Fish Nutrient Supplementation in High-intensity Functional Training

Not Applicable

Completed

• Conditions: Dietary Supplements; Exercise Training
• Interventions: Dietary Supplement: Fish nutrients; Dietary Supplement: Whey protein; Dietary Supplement: Maltodextrin

• Registration Number: NCT05402527
• Lead Sponsor: Aristotle University Of Thessaloniki

Brief Summary

Nowadays, many persons who exercise consume dietary supplements. Previous scientific studies have found that protein supplementation increases muscle mass when combined with an exercise program. In addition, vitamin D probably improves performance and muscle function. Likewise, ω3 fatty acids, apart from improving cardiovascular function, may also increase protein synthesis and performance. Thus, the aim of this study is to investigate the efficacy of a novel aquaculture-based sport supplement of proteins, ω3 fatty acids and vitamin D on physical performance, body composition, and the biochemical profile of persons following high-intensity functional training (HIFT). The efficacy of the experimental supplement (E) will be compared with whey protein (W) and maltodextrin (a carbohydrate) as placebo (P).

Thirty healthy trained individuals (15 male and 15 female), aged 18-35, will take E, W, and P during three 6-week periods of HIFT (a different supplement each period) with three workouts a week and a washout (no supplement) period of 2 weeks between supplementation periods. E is a combination of powder, containing protein and vitamin D, and capsules containing ω3 fatty acids. When on E, participants will receive 0.6 g protein/kg body weight, 20 μg vitamin D, and 1.8 g ω3 fatty acids daily. When on W, they will receive 0.6 g protein/kg body weight and, when on P, they will receive 0.6 g maltodextrin/kg body weight daily. The order of E, W, and P will be random and counterbalanced. Throughout the study, participants will be on isoenergetic nutritional plans to avoid differences in energy intake that might compromise the validity of the study. The dietary plans will be individualized and will provided 1.0 g protein/kg body weight/day.

Participants will undergo measurements of muscle strength, muscle endurance, aerobic capacity, and body composition prior to the first supplementation period, between periods, and after the third period. Also, blood amino acids, fatty acid acids, vitamin D, hematology, biochemistry, and hormones will be measured. To avoid bias, assessors will not know which supplement each participant is taking during each period.

The main hypotheses of the study are: 1) Consumption of E will increase lean body mass compared to W and P; 2) consumption of E will improve muscle strength, muscle endurance, and aerobic capacity compared to W and P; and 3) consumption of E will result in a better blood amino acid, fatty acid, and vitamin D profile.

Detailed Description

Not available

Study Timeline

• Study Start: 2021-11-08
• Study First Submitted: 2022-04-22
• Study First Submitted QC: 2022-05-31
• Study First Posted: 2022-06-02
• Primary Completion: 2023-03-31
• Study Completion: 2023-09-30
• Status Verified: 2023-10
• Last Update Submitted: 2023-10-03
• Last Update Posted: 2023-10-05

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 25

Inclusion Criteria

• Regular training (mixed endurance and resistance training 3-6 times a week, 50 min each session, for the past 4-6 months) as assessed by gym records or questionnaires.
• Clearance from a pathologist or cardiologist to perform maximal exercise.
• Mixed isoenergetic diet for the past 4-6 months.

