Minimally Invasive Glaucoma After Surgery

Minimally invasive glaucoma surgery (MIGS) is a group of very small, targeted eye operations that lower eye pressure (intraocular pressure, IOP) with much less cutting than older surgeries. Most MIGS procedures work inside the eye’s natural drain (the “angle”), or create a tiny new path for fluid to leave the eye. After surgery, the goal is simple: keep the pressure low enough to protect the optic nerve so your vision stays stable over time. MIGS usually has a faster recovery and fewer serious complications than traditional filtering surgery, but it is not risk-free and does not cure glaucoma; you still need regular check-ups. EyeWikiNCBI

Doctors decide if the surgery “worked” by watching your pressure, optic nerve, and visual field over months. A common target is roughly a 20–30% drop from your personal baseline, adjusted to how damaged your nerve already is and how fast your disease was progressing. American Academy of Ophthalmology

Types of MIGS

Think of MIGS as several “families,” each helping fluid leave the eye in a slightly different way:

1) Trabecular (angle) bypass or removal
These procedures open the eye’s clogged internal filter (trabecular meshwork) so fluid can reach the drain (Schlemm’s canal) more easily.
• Tiny stents/scaffolds: iStent, Hydrus hold a micro-channel open.
• “Unroofing”/removal tools: Kahook Dual Blade, Trabectome remove a strip of the filter to lower resistance.
• Viscodilation/trabeculotomy: OMNI/Visco-360 gently dilate and open the canal and its side collectors. PMC

2) Subconjunctival micro-shunts
XEN Gel Stent and Preserflo MicroShunt place a hair-thin tube that shunts fluid under the white covering of the eye to form a small “bleb” (a tiny fluid blister) that slowly drains. These act more like a mini version of traditional filtering surgery. PMC

3) Ciliary body treatment (less fluid made)
Endoscopic cyclophotocoagulation (ECP) lightly treats the ciliary processes (the fluid-producing tissue) so the eye makes a bit less fluid. NCBI

(Note: Some older supraciliary implants are no longer in use; your surgeon chooses from what is currently safe and available.) PMC

Common causes

1. Steroid response – After surgery, steroid eye drops calm inflammation, but in some people they also raise pressure. When the drop is tapered, pressure usually falls.

2. Retained viscoelastic – The clear gel used during surgery can briefly block the drain, causing a short-term pressure spike until it washes out.

3. Hyphema (blood in the front of the eye) – A few red cells or a small pool of blood can clog the angle or a stent and raise pressure for days. This is common and usually clears. PMC

4. Device malposition – A stent can sit too shallow, too deep, or twist, making it less effective or irritating nearby tissue.

5. Device blockage – Iris tissue, blood, or debris can plug a stent’s opening.

6. Peripheral anterior synechiae (PAS) – Small scars form in the angle and seal off the newly opened pathway.

7. Canal scarring – The canal or its side channels can heal closed after initially opening, making pressure creep up.

8. Bleb scarring (subconjunctival MIGS) – With XEN/Preserflo, the surface bleb can scar and resist flow unless managed early. PMC

9. Insufficient target pressure – Your optic nerve may need a lower pressure than MIGS alone can achieve.

10. Advanced or fast-moving glaucoma – If disease was severe, a modest pressure drop may not be enough.

11. Elevated episcleral venous pressure – If downstream pressure is high (e.g., vein problems), outflow can’t improve much.

12. Inflammation/uveitis – Post-op inflammation reduces outflow and can cause spikes.

13. Uveitis-glaucoma-hyphema (UGH) syndrome – Rarely, a malpositioned device rubs inside the eye and triggers bleeding and pressure rise until repositioned or removed. PMC

14. Angle closure events – In a narrow angle eye, dilation or swelling can close the angle temporarily.

15. Choroidal effusion – Fluid under the retina area can push the lens-iris forward and block the angle.

16. Suprachoroidal hemorrhage – Very rare bleeding in the back of the eye can cause sudden pain and high pressure.

17. Stopping pressure drops too fast – If medications are stopped early, pressure can rebound.

18. Nonadherence to drops – Missing anti-inflammatory or pressure-lowering drops lets pressure rise.

19. New eye problem – Things like macular swelling or corneal edema blur vision even if pressure is fine.

20. Measurement issues – Thick/edematous corneas or poor technique can misread pressure, masking true control.

(Overall, compared with older surgeries, MIGS tends to have fewer serious complications and quicker visual recovery, but careful follow-up is still essential.) WebEye

