Omega-3 Fatty Acids

supplement Verified

Specifically for Glaucoma

0% effective

0 votes
0 up • 0 down

Why it works for Glaucoma:

Lowering eye pressure (IOP) via eicosanoid pathways and outflow facility. In animals, increasing omega-3 intake reduced IOP by ~23%, likely by shifting prostaglandin metabolism toward anti-inflammatory docosanoids that improve trabecular outflow. A pooled RCT analysis in normotensive adults (no glaucoma) later showed a small but significant IOP reduction after 3 months of EPA/DHA supplementation. JAMA Network and (mechanistic & human RCT details) ResearchGate

Neuroprotection/anti-inflammation. DHA is highly enriched in retinal membranes and has antioxidant and neuroprotective actions in ocular tissues, which are relevant to retinal ganglion cell loss in glaucoma. MDPI

Epidemiology suggests a signal (not proof). In a U.S. NHANES analysis (3,865 adults ≥40 years), higher dietary EPA and DHA intake was associated with lower odds of glaucoma, although total high PUFA intake (mix of omega-6 and omega-3) correlated with higher odds—underscoring that balance matters and that this is associational, not causal. JAMA Network

How to use for Glaucoma:

There is no glaucoma-specific dosing standard. If you and your ophthalmologist decide to try omega-3s as an adjunct, reasonable approaches are:

From the IOP RCT in normotensive adults (3 months): ~1,000 mg/day EPA + ~500 mg/day DHA (some participants also took ~900 mg/day ALA). This produced an average IOP drop from 14.3→13.6 mmHg vs a slight rise on placebo. Use this as a research-based reference, not a clinical guideline. ResearchGate
Form & absorption: Triglyceride, re-esterified triglyceride, free-fatty-acid and phospholipid (e.g., krill) forms all raise blood EPA/DHA; some forms may have slightly higher bioavailability, but differences are modest in practice. Take with a meal to improve absorption and reduce reflux (“fish burps”). Office of Dietary Supplements
Diet first when possible: 2 servings/week of oily fish (e.g., salmon, sardines) is a guideline-consistent way to obtain EPA/DHA; many ophthalmology patient resources also emphasize overall diet quality over supplements. Office of Dietary Supplements

Scientific Evidence for Glaucoma:

Direct IOP effect (non-glaucoma participants):

Translational Vision Science & Technology (2018)—pooled data from two double-masked, placebo-controlled RCTs in 105 normotensive adults: ~1 g EPA + 0.5 g DHA/day for 90 days reduced IOP by ~8% vs placebo. Suggestive for prevention/adjunct, not definitive treatment. Open-access versions available. ResearchGate

Glaucoma populations (adjunct outcomes; small/early studies):

Pseudoexfoliative glaucoma (open-label RCT, 6 months): 1 g/day DHA + antioxidants improved oxidative stress markers and some functional measures vs control, with IOP already medically controlled. Design limits (open-label, composite supplement). Directory of Open Access Journals
Open-angle glaucoma—citicoline + DHA combinations (pilot randomized studies, ~3 months) reported visual field index improvements vs comparators; these mixed-nutraceutical designs cannot isolate DHA’s effect. Europe PMC

Observational dietary data:

NHANES (JAMA Ophthalmology, 2018): higher EPA/DHA intake associated with lower glaucoma odds; high total PUFA intake (likely high omega-6) was linked with higher glaucoma odds. Association ≠ causation. JAMA Network

Specific Warnings for Glaucoma:

Not a proven treatment: Major groups emphasize that nutrition/supplements do not prevent or cure glaucoma; use only in addition to ophthalmologist-directed care. Glaucoma Research Foundation

Atrial fibrillation (AF) & stroke signals at higher intakes in some groups: A large UK Biobank cohort (BMJ Medicine, 2024) found regular fish-oil supplement use was associated with higher risks of incident AF (~13%) and stroke (~5%) in people without CVD, while showing potential benefits in those with existing CVD. Observational, not causal, but worth discussing if you have arrhythmia risk. bmjmedicine.bmj.com

Bleeding risk appears low at typical doses, but caution if on anticoagulants/antiplatelets or before surgery: Contemporary meta-analyses and regulatory reviews indicate no meaningful increase in bleeding up to ~5 g/day EPA+DHA, but individual risk varies—especially with warfarin/DOACs/aspirin/NSAIDs or planned procedures. Coordinate with your doctors. Office of Dietary Supplements

Common side effects & product quality: Fishy aftertaste, reflux, GI upset are most common; choose third-party tested products and store properly to limit oxidation. NIH ODS has an excellent safety overview. Office of Dietary Supplements

Allergy/dietary restrictions: Avoid fish/krill oils if you have related allergies; algal oil can provide DHA (and sometimes EPA) for vegetarians/vegans. Office of Dietary Supplements

Back to Glaucoma

General Information (All Ailments)

Note: You are viewing ailment-specific information above. This section shows the general remedy information for all conditions.

