Search results for "Nutritional Requirements"

showing 6 items of 26 documents

Nutrient intakes of children aged 1-2 years as a function of milk consumption, cows' milk or growing-up milk.

2012

AbstractObjectiveTo evaluate the nutritional adequacy of diets in early childhood as a function of milk intake, cows’ milk (CM) or growing-up milk (GUM).DesignFrom a cross-sectional food consumption survey, two groups of children aged 1–2 years were defined: Group CM fed exclusively on CM ≥ 250 ml/d and Group GUM fed on GUM ≥ 250 ml/d. Proportions of children at risk of nutrient excess or insufficiency were estimated relative to the French Recommended Daily Allowances, Estimated Average Requirements or Adequate Intakes.SettingParents participating in the survey were recruited from all regions of France by a polling organization. Distribution was adjusted to that of the French population.Sub…

VitaminAdultParentsIronPopulationMedicine (miscellaneous)Ascorbic AcidReference Daily IntakeDiet SurveysNutrition PolicyLinoleic Acidchemistry.chemical_compoundAnimal scienceRisk FactorsVitamin D and neurologyMedicineAnimalsHumansNutrition and HealthVitamin Deducationeducation.field_of_studyNutrition and DieteticsVitamin Calpha-Linolenic acidbusiness.industryPublic Health Environmental and Occupational HealthNutritional RequirementsInfantalpha-Linolenic AcidVitaminsAscorbic acidDietary FatsDietTrace ElementsCross-Sectional StudiesMilkNutrition AssessmentchemistryDietary Reference IntakeChild PreschoolFood FortifiedCattleDietary ProteinsFrancebusinessDeficiency DiseasesEnergy IntakeIron DietaryPublic health nutrition
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The Role of Vitamin Deficiency in Liver Disease: To Supplement or Not Supplement?

2021

Over the past few years, growing interest has been shown for the impact of dietary requirements and nutritional factors on chronic diseases. As a result, nutritional programs have been reinforced by public health policies. The precise role of micronutrients in chronic liver disease is currently receiving particular attention since abnormalities in vitamin levels are often detected. At present, treatment programs are focused on correcting vitamin deficiencies, which are frequently correlated to higher rates of comorbidities with poor outcomes. The literature reviewed here indicates that liver diseases are often related to vitamin disorders, due to both liver impairment and abnormal intake. M…

Vitaminmedicine.medical_specialtyPhysiologyReviewSpecific knowledgeChronic liver diseaseVitaminchemistry.chemical_compoundLiver diseaseVitamin deficiencymedicineMicronutrientAvitaminosiHumansVitamin E DeficiencyTX341-641Nutrition and DieteticsVitamin A DeficiencyNutrition. Foods and food supplybusiness.industryLiver DiseasesPublic healthMalnutritionNutritional Requirementschronic liver diseaseAvitaminosisvitamin supplementationVitamin D Deficiencyvitaminsmedicine.diseaseMicronutrientLiver TransplantationDietary RequirementschemistrymicronutrientsDietary SupplementsAscorbic Acid DeficiencyVitamin K DeficiencybusinessHumanFood ScienceNutrients
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Overview of methods used to evaluate the adequacy of nutrient intakes for individuals and populations

2009

The objective of the present paper is to review the methods of measuring micronutrient intake adequacy for individuals and for populations in order to ascertain best practice. A systematic review was conducted to locate studies on the methodological aspects of measuring nutrient adequacy. The results showed that for individuals, qualitative methods (to find probability of adequacy) and quantitative methods (to find confidence of adequacy) have been proposed for micronutrients where there is enough data to set an average nutrient requirement (ANR). If micronutrients do not have ANR, an adequate intake (AI) is often defined and can be used to assess adequacy, provided the distribution of dail…

breakfast consumptionPopulation levelDaily intakePopulationMedicine (miscellaneous)Institute of medicineEatingNutrientchildrenEnvironmental healthHumansMedicineMicronutrientsadolescentseducationVLAGHuman Nutrition & HealthGlobal Nutritiondietary-intakeWereldvoedingeducation.field_of_studyNutrition and Dieteticsbusiness.industryDietary intakeHumane Voeding & GezondheidNutritional RequirementsvitamindeterminantsNutrition SurveysMicronutrientmineral supplement useyoung-adultsDietBiotechnologyNutrition AssessmentDietary Reference Intakewomenbusinessnutritional-status
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On the problematic nature of vitamin E requirements: net vitamin E

