CC_Nutrition

“Informed By Science”

Tag: carbohydrate

  • Behaviour Change and Nutrition: The Key to Consistency

    Whether you’re aiming to build muscle, lose fat, or enhance performance, your nutrition habits are just as important as your training program. But sticking to a diet plan whether it’s a bulking phase, a cutting cycle, or performance nutrition can be harder than hitting a heavy squat. The real challenge isn’t knowing what to eat; it’s changing your behaviour to make it happen consistently.

    This is where behaviour change science comes in. Grounded in psychology, behaviour change strategies can help gym goers, athletes and well honestly, anyone! overcome common barriers like poor planning, low motivation, and decision fatigue turning good intentions into real results.

    Why Motivation Alone Isn’t Enough

    You might start a new meal plan feeling motivated and ready. But motivation fluctuates. To stay consistent long-term, you need more than willpower you need systems and strategies.

    According to the COM-B model, behaviour is driven by three things: Capability, Opportunity, and Motivation (Michie et al., 2011). In a gym context, this might look like:

    Capability: Do you have the cooking skills and nutrition knowledge? Opportunity: Is your environment helping or hindering your eating goals? Motivation: Are you clear on why you’re doing this?

    Addressing all three areas sets you up for long-term adherence not just short-term compliance.

    Habit Formation and Meal Consistency

    For athletes and recreational lifters, habit formation is key. The Health Action Process Approach (HAPA) highlights the difference between intention and action. You might plan to prep meals or hit your macros but without planning, tracking, and adjusting, those intentions often fall flat (Schwarzer, 2008).

    Using tools like MyFitnessPal (or other apps), food scales, and prep routines helps build consistency. Research shows that self-monitoring—tracking what you eat—is one of the most powerful predictors of success in fat loss and muscle gain (Chen et al., 2023).

    Digital Tools for Diet Adherence

    A 2023 meta-analysis confirmed that using nutrition tracking apps significantly improves dietary behaviours and outcomes in people aiming to lose fat or gain lean mass (Chen et al., 2023). These tools don’t just count calories they give real-time feedback, help you spot trends, and reinforce accountability.

    Other behaviour change techniques (BCTs) proven to support gym-related goals include:

    SMART goal-setting (Specific, Measurable, Achievable, Relevant, Time-bound)

    If then planning (e.g., “If I get hungry post-workout, then I’ll have a protein shake”)

    Social support (training partners or online communities)

    Why Most Meal Plans Fail (And How to Fix It)

    Many people fall off their meal plans not because they’re “lazy” or “undisciplined,” but because their approach doesn’t match their lifestyle or values. According to the Theory of Planned Behaviour (TPB), intentions alone aren’t enough people must also believe they have control over their environment and the ability to follow through (Ajzen, 1991).

    That’s why environmental restructuring like prepping meals in advance, keeping snacks out of sight, or having protein options ready post-training is critical. Your environment should make the right choice the easy choice.

    The Bigger Picture: Stress, Sleep, and Social Support

    Behaviour change science also reminds us that diet doesn’t happen in isolation. Poor sleep, stress, or a lack of social support can derail even the best plan. The Science of Behavior Change (SOBC) program by NIH highlights how self-regulation, stress management, and habit loops can be modified to enhance results (NIH, 2023).

    In other words, you don’t need to grind harder you need to train smarter, eat smarter, and structure your environment and mindset for success.

    Conclusion

    If you’ve ever struggled to stay consistent with your nutrition while training hard, you’re not alone and you’re not lacking discipline. You’re just missing the behaviour change strategies that align your habits with your goals.

    By applying science-based models like COM-B, HAPA, and TPB, and using tools like tracking apps, habit systems, and structured planning, you can finally bridge the gap between training and nutrition and unlock your full potential in the gym.

    References

    Ajzen, I., 1991. The theory of planned behavior. Organizational Behavior and Human Decision Processes, 50(2), pp.179–211.

    Chen, J., Cade, J.E. and Allman-Farinelli, M., 2023. The effectiveness of nutrition apps in improving dietary behaviours and health outcomes: a systematic review and meta-analysis. Public Health Nutrition, 26(1), pp.1–12.

    Greaves, C.J., Sheppard, K.E., Abraham, C., Hardeman, W., Roden, M., Evans, P.H. and Schwarz, P., 2011. Systematic review of reviews of intervention components associated with increased effectiveness in dietary and physical activity interventions. BMC Public Health, 11(1), p.119.

    Lee, R.M., Fischer, C., Caballero, P., and Andersson, E., 2022. Behaviour change nutrition interventions and their effectiveness: a systematic review of global public health outcomes. PLOS Global Public Health, 2(9), p.e0000401.

