Effect of a Nutritional Supplement on Muscle Recovery (RECOVER)
2026年5月7日 更新者:Marlou Dirks、Wageningen University
The Role of a Nutritional Formulation Containing Caprylic Acid and Omega 3 Fatty Acids in Promoting Skeletal Muscle Function Recovery to Damaging Exercise in Healthy, Young Volunteers
The aim is to develop a food supplement drink that supports muscle health by combining specific fatty acids, which can positively affect metabolic and inflammation processes that are important for muscle health.
研究概览
地位
招聘中
条件
详细说明
This study will assess the effects of a vegan nutritional formulation containing caprylic acid and omega-3 fatty acids on recovery from muscle-damaging exercise.
The goal is to determine whether this supplement can mitigate muscle damage, reduce inflammation, and accelerate functional recovery, thereby supporting long-term muscle health and functional independence.
This research has the potential to reveal a novel approach to muscle health management, contributing to the development of safe and effective nutritional strategies that support healthy aging.
研究类型
介入性
注册 (估计的)
28
阶段
- 不适用
联系人和位置
本节提供了进行研究的人员的详细联系信息,以及有关进行该研究的地点的信息。
学习联系方式
- 姓名:Silvie Timmers, PhD
- 电话号码:+31 317-484 136
- 邮箱:silvie.timmers@wur.nl
学习地点
-
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Gelderland
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Wageningen、Gelderland、荷兰、6708WD
- 招聘中
- Wageningen University and Research
-
接触:
- Human and Animal Physiology
- 电话号码:+31317484136
- 邮箱:office.hap@wur.nl
-
-
参与标准
研究人员寻找符合特定描述的人,称为资格标准。这些标准的一些例子是一个人的一般健康状况或先前的治疗。
资格标准
适合学习的年龄
- 成人
接受健康志愿者
是的
描述
Inclusion Criteria:
- Young (≥18 and ≤35 years)
- Male sex
- Non-obese (≥18.5 and ≤27.5 kg/m2)
- Recreationally active (performing non-competitive exercise at least one time a week for minimally 30 minutes)
Exclusion Criteria:
- Smoking
- Participation in structural exercise with a major eccentric component (e.g. soccer, basketball, trail running, etc…)
- Chronic use of any prescribed over the counter pharmaceuticals
- Any history of medical or surgical events that may effect the study outcomes
- Following a specific diet (e.g. weight loss, ketogenic, vegan)
- Taking protein supplements
学习计划
本节提供研究计划的详细信息,包括研究的设计方式和研究的衡量标准。
研究是如何设计的?
设计细节
- 主要用途:其他
- 分配:随机化
- 介入模型:并行分配
- 屏蔽:单身的
武器和干预
参与者组/臂 |
干预/治疗 |
|---|---|
|
实验性的:Testdrink
Drink containing caprylic acid and omega-3 fatty acids
|
Seven day supplementation with a muscle damaging exercise performed on day four
|
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安慰剂比较:Control drink
Control drink that differs in fatty acid composition
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Seven day supplementation with a muscle damaging exercise performed on day four
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研究衡量的是什么?
主要结果指标
结果测量 |
措施说明 |
大体时间 |
|---|---|---|
|
Change in isometric muscle strength of the vastus lateralis muscle on a muscle dynamometer before and 72h after damaging exercise
大体时间:The change in muscle strength will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
The main study endpoint is the change in skeletal muscle function recovery from a single bout of damaging eccentric exercise between an emulsion containing caprylic acid and omega 3 fatty acids, compared to a control emulsion, from before exercise (t=0) to 72 hours post-exercise.
Skeletal muscle function will be measured as maximal voluntary isometric muscle strength of the vastus lateralis muscle on a muscle dynamometer.
The maximal voluntary strength is expressed as maximal voluntary contraction (Newtons).
|
The change in muscle strength will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
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次要结果测量
结果测量 |
措施说明 |
大体时间 |
|---|---|---|
|
Change in muscle fatigue from before until 72 hours after damaging exercise measured with electrical stimulation on a muscle dynamometer
大体时间:The change in fatigue resistance will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
The change in muscle fatigue recovery from a single bout of damaging eccentric exercise between an emulsion containing caprylic acid and omega 3 fatty acids compared to a control emulsion will be examined by means of a two-minute fatigue inducing protocol on a skeletal muscle dynamometer.
Every other second during two minutes, electrically induced muscle contractions will be evoked on the vastus lateralis muscle at 40% of the maximal voluntary muscle strength.
The percental decline in muscle force (N) generating capacity will be monitored as indicator of fatigue resistance.
|
The change in fatigue resistance will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
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|
Change in muscle soreness from before until up to 72 hours after a damaging exercise using a VAS-Scale and soreness questionnaire
大体时间:The change in muscle soreness will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
The change in muscle soreness from a single bout of eccentric exercise between an emulsion containing caprylic acid and omega 3 fatty acids, compared to a control emulsion will be measured by means of a VAS-Scale, measuring current muscle soreness, as well as a retrospective pain questionnaire, measuring muscle soreness over the preceding 24 hours.
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The change in muscle soreness will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
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Plasma creatine kinase concentrations before and up to 72 hours after damaging exercise in blood
大体时间:The change in plasma creatine kinase will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
The change in creatine kinase concentrations from a single bout of eccentric exercise between an emulsion containing caprylic acid and omega 3 fatty acids, compared to a control emulsion, will be measured using commercially available kits.
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The change in plasma creatine kinase will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
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Plasma cholesterol concentrations before and up to 72 hours after damaging exercise in blood
大体时间:The change in plasma cholesterol concentrations will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
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The change in plasma cholesterol concentrations from a single bout of eccentric exercise between an emulsion containing caprylic acid and omega 3 fatty acids, compared to a control emulsion, will be measured using commercially available kits
|
The change in plasma cholesterol concentrations will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
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Plasma triglyceride concentrations before and up to 72 hours after damaging exercise in blood
大体时间:The change in plasma triglycerides will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
The change in plasma triglyceride concentrations from a single bout of eccentric exercise between an emulsion containing caprylic acid and omega 3 fatty acids, compared to a control emulsion, will be measured using commercially available kits.
|
The change in plasma triglycerides will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
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Plasma beta-hydroxybutyrate concentrations before and up to 72 hours after damaging exercise in blood
大体时间:The change in plasma beta-hydroxybutyrate will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
The change in plasma beta-hydroxybutyrate concentrations from a single bout of eccentric exercise between an emulsion containing caprylic acid and omega 3 fatty acids, compared to a control emulsion, will be measured using commercially available kits.
|
The change in plasma beta-hydroxybutyrate will be measured at time points 0 hours (before exercise), and post exercise, and at 24 hours, 48 hours and 72 hours post exercise.
|
合作者和调查者
在这里您可以找到参与这项研究的人员和组织。
研究记录日期
这些日期跟踪向 ClinicalTrials.gov 提交研究记录和摘要结果的进度。研究记录和报告的结果由国家医学图书馆 (NLM) 审查,以确保它们在发布到公共网站之前符合特定的质量控制标准。
研究主要日期
学习开始 (实际的)
2025年9月26日
初级完成 (估计的)
2026年6月1日
研究完成 (估计的)
2026年9月1日
研究注册日期
首次提交
2025年2月21日
首先提交符合 QC 标准的
2026年5月7日
首次发布 (实际的)
2026年5月14日
研究记录更新
最后更新发布 (实际的)
2026年5月14日
上次提交的符合 QC 标准的更新
2026年5月7日
最后验证
2026年4月1日
更多信息
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