Age-related macular degeneration and nutritional supplementation:a review of randomised controlled trials

Age-related macular degeneration (AMD) is the leading cause of severe vision loss in the developed world. The lack of effective treatment modalities, coupled with evidence supporting an oxidative pathogenesis, has increased interest in the potential preventative role of nutritional supplementation. This article reviews seven randomised controlled trials (RCTs) that have investigated the role of nutritional supplementation in AMD. Three of these trials reported a positive effect of nutritional supplementation on AMD; the Age-related eye study (AREDS), the Lutein Antioxidant Supplementation Trial (LAST), and the oral zinc trial by Newsome et al. (1988). However, the oral zinc trial by Newsome et al. (1988) was unlikely to detect any difference between treatments smaller than 72%, and the AREDS results were based on a subgroup of their study population. Lutein was considered for the AREDS formulation, but was not commercially available at that time. The findings of the LAST support a possible therapeutic role of lutein in AMD. © 2004 The College of Optometrists.

A preliminary evaluation of a novel method to monitor a triple antioxidant combination (vitamins E, C and alpha-lipoic acid) in diabetic volunteers using in vitro methaemoglobin formation

Eight otherwise healthy diabetic volunteers took a daily antioxidant supplement consisting of vitamin E (200 IU), vitamin C (250 mg) and α-lipoic acid (90 mg) for a period of 6 weeks. Diabetic dapsone hydroxylamine-mediated methaemoglobin formation and resistance to erythrocytic thiol depletion was compared with age and sex-matched non-diabetic subjects. At time zero, methaemoglobin formation in the non-diabetic subjects was greater at all four time points compared with that of the diabetic subjects. Resistance to glutathione depletion was initially greater in non-diabetic compared with diabetic samples. Half-way through the study (3 weeks), there were no differences between the two groups in methaemoglobin formation and thiol depletion in the diabetic samples was now lower than the non-diabetic samples at 10 and 20 min. At 6 weeks, diabetic erythrocytic thiol levels remained greater than those of non-diabetics. HbA1c values were significantly reduced in the diabetic subjects at 6 weeks compared with time zero values. At 10 weeks, 4 weeks after the end of supplementation, the diabetic HbA1c values significantly increased to the point where they were not significantly different from the time zero values. Total antioxidant status measurement (TAS) indicated that diabetic plasma antioxidant capacity was significantly improved during antioxidant supplementation. Conversion of α-lipoic acid to dihydrolipoic acid (DHLA) in vivo led to potent interference in a standard fructosamine assay kit, negating its use in this study. This report suggests that triple antioxidant therapy in diabetic volunteers attenuates the in vitro experimental oxidative stress of methaemoglobin formation and reduces haemoglobin glycation in vivo. © 2003 Elsevier Science B.V. All rights reserved.

Antioxidants in Athlete's Basic Nutrition: Considerations towards a Guideline for the Intake of Vitamin C and Vitamin E

