You have low macular
If people live long enough, severe visual impairment is almost inevitable. The leading cause of blindness in people over age 50 is macular degeneration, a condition in which the central portion of the retina (the macula) deteriorates. Those who suffer its blinding effects lose their central vision, which is needed for reading, driving, and every day activities.
Over the past 15 years, researchers discovered that people who regularly ate spinach, collard greens, and certain other vegetables had lower rates of age-related macular degeneration. Compared to those with the lowest vegetable intake, people who consumed the most vegetables had a 43% reduction in their macular degeneration risk. Those who regularly ate spinach had an even greater reduction in macular degeneration incidence.(1)
When investigating what constituents of these vegetables protected the macula, lutein and zeaxanthin stood out as the most likely candidates. This was supported by research that involved testing the blood of people who developed macular degeneration. Those with the highest plasma levels of lutein-zeaxanthin had the lowest rates of macular degeneration.(2)
Another reason scientists were so certain of their discovery is that in people with macular degeneration, the lutein-zeaxanthin content of their macula is severely depleted.(3)
The Missing Link in Combating Macular Degeneration
If all people had to do was consume adequate zeaxanthin-lutein, then macular degeneration would theoretically disappear as an age-related disorder. Regrettably, macular degeneration still occurs in aging individuals, even in some of those who regularly eat spinach.
In what may be a breakthrough in the prevention of this blinding epidemic, scientists have discovered a compound naturally produced in the retina that is needed to maintain youthful macular density.(4) This carotenoid compound is not found in the normal diet and is called Meso-Zeaxanthin.
The macula is the region of the retina responsible for the highest degree of visual activity. Underneath the macula lie photo-receptor cells that convert light images into nerve impulses that are transmitted to the brain.
Photo-receptor cells are protected against light damage by the macula. The macular pigment sits atop photo-receptor cells to absorb blue light while neutralizing free radicals.
Macular degeneration is characterized by a reduction in the density of the macular pigment that covers the photo-receptor cells. In primates, the density of the macular pigment can be increased by ingesting certain carotenoid-rich plants or taking supplements that contain zeaxanthin and lutein(3,5,6)
The macular pigment is made up of the following three carotenoids:
Unlike lutein and zeaxanthin, meso-zeaxanthin is not found
in the diet, but is converted in the retina from
Unlike lutein and zeaxanthin, meso-zeaxanthin is not found in the diet, but is converted in the retina fromingested lutein.7 If taken as a supplement, meso-zeaxanthin is absorbed into the blood stream and effectively increases macular pigment levels(8)
Patients with macular degeneration have been shown to have 30% less meso-zeaxanthin in their macula compared to healthy eyes.(9) One reason for this deficiency of meso-zeaxanthin is lack of ingested lutein. Another explanation for the missing meso-zeaxanthin observed in macular degeneration may be the inability to adequately convert lutein to meso-zeaxanthin in the retina. Some people may lack the converting enzyme.
Meso-Zeaxanthin Deficiency Confirmed in Macular Degeneration
An autopsy study on donated eyes was done to measure levels of lutein, zeaxanthin, and meso-zeaxanthin in the retina of those with and without macular degeneration.
As expected, levels of all three carotenoids (lutein, zeaxanthin, and meso-zeaxanthin) were reduced in those with macular degeneration compared to control subjects. The most significant finding, however, was the sharp decrease in meso-zeaxanthin in relation to zeaxanthin in the macula of macular degeneration subjects(3).This post-mortem study helped confirm other studies indicating the importance of all three carotenoids (lutein, zeaxanthin, and meso-zeaxanthin) in maintaining the structural integrity of the macula.(10,11)
Pioneering Macular Degeneration Researchers
Dr. Richard Bone, professor in the department of physics and Dr John Landrum, professor in the department of chemistry and biochemistry, both at Florida International University in Miami, have been studying macular degeneration for over two decades. Together, they uncovered the role that various carotenoids play in maintaining the structure of the macula.
Their ongoing research has revealed the critical importance of lutein being converted to meso-zeaxanthin in the retina in order to maintain the density of the macular pigment. Some people with age-related macular degeneration have difficulty in synthesizing meso-zeaxanthin from lutein in the body, thereby creating a severe meso-zeaxanthin deficiency in their maculas.
