共查询到20条相似文献,搜索用时 62 毫秒
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水的营养与人体健康 总被引:2,自引:0,他引:2
1 水的重要作用水不仅有营养 ,而且它在人的生活中是非常重要的营养素。在 7大营养素中 ,水被国际营养学界列为首位。一个人 ,不给任何食物 ,只供饮水 ,最长能活 59天。相反 ,如果不供水 ,只给食物 (食物中的水被除掉 ) ,一般 5天即死 ,最长记录只活 17天。可见 ,水比任何营养物质都重要。由于地震等原因 ,人若被埋在地下时 ,只要想法能喝到一些水 ,就能维持较长的生命。为什么水在人的生活中那么重要呢 ?这是因为 :1)水是一切营养素和代谢废物的溶剂 ,体内没有充足的水分 ,一切营养物质 ,就不能被溶解吸收和利用 ,废物也不能被排出 ,生命… 相似文献
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牛琴剑;左刚;夏志远;杨嘉成;胡跃文;刘广;孙铝辉 《中国科学:生命科学》2025,(3):508-517
硒(Se)是动物生长发育所必需的微量元素,在机体抗氧化、免疫调节、生殖繁育、物质代谢等生理过程中发挥着重要的作用.硒的缺乏会影响机体正常发育,导致各种疾病的发生,硒在动物体内主要以硒蛋白形式存在并发挥相应的生理功能,硒蛋白在维持机体氧化还原稳态、免疫调控、生殖系统发育等生理过程中发挥关键作用.文章系统地梳理硒的发现、硒蛋白功能、动物生产中硒的作用以及畜禽富硒产品和人类健康的关系,强调硒在生物体健康和动物生产中的重要性,探讨硒与人类健康和开发富硒畜禽产品的有效措施,为利用富硒畜禽产品指导我国居民科学补硒提供科学依据. 相似文献
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H. B. von Stockhausen 《Biological trace element research》1988,15(1):147-155
In clinical practice, selenium deficiency may arise under conditions of chronic malnutrition and especially after long-term
total parenteral nutrition (TPN). In infants receiving long-term TPN, we observed plasma selenium levels as low as those previously
reported in Chinese children with Keshan disease. Low plasma selenium levels were also usually associated with very low activities
of glutathione peroxidase. Although clinical symptoms of selenium deficiency did not occur in our patients, several cases
have been described in the literature, indicating the need for supplementation in TPN. In order to derive at the appropriate
dosage, it is proposed to correlate it with the total protein supply. According to our present knowledge, .5–1.0 μg selenium/g
of protein appears to be adequate to keep patients in Se balance. For Se repletion of body stores, this dosage has been increased
up to 3 μg of Se/g of protein. Advantages and disadvantages of selenite and of selenomethionine as possible supplemental forms
of Se for TPN solutions are discussed. 相似文献
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Background
Plant and animal ferritins stem from a common ancestor, but plant ferritins exhibit various features that are different from those of animal ferritins. Phytoferritin is observed in plastids (e.g., chloroplasts in leaves, amyloplasts in tubers and seeds), whereas animal ferritin is largely found in the cytoplasm. The main difference in structure between plant and animal ferritins is the two specific domains (TP and EP) at the N-terminal sequence of phytoferritin, which endow phytoferritin with specific iron chemistry. As a member of the nonheme iron group of dietary iron sources, phytoferritin consists of 24 subunits that assemble into a spherical shell storing up to ∼ 2000 Fe3 + in the form of an iron oxyhydroxide-phosphate mineral. This feature is distinct from small molecule nonheme iron existing in cereals, which has poor bioavailability.Scope of review
This review focuses on the relationship between structure and function of phytoferritin and the recent progress in the use of phytoferritin as iron supplement.Major conclusions
Phytoferritin, especially from legume seeds, represents a novel alternative dietary iron source.General significance
An understanding of the chemistry and biology of phytoferritin, its interaction with iron, and its stability against gastric digestion is beneficial to design diets that will be used for treatment of global iron deficiency. 相似文献14.
