision, not the optic nerve itself. - Injuries to the optic tract are more likely to cause homonymous hemianopia rather than the profound unilateral vision loss characteristic of traumatic optic neuropathy, and are generally less vulnerable to direct mechanical trauma from closed head injury.

Question 1

In a patient with chronic sinusitis, which of the following structures is associated with the presence of ethmoidal bullae?

Accepted Answer

Anterior ethmoidal air cells

Answer

Posterior ethmoidal air cells

Answer

Superior ethmoidal air cells

Answer

Inferior ethmoidal air cells

Question 2

What is the type of epithelium of the adenoid?

Accepted Answer

Pseudostratified ciliated columnar epithelium

Answer

Non-keratinized squamous epithelium

Answer

Cuboidal epithelium

Answer

Columnar epithelium with goblet cells

Question 3

Anterior tonsillar pillar is formed by?

Accepted Answer

Palatoglossal fold

Answer

Palatopharyngeal fold

Answer

Pterygopalatine arch

Answer

Valleculae

Question 4

Which of the following is not an extrinsic laryngeal membrane?

Accepted Answer

Quadrangular membrane

Answer

Hyoepiglottic ligament

Answer

Cricotracheal membrane

Answer

Thyrohyoid membrane

Question 5

Where is the auditory cortex primarily located in the brain?

Accepted Answer

Superior temporal gyrus

Answer

Inferior temporal gyrus

Answer

Area 3,1,2

Answer

Cingulate gyrus

Question 6

Pupillary reflex pathway - All of the following are a part except?

Accepted Answer

Medial geniculate body

Answer

Edinger Westphal nucleus

Answer

Pretectal nuclei

Answer

Retinal ganglion cell

Question 7

The zonules suspending the lens are attached to the?

Accepted Answer

Ciliary body

Answer

Root of iris

Answer

Anterior vitreous

Answer

Limbus

Question 8

Lens is attached to ciliary body via?

Accepted Answer

Zonular fibers

Answer

Limbus

Answer

Vitreous Humour

Answer

Root of iris

Question 9

Cephalic index is calculated as

Accepted Answer

Biparietal Diameter / Occipitofrontal Diameter

Answer

Biparietal Diameter / Head Circumference

Answer

Head Circumference / Femur Length

Answer

Occipitofrontal Diameter / Biparietal Diameter

Question 10

Traumatic optic neuropathy due to closed head trauma commonly affects which part of the optic nerve?

Accepted Answer

Optic canal

Answer

Intraocular part

Answer

Intracranial part

Answer

Optic tract

NEET-PG 2015 — Anatomy