Secondary Angle-Closure Glaucomas — MCQs
Which of the following statements regarding glaucoma and its management is true?
Which of the following conditions is least likely to be associated with neovascular glaucoma?
Recurrent anterior uveitis with increased intraocular tension is seen in which of the following conditions?
Secondary glaucoma associated with angle recession is seen in:
Which diagnostic procedure is not done in a dilated pupil?
A patient presents with superior quadrant vision loss since one week. Patient has Rheumatic Heart Disease (RHD) and is not taking medications. What is the most likely diagnosis?
Sudden painful loss of vision seen in
A patient presents with eye ache and difficulty in vision after watching a movie. What will be the first line of management?
Intumescent cataract is associated with which type of glaucoma?
Which of the following is most likely to cause bilateral angle closure glaucoma?
Secondary Angle-Closure Glaucomas Indian Medical PG Practice Questions and MCQs
Question 1: Which of the following statements regarding glaucoma and its management is true?
- A. Latanoprost is used with caution in patients of bronchial asthma
- B. Central scotoma is seen in open angle glaucoma
- C. Topiramate can cause bilateral angle closure glaucoma (Correct Answer)
- D. Methazolamide causes decrease in ocular blood flow
Explanation: ***Topiramate can cause bilateral angle closure glaucoma*** - **Topiramate**, a sulfonamide derivative, can cause acute **myopia** and **ciliary body swelling**, leading to anterior displacement of the lens-iris diaphragm and subsequent **bilateral angle closure glaucoma**. - This adverse effect typically occurs within the first few weeks of starting the drug, and prompt discontinuation can often resolve the condition. *Latanoprost is used with caution in patients of bronchial asthma* - **Latanoprost** is a **prostaglandin analog** and is generally safe for patients with bronchial asthma as it does not affect pulmonary function. - Beta-blockers, rather than latanoprost, are the class of glaucoma medications that require caution in patients with bronchial asthma due to their potential to cause **bronchospasm**. *Central scotoma is seen in open angle glaucoma* - **Central scotoma** is more characteristic of conditions affecting the **macula** or optic nerve pathologies other than typical open-angle glaucoma. - The classic visual field defect in **open-angle glaucoma** is a **paracentral scotoma** or **nasal step**, often progressing to peripheral field loss. *Methazolamide causes decrease in ocular blood flow* - **Methazolamide**, a carbonic anhydrase inhibitor (CAI), primarily acts by reducing aqueous humor production, which can **lower intraocular pressure**. - Although CAIs can cause systemic side effects, they are not known to significantly decrease **ocular blood flow**; in fact, some studies suggest they may even have a mild beneficial effect on optic nerve head blood flow.
Question 2: Which of the following conditions is least likely to be associated with neovascular glaucoma?
- A. Diabetes
- B. Open angle glaucoma (Correct Answer)
- C. CRVO
- D. Eale's disease
Explanation: ***Open angle glaucoma*** ✓ - **Open-angle glaucoma** is a primary **neurodegenerative disease** of the optic nerve, characterized by progressive loss of **retinal ganglion cells** and their axons, leading to characteristic **optic neuropathy** and visual field defects. - It does **NOT** directly cause **neovascularization** or increased VEGF production, which are the underlying mechanisms for **neovascular glaucoma**. - This is the **least likely** association among the given options. *Diabetes* - **Diabetic retinopathy** is a **major cause** of **neovascularization** due to retinal ischemia and increased production of **vascular endothelial growth factor (VEGF)**, which can lead to **neovascular glaucoma**. - **Neovascularization** on the iris (rubeosis iridis) and angle can block aqueous outflow, causing a severe, rapidly progressing form of secondary glaucoma. *CRVO (Central Retinal Vein Occlusion)* - **CRVO** leads to significant retinal ischemia and subsequent release of **VEGF**, which prompts the growth of new, fragile blood vessels. - These new vessels (neovascularization) can grow in the iris and angle, obstructing aqueous humor outflow and causing **neovascular glaucoma**. - **Ischemic CRVO** is one of the **most common causes** of neovascular glaucoma. *Eale's disease* - **Eale's disease** is an **idiopathic occlusive vasculitis** primarily affecting the **peripheral retinal veins**, leading to **retinal ischemia**. - This ischemia stimulates **neovascularization** and the production of **VEGF**, increasing the risk of **neovascular glaucoma** due to the formation of new blood vessels in the anterior chamber.