Antioxidants in acute physical exercise and exercise training remain a hot topic in sport nutrition, exercise physiology and biology, in general (Jackson, 2008; Margaritis and Rousseau, 2008; Gomez-Cabrera et al., 2012; Nikolaidis et al., 2012). During the past few decades, antioxidants have received attention predominantly as a nutritional strategy for preventing or minimising detrimental effects of reactive oxygen and nitrogen species (RONS), which are generated during and after strenuous exercise (Jackson, 2008, 2009; Powers and Jackson, 2008). Antioxidant supplementation has become a common practice among athletes as a means to (theoretically) reduce oxidative stress, promote recovery and enhance performance (Peternelj and Coombes, 2011). However, until now, requirements of antioxidant micronutrients and antioxidant compounds for athletes training for and competing in different sport events, including marathon running, triathlon races or team sport events involving repeated sprinting, have not been determined sufficiently (Williams et al., 2006; Margaritis and Rousseau, 2008). Crucially, evidence has been emerging that higher dosages of antioxidants may not necessarily be beneficial in this context, but can also elicit detrimental effects by interfering with performance-enhancing (Gomez-Cabrera et al., 2008) and health-promoting training adaptations (Ristow et al., 2009). As originally postulated in a pioneering study on exercise-induced production of RONS by Davies et al. (1982) in the early 1980s, evidence has been increasing in recent years that RONS are not only damaging agents, but also act as signalling molecules for regulating muscle function (Reid, 2001; Jackson, 2008) and for initiating adaptive responses to exercise (Jackson, 2009; Powers et al., 2010). The recognition that antioxidants could, vice versa, interact with the signalling pathways underlying the responses to acute (and repeated) bouts of exercise has contributed important novel aspects to the continued discussion on antioxidant requirements for athletes. In view of the recent advances in this field, it is the aim of this report to examine the current knowledge of antioxidants, in particular of vitamins C and E, in the basic nutrition of athletes. While overviews on related topics including basic mechanisms of exercise-induced oxidative stress, redox biology, antioxidant defence systems and a summary of studies on antioxidant supplementation during exercise training are provided, this does not mean that this report is comprehensive. Several issues of the expanding and multidisciplinary field of antioxidants and exercise are covered elsewhere in this book and/or in the literature. Exemplarily, the reader is referred to reviews on oxidative stress (Konig et al., 2001; Vollaard et al., 2005; Knez et al., 2006; Powers and Jackson, 2008; Nikolaidis et al., 2012), redox-sensitive signalling and muscle function (Reid, 2001; Vollaard et al., 2005; Jackson, 2008; Ji, 2008; Powers and Jackson, 2008; Powers et al., 2010; Radak et al., 2013) and antioxidant supplementation (Williams et al., 2006; Peake et al., 2007; Peternelj and Coombes, 2011) in the context with exercise. Within the scope of the report, we rather aim to address the question regarding requirements of antioxidants, specifically vitamins C and E, during exercise training, draw conclusions and provide practical implications from the recent research.

Redox remodelling in diaphragm muscle adaptation to chronic sustained hypoxia

Chronic sustained hypoxia (CH) induces functional weakness, atrophy, and mitochondrial remodelling in the diaphragm muscle. Animal models of CH present with changes similar to patients with respiratory-related disease, thus, elucidating the molecular mechanisms driving these adaptations is clinically important. We hypothesize that ROS are pivotal in diaphragm muscle adaptation to CH. C57BL6/J mice were exposed to CH (FiO2=0.1) for one, three, and six weeks. Sternohyoid (upper airway dilator), extensor digitorum longus (EDL), and soleus were studied as reference muscles as well as the diaphragm. The diaphragm was profiled using a redox proteomics approach followed by mass spectrometry. Following this, redox-modified metabolic enzyme activities and atrophy signalling were assessed using spectrophotometric assays and ELISA. Diaphragm isotonic performance was assessed after six weeks of CH ± chronic antioxidant supplementation. Protein carbonyl and free thiol content in the diaphragm were increased and decreased respectively after six weeks of CH – indicative of protein oxidation. These changes were temporally modulated and muscle specific. Extensive remodelling of metabolic proteins occurred and the stress reached the cross-bridge. Metabolic enzyme activities in the diaphragm were, for the most part, decreased by CH and differential muscle responses were observed. Redox sensitive chymotrypsin-like proteasome activity of the diaphragm was increased and atrophy signalling was observed through decreased phospho-FOXO3a and phospho-mTOR. Phospho-p38 MAPK content was increased and this was attenuated by antioxidant treatment. Hypoxia decreased power generating capacity of the diaphragm and this was restored by N-acetyl-cysteine (NAC) but not by tempol. Redox remodelling is pivotal for diaphragm adaptation to chronic sustained hypoxia. Muscle changes are dependent on duration of the hypoxia stimulus, activity profile of the muscle, and molecular composition of the muscle. The working respiratory muscles and slow oxidative fibres are particularly susceptible. NAC (antioxidant) may be useful as an adjunct therapy in respiratory-related diseases characterised by hypoxic stress.

