16 Clinical Trials for Various Conditions
Pneumonia is a major public health problem for the elderly and is one of the leading causes of hospitalization and death for this population, particularly for elderly nursing home residents. This planning grants seeks to establish a safe and effective dose of zinc supplementation with the goal to conduct a larger randomized clinical trial to study the effect of zinc supplementation in nursing home elderly with low serum zinc levels on the risk, antibiotic use, and duration of sick days with pneumonia. This project has significant potential to positively impact the health and quality of life in the elderly and to reduce the economic costs associated with their care.
The objective of the current study is to test the overarching hypothesis that the beef nutritive matrix is uniquely suited to direct dietary zinc to cellular compartments for improved metabolic function, leading to a greater effect on health outcomes. Specifically, whether beef, as a component of a healthy meal, will promote the absorption of zinc into cells, where the zinc will have greater effects on zinc-dependent metabolic processes supporting cardiovascular health. To maximize the observability of these beef-related effects, individuals who are 55- to 70-year-old who generally have a higher risk of zinc deficiency and cardiovascular disease will be enrolled.
The purpose of this study is to determine the influence of food consumption timing on the body's response to a zinc supplement
The specific aim of this protocol is to examine differential expression of specific mRNAs and proteins that occur when the dietary intake of zinc is acutely reduced below the dietary requirement for a period of ten days.
To study the effect of short-term zinc supplementation on improving inflammation, metabolic, and cardiovascular risk among HIV infected patients on stable anti-retroviral therapy
The purpose of this study is to determine whether a 30 day beef intervention can improve peak cognitive performance in young, normally menstruating adult women. The control group will consume a daily portion of macronutrient equivalent vegetable source of protein.
The overall objective is to determine the impact of EED on zinc absorption and homeostasis, and its impact on the absorptive capacity of vitamin A absorption of young children (18-24 months of age) in an austere setting with high rates of diarrhea, stunting, and micro-nutrient deficiencies.
The overall objective is to determine the impact of EED on total daily zinc absorption of young Bangladeshi children (18-24 months of age) in an austere setting with high rates of diarrhea, stunting, and micro-nutrient deficiencies..
The purpose of the study is to evaluate the safety and feasibility of administering SB-728mR-HSPC after conditioning with busulfan.
The objective of this study is to compare the quantity of Zn absorbed from an accurately weighed quantity (\~100 g) of minimally milled control maize (\~15 µg Zn/g maize), from biofortified maize (\~30 µg Zn/g) and from the same control maize that has been fortified (total level of \~60 µg Zn/g) when fed to young children age 24-36 months whose major habitual food staple is maize.
Bioavailability of iron and zinc from habitual plant-based diets consumed by young children in Mexico is low due to the high phytate content. Whey protein has been found to increase zinc absorption, thus, providing a whey based supplement with micronutrients may be an effective strategy to increase iron and zinc bioavailability from plant-based foods and alleviate iron and zinc deficiencies. The investigators compared absorption of zinc and iron in children receiving diets with and without whey protein supplements (WPS).
Young children in Guatemala are at risk for nutrient deficiencies due to plant-based diets and poor sanitation. Stunting, frequent diarrhea, and respiratory infections are common. Supplementation of Zn to children during diarrhea episodes has been shown to diminish duration and severity of illness. Poor Zn absorption due to high fiber and phytate in this diet might play a role in these processes. Supplementation of this micronutrient in the diet might be beneficial. The investigators will compare absorption of Zn from white maize tortillas enriched with 20% amaranth to traditional white corn tortillas in preschool children in Guatemala.
Populations who consume non-fortified plant-based diets are at increased risk of iron and zinc deficiencies. The purpose of this randomized controlled study is to determine the absorption of iron and zinc from pearl millet biofortified with these two micronutrients. Forty children aged 2 years in Kanartaka, India are randomized to consume biofortified pearl millet (Group 1) or control pearl millet (Group 2) for two days. Quantities of zinc and iron absorbed are measured with established stable isotope extrinsic labeling techniques and analyses of duplicate diets.