Question 3: Recurrent anterior uveitis with increased intraocular tension is seen in which of the following conditions?
- A. Posner-Schlossman syndrome (Correct Answer)
- B. Foster-Kennedy syndrome
- C. Vogt-Koyanagi-Harada syndrome
- D. Fuchs heterochromic iridocyclitis
Explanation: ***Posner-Schlossman syndrome*** - Characterized by **recurrent, unilateral, non-granulomatous anterior uveitis** associated with markedly **elevated intraocular pressure (IOP)**. - The condition is also known as **glaucomatocyclitic crisis**, highlighting the episodic inflammation and glaucoma. - Key features include **acute attacks** lasting hours to weeks with **dramatic IOP elevation** (often >40 mmHg). *Foster-Kennedy syndrome* - This syndrome is defined by ipsilateral **optic atrophy**, contralateral **papilledema**, and often **anosmia**, typically due to a frontal lobe tumor. - It does not involve anterior uveitis or primary elevated intraocular tension. - This is a neuro-ophthalmologic syndrome, not an inflammatory ocular condition. *Vogt-Koyanagi-Harada syndrome* - An autoimmune disorder affecting pigmented tissues, leading to **bilateral granulomatous panuveitis**, often with hearing loss, vitiligo, poliosis, and neurological symptoms. - While it involves uveitis, it is typically **bilateral and panuveitis**, not recurrent unilateral anterior uveitis. - IOP may be elevated but not the defining feature with dramatic episodic rises. *Fuchs heterochromic iridocyclitis* - A chronic, **unilateral, low-grade anterior uveitis** with characteristic iris heterochromia. - May have mild IOP elevation but **not recurrent episodic attacks** with marked pressure spikes. - Inflammation is typically **quiet and chronic** rather than acute and recurrent.
Question 4: Secondary glaucoma associated with angle recession is seen in:
- A. Penetrating injury
- B. Concussion injury (Correct Answer)
- C. Chemical injury
- D. Radiation injury
Explanation: ***Concussion injury*** - **Concussion injuries** (blunt trauma) to the eye lead to shearing forces between the ciliary body and sclera, causing a tear in the ciliary body and trabecular meshwork. - This anatomical alteration, known as **angle recession**, impairs aqueous humor outflow over time, leading to secondary open-angle glaucoma. *Penetrating injury* - **Penetrating injuries** breach the globe and can cause direct damage to ocular structures, but angle recession leading to glaucoma is more characteristic of blunt trauma. - Such injuries often lead to other forms of glaucoma, like **pupillary block** or **phacolytic glaucoma**, depending on the extent of damage and inflammation. *Chemical injury* - **Chemical injuries** (e.g., acid or alkali burns) cause severe inflammation, tissue necrosis, and scarring within the anterior segment. - Glaucoma following chemical injury is typically due to **trabecular meshwork damage** from inflammation and scarring, or **peripheral anterior synechiae formation**, rather than angle recession. *Radiation injury* - **Radiation injury** to the eye is rare but can occur with radiation therapy for tumors, causing damage to vascular structures and contributing to neovascularization. - Glaucoma associated with radiation injury is usually secondary to **neovascularization** of the angle or **inflammatory processes**, not angle recession.
Question 5: Which diagnostic procedure is not done in a dilated pupil?
- A. Laser interferometry
- B. Electroretinography
- C. Gonioscopy (Correct Answer)
- D. Fundus examination
Explanation: ***Gonioscopy*** - **Gonioscopy** is the examination of the **anterior chamber angle**, where the **iris** meets the **cornea**. - It is crucial for assessing **glaucoma** and is typically performed with a **nondilated pupil** to allow the iris to lie in its natural anatomical position, which helps visualize the angle structures accurately. *Laser interferometry* - **Laser interferometry** is used to assess **potential visual acuity** in patients with **media opacities** such as cataracts. - This procedure benefits from a **dilated pupil** as it allows more light to pass through existing clear areas of the lens, improving the measurement. *Electroretinography* - **Electroretinography (ERG)** measures the **electrical responses of the retina** to light stimulation. - **Pupil dilation** is generally performed to maximize the amount of light reaching the retina, ensuring a comprehensive assessment of retinal function. *Fundus examination* - A **fundus examination** visualizes the **retina, optic disc, macula, and retinal blood vessels**. - **Dilation of the pupil** is a standard practice for a thorough fundus examination, as it allows for a wider and more complete view of the posterior segment of the eye, facilitating detection of various retinal pathologies.