Recent studies using a device that measures the thickness of the macula showed that in response to meso-zeaxanthin supplementation, macular pigment density increased.(8)
Age-related macular degeneration is the leading cause of permanent vision loss in the UK.
The macular pigment is composed exclusively of lutein, zeaxanthin, and meso-zeaxanthin(13) These three carotenoids protect the macula and the photo-receptor cells beneath via their antioxidant properties and light-filtering capabilities.
Recent research indicates that meso-zeaxanthin may be more important than lutein in protecting against macular degeneration. Meso-zeaxanthin is synthesized in most people’s bodies from lutein. It is not present in typical diets, even ones that include lots of vegetables. Meso-zeaxanthin has been shown to increase macular pigment density.(9,12).
So far (Dec 2006) supplementation with meso-zeaxanthin is the only known practical source to obtain meso-zeaxanthin outside the body. It has not been available in supplemental form until now. Drs Bone and Landrum hold the worldwide rights to this formula which in Europe is marketed as Macushield ( This is different to Macushield from Douglas Laboratories in the US).
Scientists believe that people who have a high intake of lutein and zeaxanthin (from either diet or dietary supplements) plus take supplemental meso-zeaxanthin will have a very low incidence of macular degeneration.
1. Seddon JM,
Ajani UA, Sperduto RD, et al. Dietary carotenoids, vitamins A,
C, and E, and advanced age-related macular degeneration. Eye
Disease Case-Control Study Group. JAMA. 1994 Nov
2. Gale CR, Hall NF, Phillips DI, et al. Lutein and zeaxanthin status and risk of age-related macular degeneration. Invest Ophthalmol Vis Sci. 2003 Jun;44(6):2461-5.
3. Bone RA, Landrum JT, Dixon Z, et al. Lutein and zeaxanthin in the eyes, serum and diet of human subjects. Exp Eye Res. 2000 Sep;71(3):239-45.
4. Bone RA, Landrum JT, Hime GW, et al. Stereochemistry of the human macular carotenoids. Invest Ophthalmol Vis Sci. 1993 May; 34(6):2033-40.
5. Stringham JM, Hammond BR Jr., Dietary lutein and zeaxanthin: possible effects on visual function. Nutr Rev. 2005 Feb;63(2):59-64.
6. Ciulla TA, Curran-Celentano J, Cooper DA, et al. Macular pigment optical density in a midwestern sample. Ophthalmology 2001 Apr; 108:730–37
7. Bone RA, Landrum JT, Hime GW, et al. Stereochemistry of the human macular carotenoids. Invest Ophthalmol Vis Sci. 1993 May;34(6):2033-40.
8. Program #405, Poster #B380 Macular Pigment and Serum Response to Dietary Supplementation with Meso-zeaxanthin. Sunday, May 04, 2003, 2:30 PM - 4:30 PM 124 carotenoid or retinoid binding proteins – BI R.A. Bone 1A, J.T. Landrum 1B, C.Alvarez-Correa 1B, V.Etienne 1B, C.A. Ruiz 1A. APhysics, BChemistry, 1 Florida International Univ, Miami, FL.
9. For the Treatment and Prevention of Macular Degeneration: By Quantum Nutritionals Power Point Presentation
10. Program #3559, Poster #B262 Preferential Deficiency of Meso-Zeaxanthin and Lutein Relative to Zeaxanthin in the Macular Pigment of Subjects with Age-Related Macular Degeneration Wednesday, May 07, 2003, 3:30 PM - 5:30 PM J.T. Landrum 1A , R.A. Bone 1B . A Chemistry, B Physics, 1 Florida International Univ, Miami, FL.
11. Bone RA, Landrum JT, Friedes LM, et al. Distribution of lutein and zeaxanthin stereoisomers in the human retina. Exp Eye Res. 1997 Feb;64(2):211-8.
12. Seddon JM, Willett WC, Speizer FE, et al. A prospective study of cigarette smoking and age-related macular degeneration in women. JAMA. 1996 Oct 9; 276(14):1141-6. Comment in: JAMA 1996 Oct 9;276(14):1178-9.
13. Landrum JT, Bone RA. Lutein, zeaxanthin, and the macular pigment. Arch Biochem Biophys. 2001 Jan 1;385(1):28 40.
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