ABSTRACT
Objective: To develop and validate a new simple, accurate, precise and sensitive high performance liquid chromatographic method (HPLC) method for simultaneous estimation of ubidecarenone and vitamin E acetate in capsule dosage form as per international conference on harmonization (ICH) guidelines. Methods: The chromatographic separation of drugs were achieved using hypersil C8 column (250 mm x 4.6 mm, 5µ) in isocratic elution mode with a mobile phase of methanol: ethanol: n-hexane (80:10:10 v/v/v) at a flow rate of 1 ml/min with ultra-violet (UV) detection at 210 nm. Results: The optimized method produced sharp peaks with good resolution, minimum tailing factor and satisfactory retention time were found to be 5.745 min and 12.565 min for vitamin E acetate and ubidecarenone respectively. The method was linear in the range of 60-180 µg/ml for ubidecarenone and 20-60 µg/ml for vitamin E acetate with a correlation coefficient of 0.999 and 0.9993 respectively. Mean recoveries observed for ubidecarenone and vitamin E acetate were 99.85% and 99.73% respectively. The percentage relative standard deviation (% RSD) of peak area for system precision, method precision, and intermediate precision were found to be less than 0.37%. The lower degree of % RSD obtained has proved that the method was precise and robust. Conclusion: A new simple HPLC method was developed and validated as per ICH guidelines for the simultaneous estimation of ubidecarenone and vitamin E acetate and the method can be effectively applied for the routine analysis of active pharmaceutical ingredient (API) and formulations.
ABSTRACT
The Norwegian Scientific Committee for Food Safety (Vitenskapskomiteen for mattrygghet, VKM) has, at the request of the Norwegian Food Safety Authority (Mattilsynet; NFSA), assessed the risk of "other substances" in food supplements and energy drinks sold in Norway. VKM has assessed the risk of doses given by NFSA. These risk assessments will provide NFSA with the scientific basis while regulating the addition of “other substances” to food supplements and other foods. "Other substances" are described in the food supplement directive 2002/46/EC as substances other than vitamins or minerals t hat have a nutritional and/or physiological effect. It is added mainly to food supplements, but also to energy drinks and other foods. In this series of risk assessments of "other substances", VKM has not evaluated any potential beneficial effects from these substances, only possible adverse effects. The present risk assessment of coenzyme Q10 (CoQ10) is based on previous risk assessments and articles retrieved from a literature search. According to information from NFSA, CoQ10 is an ingredient in food supplements sold in Norway. NFSA has requested a risk assessment of intake of 100 mg/day of CoQ10 in food supplements. CoQ10 (CAS no. 303-98-0) is a naturally-occurring, lipid-soluble compound present in all tissues in humans. Ubiquinone is the totally oxidized form (CoQ10), whereas ubiquinol (CoQ10H2) is the totally reduced form. Meat and fish are the food sources richest in CoQ10. CoQ10 intake from the diet ranges between 3 and 6 mg/day in developed countries. The total body pool of CoQ10 is estimated to be approximately 0.5–1.5 g in an adult. Several studies of CoQ10 (both oxidized and reduced form) have been performed in healthy humans (adults) and animals, showing fairly similar results. The adverse effects reported in a small number of human subjects were generally limited to mild gastrointestinal symptoms such as nausea and stomach upset. In humans, orally ingested CoQ10 was well tolerated at doses up to 900 mg/day (corresponding to 12.9 mg/kg bw per day in a 70 kg adult) over periods up to one month. With regard to animal studies, the lack of adverse effects of CoQ10 doses up to 1200 mg/kg per day in long-term toxicity studies supported and extended the results from the human studies. No studies on children (10 to <14 years) and adolescents (14 to <18 years) were identified. Based on the included literature there was no evidence indicating that age affects tolerance for CoQ10. Therefore, in this risk characterisation the same tolerance as for adults was assumed for these age groups (adjusted for body weight). From a daily dose of 100 mg CoQ10, the daily exposure is 2.3 mg/kg bw for children (10 to <14 years), 1.6 mg/kg bw for adolescents (14 to <18 years), and 1.4 mg/kg bw for adults (≥18 years). For the risk characterization, the values used for comparison with the estimated exposure are 900 mg/day (corresponding to 12.9 mg/kg bw per day in a 70 kg adult) based on human studies (4 weeks) and the no observed adverse effect level (NOAEL) of 1200 mg/kg bw per day based on a long-term toxicity study in rats (52 weeks). The margin of exposure (MOE) approach is used for the rat study; that is the ratio of the NOAEL to the exposure. An acceptable MOE value for a NOAEL-based assessment of CoQ10 based on an animal study is ≥100, which includes a factor 10 for extrapolation from animals to humans, and a factor 10 for interindividual human variation. Comparing the NOAEL from a long-term toxicity study in rats with the estimated exposure for the different age groups, it is unlikely that a daily dose of 100 mg/day of CoQ10 causes adverse health effects in children above 10 years, adolescents and adults. Comparing the dose reported to be well tolerated for healthy adults directly with the estimated exposure, it is unlikely that a daily dose of 100 mg/day of CoQ10 causes adverse health effects in children above 10 years, adolescents and adults. VKM concludes that it is unlikely that a daily dose of 100 mg of CoQ10 from food supplements causes adverse health effects in children (10 to <14 years), adolescents (14 to <18 years) and adults (≥18 years).