Carotenoids and co-antioxidants in age-related maculopathy:design and methods

Age-related macular degeneration (AMD), is the leading cause of blind registration in the Western World among individuals 65 years or older. Early AMD, a clinical state without overt functional loss, is said to be present clinically when yellowish deposits known as drusen and/or alterations of fundus pigmentation are seen in the macular retina. Although the etiopathogenesis of AMD remains uncertain, there is a growing body of evidence in support of the view that cumulative oxidative damage plays a causal role. Appropriate dietary antioxidant supplementation is likely to be beneficial in maintaining visual function in patients with AMD, and preventing or delaying the progression of early AMD to late AMD. The Carotenoids in Age-Related Maculopathy (CARMA) Study is a randomized and double-masked clinical trial of antioxidant supplementation versus placebo in 433 participants with either early AMD features of sufficient severity in at least one eye or any level of AMD in one eye with late AMD (neovascular AMD or central geographic atrophy) in the fellow eye. The aim of the CARMA Study is to investigate whether lutein and zeaxanthin, in combination with co-antioxidants (vitamin C, E, and zinc), has a beneficial effect on visual function and/or prevention of progression from early to late stages of disease. The primary outcome is improved or preserved distance visual acuity at 12 months. Secondary outcomes include improved or preserved interferometric acuity, contrast sensitivity, shape discrimination ability, and change in AMD severity as monitored by fundus photography. This article outlines the CARMA Study design and methodology, including its rationale.

