Rainer Ziegenhagen scite author profile

The flavonoid quercetin is frequently found in low amounts as a secondary plant metabolite in fruits and vegetables. Isolated quercetin is also marketed as a dietary supplement, mostly as the free quercetin aglycone, and frequently in daily doses of up to 1000 mg d -1 exceeding usual dietary intake levels. The present review is dedicated to safety aspects of isolated quercetin used as single compound in dietary supplements. Among the numerous published human intervention studies, adverse effects following supplemental quercetin intake have been rarely reported and any such effects were mild in nature. Published adequate scientific data for safety assessment in regard to the long-term use (>12 weeks) of high supplemental quercetin doses (ࣙ1000 mg) are currently not available. Based on animal studies involving oral quercetin application some possible critical safety aspects could be identified such as the potential of quercetin to enhance nephrotoxic effects in the predamaged kidney or to promote tumor development especially in estrogen-dependent cancer. Furthermore, animal and human studies with single time or short-term supplemental quercetin application revealed interactions between quercetin and certain drugs leading to altered drug bioavailability. Based on these results, some potential risk groups are discussed in the present review.

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Creatine and creatine forms intended for sports nutrition

Andres

Ziegenhagen

Trefflich

et al. 2017

Molecular Nutrition Food Res

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Creatine is a popular ergogenic supplement in sports nutrition. Yet, supplementation of creatine occasionally caused adverse effects such as gastrointestinal complaints, muscle cramps and an increase in body weight. Creatine monohydrate has already been evaluated by different competent authorities and several have come to the conclusion that a daily intake of 3 g creatine per person is unlikely to pose safety concerns, focusing on healthy adults with exclusion of pregnant and breastfeeding women. Possible vulnerable subgroups were also discussed in relation to the safety of creatine. The present review provides an up-to-date overview of the relevant information with special focus on human studies regarding the safety of creatine monohydrate and other marketed creatine forms, in particular creatine pyruvate, creatine citrate, creatine malate, creatine taurinate, creatine phosphate, creatine orotate, creatine ethyl ester, creatine pyroglutamate, creatine gluconate, and magnesium creatine chelate. Limited data are available with regard to the safety of the latter creatine forms. Considering an acceptable creatine intake of 3 g per day, most of the evaluated creatine forms are unlikely to pose safety concerns, however some safety concerns regarding a supplementary intake of creatine orotate, creatine phosphate, and magnesium creatine chelate are discussed here.

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Dietary Manganese Exposure in the Adult Population in Germany—What Does it Mean in Relation to Health Risks?

Sachse

Kolbaum

Ziegenhagen

et al. 2019

Molecular Nutrition Food Res

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Manganese is both an essential nutrient and a potential neurotoxicant. Therefore, the question arises whether the dietary manganese intake in the German population is on the low or high side. Results from a pilot total diet study in Germany presented here reveal that the average dietary manganese intake in the general population in Germany aged 14–80 years is about 2.8 mg day−1 for a person of 70 kg body weight. This exposure level is within the intake range of 2–5 mg per person and day as recommended by the societies for nutrition in Germany, Austria, and Switzerland. No information on the dietary exposure of children in Germany can be provided so far. Although reliable information on health effects related to oral manganese exposure is limited, there is no indication from the literature that these dietary intake levels are associated with adverse health effects either by manganese deficiency or excess. However, there is limited evidence that manganese taken up as a highly bioavailable bolus, for example, uptake via drinking water or food supplements, could pose a potential risk to human health—particularly in certain subpopulations—when certain intake amounts, which are currently not well defined, are exceeded.

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Phytochemical compounds in sport nutrition: Synephrine and hydroxycitric acid (HCA) as examples for evaluation of possible health risks

Bakhiya

Ziegenhagen

Hirsch‐Ernst

et al. 2017

Molecular Nutrition Food Res

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Numerous food supplements contain phytochemical compounds as active ingredients. Although such supplements are often perceived by consumers as being risk‐free, the safety of many of them is currently uncertain. The present review provides two examples for risk assessment for phytochemical ingredients that are used in certain supplements marketed for sportspeople—synephrine (extracted from fruits of Citrus aurantium) and hydroxycitric acid (HCA, isolated from fruits of Garcinia cambogia). Animal and human studies, as well as case reports, provide evidence for cardiovascular effects due to ingestion of high synephrine doses, especially in combination with caffeine and physical exertion. A dose of up to 6.7 mg synephrine/day, however, which is equivalent to the median dietary intake from conventional foods in Germany, is presumed to represent a safe intake from supplements. In subchronic animal studies, administration of high doses of certain HCA‐containing preparations led to testicular toxicity (i.e., testicular atrophy and impaired spermatogenesis), yielding a no observed adverse effect level of 389 mg HCA/kg bw/day. In view of lack of adequate human data on the safety of HCA preparations, particularly with respect to the human male reproductive system, substantial uncertainties exist regarding the safety of supplements containing high amounts of HCA.

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Position of the working group sports nutrition of the German Nutrition Society (DGE): minerals and vitamins in sports nutrition

Carlsohn¹,

Braun²,

Großhauser³

et al. 2020

Dtsch Z Sportmed

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