5 Eye Care Peptides For Better Vision

July 12, 2024

What Are Eye Care Peptides?

Eye care peptides are short chains of amino acids that help to maintain and improve eye health. Whether natural or synthetic they work by binding to specific receptors in the eye tissue. They can stimulate collagen production, reduce inflammation, protect against oxidative stress and improve blood flow around the eyes.

Also, peptides can enhance the delivery of other beneficial compounds to the eyes, making them valuable in formulations such as creams, serums, and other specialized eye treatments.

Benefits And Disadvantages Of Eye Peptides

Peptides in eye care have pros and cons depending on the mechanism of action and application. Functionally peptides work by binding to receptors on the surface of cells or inside cells triggering specific biological responses that promote healing and regeneration. They can also help deliver actives to targeted areas to enhance their effectiveness.

However the cons include potential sensitivity in some individuals and variability in results depending on the specific peptide and formulation used. Because peptides are bioactive compounds they can cause skin irritation or allergic reactions especially in those with sensitive skin or underlying allergies.

Eye Care Peptides Overview

There are various forms of peptides used in eye care. Below, we will describe some treatments that can assist with eye diseases.

Eye drops

VISOMITIN front sq

Visomitin

Visomitin’s active ingredient, SkQ1, is a small molecule developed by Professor V. Skulachev’s team at Moscow State University. SkQ1 acts as a carrier, transporting an antioxidant plastoquinone into mitochondria, specifically targeting the inner mitochondrial membrane. This localization helps mitochondria defend against oxidative damage caused by reactive oxygen species (ROS), which is crucial in treating age-related conditions like cardiovascular diseases, neurodegenerative disorders, and eye ailments.

Eye vitamins

Doppelherz Aktiv

Doppelherz Aktiv has multivitamin complexes to support normal vision function by addressing nutrient deficiencies, especially for city dwellers who may not get enough nutrients from their diet. These vision specific vitamins are in easy to take capsules with essential nutrients for cellular metabolism and regeneration.

doppelherz lutein sq

Eye care peptide bioregulators

normoftal sq front

Normoftal

Normoftal is a peptide complex with amino acids like lysine and glutamic acid that targets pathological changes in retinal cells. It normalizes tissue metabolism and restores optical structures. Acting on retinal cells, Normoftal improves trophism, regulates metabolic functions and normalizes functional and structural changes in retina and cornea. In early stage retinal dystrophy it increases visual acuity, expands visual field and reduces “blind spots”.

Visoluten

Visoluten is a cytomax derived from peptide bioregulators from young animal eye tissue. It is used for comprehensive treatment and prevention of eye diseases, focusing on regeneration of tissue and cellular metabolism in the retina, cornea, eye muscles and vessels. By targeting these areas Visoluten peptides improve corneal condition, normalize retinal light sensitivity, increase ocular blood flow and reduce inflammation.

visoluten sq front

Peptide retinoprotector

RETINALAMIN sq front

Retinalamin

Retinalamin is a retinoprotective medication that targets the retina with its complex of water-soluble polypeptide fractions. It normalizes vascular permeability, reduces local inflammation and activates reparative processes in patients with retinal diseases and injuries. Retinalamin treats various retinal disorders by adapting to pathological processes and regeneration of retinal neurons, thus improving visual function in glaucoma and diabetic retinopathy.

Conclusion

Eye care peptides are a part of promising approach in enhancing eye health. Yet, while they hold potential for managing various eye conditions and improving overall eye function, challenges such as potential allergic reactions and variable effectiveness among different peptides need to be considered.

When choosing eye care and vision improvement products, you should approach it individually, taking into account your specific needs and health. Consult with a specialist to find the best treatment and how to use it.

Bibliography

  1. Khavinson V.Kh. et al (2002) Inductive activity of retinal peptides. https://www.ncbi.nlm.nih.gov/pubmed/12802458
  2. Lyle et al (2000) Vitamin supplement use and incident cataracts in a population-based study https://pubmed.ncbi.nlm.nih.gov/11074813/
  3. Khavinson V.Kh. et al (2003) Effects of peptides on proliferative activity of retinal and pigmented epithelial cells. https://www.ncbi.nlm.nih.gov/pubmed/12937684
  4. Gavrilova N.A. et al (2004) The effect of cytomedines on the hemostatic and antioxidant potential of patients in the early stage of diabetic retinopathy. https://www.ncbi.nlm.nih.gov/pubmed/15559640
  5. Mares et al (2004) Doctor, What Vitamins Should I Take for My Eyes? https://jamanetwork.com/journals/jamaophthalmology/fullarticle/416259
  6. Khvatova A.V. et al (2005) Polypeptide bioregulators in the treatment of different-type abiotrophy of the retina. https://www.ncbi.nlm.nih.gov/pubmed/15881150
  7. Trofimova S.B. et al (2006) The effect of the bioregulating therapy on the quality of life of elderly patients with retinal pathology. https://www.ncbi.nlm.nih.gov/pubmed/16676805
  8. Eremenko et al (2007) A method for diagnosis of early-stage cataract https://pubmed.ncbi.nlm.nih.gov/17650603/
  9. Christen et al (2008) Dietary carotenoids, vitamins C and E, and risk of cataract in women: a prospective study https://pubmed.ncbi.nlm.nih.gov/18195226/
  10. Whatham et al (2008) Vitamin and mineral deficiencies in the developed world and their effect on the eye and vision https://pubmed.ncbi.nlm.nih.gov/18201330/
  11. Aleksandrov E.I., Aleksandrova TE (2008) Treatment with the peptide bioregulator retinalamine in patients with tuberculosis of the organ of vision. https://www.ncbi.nlm.nih.gov/pubmed/18368773
  12. Krementsova et al (2012) Reproducible effects of the mitochondria-targeted plastoquinone derivative SkQ1 on Drosophila melanogaster lifespan under different experimental scenarios https://www.ncbi.nlm.nih.gov/pubmed/23073710
  13. Kolosova et al (2012) The mitochondria-targeted antioxidant SkQ1 but not N-acetylcysteine reverses aging-related biomarkers in rats https://www.ncbi.nlm.nih.gov/pubmed/23104863

Legal Disclaimer

All statements on this page are for informational purposes only and have not been evaluated or approved by the US FDA.
Products mentioned on this page are not intended to diagnose, treat, cure, or prevent any disease. See more

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