Symptoms

1. Mild ache or scratchiness – Common in the first days; usually improves as the eye heals.

2. Redness – Mild redness is normal early; worsening redness needs a check.

3. Blurry or hazy vision – Common the first week; persistent or sudden blur could signal swelling or high pressure.

4. Halos or glare – Often from corneal swelling or inflammation; usually short-lived.

5. Light sensitivity – Common after surgery; can also mean inflammation.

6. Seeing a fluid bleb (with XEN/Preserflo) – A small, pale “bubble” on the white of the eye is expected; sudden change needs review.

7. Floaters – A few are common; a shower of floaters or flashes needs urgent exam.

8. Headache or brow ache – Can accompany pressure fluctuations.

9. Nausea with eye pain – Can accompany very high pressure; call urgently.

10. Sudden sharp pain – Not typical; could mean pressure spike or other issue.

11. Dark curtain or sudden vision drop – Emergency; call immediately.

12. Blood tinged tears – Small amounts early on can happen with hyphema; heavy bleeding isn’t typical.

13. Excess tearing – Often from irritation or drop preservatives.

14. Foreign-body sensation – Common early; persistent discomfort may mean surface dryness or stitch issues.

15. Unequal pupils or new double vision – Uncommon; needs prompt review.

Diagnostic tests

A) Physical exam (at the slit lamp and in the lane)

1) Visual acuity (with pinhole if blurred)
This tells how sharp your vision is and whether blur is from the surface or deeper structures.

2) Pupillary exam (looking for RAPD)
Your pupils reveal optic nerve stress; a relative afferent pupillary defect suggests nerve damage or new imbalance.

3) External inspection
Eyelids, conjunctiva, and the surgical area are checked for swelling, discharge, or a visible bleb (for XEN/Preserflo).

4) Confrontation visual fields
A quick check for any obvious missing areas you notice or the clinician detects at bedside.

B) Manual/office functional tests

5) Goldmann applanation tonometry
The gold standard pressure check. It guides every decision after surgery.

6) Gonioscopy (mirror exam of the angle)
A small contact lens shows whether the angle is open, if the stent is well-positioned, and if there are blood cells, debris, PAS scars, or device blockage.

7) Slit-lamp biomicroscopy of the anterior chamber
Shows cells/flare (inflammation), corneal clarity, hyphema level, and stent visibility.

8) Seidel test (fluorescein leak test)
Blue light and dye reveal wound or bleb leaks so they can be treated early.

9) Standard automated perimetry (Humphrey visual field)
Tracks function of the optic nerve over time; helps confirm if the pressure target is protecting vision. American Academy of Ophthalmology

C) Lab and pathological tests (used only when needed)

10) Complete blood count (CBC)
If bleeding seems excessive or infection is suspected, CBC gives clues.

11) Coagulation profile (PT/INR, aPTT)
Helpful if there is a larger hyphema, you’re on blood thinners, or bleeding seems unusual.

12) Sickle cell testing (in at-risk groups)
Sickle cell trait can worsen hyphema and require special pressure targets and care.

13) Aqueous or vitreous tap for culture/cytology
If a rare infection (endophthalmitis) or unusual inflammation is suspected, the fluid is sampled.

D) Electrodiagnostic tests (special situations)

14) Visual evoked potential (VEP)
Measures how fast and how strong signals travel from the eye to the brain; can help when the optic nerve status is unclear.

15) Pattern electroretinography (pERG)
Gives an early sense of retinal ganglion cell function when fields/OCT are borderline.

E) Imaging tests

16) Optical coherence tomography (OCT) of RNFL/GCC
High-resolution scans show if nerve fiber layers are thinning. This helps judge if the chosen pressure is really protecting the nerve. American Academy of Ophthalmology

17) Anterior segment OCT (AS-OCT)
Shows the angle, the stent’s position, and (with XEN/Preserflo) bleb height and fluid pockets.

18) Ultrasound biomicroscopy (UBM)
Uses sound waves to view deep structures behind the iris; helpful for device position, PAS, or ciliary body changes.

19) B-scan ocular ultrasound
Looks for choroidal effusion or hemorrhage if the back of the eye can’t be seen.