Exclusion Criteria

• Smoking (even one cigarette or nicotine-containing device over the past 6 months).
• Any injuries to the musculoskeletal system that could interfere with the execution of training.
• Chronic disease.
• Fish or oyster allergy.
• Milk allergy.
• Pregnancy, lactation or planning a pregnancy within the duration of the study.
• Regular use of prescription medicine or supplements that might affect muscle function or recovery over the past month.
• Intermittent or religious fasting.
• Any vegetarian, ketogenic and protein diet.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Fish nutrients - Whey protein - Maltodextrin	Whey protein	Participants will receive fish nutrients, whey protein, and maltodextrin in this order.
Fish nutrients - Whey protein - Maltodextrin	Maltodextrin	Participants will receive fish nutrients, whey protein, and maltodextrin in this order.
Fish nutrients - Maltodextrin - Whey protein	Maltodextrin	Participants will receive fish nutrients, maltodextrin, and whey protein in this order.
Whey protein - Fish nutrients - Maltodextrin	Whey protein	Participants will receive whey protein, fish nutrients, and maltodextrin in this order.
Whey protein - Fish nutrients - Maltodextrin	Maltodextrin	Participants will receive whey protein, fish nutrients, and maltodextrin in this order.
Maltodextrin - Whey protein - Fish nutrients	Whey protein	Participants will receive maltodextrin, whey protein, and fish nutrients in this order.
Whey protein - Maltodextrin - Fish nutrients	Fish nutrients	Participants will receive whey protein, maltodextrin, and fish nutrients in this order.
Whey protein - Maltodextrin - Fish nutrients	Whey protein	Participants will receive whey protein, maltodextrin, and fish nutrients in this order.
Maltodextrin - Whey protein - Fish nutrients	Fish nutrients	Participants will receive maltodextrin, whey protein, and fish nutrients in this order.
Fish nutrients - Maltodextrin - Whey protein	Fish nutrients	Participants will receive fish nutrients, maltodextrin, and whey protein in this order.
Fish nutrients - Whey protein - Maltodextrin	Fish nutrients	Participants will receive fish nutrients, whey protein, and maltodextrin in this order.
Whey protein - Fish nutrients - Maltodextrin	Fish nutrients	Participants will receive whey protein, fish nutrients, and maltodextrin in this order.
Fish nutrients - Maltodextrin - Whey protein	Whey protein	Participants will receive fish nutrients, maltodextrin, and whey protein in this order.
Whey protein - Maltodextrin - Fish nutrients	Maltodextrin	Participants will receive whey protein, maltodextrin, and fish nutrients in this order.
Maltodextrin - Fish nutrients - Whey protein	Maltodextrin	Participants will receive maltodextrin, fish nutrients, and whey protein in this order.
Maltodextrin - Fish nutrients - Whey protein	Fish nutrients	Participants will receive maltodextrin, fish nutrients, and whey protein in this order.
Maltodextrin - Fish nutrients - Whey protein	Whey protein	Participants will receive maltodextrin, fish nutrients, and whey protein in this order.
Maltodextrin - Whey protein - Fish nutrients	Maltodextrin	Participants will receive maltodextrin, whey protein, and fish nutrients in this order.

Primary Outcome Measures

Name	Time	Method
Plasma amino acid profile post-supplementation	Within 2 days after the end of supplementation.	Plasma amino acid profile (that is, the concentration of each individual amino acid) will be determined by liquid chromatography - mass spectrometry.
Plasma amino acid profile pre-supplementation	Within 2 days before the beginning of supplementation.	Plasma amino acid profile (that is, the concentration of each individual amino acid) will be determined by liquid chromatography - mass spectrometry.
Whole-blood fatty acid profile pre-supplementation	Within 2 days before the beginning of supplementation.	Whole-blood fatty acid profile (that is, the concentration of each individual fatty acid) will be determined by gas chromatography.
Whole-blood fatty acid profile post-supplementation	Within 2 days after the end of supplementation.	Whole-blood fatty acid profile (that is, the concentration of each individual fatty acid) will be determined by gas chromatography.
Maximal dynamic strength of shoulder muscles post-supplementation	Within 2 weeks after the end of supplementation.	Maximal dynamic strength of shoulder muscles will be assessed by measurement of one-repetition maximum.
Lean and fat mass post-supplementation	Within 2 weeks after the end of supplementation.	Lean and fat mass of the whole body and its parts (trunk, legs and arms) will be assessed by dual X-ray absorptiometry.
Maximal dynamic strength of shoulder muscles pre-supplementation	Within 2 weeks before the beginning of supplementation.	Maximal dynamic strength of shoulder muscles will be assessed by measurement of one-repetition maximum.
Force-velocity relationship of knee flexors and extensors post-supplementation	Within 2 weeks after the end of supplementation.	Force-velocity relationship of knee flexors and extensors will be assessed in isokinetic dynamometer.
Force-velocity relationship of knee flexors and extensors pre-supplementation	Within 2 weeks before the beginning of supplementation.	Force-velocity relationship of knee flexors and extensors will be assessed in isokinetic dynamometer.
Aerobic fitness post-supplementation	Within 2 weeks after the end of supplementation.	Aerobic fitness will be assessed by measurement of maximal oxygen uptake through a maximal graded exercise test on treadmill.
Lean and fat mass pre-supplementation	Within 2 weeks before the beginning of supplementation.	Lean and fat mass of the whole body and its parts (trunk, legs and arms) will be assessed by dual X-ray absorptiometry.
Aerobic fitness pre-supplementation	Within 2 weeks before the beginning of supplementation.	Aerobic fitness will be assessed by measurement of maximal oxygen uptake through a maximal graded exercise test on treadmill.