    Michie, S., Atkins, L., and West, R., 2014. The Behaviour Change Wheel: A Guide to Designing Interventions. London: Silverback Publishing.

    Michie, S., van Stralen, M.M. and West, R., 2011. The behaviour change wheel: A new method for characterising and designing behaviour change interventions. Implementation Science, 6(1), p.42.

    NIH Common Fund, 2023. Science of Behavior Change (SOBC). [online] Available at: https://commonfund.nih.gov/science-behavior-change-sobc [Accessed 18 May 2025].

    Schwarzer, R., 2008. Modeling health behavior change: How to predict and modify the adoption and maintenance of health behaviors. Applied Psychology, 57(1), pp.1–29.

  • Citrulline Malate and Performance: The Science Behind the Pump

    By Chris Clayton, PhD, SENr, Performance Nutritionist.

    As a performance nutritionist, I’ve worked with athletes across disciplines—cycling, boxing, MMA, and football. One supplement I consistently see delivering results, especially in high-intensity and strength-focused training, is citrulline malate. Unlike many so-called “pre-workout” compounds, this one stands up to scrutiny. So let’s take a deep dive into what citrulline malate is, how it works, and what the science really says about its impact on performance.

    What Is Citrulline Malate?

    Citrulline malate is a combination of two compounds:

    L-Citrulline: A non-essential amino acid that’s a precursor to L-arginine. It’s more effective than direct arginine supplementation at boosting nitric oxide (NO) levels due to better absorption and bioavailability. Malate (Malic Acid): A key intermediate in the tricarboxylic acid (TCA) cycle, also known as the Krebs cycle, which plays a central role in energy production.

    Together, this combo supports both anaerobic and aerobic performance by enhancing blood flow, buffering fatigue, and improving energy efficiency.

    Mechanisms of Action: How It Works

    Here’s how citrulline malate contributes to performance:

    Nitric Oxide Boost via Arginine Pathway: Supplementing with citrulline increases plasma L-arginine and nitric oxide more effectively than arginine itself (Schwedhelm et al., 2008). Higher NO levels result in vasodilation, which increases oxygen and nutrient delivery to working muscles, improving endurance and reducing fatigue. Ammonia and Lactate Clearance: Citrulline helps detoxify ammonia through the urea cycle, delaying the onset of fatigue (Sureda et al., 2010). This is particularly important during high-volume resistance training or repeated sprint bouts. Enhanced ATP Production via Malate: Malate supports mitochondrial energy production. It facilitates the regeneration of NAD+, a coenzyme essential for ATP generation, especially under aerobic conditions.

    What the Research Says

    1. Strength and Resistance Training

    Pérez-Guisado & Jakeman (2010): In this double-blind, placebo-controlled study, 8g of citrulline malate taken 1 hour before upper-body resistance training significantly increased the number of repetitions completed (by ~52.92%) and reduced muscle soreness at 24 and 48 hours post-training. Wax et al. (2015): Male subjects performing leg resistance training saw improved repetitions and reduced fatigue when supplemented with 8g of citrulline malate. This confirmed earlier findings and suggested a strong role in muscular endurance.

    2. Endurance Performance

    Bailey et al. (2015): A 6g dose of citrulline increased plasma nitrate and nitrite, improved VO2 kinetics, and reduced oxygen cost during moderate-intensity cycling. This means athletes required less oxygen to perform the same amount of work—an efficiency gain that matters in endurance sports. Glenn et al. (2016): In this study on recreationally active males, a single 8g dose improved cycling time to exhaustion and reduced ratings of perceived exertion (RPE). Athletes felt they were working less hard to achieve the same output.

    3. Recovery and Muscle Soreness

    Gonzalez et al. (2018): Citrulline supplementation post-exercise improved blood flow and reduced delayed onset muscle soreness (DOMS), likely due to enhanced nutrient delivery and waste clearance during recovery phases.

    Practical Recommendations: How I Use It with Athletes

    Here’s how I typically program citrulline malate use:

    Dosage: 6–8g taken 30–60 minutes before training. This is the most evidence-backed range. Form: Powdered form is ideal, either standalone or in a pre-workout blend without excessive stimulants. Many commercial pre-workouts under-dose citrulline, so check labels carefully. Timing: Take on an empty stomach pre-training for better absorption. For high-volume training blocks or tournaments, some athletes use it daily for a more sustained effect on recovery. Cycling: While not strictly necessary, I may cycle usage (e.g., 5 days on, 2 days off) during off-season periods or lower training loads, simply to match need and avoid unnecessary supplementation.

