Subscribe to RSS
Download PDF
DOI: 10.1055/s-0029-1245527
© Georg Thieme Verlag KG Stuttgart · New York
Mikronährstoffe und ihre Bedeutung für das Auge – Wirkungsweise von Lutein/Zeaxanthin und Omega-3-Fettsäuren
Micronutrients and their Relevance for the Eye – Function of Lutein, Zeaxanthin and Omega-3 Fatty AcidsPublication History
Eingegangen: 11.5.2010
Angenommen: 28.5.2010
Publication Date:
25 August 2010 (online)
Zusammenfassung
Mikronährstoffe spielen für die Funktion und für die Gesunderhaltung des Auges eine wichtige Rolle. Insbesondere Lutein, Zeaxanthin sowie Omega-3-Fettsäuren erfüllen dabei wichtige Funktionen: Lutein bildet zusammen mit Zeaxanthin das Makuläre Pigment, beide Carotinoide filtern den schädigenden blauen Lichtanteil des Sonnenlichts sowie das UV-Licht heraus, was zu verbessertem Kontrastsehen und verminderter Blendeempfindlichkeit führt. Weiterhin hat das Makulapigment antioxidative sowie antiinflammatorische Wirkungen. Omega-3-Fettsäuren besitzen ebenfalls antientzündliche Wirksamkeit und schützen umgewandelt in Neuroprotektin vor oxidativ bedingter Apoptose in der Retina. Zudem sind sie für die Fluidität und Versorgung der Photorezeptorenmembran verantwortlich. Diese Eigenschaften sind für die Prävention und Behandlung degenerativer Augenerkrankungen wie der altersbedingten Makuladegeneration bedeutsam. Ältere Menschen sind jedoch häufig nicht ausreichend mit Mikronährstoffen über die Ernährung versorgt. Da sich die Versorgung durch Ernährungsumstellung kaum verbessern lässt, ist eine zusätzliche Aufnahme in Form von Nahrungsergänzungsmitteln besonders in dieser Altersgruppe sinnvoll. Wissenschaftliche Studien belegen die positiven Effekte einer Supplementation mit Mikronährstoffen wie Lutein/Zeaxanthin, Vitamin C, Vitamin E, Zink und den Omega-3-Fettsäuren Docosahexaensäure und Eicoasapentaensäure (DHA und EPA). Die derzeit verfügbaren Nährstoffpräparate orientieren sich zum Teil noch an den Inhaltsstoffen der ARED-Studie (Age Related Eye Disease Study). Nach aktuellerer Studienlage sollten bei der Auswahl jedoch Formulierungen mit Lutein und Omega-3-Fettsäuren in physiologisch sinnvoller Dosierung ohne zusätzliches Beta-Carotin bevorzugt werden. 10 – 20 mg Lutein und Zeaxanthin stellen eine sichere Tages-Dosierung dar. In dem oben dargestellten Zusammenhang spielt Beta-Carotin für das Auge eine untergeordnete Rolle und ist in hoher Dosierung vor allem für Raucher kritisch für die Gesundheit. Die vorliegende Arbeit fasst die Funktionen der genannten Mikronährstoffe am Auge zusammen und kann Ophthalmologen bei der Beratung ihrer Patienten unterstützen.
Abstract
Micronutrients play an important role in function and health maintenance for the eye. Especially lutein, zeaxanthin and omega-3 fatty acids perform remarkable functions: lutein together with zeaxanthin forms the macular pigment, these carotenoids filter out the damaging blue light component from the sunlight as well as the ultraviolet light which leads to improved contrast sensitivity and less problems with screen glare. Furthermore, the macular pigment has antioxidant and anti-inflammatory effects. The omega-3 fatty acids also possess anti-inflammatory effects and, when converted into neuroprotectin, they protect against oxidative induced apoptosis in the retina. They are also responsible for the fluidity and supply to the photoreceptor membrane. These properties are important for the prevention and treatment of degenerative eye diseases like age-related macular degeneration. However, older people are often not sufficiently supplied of micronutrients in their diet. Because the supply of nutrients can hardly be achieved by dietary change, the additional intake in the form of food supplements is useful in this age group. Scientific studies have shown the positive effects of supplementation with micronutrients such as lutein/zeaxanthin, vitamin C, vitamin E, zinc and omega-3 fatty acids, docosahexaenoic acid and eicosapentaenoic acid (DHA and EPA). Currently available nutritional products are based in part on the ingredients of the ARED study (Age Related Eye Disease Study). According to more recent studies formulations containing lutein and omega-3 fatty acids in physiologically meaningful doses without additional beta-carotene should be preferred. 10 to 20 mg of lutein and zeaxanthin represent a safe daily dose Regarding to the context above, beta-carotene in high doses plays a minor role to the eye and is especially critical for the health of smokers. This paper summarises the functions of the presented micronutrients in the eye and can assist ophthalmologists in advising their patients.