Secondary Outcome Measures

Name	Time	Method
Muscle endurance pre-supplementation	Within 2 weeks before the beginning of supplementation.	Muscle endurance will be assessed by performing multiple sit-ups, knee flexions and knee extensions.
Biochemical analyses post-supplementation	Within 2 days after the end of supplementation.	Plasma glucose, triacylglycerols, total cholesterol, HDL cholesterol, LDL cholesterol, urea, and creatinine (all in mg/dL) will be measured by chemiluminescence in an automated analyzer.
Plasma enzymes post-supplementation	Within 2 days after the end of supplementation.	Creatine kinase and γ-glutamyltransferase (both in U/L) will be measured by chemiluminescence in an automated analyzer.
Hormonal analyses pre-supplementation	Within 2 days before the beginning of supplementation.	Plasma cortisol and testosterone (both in μg/dL) will be measured by immunoluminescence in an automated analyzer.
Plasma vitamin D concentration pre-supplementation	Within 2 days before the beginning of supplementation.	Vitamin D will be measured by liquid chromatography - mass spectrometry.
Plasma vitamin D concentration post-supplementation	Within 2 days after the end of supplementation.	Vitamin D will be measured by liquid chromatography - mass spectrometry.
Full blood count post-supplementation	Within 2 days after the end of supplementation.	Full blood count will be performed by flow cytometry.
Hormonal analyses post-supplementation	Within 2 days after the end of supplementation.	Plasma cortisol and testosterone (both in μg/dL) will be measured by immunoluminescence in an automated analyzer.
Muscle endurance post-supplementation	Within 2 weeks after the end of supplementation.	Muscle endurance will be assessed by performing multiple sit-ups, knee flexions and knee extensions.
Force-velocity relationship of shoulder muscles pre-supplementation	Within 2 weeks before the beginning of supplementation.	Force-velocity relationship of shoulder muscles will be assessed by a linear encoder.
Force-velocity relationship of shoulder muscles post-supplementation	Within 2 weeks after the end of supplementation.	Force-velocity relationship of shoulder muscles will be assessed by a linear encoder.
Full blood count pre-supplementation	Within 2 days before the beginning of supplementation.	Full blood count will be performed by flow cytometry.
Biochemical analyses pre-supplementation	Within 2 days before the beginning of supplementation.	Plasma glucose, triacylglycerols, total cholesterol, HDL cholesterol, LDL cholesterol, urea, and creatinine (all in mg/dL) will be measured by chemiluminescence in an automated analyzer.
Plasma enzymes pre-supplementation	Within 2 days before the beginning of supplementation.	Creatine kinase and γ-glutamyltransferase (both in U/L) will be measured by chemiluminescence in an automated analyzer.
Internal load of exercise pre-supplementation	Within the first week of supplementation.	The internal load of exercise will be assessed by telemetric heart rate sensors and software.
Internal load of exercise post-supplementation	Within the last week of supplementation (week 6).	The internal load of exercise will be assessed by telemetric heart rate sensors and software.

Trial Locations

Locations (1)

Laboratory of Evaluation of Human Biological Performance; 🇬🇷 Thessaloniki, Greece