What do we know about the macular pigment in AMD: the past, the present, and the future

Arunkumar, Ranganathan; Calvo, Charles M.; Conrady, Christopher D.; Bernstein, Paul S.

doi:10.1038/s41433-018-0044-0

Cited by 75 publications

(62 citation statements)

References 88 publications

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“…Carotenoid macular bioavailability is influenced by various factors, but studies showed that carotenoid incorporation in the macula is mainly based on lipoprotein transport mechanisms such as IRBP, requires a minimal diet intake of fat and that polyunsaturated fatty acid-rich diet improves absorption of carotenoids. [44][45][46] suggested a link between macular pigment delivery system through Müller glial cells and the formation of drusen. We may hypothesize that, despite the established benefit of L/Z supplementation to the foveal vision, there may be a price to be paid for the delivery of L/Z to the fovea, namely a higher lipid uptake in the RPE and the retina, which then must be discarded as drusen or SDD.…”

Section: Discussionmentioning

confidence: 99%

Subretinal Drusenoid Deposits in the Elderly in a Population-Based Study (the Montrachet Study)

Gabrielle

Seydou

Arnould

et al. 2019

Invest. Ophthalmol. Vis. Sci.

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The aim of this study was to investigate the prevalence of subretinal drusenoid deposits (SDD) and to identify associated factors in an elderly population. METHODS. The participants of the population-based Montrachet study underwent an exhaustive ophthalmologic examination, including color fundus photography and macular spectral domain-optical coherence tomography (SD-OCT), coupled with infrared reflectance imaging. The presence of SDD and other age-related macular degeneration lesions, according to the European Eye Epidemiology SD-OCT classification of macular diseases, and subfoveal choroidal thickness were recorded. Moreover, the association of SDD and both clinical and demographic factors as well as plasma levels of vitamin E and lutein/zeaxanthin (L/Z) were analyzed. RESULTS. The mean age of patients was 82.3 6 3.8 years and 62.7% were female. The prevalence of SDD was 18.1% (n ¼ 205) in the subjects with at least one eye interpretable (n ¼ 1135). In multivariate analysis, SDD was positively associated with increasing age (OR, 4.6; 95% CI, 2.8-7.7; P < 0.001 for subjects aged >85 years), female sex (OR, 1.7; 95% CI, 1.2-2.4; P ¼ 0.005), and plasma L/Z level (OR, 1.2; 95% CI, 1.0-1.5; P ¼ 0.039), and negatively associated with lipid-lowering drugs use (OR, 0.5; 95% CI, 0.3-0.9; P ¼ 0.014 for statin medications) and subfoveal choroidal thickness (OR, 0.8; 95% CI, 0.7-0.9; P ¼ 0.002). CONCLUSIONS. The prevalence of SDD was high in subjects older than 75 years, more frequent in women, and was associated with a thinner choroid. The association with lipid-lowering drugs deserves further investigation.

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Section: Discussionmentioning

confidence: 99%

Subretinal Drusenoid Deposits in the Elderly in a Population-Based Study (the Montrachet Study)

Gabrielle

Seydou

Arnould

et al. 2019

Invest. Ophthalmol. Vis. Sci.

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“…The antioxidants used for the treatment in this study are L-Z, which can neutralize reactive oxygen species to counter oxidative damage in retinal cells in many eye disorders [23, 53–56]. In addition, our previous study showed that L-Z reduce ERS in light-induced retinopathy [34].…”

Section: Discussionmentioning

confidence: 99%

Lutein and Zeaxanthin Isomers Reduce Photoreceptor Degeneration in the Pde6b^rd10 Mouse Model of Retinitis Pigmentosa