Question 6: A patient presents with superior quadrant vision loss since one week. Patient has Rheumatic Heart Disease (RHD) and is not taking medications. What is the most likely diagnosis?
- A. CRAO
- B. CRVO
- C. BRAO (Correct Answer)
- D. BRVO
Explanation: ***BRAO*** - **Branch retinal artery occlusion** (BRAO) presents with **sudden, painless sectoral or quadrant visual field loss** corresponding to the distribution of the occluded arterial branch. - Superior quadrant vision loss indicates **inferior retinal involvement** (visual field is inverted on retina). - **Rheumatic heart disease** not on anticoagulation poses high risk for **cardiac emboli** from valvular vegetations or atrial fibrillation, which preferentially cause **arterial occlusions** (BRAO/CRAO). - Fundoscopy shows **retinal whitening** in the affected area with a clear demarcation line. *BRVO* - **Branch retinal vein occlusion** causes quadrant vision loss but is **NOT typically embolic** in nature. - BRVO is associated with systemic **vascular risk factors** (hypertension, diabetes, hyperlipidemia), not cardiac emboli. - Fundoscopy shows **flame-shaped hemorrhages** and cotton-wool spots in a wedge distribution. *CRAO* - **Central retinal artery occlusion** presents with **complete, sudden painless monocular vision loss** affecting the entire visual field. - Shows classic **"cherry-red spot"** at the fovea due to diffuse retinal ischemia. - Would not present with isolated quadrant vision loss. *CRVO* - **Central retinal vein occlusion** causes **complete monocular vision loss** with "blood and thunder" appearance on fundoscopy. - Presents with diffuse retinal hemorrhages throughout the retina, not isolated to one quadrant.
Question 7: Sudden painful loss of vision seen in
- A. Angle closure glaucoma (Correct Answer)
- B. Endophthalmitis
- C. Acute uveitis
- D. Central retinal artery occlusion
Explanation: ***Angle closure glaucoma*** - This is the **classic presentation** of sudden, painful vision loss in ophthalmology - Characterized by **acute increase in intraocular pressure** (often >40 mmHg) causing severe eye pain, headache, nausea, and vomiting - Vision loss is rapid due to damage to the **optic nerve** and corneal edema - The pain is intense and sharp due to stretching of ocular structures - **Key distinguishing feature**: Mid-dilated fixed pupil, corneal edema, shallow anterior chamber *Endophthalmitis* - Also causes **sudden painful vision loss** and is a sight-threatening emergency - Pain is severe with rapid onset of vision loss, redness, and hypopyon - **Differentiating features**: History of recent ocular surgery, trauma, or intravitreal injection; presence of hypopyon (layered pus in anterior chamber) - While both can present similarly, endophthalmitis typically has **obvious intraocular inflammation** and relevant preceding history *Acute uveitis* - Presents with **ocular pain**, **redness**, **photophobia**, and blurred vision - Vision loss is usually **gradual**, not sudden and complete - Pain is moderate, described as dull aching rather than severe acute pain - Rarely causes sudden severe vision loss unless complicated *Central retinal artery occlusion* - Causes **sudden, painless loss of vision** - this is the key distinguishing feature - Described as "curtain coming down" or sudden blackout of vision - **Absence of pain** differentiates it from acute angle-closure glaucoma - Cherry-red spot on fundoscopy is pathognomonic
Question 8: A patient presents with eye ache and difficulty in vision after watching a movie. What will be the first line of management?