20) Optic nerve/retinal photographs
Serial pictures document the nerve’s appearance over the years and help confirm stability along with fields and OCT. American Academy of Ophthalmology

Non-pharmacological treatments

(Each item includes Description → Purpose → How it works.)

1. Hands-clean technique for drops
   Description: Wash your hands, tilt head back, pull down the lower lid, put one drop in the “pocket,” don’t touch the bottle tip.
   Purpose: Keep germs out; get the full dose into the eye.
   Mechanism: Reduces bacteria on lids and avoids contaminating the bottle.

2. Punctal occlusion (finger press at the inner corner)
   Description: After each drop, gently press where the eyelid meets the nose for 1–2 minutes.
   Purpose: Keeps medicine in the eye, lowers side-effects in the body.
   Mechanism: Temporarily blocks the tear drain so the drop stays longer on the eye surface.

3. Protective eye shield for sleep (first 1–2 weeks, as advised)
   Description: Wear a plastic shield at night.
   Purpose: Prevents accidental rubbing.
   Mechanism: Physical barrier while you sleep.

4. No eye rubbing
   Description: Keep hands off the eye.
   Purpose: Protects the tiny internal work your surgeon did.
   Mechanism: Avoids pressure spikes and mechanical displacement.

5. Sunglasses outdoors
   Description: Wear UV-blocking shades.
   Purpose: Comfort and protection from wind/dust/light.
   Mechanism: Lowers glare and irritation, reduces reflex tearing that can wash out drops.

6. Head-of-bed elevation
   Description: Sleep with an extra pillow.
   Purpose: Helps fluid drain from the front of the eye.
   Mechanism: Gravity slightly lowers venous pressure, supporting aqueous outflow.

7. Activity modification (first 1–2 weeks or per your surgeon)
   Description: Avoid heavy lifting, straining, bending with head below waist, intense workouts.
   Purpose: Prevent pressure surges and bleeding.
   Mechanism: Straining raises eye and venous pressure; avoiding it protects the surgical site. (General post-op advice for glaucoma surgery includes avoiding strenuous activity early on.) Johns Hopkins Medicine

8. Shower/bath care
   Description: Keep soapy water out of the eye; face away from spray; pat dry—don’t rub.
   Purpose: Lowers infection risk and irritation.
   Mechanism: Reduces contaminants on the eye surface.

9. No swimming, hot tubs, dusty jobs (until cleared)
   Description: Pause these for the period your surgeon recommends.
   Purpose: Avoids germs/irritants.
   Mechanism: Minimizes exposure while the incision heals.

10. Cold compress (first 24–72 h, wrapped cloth)
    Description: Brief gentle cooling several times a day.
    Purpose: Comfort, swelling relief.
    Mechanism: Vasoconstriction and reduced inflammatory signaling.

11. Blink breaks + humid room air
    Description: Follow the “20-20-20” rule at screens; use a humidifier.
    Purpose: Prevents dryness and burning, which are common after eye surgery.
    Mechanism: Preserves the tear film and reduces evaporative loss.

12. Preservative-free lubricating drops
    Description: Use non-medicated artificial tears as advised (often 4–6×/day).
    Purpose: Comfort, clearer vision, better tolerance of medicated drops.
    Mechanism: Rebuilds the tear layer.

13. Good bowel habits (avoid straining)
    Description: Hydrate, fiber-rich diet; stool softener only if your doctor says it’s okay.
    Purpose: Prevents Valsalva-related pressure spikes.
    Mechanism: Less abdominal strain → lower venous / episcleral pressure swings.

14. Stop smoking and avoid second-hand smoke
    Description: Quit programs, nicotine replacement (with primary-care guidance).
    Purpose: Better healing and blood flow to the optic nerve.
    Mechanism: Reduces vasospasm and oxidative stress.

15. Sleep posture awareness
    Description: Try not to sleep face-down or with the operated eye pressed into the pillow.
    Purpose: Avoids local pressure on the eye.
    Mechanism: Minimizes external compression that can increase IOP.

16. Protective eyewear by day in gritty environments
    Description: Wraparound safety glasses if you’re in wind/dust.
    Purpose: Prevents debris hitting the surface.
    Mechanism: Mechanical barrier.