Haematococcus astaxanthin: applications for human health and nutrition 总被引:36,自引:0,他引:36
The carotenoid pigment astaxanthin has important applications in the nutraceutical, cosmetics, food and feed industries. Haematococcus pluvialis is the richest source of natural astaxanthin and is now cultivated at industrial scale. Astaxanthin is a strong coloring agent and a potent antioxidant - its strong antioxidant activity points to its potential to target several health conditions. This article covers the antioxidant, UV-light protection, anti-inflammatory and other properties of astaxanthin and its possible role in many human health problems. The research reviewed supports the assumption that protecting body tissues from oxidative damage with daily ingestion of natural astaxanthin might be a practical and beneficial strategy in health management. 相似文献
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Metabolomics is emerging as an exciting post-genomic science with applications that span the scope of biotechnology and medicine. Although metabolomics is still in its infancy, it has already been used to identify the function of genes, describe the effects of toxicological, pharmaceutical, nutritional and environmental interventions, and to build integrated databases of metabolite concentrations across human and research animal populations. Metabolomics provides nutrition with an invaluable tool for determining the distributions of metabolite concentrations in humans, the relationship of these metabolite concentrations to disease, and the extent to which nutrition can modulate metabolite concentrations. 相似文献
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T. Rannem K. Ladefoged E. Hylander J. Hegnhøj S. Jarnum 《Biological trace element research》1993,39(1):81-90
Severe selenium (Se) depletion was found in nine patients receiving long-term home parenteral nutrition because of short bowel syndrome. Plasma Se ranged from 0–0.51 (median 0.21 μmol/L) and erythrocyte Se ranged from 0.7–2.6 (median 1.8 μmol/gHgb), which was significantly lower than in the controls. Glutathione peroxidase (GSHPx) in plasma and erythrocytes was also decreased. After bolus injections with 200 μg Se/d in the form of sodium selenite for 4 mo, followed by 100 μg/d for 8 mo, plasma Se increased to values slightly but significantly higher than in the controls. Erythrocyte Se reached normal levels in most of the patients after 4 mo substitution, but it remained lower than in the controls. Following Se supplementation, plasma and erythrocyte GSHPx did not differ between patients and controls. These data suggest that all patients receiving long-term parenteral nutrition because of short bowel syndrome should receive at least 100 μg sodium selenite/d when given as bolus injections to avoid Se depletion. 相似文献
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Metabolic adaptation to a disturbance of homeostasis is determined by a series of interconnected physiological processes and molecular mechanisms that can be followed in space (i.e., different organs or organelles) and in time. The amplitudes of these responses of this “systems flexibility network” determine to what extent the individual can adequately react to external challenges of varying nature and thus determine the individual’s health status and disease predisposition. Connected pathways and regulatory networks act as “adaptive response systems” with metabolic and inflammatory processes as a core—but embedded into psycho-neuro-endocrine control mechanisms that in their totality define the phenotypic flexibility in an individual. Optimal metabolic health is thus the orchestration of all mechanisms and processes that maintain this flexibility in an organism as a phenotype. Consequently, onset of many chronic metabolic diseases results from impairment or even loss of flexibility in parts of the system. This also means that metabolic diseases need to be diagnosed and treated from a systems perspective referring to a “systems medicine” approach. This requires a far better understanding of the mechanisms involved in maintaining, optimizing and restoring phenotypic flexibility. Although a loss of flexibility in a specific part of the network may promote pathologies, this not necessarily takes place in the same part because the system compensates. Diagnosis at systems level therefore needs the quantification of the response reactions of all relevant parts of the phenotypic flexibility system. This can be achieved by disturbing the homeostatic system by any challenge from extended fasting, to intensive exercise or a caloric overload. 相似文献
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The zinc and selenium levels of 40 surgical patients were monitored pre-and post-TPN. The initial selenium level was low normal, and the initial zinc level was also low. Both selenium and zinc are potent antioxidants involved in cellular defense against free radicals. Surgical patients are at risk for selenium and zinc deficiencies secondary to both increased needs and losses. TPN blood work protocols should include monitoring of selenium and zinc with supplementation of the nutrient solutions, as required. 相似文献
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Selenium, oxidative stress, and health aspects 总被引:7,自引:0,他引:7
Metabolic processes which generate oxidants and antioxidants are governed by genetic disposition as well as environmental factors. Changes in lifestyle, including increased environmental pollution, sun exposure, and dietary habits modify the challenge of the organism by reactive oxygen species. Defense mechanisms are reinforced by increasing dietary intake of antioxidants and micronutrients such as vitamins and selenium (Se). Se deficiency has been recognized to promote some disease states. Epidemiological findings link a lowered Se status to neurodegenerative and cardiovascular diseases as well as to increased cancer risk. While evidence exists to suggest that additional selenocompounds would be beneficial in some health conditions, results from future intervention trials are needed to substantiate the argument for increasing Se intake. Several pieces of the puzzle concerning the molecular mechanisms underlying the reactive oxygen species-triggered disease state and intervention by enzymatic antioxidants have been elucidated. A novel concept of protection of stromal cells against the dominating influence of tumor cells in tumor-stroma interaction by selenocompounds and other antioxidants is presented herein, which may translate into therapeutic strategies in chemoprevention of tumor invasion. 相似文献