Reis-Buckler dystrophy affects which layer of the cornea?
Which of the following statements about Fuchs' corneal dystrophy is incorrect?
Corneal sensations are decreased in all of the following conditions except:
Interstitial keratitis is associated with all of the following except:
In photophthalmia, which part of the eye is primarily affected?
What is the drug of choice for treating intermediate uveitis?
In specular microscopy endothelial density is measured by?
Snow banking is seen in?
Panophthalmitis involves ?
Which of the following conditions is NOT diagnosed by fluorescein angiography?
NEET-PG 2013 - Ophthalmology NEET-PG Practice Questions and MCQs
Question 21: Reis-Buckler dystrophy affects which layer of the cornea?
- A. Stroma
- B. Bowman's membrane (Correct Answer)
- C. Endothelium
- D. Epithelium
Explanation: ***Bowman's membrane*** - **Reis-Buckler dystrophy** is a type of corneal dystrophy specifically characterized by the progressive destruction and irregular regeneration of **Bowman's membrane** and the superficial stroma. - This leads to the formation of an abnormal fibrous layer that causes recurrent corneal erosions and significant visual impairment due to corneal opacification. *Epithelium* - While patients often experience recurrent **corneal erosions** involving the epithelium, the primary pathology in Reis-Buckler dystrophy affects the underlying Bowman's membrane. - The epithelial damage is secondary to the irregular surface created by the diseased Bowman's layer. *Stroma* - The **stroma** can be secondarily affected with superficial scarring and opacification in Reis-Buckler dystrophy, but the initial and primary site of pathology is Bowman's membrane. - Other dystrophies, such as macular or granular dystrophies, primarily involve the corneal stroma. *Endothelium* - The **endothelium** is not directly affected in Reis-Buckler dystrophy. - Endothelial dystrophies, such as Fuchs' endothelial dystrophy, involve the innermost layer of the cornea and lead to corneal edema.
Question 22: Which of the following statements about Fuchs' corneal dystrophy is incorrect?
- A. Endothelial dystrophy
- B. Occurs in old age
- C. Unilateral condition (Correct Answer)
- D. Posterior dystrophy
Explanation: ***Unilateral condition - INCORRECT STATEMENT*** - **Fuchs' corneal dystrophy** is typically a **bilateral condition**, although it can be asymmetric in its presentation. - The disease often affects both eyes, progressing from early morning blurriness to constant visual impairment. - This is the INCORRECT statement - Fuchs' is NOT unilateral. *Posterior dystrophy - Correct statement* - **Fuchs' corneal dystrophy** is classified as a posterior corneal dystrophy, meaning it primarily affects the **corneal endothelium** and Descemet's membrane. - This posterior involvement leads to the characteristic guttata and corneal edema. *Endothelial dystrophy - Correct statement* - It is fundamentally an **endothelial dystrophy**, resulting from primary dysfunction and loss of corneal endothelial cells. - The compromised endothelial pump function leads to **stromal edema** and reduced visual acuity. *Occurs in old age - Correct statement* - Fuchs' corneal dystrophy typically presents in **middle to old age**, with symptoms often becoming noticeable in individuals over 50. - While congenital forms of corneal dystrophy exist, Fuchs' is not usually one of them.
Question 23: Corneal sensations are decreased in all of the following conditions except:
- A. Neuroparalytic keratitis
- B. Leprosy
- C. Herpetic keratitis
- D. Recurrent corneal erosion syndrome (Correct Answer)
Explanation: ***Recurrent corneal erosion syndrome*** - This condition involves **defective adhesion** of the corneal epithelium to the underlying Bowman's layer and basement membrane, leading to sudden, severe pain upon waking. - While it causes **pain** and **epithelial defects**, it does not primarily involve nerve damage or decreased corneal sensation; rather, episodes are often very painful due to exposed nerve endings. *Herpetic keratitis* - Caused by the **herpes simplex virus (HSV)**, which can infect the trigeminal nerve and lead to **trophic changes** in the cornea. - This viral infection often results in **significant reduction** or loss of corneal sensation, making the eye more vulnerable to trauma and delayed healing. *Neuroparalytic keratitis* - This condition is also known as **neurotrophic keratitis** and results from damage to the **trigeminal nerve**, which supplies sensation to the cornea. - Loss of corneal sensation leads to impaired reflex tearing and blinking, making the cornea susceptible to epithelial breakdown and ulceration due to lack of protective mechanisms. *Leprosy* - In ocular leprosy, the **Mycobacterium leprae** directly invades the ciliary nerves, significantly impairing corneal sensation. - This reduced sensation in leprosy patients increases the risk of **corneal ulcers** and opacification due to undetected foreign bodies and trauma.