17. Follow-up schedule adherence
    Description: Typical checks are around Day 1, Week 1, and Month 1, then as needed.
    Purpose: Early detection of pressure spikes, hyphema, inflammation.
    Mechanism: Timely adjustments in drops or in-office treatments. (Typical patterns described for MIGS care.) Eyes On Eyecare

18. Medication list & alarms
    Description: Keep a current list; set phone reminders for each drop.
    Purpose: Prevents missed doses and interactions.
    Mechanism: Behavioral adherence support.

19. Avoid blood-thinning supplements (unless your doctors agree)
    Description: Don’t add ginkgo, high-dose fish oil, garlic pills, etc., without surgeon approval.
    Purpose: Lowers risk of post-op bleeding.
    Mechanism: Many “natural” products inhibit platelets or clotting.

20. Symptom diary
    Description: Note pain, blur, halos, redness, photophobia, and timing of drops.
    Purpose: Helps your eye team fine-tune care.
    Mechanism: Objective record improves clinical decisions.

Drug treatments

Important: Your surgeon’s plan comes first. Doses and schedules below are typical examples for adults with normal kidneys/lungs/heart and may be changed for your specific eye and MIGS type. Always follow your own prescription label.

1. Topical corticosteroid (e.g., prednisolone acetate 1% or loteprednol 0.5%)
   Dose/Time: Often 4×/day for 1 week, then taper over 2–4 weeks (varies); sometimes start right after surgery.
   Purpose: Calm inflammation so the new drainage pathway stays open.
   Mechanism: Blocks inflammatory cascades in the anterior segment.
   Side effects: Temporary pressure rise (“steroid response”), delayed healing, infection risk, rare cataract acceleration.

2. Topical antibiotic (e.g., moxifloxacin 0.5% or gatifloxacin 0.5%)
   Dose/Time: Commonly 4×/day for ~1 week.
   Purpose: Infection prevention early on.
   Mechanism: Kills or blocks bacterial DNA enzymes.
   Side effects: Stinging, allergy (rare).

3. Topical NSAID (e.g., ketorolac 0.5% 2–4×/day; nepafenac 0.1–0.3% 1–3×/day)
   Purpose: Extra anti-inflammatory effect; helps comfort; sometimes used to reduce cystoid macular edema risk when MIGS is combined with cataract surgery.
   Mechanism: COX inhibition → less prostaglandin-mediated inflammation.
   Side effects: Stinging, rare corneal issues with prolonged use.

4. Beta-blocker eye drop (e.g., timolol 0.25–0.5% once or twice daily)
   Purpose: Temporarily lower pressure if it runs high after surgery.
   Mechanism: Reduces aqueous humor production.
   Side effects: Low heart rate, low blood pressure, bronchospasm (avoid in asthma/COPD), fatigue.

5. Alpha-agonist (e.g., brimonidine 0.1–0.2% 2–3×/day)
   Purpose: Additional pressure control.
   Mechanism: Lowers aqueous production and increases uveoscleral outflow.
   Side effects: Allergy with red, bumpy lids; dry mouth; drowsiness.

6. Topical carbonic anhydrase inhibitor (CAI) (e.g., dorzolamide 2% 2–3×/day; brinzolamide 1% 2–3×/day)
   Purpose: Add-on IOP control.
   Mechanism: Inhibits carbonic anhydrase → less aqueous formation.
   Side effects: Bitter taste, stinging; avoid if allergic to sulfonamides.

7. Prostaglandin analog (e.g., latanoprost 0.005% nightly)
   Purpose: Long-term pressure lowering once early healing is past (some surgeons pause these in the first week if combined with cataract surgery due to inflammation concerns).
   Mechanism: Increases uveoscleral outflow.
   Side effects: Redness, eyelash growth, iris darkening, periocular skin darkening.

8. Rho-kinase inhibitor (netarsudil 0.02% nightly)
   Purpose: Extra pressure reduction—especially helpful if trabecular outflow is the target of your MIGS.
   Mechanism: Improves trabecular meshwork outflow; may lower episcleral venous pressure.
   Side effects: Conjunctival redness, corneal verticillata (harmless swirls), mild irritation. (Mechanism and safety per FDA label.) FDA Access DataNCBI

9. Oral CAI (acetazolamide 250 mg 2–4×/day, short course as directed)
   Purpose: Temporary pressure spike control.
   Mechanism: Systemic carbonic anhydrase inhibition.
   Side effects: Tingling fingers/toes, metallic taste, frequent urination, kidney stones; avoid in sulfa allergy and certain kidney problems; check electrolytes if longer use.