- A. Mannitol with Moxifloxacin
- B. Mannitol with Atropine
- C. Mannitol with lubricating eye drops
- D. Mannitol with Pilocarpine (Correct Answer)
Explanation: ***Mannitol with Pilocarpine*** - This combination is appropriate for **acute angle-closure glaucoma (AACG)**, which can be triggered by pupillary dilation (e.g., in a dark movie theater). **Mannitol** is an osmotic diuretic that rapidly reduces intraocular pressure. - **Pilocarpine** is a miotic agent that constricts the pupil, pulling the iris away from the trabecular meshwork and opening the drainage angle to facilitate aqueous humor outflow. *Mannitol with Moxifloxacin* - While mannitol helps with intraocular pressure, **Moxifloxacin is an antibiotic** used to treat bacterial infections. - There is no indication of an ocular infection in this scenario, so an antibiotic would not be the first-line treatment for sudden eye pain and vision difficulty after watching a movie. *Mannitol with Atropine* - Adding **Atropine, a cycloplegic agent**, would cause further pupillary dilation, which would worsen acute angle-closure glaucoma and increase intraocular pressure. - Atropine is contraindicated in AACG and would exacerbate the patient's condition. *Mannitol with lubricating eye drops* - While mannitol helps with intraocular pressure, **lubricating eye drops** are used for dry eyes or surface irritation, not for acute angle-closure glaucoma. - Lubricating drops do not address the underlying pathology of increased intraocular pressure due to angle closure.
Question 9: Intumescent cataract is associated with which type of glaucoma?
- A. Phacolytic glaucoma
- B. Phacotopic glaucoma
- C. Pseudophakic glaucoma
- D. Phacomorphic glaucoma (Correct Answer)
Explanation: ***Phacomorphic glaucoma*** - **Intumescent cataract** refers to a mature or hypermature cataract that has absorbed water, leading to a swollen lens. - This swelling can cause the lens to push the iris forward, leading to secondary **angle closure glaucoma** due to pupillary block, which is characteristic of phacomorphic glaucoma. *Phacolytic glaucoma* - This type of glaucoma is caused by leakage of **high-molecular-weight lens proteins** from a mature or hypermature cataract into the aqueous humor, triggering a macrophagic response and obstruction of the trabecular meshwork. - It results in an **open-angle glaucoma** and anterior chamber inflammation, unlike the angle closure seen with intumescent cataracts. *Phacotopic glaucoma* - This is a rare term and not a recognized distinct category of glaucoma related to lens swelling. It may refer loosely to glaucoma associated with **lens dislocation** or subluxation. - It does not specifically describe glaucoma caused by an **intumescent cataract**. *Pseudophakic glaucoma* - This refers to glaucoma that develops in patients who have undergone **cataract surgery** and have an **intraocular lens (IOL)** implant (pseudophakia). - It can be caused by various mechanisms post-surgery, such as inflammation, steroid response, or IOL-related issues, but it is not directly associated with the presence of an intumescent natural lens.
Question 10: Which of the following is most likely to cause bilateral angle closure glaucoma?
- A. Sulfonamide medications
- B. Adrenergic agonists
- C. Topiramate (Correct Answer)
- D. Anticholinergic drugs
Explanation: ***Topiramate can cause bilateral angle closure glaucoma*** - **Topiramate** is known to cause a unique form of **bilateral angle closure glaucoma** due to ciliary body edema and anterior displacement of the iris-lens diaphragm, leading to acute myopia and angle closure. - This reaction typically occurs within the first few weeks of starting the drug, is **bilateral**, and is not related to angle anatomy. *Sulfonamide medications* - While some **sulfonamides** can cause acute myopia and secondary angle closure, similar to topiramate, this is a less consistently reported and less recognized association compared to topiramate. - The mechanism involves **ciliary body edema** leading to anterior displacement of the iris-lens diaphragm, but topiramate is a more classic example. *Adrenergic agonists* - **Adrenergic agonists** typically cause **mydriasis** (pupil dilation), which can precipitate acute angle closure in eyes with an already **narrow angle**. - However, they usually trigger **unilateral** angle closure and do not cause the same ciliary body edema mechanism seen with topiramate that results in bilateral involvement. *Anticholinergic drugs* - **Anticholinergic drugs** also cause **mydriasis** and can lead to **acute angle closure glaucoma** by widening the pupil and potentially blocking aqueous outflow in susceptible individuals. - Similar to adrenergic agonists, this is usually a **unilateral** event and does not involve the characteristic ciliary body edema and resultant bilateral acute myopia associated with topiramate.
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