Schlüsselwörter
AMD - Lutein - Omega-3-Fettsäuren - Makulapigmentdichte - Mikronährstoffe - Dosierungsempfehlung
Key words
AMD - lutein - omega-3 fatty acids - macular pigment density - micronutrients - dosage recommendation
Literatur
- 1 Wald G, Granit R, Hartline H K. Für ihre Entdeckung auf dem Gebiet der primären physiologischen und chemischen Sehvorgänge
im Auge. Nobelpreis für Medizin 1967 http://www.nobelpreis.org
MissingFormLabel
- 2
SanGiovanni J P et al.
The relationship of dietary lipid intake and age-related macular degeneration in a
case-control study: AREDS Report No. 20.
Arch Ophthalmol.
2007;
125
671-679
MissingFormLabel
- 3
SanGiovanni J P, Chew E Y, Clemons T E et al.
The Relationship of Dietary Carotenoid and Vitamin A, E, and C Intake With Age-Related
Macular Degeneration in a Case-Control Study: AREDS Report No. 22.
Arch Ophthalmol.
2007;
125 (9)
1225-1232
MissingFormLabel
- 4
SanGiovanni J P, Chew E Y, Agrón E et al.
The relationship of dietary omega-3 long-chain polyunsaturated fatty acid intake with
incident age-related macular degeneration: AREDS report no. 23.
Arch Ophthalmol.
2008;
126 (9)
1274-1279
MissingFormLabel
- 5
SanGiovanni J P, Agrón E, Meleth A D et al.
Omega-3 Long-chain polyunsaturated fatty acid intake and 12-y incidence of neovascular
age-related macular degeneration and central geographic atrophy: AREDS report 30.
Am J Clin Nutr.
2009;
90 (6)
1601-1607
MissingFormLabel
- 6
Richer S et al.
LAST Studie.
Optometry.
2004;
75 (4)
216-230
MissingFormLabel
- 7 Brinkmann C K, Rothenbühler S P, Wolf-Schnurrbusch U EK et al. Enhancement of Macular Pigment by Oral Lutein Supplemantation Study (EMPOLS): First
Results. ARVO; 2009 , Poster 1708-A288
MissingFormLabel
- 8
Wooten B R, Hammond B R.
Macular pigment: influences on visual acuity and visibility.
Prog Retin Eye Res.
2002;
21 (2)
225-240
MissingFormLabel
- 9
Olmedilla B, Granado F, Blanco I et al.
Lutein, but not alpha-tocopherol, supplementation improves visual function in patients
with age-related cataracts: a 2-y double-blind, placebo-controlled pilot study.
Nutrition.
2003;
19 (1)
21-24
MissingFormLabel
- 10
Kvansakul J, Rodriguez-Carmona M, Edgar D F et al.
Supplementation with the carotenoids lutein or zeaxanthin improves human visual performance.
Ophthalmic Physiol.
2006;
26 (4)
362-371
MissingFormLabel
- 11
Neelam K et al.
Psychophysical Function in Age-related Maculopathy.
Surv Ophthalmol.
2009;
54 (2)
167-210
MissingFormLabel
- 12
Stringham J M, Hammond B R.
Macular pigment and visual performance under glare conditions.
Optom Vis Sci.