What It Is

Omega-3 fatty acids are a group of essential polyunsaturated fats that play a vital role in maintaining overall health. They are termed “essential” because the human body cannot synthesize them in sufficient amounts, making dietary intake necessary. The three main types are alpha-linolenic acid (ALA), found mainly in plant oils like flaxseed and chia; eicosapentaenoic acid (EPA); and docosahexaenoic acid (DHA), both primarily found in marine sources such as fatty fish (e.g., salmon, mackerel, sardines) and algae. These fats are integral components of cell membranes and influence the function of cell receptors, signaling pathways, and gene expression.

How It Works

Omega-3 fatty acids exert their effects through several biological mechanisms. Once consumed, they are incorporated into the phospholipid membranes of cells, where they influence membrane fluidity and the behavior of cell surface receptors. EPA and DHA are particularly active in modulating inflammatory responses—they act as precursors to molecules called resolvins and protectins, which help reduce inflammation and promote tissue healing.

Additionally, omega-3s help regulate the production of eicosanoids, hormone-like substances derived from fatty acids that control immune function, blood clotting, and vascular tone. They also affect gene expression in the liver and other organs, influencing lipid metabolism and energy balance. DHA, in particular, is crucial for brain and retinal function, where it supports neural signaling and visual acuity.

Why It’s Important

Omega-3 fatty acids are vital for maintaining cardiovascular, neurological, and metabolic health. They are well-documented to reduce triglyceride levels, lower blood pressure, and improve endothelial function, all of which contribute to a decreased risk of heart disease. In the brain, DHA is essential for the growth and development of neural tissue, particularly during pregnancy and early life, supporting cognitive function and mental health.

In adults, adequate omega-3 intake is associated with reduced symptoms of depression and anxiety, improved cognitive performance, and potentially slower cognitive decline with aging. Moreover, omega-3s may alleviate symptoms of inflammatory and autoimmune diseases such as rheumatoid arthritis by dampening chronic inflammation. They also play a role in maintaining eye health, supporting fetal development, and may even help regulate metabolic processes related to obesity and diabetes.

Considerations

While omega-3 fatty acids offer extensive health benefits, several factors must be considered regarding their consumption and supplementation. Balance with omega-6 fatty acids is critical: the modern Western diet often contains excessive omega-6 fats (from vegetable oils and processed foods), which can counteract the anti-inflammatory benefits of omega-3s. Striving for a better ratio—by increasing omega-3 intake or reducing omega-6 sources—is recommended.

Source quality also matters. Fish oils can vary in purity and concentration, and some may contain environmental contaminants like mercury or PCBs. Reputable, purified supplements or algae-derived omega-3s (a vegan alternative) are safer options. Moreover, excessive supplementation can increase bleeding risk, especially in individuals taking anticoagulant medications.

Lastly, the form and bioavailability of omega-3s differ: triglyceride, ethyl ester, and phospholipid forms are absorbed differently by the body. Consulting a healthcare provider before starting supplementation is advisable, especially for those with health conditions or on medication.

Helps with these conditions

Omega-3 Fatty Acids is most effective for general wellness support with emerging research . The effectiveness varies by condition based on clinical evidence and user experiences.

Endometriosis 0% effective

Poor Circulation 0% effective

Lupus 0% effective

Bipolar Disorder 0% effective

Carpal Tunnel Syndrome 0% effective

Atherosclerosis 0% effective

Conditions

Total Votes

Studies

Avg. Effectiveness

Detailed Information by Condition

Endometriosis

0% effective

They shift inflammatory signaling. EPA/DHA compete with omega-6 arachidonic acid for COX/LOX enzymes, yielding less-pro-inflammatory prostaglandins/le...

0 votes Updated 1 month ago 6 studies cited

Browse by Category

Navigation

Account

Listening...