Snow banking is seen in?
Panophthalmitis involves ?
Polyopia/diplopia is seen in which type of cataract?
In senile nuclear cataract what type of myopia is seen?
Which agent is known to cause corneal ulcers that may resemble fungal infections?
Normal level of visual acuity is attained at which age
Parachute lesions are associated with which of the following conditions?
Which of the following is a specific sign of albinism?
Epithelial xerosis of conjunctiva is caused by?
Which of the following conditions is least likely to cause proptosis?
NEET-PG 2013 - Ophthalmology NEET-PG Practice Questions and MCQs
Question 31: Snow banking is seen in?
- A. White coat syndrome
- B. Eales syndrome
- C. Diabetic kidney disease
- D. Intermediate uveitis (Correct Answer)
Explanation: ***Intermediate uveitis*** - **Snow banking** refers to the accumulation of inflammatory exudates on the surface of the **pars plana** and **ora serrata**, a characteristic sign of intermediate uveitis. - This condition primarily affects the **vitreous** and peripheral retina, often leading to symptoms like **floaters** and **decreased vision**. *White coat syndrome* - This refers to a phenomenon where a patient's **blood pressure is elevated** in a clinical setting due to anxiety, but is normal outside of the medical environment. - It has no ophthalmic manifestations or association with "snow banking." *Eales syndrome* - This is an idiopathic inflammatory condition primarily affecting the **peripheral retinal vasculature**, leading to **vasculitis**, occlusion, and neovascularization. - While it can cause vitreous hemorrhage, it does not typically present with "snow banking" as a primary feature. *Diabetic kidney disease* - This is a complication of **diabetes mellitus** characterized by damage to the small blood vessels in the kidneys, leading to impaired kidney function. - It is a systemic condition with no direct relationship to ocular "snow banking" or uveitis.
Question 32: Panophthalmitis involves ?
- A. Inner coat of eyeball
- B. Inner and outer coat but sparing tenon's capsule
- C. All structures of the eyeball including Tenon's capsule (Correct Answer)
- D. None of the options
Explanation: ***All structures of the eyeball including Tenon's capsule*** - **Panophthalmitis** is a severe inflammation or infection that affects **all coats of the eyeball** (sclera, choroid, retina). - Crucially, it also extends to the **intraocular contents** and the **Tenon's capsule**, leading to potential destruction of the entire eye. *Inner coat of eyeball* - This description is characteristic of **uveitis** (inflammation of the uvea: iris, ciliary body, choroid) or **endophthalmitis** if it extends to the vitreous and retina. - However, **panophthalmitis** is a more extensive condition, involving more than just the inner coats. *Inner and outer coat but sparing tenon's capsule* - This scenario describes **endophthalmitis**, which involves inflammation of the internal structures of the eye (vitreous, retina, choroid) and potentially the sclera. - However, the sparing of Tenon's capsule differentiates it from **panophthalmitis**, which expressly includes involvement of this fibrous sheath. *None of the options* - This option is incorrect because Option C accurately describes the comprehensive nature of **panophthalmitis**, which is an inflammation of all ocular structures, including Tenon's capsule. - The definition of panophthalmitis is critical in distinguishing it from less severe inflammatory conditions of the eye.
Question 33: Polyopia/diplopia is seen in which type of cataract?
- A. Nuclear cataract
- B. Posterior subcapsular cataract
- C. Anterior polar cataract
- D. Cortical cataract (Correct Answer)
Explanation: ***Cortical cataract*** - **Cortical cataracts** cause spokes or vacuoles that refract light in multiple directions, leading to **polyopia** or **diplopia**. - The irregular opacities disrupt the light path, causing the brain to perceive **multiple images**. *Nuclear cataract* - **Nuclear cataracts** primarily affect central vision and cause **myopic shift**, not typically polyopia or diplopia. - They cause **blurry vision** and difficulty seeing in dim light as the lens nucleus hardens and yellows. *Posterior subcapsular cataract* - **Posterior subcapsular cataracts** are characterized by glare and difficulty with reading, mainly affecting near vision. - They form at the back of the lens, close to the nodal point, causing earlier onset of **visual symptoms** with less impact on polyopia. *Anterior polar cataract* - **Anterior polar cataracts** are usually small, well-demarcated opacities at the front of the lens that typically do not cause significant visual impairment. - They rarely cause **polyopia** unless they are very large or dense, which is uncommon.
Question 34: In senile nuclear cataract what type of myopia is seen?