2008;
85 (2)
82-88
MissingFormLabel
- 13
Izumi-Nagai K, Nagai N, Ohgami K et al.
Macular pigment lutein is antiinflammatory in preventing choroidal neovascularization.
Arter Thromb Vasc Biol.
2007;
27(12)
2555-2562
MissingFormLabel
- 14
Jin X H, Ohgami K, Shiratori K et al.
Inhibitory Effects of Lutein on Endotoxin-Induced Uveitis (EIU) in Lewis Rats.
Invest Ophthalmol Vis Sci.
2006;
47
2562-2568
MissingFormLabel
- 15
Seddon J M, Ajani U A, Sperduto R D et al.
Dietary carotenoids, vitamins A, C and E, and advanced age-related macular degeneration.
Eye Disease Case-Control Study Group.
JAMA.
1994;
272 (18)
1413-1420
MissingFormLabel
- 16
Sperduto R D et al.
Antioxidant status and neovascular age-related macular degeneration. Eye Disease Case-Control
Study Group.
Arch Ophtalmol.
1993;
111
104-109
MissingFormLabel
- 17
Bone R A, Landrum J T, Mayne S T et al.
Macular pigment in donor eyes with and without AMD: a case-control study.
Invest Ophtalmol Vis Sci.
2001;
42
235-240
MissingFormLabel
- 18
Bernstein P S, Zhao D Y, Ermakov I V et al.
Resonance Raman measurement of macular carotenoids in normal subjects and in age-related
macular degeneration patients.
Ophtalmology.
2002;
109
1780-1787
MissingFormLabel
- 19
Olmedilla B, Granado F, Blanco I et al.
Lutein in patients with cataracts and age-related macular degeneration: a long-term
supplementation study.
J Sci Food Agric.
2001;
81
904-909
MissingFormLabel
- 20
Falsini B, Piccardi M, Larossi G et al.
Influence of short-term antioxidant supplementation on macular function in age-related
maculopathy: a pilot study including electrophysiologic assessment.
Ophtalmology.
2003;
110
51-60
MissingFormLabel
- 21
Bone R A, Landrum J T, Dixon Z et al.
Lutein and zeaxanthin in the eyes, serum and diet of human subjects.
Exp Eye Res.
2000;
71
239-245
MissingFormLabel
- 22
Landrum J T, Bone R A, Joa H et al.
A one year study of the macular pigment: the effect of 140 days of a lutein supplement.
Exp Eye Res.
1997;
65 (1)
57-62
MissingFormLabel
- 23
Hammond B R, Johnson E J, Russell R M et al.
Dietary modification of human macular pigment density.
Invest Ophtalmol Vis Sci.
1997;
38 (9)
1795-1801
MissingFormLabel
- 24
Berendschol Jr T et al.
Effekt einer Erhöhung der Luteinzufuhr durch Supplementierung.
Invest Ophtalmol Vis Sci.
2000;
41
3322-3326
MissingFormLabel
- 25
Chakravarthy U, Beatty S, Stevenson M et al.
Functional and Morphological Outcomes in the CARMA Clinical Trial.
Invest Ophthalmol Vis Sci.
2009;
50
E-Abstract 1257
MissingFormLabel
- 26
Bone R A, Landrum J T, Mayne S T et al.
Macular pigment in donor eyes with and without AMD: a case-control study.
Invest Ophthalmol Vis Sci.
2001;
42
235-420
MissingFormLabel
- 27
Beatty S, Koh H H, Phil M et al.
The role of oxidative stress in the pathogenesis of age-related macular degeneration.
Surv Ophthalmol.
2000;
45
115-134
MissingFormLabel
- 28
Uauy R, Mena P, Rojas C.
Essential fatty acids in early life: structural and functional role.
Proc Nutr Soc.
2000;
59
3-15
MissingFormLabel
- 29
Rotstein N P, Pliti L E, German O L et al.
Protective effect of docosahexaenoic acid on oxidative stress-induced apoptosis of
retina photoreceptors.
Invest Ophthalmol Vis Sci.
