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In order to enhance the effects of training and improve performance, athletes often turn to nutritional supplements. According to the American College of Sports Medicine (ACSM), adequate selection of nutrients and supplements, adjusting intake according to the exercise performed, is necessary for optimal performance in athletes. The most recent consensus from the International Society for Sport Nutrition (ISSN), The American Dietetic Association (ADA) and ACSM on sport nutrition have been reviewed by Potgieter, stating that a single guideline is not sufficient to elaborate an individualized and focused nutritional management of athletes. Moreover, apart from the abovementioned guidelines, sport-specific nutritional strategies, including quantity, structure and timing of food (or supplement) intake should also be followed in order to maximize sports performance and recovery. The importance of dietary supplementation is of particular interest in swimming, where athletes usually undertake a training approach characterized by a high volume of training during aerobic development and high intensity training during the competition phase, coupled with strength training.
The size and market value of the sports supplement industry is continuing to grow, with health, safety and contamination concerns becoming more pressing. Therefore, it is important to identify dietary supplements that are safe and effective in supporting swimmers. Rice germ could be a safe and effective dietary supplement for swimmers. In the last few years, scientific research is trying to use waste rice products in the pharmaceutical and nutraceutical fields, considering the potential value of nutrients they contain. In particular, rice germ has a high protein and essential amino acids, such as lysine, histidine and valine content, a good lipid content (with prevalence of mono- unsaturated and polyunsaturated fatty acids - in particular linoleic and linolenic essential fatty acids and oleic acid), an high fiber presence; regarding water-soluble vitamins, rice germ has high content if thiamine (B1) and pyridoxine (B6), while vitamin E prevails for liposoluble vitamins. About minerals, are most present iron and magnesium. All these nutrients play important roles in maintaining the health of athletes. Currently, despite these characteristics, no study has evaluated the potential beneficial effect of RG supplementation on athletes. Given this background, the purpose of this investigation was to ascertain whether performance in swimmers could be improved by a 5-weeks of RG supplementation.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Rice Germ | Experimental | The Rice Germ was supplied in vacuum jars of a weight of 130 grams. These jars once opened, were stored in the refrigerator (-3-4°C). Together with cans, small containers were provided to act as dosers and served to determine the correct dose to be taken (25 grams, twice a day). The rice germ or placebo were continually taken every day twice a day (25 grams in the morning with breakfast and 25 grams in the afternoon as snacks) for 5 weeks. The rice germ was supplied by the company "Acquerello" (TenutaColombara, Livorno Ferraris, Vercelli, Italy). |
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| Control group | Active Comparator | Active comparator, which consisted of an isocaloric wheat germ-based supplement. Characteristics of supplementation are the same of experimental group. |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Rice germ | Dietary Supplement | 25 g twice a day. |
| |
| Wheat-based supplement |
| Measure | Description | Time Frame |
|---|---|---|
| Performance change | Whether the performance in 50m, 200m, is improved in a 25m swimming pool in front crawl at maximal speed. Performance measured in seconds. | At baseline and after 5 weeks of supplementation |
| Lactic acid production change | Capillary blood samples were collected from the fingertip before and after each swimming (at the 1st and 3rdmin of recovery) to access the higher values of blood lactate concentration (AccutrendLactate®Roche, Germany). | At baseline and after 5 weeks |
| Measure | Description | Time Frame |
|---|---|---|
| Antropometric measures change (skinfolds) | skinfolds thicknesses (mm) (biceps, triceps, suprailiac, subscapular), measured twice using a Harpenden skinfold caliper at 5 min intervals at each site | At baseline and after 5 weeks of supplementation |
| Body weight change (kg) |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Mariangela Rondanelli, MD, PhD, Professor | Mariangela Rondanelli, IRCCS Mondino Foundation, Pavia | Study Director |
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| Dietary Supplement |
25g twice a day. |
|
Change in body weight (kg). |
| At baseline and after 5 weeks of supplementation |
| Antropometric measures change (circumferences) | Waist circumference (cm), hip circumference (cm), mid-arm circumference (cm). | At baseline and after 5 weeks of supplementation |
| Change in Total fat mass, total free fat mass and visceral adipose tissue (DXA) | Body composition by dual-energy X-ray absorptiometry (DXA). Body composition was measured at baseline by DXA, using a Lunar Prodigy DEXA (GE Medical Systems, Waukesha, WI). Free Fat mass, Fat mass and visceral fat (kg) data were derived from DXA using the DXA Prodigy enCORE software (version 17; GE Healthcare). | At baseline and after 5-weeks of supplementation |
| Body composition parameters change (BIVA) | Body composition analyzed with BIVA: free fat mass, fat mass, body cellular mass change (kg). | At baseline and after 5-weeks of supplementation |
| Hydration parameters change (BIVA) | Hydration analyzed with BIVA: total body water, extracellular water, intracellular water change (L) | At baseline and after 5-weeks of supplementation |
| Registration of adverse effects | Adverse effects recorded, through phone call | After 7 days, 14 days, 21 days, 28 days from baseline and after 5 weeks. |
| Muscle function change | The JAMAR Hand Dynamometer (Jamar 5030J1; Sammons Preston Rolyan; accuracy 0.6 N) was used to assess muscle function with the use of a standardized procedure(Spijkerman, Dorine C., Snijders, Chris J., Stijnen, Theo, & Lankhorst 1991). Handgrip measured in kilograms. | At baseine and after 5 weeks. |