Question 24: Interstitial keratitis is associated with all of the following except:
- A. Syphilis
- B. Acanthamoeba (Correct Answer)
- C. Chlamydia Trachomatis
- D. Herpes Zoster Virus (HZV)
Explanation: ***Acanthamoeba*** - **Acanthamoeba keratitis** is a **suppurative keratitis** characterized by a painful, ring-shaped infiltrate with epithelial ulceration, typically associated with contact lens use and contaminated water exposure. - It causes **ulcerative stromal inflammation**, not the **non-ulcerative deep stromal inflammation** that characterizes classic interstitial keratitis. - **This is NOT a cause of interstitial keratitis.** *Syphilis* - **Congenital syphilis** is the **CLASSIC cause** of bilateral **interstitial keratitis**, often presenting in late childhood with "salmon patch" appearance, photophobia, lacrimation, and eventual ghost vessels. - The inflammation is **non-ulcerative and chronic**, affecting the **deep corneal stroma** with preservation of epithelium. - This is the most important association with interstitial keratitis to remember. *Chlamydia Trachomatis* - **Chlamydia trachomatis** causes **trachoma**, a chronic keratoconjunctivitis leading to **superficial keratitis with pannus formation** (superficial vascularization from the limbus). - The corneal involvement in trachoma is **superficial**, not the deep stromal inflammation seen in classic interstitial keratitis. - While listed in some references, **Chlamydia is NOT a standard cause of interstitial keratitis** in major ophthalmology textbooks. - **Note:** This option is potentially debatable, but Acanthamoeba is the more definitively incorrect answer. *Herpes Zoster Virus (HZV)* - **Herpes zoster ophthalmicus** can lead to **interstitial keratitis** and **disciform keratitis** (immune-mediated stromal inflammation with disc-shaped corneal edema). - Similarly, **HSV (Herpes Simplex Virus)** causes stromal keratitis, a form of interstitial keratitis. - The corneal involvement includes **deep stromal inflammation, scarring**, and potential neurotrophic changes leading to vision impairment.
Question 25: In photophthalmia, which part of the eye is primarily affected?
- A. Lens
- B. Cornea (Correct Answer)
- C. Retina
- D. Optic nerve
Explanation: ***Cornea*** - **Photophthalmia** (also known as **snow blindness** or **arc eye**) is caused by overexposure to **ultraviolet (UV) light**, which primarily damages the **corneal epithelium**. - This damage leads to **superficial punctate keratitis**, characterized by pain, foreign body sensation, photophobia, and blurred vision. - Symptoms typically appear **6-12 hours after exposure** and resolve within **24-48 hours** with supportive care. *Retina* - The **retina** can be damaged by certain types of light (e.g., solar retinopathy from looking at the sun), but **UV light** in photophthalmia is largely absorbed by the anterior structures of the eye, particularly the cornea. - Retinal damage would typically present with **central visual loss** or **scotomas**, differing from the acute pain and photophobia of photophthalmia. *Optic nerve* - The **optic nerve** transmits visual information from the retina to the brain and is generally not directly affected by **UV light exposure** causing photophthalmia. - Optic nerve issues would manifest as severe **vision loss**, **pupillary abnormalities**, or **pain with eye movement**, which are not typical for photophthalmia. *Lens* - While chronic **UV exposure** can contribute to **cataract formation** in the lens over time, this is a long-term effect, not the acute primary damage seen in photophthalmia. - The acute presentation of photophthalmia with severe pain, photophobia, and foreign body sensation is characteristic of **corneal epithelial damage**, not lens involvement.
Question 26: What is the drug of choice for treating intermediate uveitis?