2003;
44 (5)
2252-2259
MissingFormLabel
- 30
SanGiovanni J P, Chew E Y.
The role of omega-3 long-chain polyunsaturated fatty acids in health and disease of
the retina.
Prog Retin Eye Res.
2005;
24 (1)
87-138
MissingFormLabel
- 31
Connor K M, SanGiovanni J P, Lofqvist C et al.
Increased dietary intake of Omega-3-polyunsaturated fatty acids reduces pathological
retinal angiogenesis.
Nat Med.
2007;
13 (7)
868-873
MissingFormLabel
- 32
Bazan N G.
Omega-3 fatty acids, pro-inflammatory signaling and neuroprotection – Review.
Curr Opin Clin Nutr Metab Care.
2007;
10 (2)
136-41
MissingFormLabel
- 33
Newman W P et al.
Atherosclerosis in Alaska natives and non-natives.
Lancet.
1993;
341
1056-1057
MissingFormLabel
- 34
Schmidt E B, Skou H A, Christensen J H et al.
N-3 fatty acids from fish and coronary artery disease: implications for public health.
Public Health Nutr.
2000;
3 (1)
91-98
MissingFormLabel
- 35
Hamazaki T, Urakaze M, Sawazaki S et al.
Comparison of pulse velocity of the aorta between inhabitants of fishing and farming
villages in Japan.
Atherosclerosis.
1988;
73
157-160
MissingFormLabel
- 36
Sacks F M, Stone P H, Gibson C M et al.
Controlled trial of fish oil for regression of human coronary atherosclerosis. HARP
Research Group.
J Am Coll Cardiol.
1995;
25
1492-1498
MissingFormLabel
- 37
Schacky, Angerer C P, Kothny W et al.
The effect of dietary omega-3 fatty acids on coronary atherosclerosis: a randomized
double-blind, placebo-controlled trial.
Ann Intern Med.
1999;
130
554-562
MissingFormLabel
- 38
Rotstein N P, Politi L E, German O L et al.
Protective effect of docosahexaenoic acid on oxidative stress-induced apoptosis of
retina photoreceptors.
Invest ophthalmol Vis Sci.
2003;
44 (5)
252-259
MissingFormLabel
- 39
Elner V M.
Retinal pigment epithelial acid lipase activity and lipoprotein receptors: effects
of dietary omega-3 fatty acids.
Trans Am Ophthalmol Soc.
2002;
100
301-338
MissingFormLabel
- 40
Cleland L G, James M J, Proudman S M.
Fish oil: what prescriber needs to know.
Arthr Res Ther.
2005;
8
202
MissingFormLabel
- 41
SanGiovanni J P et al.
The relationship of dietary lipid intake and age-related macular degeneration in a
case-control study: AREDS Report No. 20.
Arch Ophthalmol.
2007;
125
671-679
MissingFormLabel
- 42
Seddon J M, Ajani U A, Sperduto R D et al.
Dietary carotenoids, vitamins A, C, and E, and advanced age-related macular degeneration.
Eye Disease Case-Control Study Group.
JAMA.
1994;
272 (18)
1413-1420
MissingFormLabel
- 43 Biesalski H K, Fürst P, Kasper H. et al .Ernährungsmedizin. Stuttgart: Thieme; 1999: 76
MissingFormLabel
- 44 In: Referenzwerte für die Nährstoffzufuhr. Umschau Braus GmbH: 2008: 56.
MissingFormLabel
- 45
Wolfram G, Freman D.
Referenzwerte mit Gewähr – Richtwerte für die Fettzufuhr.
Ernährungs-Umschau.
2001;
8
274-283
MissingFormLabel
- 46 In: Referenzwerte für die Nährstoffzufuhr. Umschau Braus GmbH (S. 55) (2008).
MissingFormLabel
- 47
Hoyos C, Almqvist C, Garden F et al.
Effect of omega 3 and omega 6 fatty acid intakes from diet and supplements on plasma
fatty acid levels in the first 3 years of life.
Asia Pac J Clin Nutr.
2008;
17 (4)
552-557
MissingFormLabel
- 48 Referenzwerte für die Nährstoffzufuhr 2008 Umschau Braus GmbH (S. 54).