Maternal nutrition and the risk of preeclampsia

La prééclampsie est responsable du quart des mortalités maternelles et est la deuxième cause de décès maternels associés à la grossesse au Canada et dans le monde. L’identification d’une stratégie efficace pour la prévention de la prééclampsie est une priorité et un défi primordial dans les milieux de recherche en obstétrique. Le rôle des éléments nutritifs dans le développement de la prééclampsie a récemment reçu davantage d’attention. Plusieurs études cliniques et épidémiologiques ont été menées pour déterminer les facteurs de risque alimentaires potentiels et examiner les effets d’une supplémentation nutritive dans le développement de troubles hypertensifs de la grossesse. Pour déterminer les effets de suppléments antioxydants pris pendant la grossesse sur le risque d’hypertension gestationnelle (HG) et de prééclampsie, un essai multicentrique contrôlé à double insu a été mené au Canada et au Mexique (An International Trial of Antioxidants in the Prevention of Preeclampsia – INTAPP). Les femmes, stratifiées par risque, étaient assignées au traitement expérimental quotidien (1 gramme de vitamine C et 400 UI de vitamine E) ou au placebo. En raison des effets secondaires potentiels, le recrutement pour l’essai a été arrêté avant que l’échantillon complet ait été constitué. Au total, 2640 femmes éligibles ont accepté d’être recrutées, dont 2363 (89.5%) furent incluses dans les analyses finales. Nous n’avons retrouvé aucune évidence qu’une supplémentation prénatale de vitamines C et E réduisait le risque d’HG et de ses effets secondaires (RR 0,99; IC 95% 0,78-1,26), HG (RR 1,04; IC 95% 0,89-1,22) et prééclampsie (RR 1,04; IC 95% 0,75-1,44). Toutefois, une analyse secondaire a révélé que les vitamines C et E augmentaient le risque de « perte fœtale ou de décès périnatal » (une mesure non spécifiée au préalable) ainsi qu’une rupture prématurée des membranes avant terme. Nous avons mené une étude de cohorte prospective chez les femmes enceintes recrutées dans l’INTAPP afin d’évaluer les relations entre le régime alimentaire maternel en début et fin de grossesse et le risque de prééclampsie et d’HG. Un questionnaire de fréquence alimentaire validé était administré deux fois pendant la grossesse (12-18 semaines, 32-34 semaines). Les analyses furent faites séparément pour les 1537 Canadiennes et les 799 Mexicaines en raison de l’hétérogénéité des régimes alimentaires des deux pays. Parmi les canadiennes, après ajustement pour l’indice de masse corporelle (IMC) précédant la grossesse, le groupe de traitement, le niveau de risque (élevé versus faible) et les autres facteurs de base, nous avons constaté une association significative entre un faible apport alimentaire (quartile inférieur) de potassium (OR 1,79; IC 95% 1,03-3,11) et de zinc (OR 1,90; IC 95% 1,07-3,39) et un risque augmenté de prééclampsie. Toujours chez les Canadiennes, le quartile inférieur de consommation d’acides gras polyinsaturés était associé à un risque augmenté d’HG (OR 1,49; IC 95% 1,09-2,02). Aucun des nutriments analysés n’affectait les risques d’HG ou de prééclampsie chez les Mexicaines. Nous avons entrepris une étude cas-témoins à l’intérieur de la cohorte de l’INTAPP pour établir le lien entre la concentration sérique de vitamines antioxydantes et le risque de prééclampsie. Un total de 115 cas de prééclampsie et 229 témoins ont été inclus. Les concentrations de vitamine E ont été mesurées de façon longitudinale à 12-18 semaines (avant la prise de suppléments), à 24-26 semaines et à 32-34 semaines de grossesse en utilisant la chromatographie liquide de haute performance. Lorsqu’examinée en tant que variable continue et après ajustement multivarié, une concentration de base élevée de gamma-tocophérol était associée à un risque augmenté de prééclampsie (quartile supérieur vs quartile inférieur à 24-26 semaines : OR 2,99, IC 95% 1,13-7,89; à 32-34 semaines : OR 4,37, IC 95% 1,35-14,15). Nous n’avons pas trouvé de lien entre les concentrations de alpha-tocophérol et le risque de prééclampsie. En résumé, nous n’avons pas trouvé d’effets de la supplémentation en vitamines C et E sur le risque de prééclampsie dans l’INTAPP. Nous avons toutefois trouvé, dans la cohorte canadienne, qu’une faible prise de potassium et de zinc, tel qu’estimée par les questionnaires de fréquence alimentaire, était associée à un risque augmenté de prééclampsie. Aussi, une plus grande concentration sérique de gamma-tocophérol pendant la grossesse était associée à un risque augmenté de prééclampsie.

Influencia de la suplementación de antioxidantes y de la administración de enrofloxacina en la calidad y seguridad de la carne de ave