Yan

Beight

2018

BioMed Research International

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Purpose Lutein, RR-zeaxanthin, and RS-zeaxanthin (L-Z) are antioxidants which can reduce endoplasmic reticulum stress (ERS) and oxidative stress (OS), and ameliorate neurodegenerative diseases. However, their treatment effect in the Pde6brd10 (rd10) mouse model of retinitis pigmentosa (RP) and the underlying cellular mechanisms have not been studied. ERS is an important factor which causes photoreceptor apoptosis. The aim of the current project is to test the treatment effect of L-Z in rd10 mice and to investigate the underlying molecular mechanisms of ERS. Methods L-Z (Lutemax 2020, 10 mg/kg) diluted in sunflower oil (SFO, 1 mg/ml) or the same volume of SFO was administrated via gavage from postnatal day 6 (P6) to P20 daily in L-Z group (n=5) or SFO group (n=6) of rd10 mice. At P21, electroretinography (ERG) was performed to show the functional change of retinas. 78 kDa glucose-regulated protein (GRP78) and endoplasmic reticulum protein 29 (ERp29) were tested by western blot and immunostaining. Results The ERG amplitudes were larger in the L-Z group than those of the SFO group in all flash luminances of dark-adapted and light-adapted ERG (all p < 0.01). Western blot revealed that GRP78 in the retinas of the L-Z group was significantly downregulated compared to that of the SFO group (p < 0.01). Meanwhile, the retinal ERp29 protein was significantly upregulated in the L-Z treatment group than that of the SFO group (p < 0.01). Conclusions L-Z provide protection to the photoreceptors of rd10 mouse model of RP, which is probably associated with the reduction of ERS.

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“…An anatomical structure in the retina of the human eye particularly rich in carotenoids is referred to as the macula lutea or the yellow spot, due to its intense colouration . Three polar carotenoids, called xanthophylls, have been identified in the macular pigment pool, namely, lutein (Lut), zeaxanthin (Zea) and meso ‐zeaxanthin ( m ‐Zea) (see Figure ) . Resonance Raman spectroscopy of macular xanthophylls can be effectively applied to examine their properties in the natural system or even for imaging the retina, owing to the relatively strong Raman scattering signal of polyene dyes .…”

Section: Introductionmentioning

confidence: 99%

Raman spectroscopy analysis of molecular configuration forms of the macular xanthophylls

Sęk

Welc

Mendes-Pinto

et al. 2020

J Raman Spectroscopy

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Macula lutea, the yellow spot of the retina of the human eye, comprises three xanthophyll pigments: lutein, zeaxanthin, and meso‐zeaxanthin, playing numerous important biological functions. Macular xanthophylls are exposed to relatively strong illumination in the eye, owing to the fact that the yellow spot is localized on the optical axis, in the frontal layer with respect to photoreceptors. In the present work, we address the problem of photostability and possible photoisomerization of macular xanthophylls with the application of resonance Raman spectroscopy. The results show photostability of the two major isomers of the macular xanthophylls, all‐trans and 9‐cis, and efficient photoconversion of the 13‐cis isomer to the 9‐cis and mostly to the all‐trans form. We report the Raman spectra of the main molecular configuration forms of the macular xanthophylls, opening an avenue for the examination of their possible presence and photoconversion in natural systems.

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What do we know about the macular pigment in AMD: the past, the present, and the future

Cited by 75 publications

References 88 publications

Subretinal Drusenoid Deposits in the Elderly in a Population-Based Study (the Montrachet Study)

Subretinal Drusenoid Deposits in the Elderly in a Population-Based Study (the Montrachet Study)

Lutein and Zeaxanthin Isomers Reduce Photoreceptor Degeneration in the Pde6b^rd10 Mouse Model of Retinitis Pigmentosa

Raman spectroscopy analysis of molecular configuration forms of the macular xanthophylls

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What do we know about the macular pigment in AMD: the past, the present, and the future

Cited by 75 publications

References 88 publications

Subretinal Drusenoid Deposits in the Elderly in a Population-Based Study (the Montrachet Study)

Subretinal Drusenoid Deposits in the Elderly in a Population-Based Study (the Montrachet Study)

Lutein and Zeaxanthin Isomers Reduce Photoreceptor Degeneration in the Pde6brd10 Mouse Model of Retinitis Pigmentosa

Raman spectroscopy analysis of molecular configuration forms of the macular xanthophylls

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Lutein and Zeaxanthin Isomers Reduce Photoreceptor Degeneration in the Pde6b^rd10 Mouse Model of Retinitis Pigmentosa