MissingFormLabel
- 49 Alves-Rodrigues A, Shao A. The science behind lutein. Tox Letters 150 2004
MissingFormLabel
- 50 EFSA Comment zu omega-3-fatty acids vom 19.1.2009.
MissingFormLabel
- 51
Calder P C.
n-3 Polyunsaturated fatty acids and cytokine production in health and disease.
Ann Nutr Metab.
1997;
41
203-234
MissingFormLabel
- 52 Stargrove M B. et al .Herb, Nutrient and Drug Interactions. Mosby Elsevier; 2008
MissingFormLabel
- 53
Sijben J W, Calder P C.
Differential immunomodulation with long-chain n-3 PUFA in health and chronic disease.
Proc Nutr Soc.
2007;
66 (2)
237-259
MissingFormLabel
- 54
Lengyel I, Flinn J M, Peto T et al.
High concentration of zinc in sub-retinal pigment epithelial deposits.
Exp Eye Res.
2007;
84 (4)
772-780
MissingFormLabel
- 55
Age-Related Eye Disease Study Research Group .
A randomized, placebo-controlled, clinical trial of high-dose supplementation with
vitamins C and E, beta carotene, and zinc for age-related macular degeneration and
vision loss: AREDS report no. 8.
Arch Ophthalmol.
2001;
119 (10)
1417-1436
MissingFormLabel
- 56
The ATBC Cancer Prevention Study Group .
The alpha-tocopherol, beta-carotene lung cancer prevention study: design, methods,
participant characteristics, and compliance.
Ann Epidemiol.
1994;
4 (1)
1-10
MissingFormLabel
- 57
Omenn G S, Goodman G E, Thornquist M D et al.
Risk factors for lung cancer and for intervention effects in CARET, the Beta-Carotene
and Retinol Efficacy Trial.
J Natl Cancer Inst.
1996;
88 (21)
1550-1559
MissingFormLabel
- 58
Goodman G E, Thornquist M D, Balmes J et al.
The Beta-Carotene and Retinol Efficacy Trial: incidence of lung cancer and cardiovascular
disease mortality during 6-year follow-up after stopping beta-carotene and retinol
supplements.
J Natl Cancer Inst.
2004;
96 (23)
1743-1750
MissingFormLabel
- 59
Biesalski H K, Tinz J, Strobel M.
The imprtance of beta-carotene as a source of vitamin A with special regard to pregnant
and breastfeeding women.
Eur J Nutr.
2007;
46 (1)
1-20
MissingFormLabel
- 60
Miller 3 rd E R, Pastor-Barriuso R, Dalal D et al.
Meta-analysis: high-dosage vitamin E supplementation may increase all-cause mortality.
Ann Intern Med.
2005;
142 (1)
37-46
MissingFormLabel
- 61
Slatore C G, Littman A J, Au D H et al.
Long-term use of supplemental multivitamins, vitamin C, vitamin E, and folate does
not reduce the risk of lung cancer.
Am J Respir Crit Care Med.
2008;
177 (5)
524-530
MissingFormLabel
- 62 http://www.crab.org/select/
MissingFormLabel
- 63
Großklaus R, Henning K J.
Vitamine für das Auge?.
Ophthalmologe.
2009;
106
521-526
MissingFormLabel
- 64 Watzl B, Leitzmann C. Bioaktive Substanzen in Lebensmitteln. Stuttgart: Hippokrates Verlag; 2005: 27
MissingFormLabel
- 65 Referenzwerte für Nährstoffzufuhr. 3. korrigierter Nachdruck der 1. Auflage Frankfurt/Main: Umschau Braus GmbH; 2008
MissingFormLabel
Prof. Dr. Florian J. Schweigert
Institut für Ernährungswissenschaft, Universität Potsdam
Arthur-Scheunert-Allee 114 – 116
14558 Nuthetal
Phone: ++ 49/33 20 08 85 28/5 27
Fax: ++ 49/33 20 08 85 73
Email: fjschwei@uni-potsdam.de