Many older adults do not get enough zinc, vitamin C and vitamin D, and this can be related to decreased ability to fight infection. The purpose of this research study is to determine if taking a multivitamin/mineral supplement every day for 12 weeks will increase the ability of immune cells in blood to kill bacteria.
The investigators propose to study the effects of increased iron intake by home fortification of complementary foods on the gastrointestinal microbial development, inflammatory responses, and zinc (Zn) absorption. The proposed subjects are 9 month olds living in a malaria endemic area of rural Kenya who are randomized at 6 months of age to one of three fortificant groups: 1) Sprinkles™ with 12mg Iron(Fe)/day + other micronutrients, including 5mg/d Zn (test); Sprinkles™ with 0 mg/d Fe + other micronutrients, including 5mg/d Zn (control); Sprinkles™ with no micronutrients (placebo). The investigators hypothesize that the microbiome will be significantly different in the three groups and that Zn absorption and status, in addition to immune and oxidant status will be improved in the non-Fe fortified groups when compared to the Fe-fortified group.
Inadequate feeding of infants and toddlers impairs physical and cognitive development and is a major contributor to early childhood infectious disease illnesses and preventable mortality. Optimal feeding has two broad components: Exclusive breast feeding (EBF) for the first-6 months followed by continued breast feeding accompanied by complementary foods (CF) that is adequate in quantity and quality. While EBF is theoretically straightforward, CF is more complex. This is because CF is typically limited mainly or entirely to plant-based foods in developing countries worldwide. Dependence on adequate, affordable locally-produced foods for complete CF requires an inexpensive, regular source of meat especially to provide 'problem' micronutrients, notably, but not only, zinc and bioavailable iron. While the use of micronutrient-fortified CF and of supplements, including SprinklesTM, is spreading, their efficacy largely remains uncertain as does their availability, particularly on a sustainable, affordable basis Achievement of the widespread regular use of meat as a CF requires: (1) adequate local production of affordable small scavenging/foraging animals in poor rural and, where feasible, periurban communities worldwide; (2) effective communication for behavioral change/education so that young children, starting at age 6 months (when meat is readily accepted by infants), receive priority in the use of this meat. Solid scientific evidence of the value of international/national programs to achieve this goal is essential to provide the basis and incentive for major international and national programs to promote the feeding of meat as an early and regular CF. The acquisition of such evidence is the goal of this study The intervention to be evaluated is meat fed daily as a complementary food from age 6-18 months. Thirty infants-toddlers in each of 60 rural communities (total of 1,800 subjects) will participate. In a cluster design, twenty communities (test) will be randomized to receive meat,twenty communities (control) will receive a plant recipe providing the same amount of calories, twenty communities (fortified cereal) will receive a commercially available fortified cereal providing the same amount of calories. This project will be located in rural China in a county where high quality collaboration is already established, and where we have recently demonstrated inadequate bioavailable zinc intake and zinc deficiency in toddlers. We have also found a high (30%) incidence of stunting, now widely used as an indirect indicator of populations with zinc deficiency. Other advantages of this location include the willingness of doctors located in each rural community to provide the test or control meal 7 days per week in their homes and the absence of any access to supplements / fortified products which could complicate interpretation of data. The young children in the test communities will receive certified safe lean pork 7 days per wk. Starting with a very small quantity at 6 months, the quantity of lean pork will be increased as infants are ready to take more up to a plateau of 2 oz/d. No subsequent increases are planned because neither zinc nor iron requirements increase from 6-11 months to 12-18 months. Lean pork will be used because pigs are ubiquitous in China and can be maintained cheaply by scavenging/foraging on waste materials adjacent to human habitation. Test and control clusters will also receive nutrition education to achieve maximal diversification of locally available affordable foods. Longitudinal outcome measures include indices of physical growth, especially length; infectious disease incidence and prevalence; cognitive development; zinc and iron intake and biomarkers for these and other micronutrients. Zinc absorption will be measured. Data will flow daily from communities to the district hospital in Xi-Chou, weekly to the data manager in Shanghai and 3-monthly to the Data Monitoring Safety Board (DSMB) and to the University of Colorado research group.