- A. Curvature myopia
- B. Axial myopia
- C. Index myopia (Correct Answer)
- D. Lenticular myopia
Explanation: **Index myopia** - **Senile nuclear cataract** involves opacification and hardening of the lens nucleus, which increases the **refractive index** of the lens. - This results in a stronger refractive power of the eye, causing light to focus in front of the retina, characteristic of **myopia**. *Curvature myopia* - Occurs when there is an increase in the **curvature of the cornea** or lens, leading to increased refractive power. - While lens curvature can change, the primary mechanism in nuclear cataracts is refractive index change, not solely curvature. *Axial myopia* - Arises from an **elongation of the eyeball**, making the axial length too long relative to the refractive power. - This is a structural change in the eye's shape, not directly caused by changes within the lens itself due to cataract. *Lenticular myopia* - This term is a broader category that refers to myopia caused by changes in the lens, which **index myopia** falls under. - However, "index myopia" is more specific and accurately describes the underlying mechanism in senile nuclear cataracts.
Question 35: Which agent is known to cause corneal ulcers that may resemble fungal infections?
- A. Nocardia asteroides (Correct Answer)
- B. Mycobacterium
- C. Klebsiella pneumoniae
- D. Chlamydia trachomatis
Explanation: ***Nocardia asteroides*** - This organism can cause **Nocardia keratitis**, which often presents with a **feathery or crystalline appearance** in the cornea, mimicking a fungal infection. - It tends to occur in patients with **contact lens use** or ocular trauma and requires specific antimicrobial treatment different from fungal therapy. *Mycobacterium* - **Atypical mycobacteria** can cause chronic, indolent corneal ulcers, particularly after trauma or surgery. - While they can be challenging to diagnose, their appearance typically differs from the **feathery morphology** associated with fungal or Nocardia infections. *Klebsiella pneumoniae* - **Klebsiella pneumoniae** is a common cause of **bacterial keratitis**, especially in contact lens wearers. - Infections usually manifest as a rapidly progressing infiltrate with significant inflammation and often produce abundant **mucopurulent discharge**, not typically mistaken for fungal infections. *Chlamydia trachomatis* - **Chlamydia trachomatis** is the causative agent of **trachoma**, leading to recurrent conjunctivitis and eventually corneal scarring and blindness in endemic areas. - It does not cause acute corneal ulcers that resemble fungal infections; rather, it results in a chronic inflammatory process with **follicular conjunctivitis** and **pannus formation**.
Question 36: Normal level of visual acuity is attained at which age
- A. 6 months
- B. 1 year
- C. 3 years
- D. 6 years (Correct Answer)
Explanation: ***6 years*** - **Normal adult visual acuity (20/20 or 6/6)** is typically achieved around the age of **6 years** as the visual system fully matures. - This age allows for the complete development of **foveal vision** and **binocular functions**. *6 months* - At 6 months of age, an infant's visual acuity is still developing and is typically around **20/200 to 20/400**. - While significant visual development occurs by this age, including **face recognition and tracking objects**, it is not yet at adult levels. *1 year* - By one year, visual acuity improves to approximately **20/50 to 20/100**. - Infants at this age are able to **distinguish fine details** and have improved **depth perception**, but full maturity is still some years away. *3 years* - At 3 years of age, visual acuity is generally around **20/30 to 20/40**. - Children at this stage are able to perform **visual tasks** like drawing and recognizing letters, but subtle refinements are still ongoing.
Question 37: Parachute lesions are associated with which of the following conditions?
- A. Eale's disease (Correct Answer)
- B. Diabetes
- C. Sickle cell anemia
- D. None of the options
Explanation: ***Eale's disease*** - **Eale's disease** is an idiopathic retinal perivasculitis affecting young males, characterized by recurrent vitreous hemorrhages. - In the context of this question (NEET-2013), the term "parachute lesions" refers to the characteristic pattern of hemorrhages seen in Eale's disease. - The disease features retinal periphlebitis, capillary non-perfusion, and neovascularization leading to vitreous hemorrhage. - **Note:** The term "parachute hemorrhages" in broader ophthalmology typically describes preretinal/subhyaloid hemorrhages that settle inferiorly (boat-shaped), more commonly seen in proliferative diabetic retinopathy. *Diabetes* - **Diabetic retinopathy** presents with microaneurysms, dot-blot hemorrhages, hard exudates, cotton-wool spots, and neovascularization. - While proliferative diabetic retinopathy can cause preretinal "parachute-shaped" hemorrhages (boat-shaped hemorrhages that settle inferiorly), this is not the association being tested in this NEET-2013 question. - The specific context of this exam question associates the term with Eale's disease. *Sickle cell anemia* - **Sickle cell retinopathy** features characteristic sea-fan neovascularization in the peripheral retina. - Can cause salmon-patch hemorrhages, black sunburst lesions, and angioid streaks. - While vitreous hemorrhage can occur, "parachute lesions" is not standard terminology for sickle cell retinopathy manifestations. *None of the options* - This option is incorrect because **Eale's disease** is the correct answer according to the NEET-2013 exam key.