1991

The requirement for vitamin E is closely related to the dietary intake of polyunsaturated fatty acids (PUFA). By the protective mechanism to prevent PUFA from being peroxidized, vitamin E is metabolically consumed. In addition, PUFA impair the intestinal absorption of vitamin E. Therefore PUFA generate an additional vitamin E requirement on the order of 0.6, 0.9, 1.2, 1.5, and 1.8 mg vitamin E (RRR-alpha-tocopherol-equivalents), respectively, for 1 g of dienoic, trienoic, tetraenoic, pentaenoic, and hexaenoic acid. For this reason, the gross vitamin E content of food containing PUFA does not allow an evaluation of this food as a source of vitamin E. A suitable measure is the net vitamin E c…

chemistry.chemical_classificationVitaminVitamin Emedicine.medical_treatmentDietary intakeNutritional Requirementsfood and beveragesMedicine (miscellaneous)Food composition dataMetabolismBiologyBiochemistryIntestinal absorptionchemistry.chemical_compoundDietary Fats UnsaturatedchemistryFatty Acids UnsaturatedmedicineHumansVitamin Elipids (amino acids peptides and proteins)Food scienceVitamin E deficiencyFood SciencePolyunsaturated fatty acidZeitschrift für Ernährungswissenschaft
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The metabolism and availability of essential fatty acids in animal and human tissues.

1994

Essential fatty acids (EFA), which are not synthesized in animal and human tissues, belong to the n-6 and n-3 families of polyunsaturated fatty acids (PUFA), derived from linoleic acid (LA, 18:2n-6) and alpha-linolenic acid (LNA, 18:3n-3). Optimal requirements are 3-6% of ingested energy for LA and 0.5-1% for LNA in adults. Requirements in LNA are higher in development. Dietary sources of LA and LNA are principally plants, while arachidonic acid (AA, 20:4n-6) is found in products from terrestrian animals, and eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) are found in products from marine animals. EFA are principally present in dietary triacylglycerols, which should be hydrolyze…

medicine.medical_specialtyAgingLinolenic acidLinoleic acidBiological AvailabilityBiologyIntestinal absorptionchemistry.chemical_compoundInternal medicine[SDV.BDD] Life Sciences [q-bio]/Development BiologymedicineAnimalsHumansNutritional Physiological Phenomena[SDV.BDLR] Life Sciences [q-bio]/Reproductive Biologychemistry.chemical_classificationFatty Acids EssentialNutritional Requirementsfood and beveragesMetabolismEicosapentaenoic acidDietary FatsHormones[SDV.AEN] Life Sciences [q-bio]/Food and NutritionEndocrinologyBiochemistrychemistryIntestinal AbsorptionDocosahexaenoic acidOrgan Specificitylipids (amino acids peptides and proteins)Arachidonic acidDigestionPolyunsaturated fatty acidReproduction, nutrition, development
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Leucine supplementation and intensive training.

1999

Leucine, isoleucine and valine, the branched-chain amino acids (BCAA), make up about one-third of muscle protein. Of these, leucine has been the most thoroughly investigated because its oxidation rate is higher than that of isoleucine or valine. Leucine also stimulates protein synthesis in muscle and is closely associated with the release of gluconeogenic precursors, such as alanine, from muscle. Significant decreases in plasma or serum levels of leucine occur following aerobic (11 to 33%), anaerobic lactic (5 to 8%) and strength exercise (30%) sessions. In skeletal muscle, there is a decrease in leucine level and a reduction in glycogen stores during exhaustive aerobic exercise. Basal fast…

medicine.medical_specialtyWeight LiftingStrength trainingPhysical Therapy Sports Therapy and RehabilitationProtein degradationSports MedicineValineEndurance trainingLeucineInternal medicinemedicineAerobic exerciseHumansOrthopedics and Sports MedicineMuscle SkeletalExerciseEssential amino acidchemistry.chemical_classificationChemistryNutritional RequirementsProteinsEndocrinologyProtein BiosynthesisDietary SupplementsPhysical EnduranceLeucineAnaerobic exerciseSports medicine (Auckland, N.Z.)
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