- A. Atropine
- B. Antibiotics
- C. Topical steroids
- D. Systemic steroids (Correct Answer)
Explanation: ***Systemic steroids*** - **Systemic steroids** are the **drug of choice** for treating intermediate uveitis, especially when inflammation is significant or vision is threatened. - They effectively suppress the expansive **intraocular inflammation** typical of intermediate uveitis, which often involves the **vitreous** and **peripheral retina**. *Atropine* - **Atropine** is a **cycloplegic agent** primarily used to relieve ciliary spasm and prevent synechiae formation in anterior uveitis. - It does not address the underlying **inflammation** of intermediate uveitis, which is located more posteriorly. *Antibiotics* - **Antibiotics** are used to treat bacterial infections and are not indicated for **intermediate uveitis**, which is typically an **inflammatory** or **autoimmune disorder**. - They would be appropriate only if the uveitis were secondary to an **infectious cause**, which is not the primary characteristic of intermediate uveitis. *Topical steroids* - **Topical steroids** are effective for **anterior uveitis** but often fail to reach sufficient concentrations in the **vitreous** and **peripheral retina** to control the inflammation of intermediate uveitis. - **Intermediate uveitis** primarily affects the ciliary body, vitreous, and peripheral retina, requiring **systemic agents** for adequate therapeutic effect.
Question 27: In specular microscopy endothelial density is measured by?
- A. None of the options
- B. Optical doubling
- C. Fixed frame analysis (Correct Answer)
- D. Optical focusing
Explanation: ***Fixed frame analysis*** - This is the **standard method** used in specular microscopy to measure corneal endothelial cell density. - It involves analyzing a specific, fixed area of the **endothelial mosaic** and counting the number of cells within that defined frame. - The cell count from this fixed area is then **extrapolated** to calculate the overall endothelial cell density (cells/mm²). - This technique provides **quantitative assessment** of endothelial health, which is crucial for evaluating corneal function and pre-operative assessment for intraocular surgeries. *Optical doubling* - This is not a standard method for measuring endothelial density in specular microscopy. - Optical doubling relates to **refractive phenomena** or optical measurement techniques used in other contexts, not for endothelial cell counting. *Optical focusing* - While **essential for image acquisition**, optical focusing is merely a preliminary step to obtain a clear, sharp image of the endothelium. - It does not measure or count cells; it only ensures proper visualization before analysis. - The actual measurement requires subsequent **cell counting methods** like fixed frame analysis. *None of the options* - Incorrect because **fixed frame analysis** is indeed the recognized and widely used method for measuring endothelial density in specular microscopy.
Question 28: 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 29: 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 30: Which of the following conditions is NOT diagnosed by fluorescein angiography?
- A. Diabetes retinopathy
- B. Hypertensive retinopathy (Correct Answer)
- C. Central serous retinopathy
- D. Choroidal neovascularization
Explanation: ***Hypertensive retinopathy*** - This condition is primarily diagnosed by **clinical fundoscopic examination**, not fluorescein angiography - Diagnosis is based on characteristic clinical findings: **arteriovenous nicking, copper/silver wire arterioles, cotton-wool spots, flame-shaped hemorrhages, and papilledema** in severe cases - **Fluorescein angiography** is rarely needed and only used in research settings or to assess severe complications; it is **not a standard diagnostic tool** for hypertensive retinopathy *Diabetic retinopathy* - **Fluorescein angiography** is extensively used for diagnosing and staging diabetic retinopathy - It helps identify **microaneurysms, capillary non-perfusion areas, macular edema, and neovascularization** - Essential for detecting **proliferative diabetic retinopathy** and planning laser photocoagulation *Central serous retinopathy* - **Fluorescein angiography** shows characteristic **"smokestack" or "inkblot" pattern** of leakage at the RPE level - Demonstrates one or more **leakage points** with progressive pooling of dye in the subretinal space - While **OCT** is now preferred for initial diagnosis, FA remains valuable for identifying leakage sites and guiding treatment *Choroidal neovascularization* - **Fluorescein angiography** is the gold standard for diagnosing **choroidal neovascularization (CNV)** - Shows **early hyperfluorescence with progressive leakage** from abnormal vessels - Critical for determining the **type (classic vs occult), location, and extent** of CNV for treatment planning