10. Anti-scarring agent given by the surgeon (5-fluorouracil subconjunctival injections for bleb-forming MIGS like XEN)
    Purpose: Rescue a “failing” bleb if scarring blocks flow.
    Mechanism: Antimetabolite slows fibroblast scarring; often combined with “needling” in clinic.
    Side effects: Surface irritation, epithelial defects; done by your eye doctor, not self-administered. (Evidence supports 5-FU for XEN bleb problems.) PubMedEyeWiki

Dietary / molecular supplements

These do not replace pressure-lowering treatment. Always ask your surgeon before starting supplements, especially around surgery and if you take blood thinners.

1. Nicotinamide (vitamin B3; “NAM”)
   Typical studied range: 1,500 mg/day → 3,000 mg/day in trials (medical supervision needed).
   Function/Mechanism: Boosts cellular energy (NAD⁺) in retinal ganglion cells; being studied for neuroprotection in glaucoma.
   Evidence: Randomized trials are underway; promising early data but not yet standard of care. PMCClinicalTrials.gov+1

2. Omega-3 (EPA/DHA) fish oil
   Dose: Often 1,000–2,000 mg combined EPA+DHA daily.
   Function: Helps dry eye symptoms common after eye surgery; may improve tear quality.
   Mechanism: Anti-inflammatory lipid mediators.
   Evidence: Reviews suggest benefit for dry eye with higher EPA and longer duration. PMC

3. Coenzyme Q10 (100–200 mg/day)
   Function: Mitochondrial antioxidant; theoretical optic-nerve support.
   Mechanism: Scavenges ROS; stabilizes mitochondrial membranes.
   Caution: Variable product quality; evidence for glaucoma is limited.

4. Magnesium (200–400 mg/night)
   Function: May help vascular dysregulation/vasospasm in normal-tension glaucoma; relaxes smooth muscle.
   Mechanism: Calcium channel modulation, vasodilation.
   Caution: Can cause diarrhea; dose-adjust in kidney disease.

5. Ginkgo biloba (EGb 761; 120 mg/day)
   Function: Antioxidant/vasodilator; researched in normal-tension glaucoma.
   Mechanism: Improves ocular perfusion and reduces oxidative stress.
   Caution: May increase bleeding risk—ask surgeon first. Evidence is mixed. PubMed+1Investigative Ophthalmology

6. Alpha-lipoic acid (300–600 mg/day)
   Function: Antioxidant; potential nerve support.
   Mechanism: Regenerates glutathione; scavenges ROS.
   Caution: Can lower blood sugar.

7. Lutein + Zeaxanthin (10 mg/2 mg daily)
   Function: Macular antioxidant support.
   Mechanism: Concentrates in retina; absorbs blue light.
   Note: Not glaucoma-specific but supports retinal health.

8. Vitamin D (per blood level guidance)
   Function: General immune and bone support; low levels are common.
   Mechanism: Hormone-like effects on many tissues.
   Caution: Don’t mega-dose without labs.

9. Curcumin (500–1,000 mg/day with piperine or a bioavailable form)
   Function: Anti-inflammatory/antioxidant; studied in ocular surface and neuroinflammation.
   Caution: Interacts with anticoagulants.

10. Bilberry/anthocyanins (100–160 mg anthocyanins/day)
    Function: Vascular/antioxidant support.
    Mechanism: Capillary stabilization; ROS scavenging.
    Evidence: Supportive but not specific to glaucoma.

11. N-acetylcysteine (600–1,200 mg/day)
    Function: Precursor to glutathione; mucolytic for meibomian issues sometimes.
    Caution: GI upset; rare rash.

12. Taurine (500–1,000 mg/day)
    Function: Retinal cell stabilizer in lab models.
    Evidence: Human glaucoma data limited.

13. B-complex (at RDA)
    Function: General nerve metabolism; avoid excessive B6 (can cause neuropathy).

14. Resveratrol (100–250 mg/day)
    Function: Antioxidant; SIRT pathway activation (theoretical).
    Evidence: Limited human data.

15. Probiotics (per label)
    Function: Gut-eye axis theory; may reduce systemic inflammation that aggravates ocular surface.
    Evidence: Indirect; use mainly for gut health unless your clinician suggests otherwise.