Los fenómenos oxidativos y en particular la oxidación lipídica son uno de los principales responsables de la pérdida de calidad en la carne y en los productos cárnicos. Como consecuencia de estos procesos se generan compuestos que pueden afectar el flavor, color y textura de la carne disminuyendo la aceptabilidad por parte del consumidor y reduciendo su valor nutritivo. Por otro lado, el estrés oxidativo está relacionado con la etiología de diversas enfermedades comunes en nuestra sociedad. Las carnes de pollo y de pavo son particularmente sensibles a los procesos oxidativos debido a su elevada proporción de ácidos grasos poliinsaturados en comparación con otros tipos de carne. La suplementación de antioxidantes en la dieta de determinados animales es una de las estrategias más eficaces para proteger la carne de la oxidación. Otro aspecto que afecta a la calidad y seguridad de la carne es la presencia de residuos en los tejidos animales destinados al consumo humano, una parte de los cuáles puede proceder de la administración de antibióticos. En este trabajo se estudió la eficacia de tres compuestos antioxidantes, alfa-tocoferol, beta-caroteno y licopeno, adicionados en distintas concentraciones y combinaciones a la dieta de pollos y pavos. Para ello se determinó la estabilidad oxidativa de los tejidos musculares de pechuga y muslo mediante el análisis de los valores de TBARS, de las actividades de los enzimas antioxidantes GSHPx, CAT y SOD y desde un punto de vista sensorial. Asimismo, se analizaron las concentraciones de vitamina E presentes en ambos músculos. Por otro lado, se investigó la presencia de residuos del antibiótico enrofloxacina y de su metabolito en los tejidos muscular y hepático de ambas especies después de la administración del fármaco con o sin periodo de retirada. Finalmente, y dada la aparente relación existente entre el metabolismo de determinados antibióticos y los fenómenos oxidativos, se valoró la posible interacción entre el fármaco y la vitamina E suplementada a la dieta. La vitamina E, a dosis de 100 ppm y 200 ppm en pollos y pavos respectivamente, se comportó como un antioxidante eficaz disminuyendo la rancidez de la carne tanto en pechuga como en muslo. La dosis de vitamina E necesaria para conseguir un incremento significativo de la estabilidad oxidativa de la carne varió en función de la especie y de las características bioquímicas del tejido analizado. El beta-caroteno, suplementado en la dieta de pollos y pavos conjuntamente con la vitamina E, no sólo no manifestó propiedades antioxidantes sino que enmascaró la efectividad de la vitamina E. El licopeno, de cuya utilización en nutrición animal no existían estudios publicados anteriormente, no mostró eficacia antioxidante en la carne de pollo a una dosis de 10 ppm. Respecto al análisis de residuos de antibiótico se observó que tras el periodo de retirada del fármaco los niveles residuales de enrofloxacina y su metabolito disminuyeron notablemente. Debe tenerse en cuenta que se apreciaron diferencias en función de la especie y del tejido considerados, estando los residuos en algunos casos por encima de los límites máximos permitidos. Por otro lado, se observó una relación entre la enrofloxacina y la vitamina E suplementada en la dieta que, parecía depender tanto de la dosis de antioxidante como del metabolismo del fármaco. Esta interacción afectó tanto a los niveles de vitamina E como a la presencia de residuos de enrofloxacina en el tejido muscular, resaltando la importancia de no subestimar posibles interacciones entre distintos compuestos presentes en la dieta animal.

Skeletal muscle reactive oxygen species: a target of good cop/bad cop for exercise and disease

Metabolic stresses associated with disease, ageing, and exercise increase the levels of reactive oxygen species (ROS) in skeletal muscle. These ROS have been linked mechanistically to adaptations in skeletal muscle that can be favourable (i.e. in response to exercise) or detrimental (i.e. in response to disease). The magnitude, duration (acute versus chronic), and cellular origin of the ROS are important underlying factors in determining the metabolic perturbations associated with the ROS produced in skeletal muscle. In particular, insulin resistance has been linked to excess ROS production in skeletal muscle mitochondria. A chronic excess of mitochondrial ROS can impair normal insulin signalling pathways and glucose disposal in skeletal muscle. In contrast, ROS produced in skeletal muscle in response to exercise has been linked to beneficial metabolic adaptations including mitochondrial biogenesis and muscle hypertrophy. Moreover, unlike insulin resistance, exercise-induced ROS appears to be primarily of non-mitochondrial origin. The present review summarizes the diverse ROS-targeted metabolic outcomes associated with insulin resistance versus exercise in skeletal muscle, thus, presenting two contrasting perspectives of pathologically harmful versus physiologically beneficial ROS. Here, we discuss the key sites of ROS production during exercise and the effect of ROS in skeletal muscle of people with type 2 diabetes.