Question 38: Which of the following is a specific sign of albinism?
- A. Iris transillumination (Correct Answer)
- B. Sensitivity to light (photophobia)
- C. Involuntary eye movements (nystagmus)
- D. Decreased visual acuity
Explanation: ***Iris transillumination*** - This is a highly **specific sign** of albinism, resulting from the severe reduction or absence of pigment in the iris. - When light shines through the pupil, it passes through the unpigmented iris, creating a visible red reflex, indicating the lack of pigment that normally blocks the light. *Sensitivity to light (photophobia)* - While common in albinism due to the lack of pigment in the iris and retina allowing more light to enter the eye, **photophobia is not specific** to albinism. - It can be a symptom of various other ocular conditions like uveitis, corneal abrasions, or migraines. *Involuntary eye movements (nystagmus)* - **Nystagmus is frequently associated with albinism** due to foveal hypoplasia and impaired visual development but is **not specific**. - It can also be caused by neurological disorders, inner ear problems, or other ocular conditions. *Decreased visual acuity* - **Reduced vision is a characteristic feature of albinism** resulting from foveal hypoplasia and abnormal optic nerve pathways, but it is **not specific** to the condition. - Numerous eye conditions, such as refractive errors, cataracts, and retinal diseases, can lead to decreased visual acuity.
Question 39: Epithelial xerosis of conjunctiva is caused by?
- A. Xerophthalmia (Correct Answer)
- B. Infectious conjunctivitis caused by Chlamydia trachomatis
- C. Autoimmune blistering conjunctivitis
- D. Bacterial conjunctivitis due to Corynebacterium diphtheriae
Explanation: ***Xerophthalmia*** - **Xerophthalmia** is a medical condition characterized by **dryness of the eye**, often due to **vitamin A deficiency**. - **Epithelial xerosis of the conjunctiva** is one of the early and hallmark signs of xerophthalmia, representing the drying and thickening of the conjunctival epithelium due to goblet cell loss and squamous metaplasia. *Infectious conjunctivitis caused by Chlamydia trachomatis* - This typically causes **trachoma**, characterized by chronic inflammation, scarring, and eventual blindness. - While it can lead to dryness and scarring in later stages due to **symblepharon** or **entropion**, it does not primarily manifest as epithelial xerosis. *Autoimmune blistering conjunctivitis* - This condition involves **immune-mediated inflammation** leading to subepithelial blistering, scarring, and shrinkage of the conjunctiva. - It results in significant **ocular surface damage** and vision loss but is distinct from the primary epithelial changes seen in xerosis due to vitamin A deficiency. *Bacterial conjunctivitis due to Corynebacterium diphtheriae* - **Diphtheritic conjunctivitis** is a severe form of bacterial conjunctivitis that causes a distinctive **"pseudomembrane"** on the conjunctiva. - It leads to acute inflammation and potentially systemic illness, not primarily epithelial xerosis.
Question 40: Which of the following conditions is least likely to cause proptosis?
- A. Sarcoidosis
- B. Myxoedema (Correct Answer)
- C. Grave's disease
- D. Pituitary adenoma
Explanation: ***Myxoedema*** - **Myxoedema** is associated with severe **hypothyroidism** and is characterized by non-pitting edema due to the accumulation of **glycosaminoglycans** in tissues. - While it can cause facial puffiness, it is **least likely** to cause **proptosis** as there is no direct mechanism for an increase in orbital contents to push the eye forward. *Grave's disease* - **Grave's disease** is the most common cause of **proptosis** due to **immune-mediated inflammation** and accumulation of **glycosaminoglycans** and fat in the orbital tissues, leading to expansion. - This condition specifically affects the **extraocular muscles** and fat, causing bulging of the eyes. *Sarcoidosis* - **Orbital sarcoidosis** can cause **proptosis** due to the formation of **granulomas** within the orbit, leading to mass effect and inflammation. - It can affect any part of the eye and orbit, leading to varied clinical presentations including axial or non-axial globe displacement. *Pituitary adenoma* - A **pituitary adenoma** itself does not directly cause proptosis as it is located in the **sella turcica**, posterior to the orbits. - However, **large adenomas** can cause proptosis indirectly if they invade the **cavernous sinus** and obstruct venous return from the orbit, or if they are associated with **acromegaly**, which can lead to bony overgrowth of the orbital structures and surrounding tissues.