Regenerative / stem-cell drugs

There are no FDA-approved stem-cell drugs or regenerative medicines for glaucoma at this time, so I won’t list “doses.” Using unapproved stem-cell injections outside clinical trials has led to serious, permanent vision loss in reported cases. If you’re interested, consider only legitimate, ethics-approved clinical trials run by university hospitals. Below are six research avenues, strictly informational:

1. Mesenchymal stem cell–derived exosomes – deliver growth factors/miRNAs that may protect retinal ganglion cells (RGCs); experimental only.

2. Retinal ganglion cell precursor transplantation – aims to replace lost RGCs; very early research.

3. BDNF/Neurotrophin gene therapy – seeks to enhance survival signals in RGCs; clinical translation not yet established.

4. Nicotinamide riboside / NAD⁺ boosters – drug-like nutrients to improve neuronal energy; several human trials with nicotinamide are ongoing (see above). PMCClinicalTrials.gov

5. Brimonidine / ROCK-pathway neuroprotection – beyond pressure effects, these pathways may support axons; evidence is preclinical/indirect. NCBI

6. CNTF (ciliary neurotrophic factor) delivery systems – encapsulated cell implants studied in other retinal diseases; glaucoma use remains investigational.

Bottom line: Don’t pursue “regenerative” or stem-cell treatments for glaucoma outside a proper clinical trial run by a major academic center.

Procedures/surgeries

1. Bleb needling (for XEN or other bleb-forming implants), often with 5-FU
   What it is: In-office procedure with a tiny needle to reopen a scarred bleb; your surgeon may inject 5-fluorouracil to reduce scarring.
   Why done: Restore flow when pressure climbs due to scarring.
   Evidence: 5-FU needling is a recognized option to rescue failing XEN blebs. PubMedEyeWiki

2. Anterior chamber washout for persistent hyphema
   What it is: Small surgical rinse of the front chamber to clear blood if it’s prolonged or vision-threatening.
   Why done: Speeds visual recovery and reduces pressure spikes from blood clogging outflow. (Most small hyphemas resolve with conservative care.) PentaVision

3. Implant revision, exchange, or additional stent
   What it is: Adjusting or adding an outflow device (e.g., second trabecular micro-bypass) if the first pathway underperforms.
   Why done: Achieve target pressure while still aiming to avoid bigger surgeries.

4. Conversion to trabeculectomy or tube shunt
   What it is: Traditional filtering surgery if MIGS cannot maintain target pressure.
   Why done: Provides larger pressure reduction for advanced or refractory cases.

5. Micropulse or transscleral cyclophotocoagulation
   What it is: Laser to reduce aqueous production by partially quieting the ciliary body.
   Why done: Adjunct when outflow approaches aren’t enough.

Prevention tips

1. Take every drop exactly as prescribed and don’t stop on your own.

2. Keep all follow-ups (early schedule is typically Day 1, Week 1, Month 1). Eyes On Eyecare

3. Ask before starting any new supplement—especially ginkgo or high-dose fish oil (bleeding).

4. Avoid eye rubbing and protect the eye while sleeping.

5. Pause swimming/hot tubs until your surgeon clears you.

6. Stay hydrated; avoid constipation and heavy straining.

7. Control blood pressure, diabetes, and sleep apnea with your primary-care team.

8. Use preservative-free artificial tears if you’re on multiple medicated drops.

9. Log symptoms/IOP (if you own a home tonometer) and medications.

10. Bring all bottles to visits; check that you’re using the right bottle at the right time.

When to seek urgent care after MIGS

• Sudden drop in vision, new dark curtain, or many new floaters/flashes.

• Severe, deep eye pain, pounding headache, or nausea.

• Rapidly increasing redness, yellow discharge, or fever.

• Halos with haze (corneal edema), or a white/gray spot on the cornea.

• Persistent or large hyphema (visible blood pooling), or IOP ≥ your surgeon’s “call me” number.

• Light sensitivity that keeps getting worse, or photophobia plus blur.

• Steroid side-effect signs (pressure spikes, worsening blur soon after drops).