Muscle redox signalling pathways in exercise. Role of antioxidants

Recent research highlights the importance of redox signalling pathway activation by contraction-induced reactive oxygen species (ROS) and nitric oxide (NO) in normal exercise-related cellular and molecular adaptations in skeletal muscle. In this review, we discuss some potentially important redox signalling pathways in skeletal muscle that are involved in acute and chronic responses to contraction and exercise. Specifically, we discuss redox signalling implicated in skeletal muscle contraction force, mitochondrial biogenesis and antioxidant enzyme induction, glucose uptake and muscle hypertrophy. Furthermore, we review evidence investigating the impact of major exogenous antioxidants on these acute and chronic responses to exercise. Redox signalling pathways involved in adaptive responses in skeletal muscle to exercise are not clearly elucidated at present, and further research is required to better define important signalling pathways involved. Evidence of beneficial or detrimental effects of specific antioxidant compounds on exercise adaptations in muscle is similarly limited, particularly in human subjects. Future research is required to not only investigate effects of specific antioxidant compounds on skeletal muscle exercise adaptations, but also to better establish mechanisms of action of specific antioxidants in vivo. Although we feel it remains somewhat premature to make clear recommendations in relation to application of specific antioxidant compounds in different exercise settings, a bulk of evidence suggests that N-acetylcysteine (NAC) is ergogenic through its effects on maintenance of muscle force production during sustained fatiguing events. Nevertheless, a current lack of evidence from studies using performance tests representative of athletic competition and a potential for adverse effects with high doses (>70 mg/kg body mass) warrants caution in its use for performance enhancement. In addition, evidence implicates high dose vitamin C (1 g/day) and E (≥260 IU/day) supplementation in impairments to some skeletal muscle cellular adaptations to chronic exercise training. Thus, determining the utility of antioxidant supplementation in athletes likely requires a consideration of training and competition periodization cycles of athletes in addition to type, dose and duration of antioxidant supplementation.

Evaluation of Sperm DNA Peroxidation in Fertile and Subfertile Dogs

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Efeitos de antioxidantes e da atmosfera gasosa em diferentes etapas da produção in vitro sobre o desenvolvimento e criotolerância de embriões bovinos

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Prevenção do estresse oxidativo na síndrome de isquemia e reperfusão renal em ratos com suplementação nutricional com antioxidantes

OBJETIVO: Verificar o potencial efeito protetor de suplementação com vitaminas antioxidantes em um modelo de síndrome de isquemia-reperfusão renal em ratos. MÉTODOS: Foram utilizados 29 ratos Wistar, divididos em três grupos: Grupo I e II (n=10 cada), submetidos a indução do estresse oxidativo pela aplicação de 60 minutos de isquemia renal, seguidos de 10 minutos de reperfusão; adicionalmente, os animais do Grupo II foram pré-tratados por doze dias com vitaminas antioxidantes (vitamina C 11,43mg/kg e vitamina E 28,57mg/kg) antes da submissão à isquemia; Grupo III (n=9), correspondendo aos animais Sham, que foram manipulados de forma equivalente aos outros grupos, porém sem indução do estresse oxidativo e sem suplementação antioxidante. Findo isso, as amostras de sangue e os rins foram colhidos para avaliação dos níveis do malondialdeído, do ácido úrico e da capacidade antioxidante total. RESULTADOS: Para o malondialdeído e ácido úrico do Grupo I foi observado um aumento estatisticamente significante (p<0,01) em relação ao Grupo III, o qual não apresentou diferença em relação ao Grupo II. Para os níveis de capacidade antioxidante total, foi encontrada uma diminuição nos animais do Grupo I em relação aos Grupos II e III (p<0,01). CONCLUSÃO: Esses dados confirmam não apenas a efetiva participação do estresse oxidativo neste modelo de síndrome de isquemia e reperfusão renal em ratos, como também que o uso de vitaminas antioxidantes, associadas à dieta, pode proteger os animais das alterações oxidativas.

Reduced levels of intracellular reactive oxygen species and apoptotic status are not correlated with increases in cryotolerance of bovine embryos produced in vitro in the presence of antioxidants

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Efeito da suplementação com vitamina E sobre os metabolismos oxidativo e cardíaco em equinos submetidos a exercício de alta intensidade

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Effects of gaseous atmosphere and antioxidants on the development and cryotolerance of bovine embryos at different periods of in vitro culture

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)