What to eat / what to avoid

1. Eat: Leafy greens (nitrate-rich) like spinach/rocket—support vascular health.

2. Eat: Oily fish 2×/week (salmon, sardines) or supplement omega-3 if your doctor agrees—for dry-eye comfort post-op. PMC

3. Eat: Colorful fruits/veg (berries, citrus, peppers) for antioxidants.

4. Eat: Nuts/legumes/whole grains for steady energy and magnesium.

5. Drink: Water regularly through the day (avoid chugging huge volumes at once, which can transiently raise IOP).

6. Limit: Very salty foods if you have high blood pressure.

7. Limit: Caffeine surges (large, sudden doses can transiently raise IOP in some people).

8. Avoid (around surgery): Alcohol binges; they dehydrate and worsen dryness.

9. Avoid: Smoking and second-hand smoke—harm blood flow to the optic nerve.

10. Ask first: Herbal products that thin blood (ginkgo, garlic pills, high-dose fish oil) if you’re within the immediate post-op window.

Frequently Asked Questions

1) How soon will I see clearly again?
Often within days to a couple of weeks; MIGS usually has quicker visual recovery than older filtering surgeries, but your timeline depends on the specific procedure and your eye’s healing. Johns Hopkins MedicinePMC

2) Is a little blood inside the eye normal?
A small hyphema is common after trabecular-meshwork MIGS and usually clears with routine care. Call if it’s large, persistent, or vision suddenly drops. PentaVision

3) Can MIGS let me stop all glaucoma drops?
Maybe—some people reduce or stop drops; others still need 1–2. The goal is safe pressure with fewer medicines and quicker recovery. Results vary by device and your glaucoma type. ophthalmologyglaucoma.orgAAO Journal

4) When can I go back to work or exercise?
Light desk work is often fine in a few days; strenuous exercise, heavy lifting, and swimming should wait until your surgeon clears you. Johns Hopkins Medicine

5) Do I still have glaucoma after MIGS?
Yes. MIGS helps control pressure, but glaucoma is a lifelong condition needing monitoring.

6) Why do I still need steroid and antibiotic drops if the surgery was “minimal”?
Small surgery still triggers healing and infection risk; short courses of these drops reduce those risks.

7) What if my pressure spikes after surgery?
Your doctor may add short-term pressure-lowering drops or pills (e.g., beta-blocker, CAI, or netarsudil) or do an in-office procedure. FDA Access Data

8) Are supplements like vitamin B3 proven to stop glaucoma?
Not yet. Nicotinamide looks promising in studies, but it’s not a replacement for pressure control; high doses need medical supervision. PMCClinicalTrials.gov

9) Is ginkgo good or risky?
Studies in normal-tension glaucoma suggest potential visual-field benefits, but bleeding risk is real—ask your surgeon first, especially near surgery. PubMed

10) What follow-up schedule is typical?
Many clinics see you at about Day 1, Week 1, and Month 1; then every 3–6 months depending on your pressure and optic nerve status. Your surgeon may tailor this. Eyes On Eyecare

11) Can I fly after MIGS?
Usually yes after the early post-op checks, but confirm at your first follow-up.

12) Can I wear contact lenses?
Avoid in the early healing period; your surgeon will tell you when it’s safe.

13) Will MIGS work forever?
Any surgery can “wear down” if scarring develops; sometimes a simple in-office step (like needling a bleb-forming implant) restores flow. PubMed

14) Is laser (SLT) an alternative if I still need help?
Yes, SLT is often used before or after MIGS depending on your case. Some reviews compare SLT and MIGS for open-angle glaucoma outcomes. Your doctor will personalize the sequence. PubMedPMC

15) What symptoms mean “call now”?
Big vision drop, severe pain, large/persistent bleeding, pus-like discharge, or dramatic redness/light sensitivity—seek prompt care.

Disclaimer: Each person’s journey is unique, treatment plan, life style, food habit, hormonal condition, immune system, chronic disease condition, geological location, weather and previous medical  history is also unique. So always seek the best advice from a qualified medical professional or health care provider before trying any treatments to ensure to find out the best plan for you. This guide is for general information and educational purposes only. Regular check-ups and awareness can help to manage and prevent complications associated with these diseases conditions. If you or someone are suffering from this disease condition bookmark this website or share with someone who might find it useful! Boost your knowledge and stay ahead in your health journey. We always try to ensure that the content is regularly updated to reflect the latest medical research and treatment options. Thank you for giving your valuable time to read the article.

The article is written by Team RxHarun and reviewed by the Rx Editorial Board Members

Last Updated: August 13, 2025.

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