    Safety and Side Effects

    Citrulline malate has a strong safety profile. No serious adverse effects have been reported at doses up to 10g per day. It’s stimulant-free, making it a good option for athletes training in the evening or those sensitive to caffeine. Minor side effects like stomach discomfort can occur in some people, particularly at higher doses, but these are rare.

    Final Thoughts

    From the lab to the gym floor, citrulline malate has earned its place as one of the few supplements that actually does what it claims. Whether you’re a strength athlete looking to grind out extra reps, a cyclist chasing improved endurance, or a combat sport athlete managing high training volumes, citrulline malate can offer a genuine performance boost.

    Just like any supplement, it works best when it’s built on a foundation of good nutrition, sleep, and recovery. But if you’re looking for a scientifically supported edge, this one’s worth considering.

    This is a good option that is informed sport so you can be sure it is free from banned substances

    Applied Nutrition Citrulline Malate 2:1

    Key References:

    Pérez-Guisado, J., & Jakeman, P. M. (2010). Citrulline malate enhances athletic anaerobic performance and relieves muscle soreness. Journal of Strength and Conditioning Research, 24(5), 1215–1222. Wax, B., et al. (2015). Effects of supplemental citrulline malate ingestion during repeated bouts of lower-body exercise. European Journal of Sport Science, 15(1), 45–52. Bailey, S. J., et al. (2015). Dietary nitrate supplementation reduces the O2 cost of low-intensity exercise and enhances tolerance to high-intensity exercise in humans. Journal of Applied Physiology, 107(4), 1144–1155. Glenn, J. M., et al. (2016). Acute citrulline malate supplementation improves cycling time trial performance in trained cyclists. Journal of Strength and Conditioning Research, 30(4), 1097–1103. Sureda, A., et al. (2010). L-Citrulline-malate influence over branched chain amino acid utilization during exercise. European Journal of Applied Physiology, 110(2), 341–351. Gonzalez, A. M., et al. (2018). Effects of citrulline supplementation on exercise performance in humans: A review of the current literature. Journal of Strength and Conditioning Research, 32(2), 385–391.

  • The Foundations of Performance Nutrition: Why Timing, Type, and Total Matter

    When it comes to enhancing performance—whether in sport, exercise, or day-to-day energy demands—nutrition is far more than just “eating healthy.” It’s a science-driven approach that focuses on fuelling the body in a strategic way to optimise energy, recovery, strength, and endurance. At the core of performance nutrition lies three crucial pillars: timing, type, and total intake. When these elements are aligned, they create a powerful framework to support physical performance and recovery. Let’s break each of these down.

    1. Timing: When You Eat Matters

    Nutrient timing is all about when you eat in relation to training or activity. Eating the right foods at the right times can enhance energy availability, reduce fatigue, and accelerate recovery.

    Pre-training: Fuel up with a mix of carbohydrates and a small amount of protein 1–3 hours before exercise to ensure glycogen stores are topped up and muscles are primed. During training: For longer sessions (especially over 60–90 minutes), intra-workout nutrition like simple carbs and fluids can help maintain energy and hydration. Post-training: Recovery nutrition is vital. Consuming carbs and protein within 30–60 minutes post-exercise helps replenish glycogen stores and kickstarts muscle repair.

    Ignoring nutrient timing can lead to under-fuelling, sluggish sessions, and prolonged recovery.

    2. Type: What You Eat Matters

    All calories are not created equal—especially when it comes to performance. The type of macronutrients (carbohydrates, proteins, and fats) and micronutrients (vitamins and minerals) you consume plays a major role in how your body performs.

    Carbohydrates are the body’s preferred source of energy during high-intensity activity. Think whole grains, fruits, starchy veg, and sports-specific fuel like energy gels when needed. Protein is essential for muscle repair, growth, and overall recovery. Aim for lean protein sources like poultry, eggs, dairy, legumes, and plant-based alternatives. Fats, while often overlooked, are key for long-lasting energy and hormone function—especially in endurance athletes. Prioritise healthy fats like avocado, nuts, seeds, and oily fish. Hydration and electrolytes are just as important as food—without them, energy and focus can quickly drop.

    Matching the type of food to your activity and goals helps the body perform efficiently and recover faster.

    3. Total: How Much You Eat Matters

    Even with perfect timing and the right types of food, performance can still suffer if you’re under-fuelling or over-fuelling. Your total intake—the quantity of calories and nutrients—needs to align with your energy output and individual goals.

    Under-eating can lead to low energy availability, poor recovery, fatigue, and increased injury risk. Over-eating may cause sluggishness, weight gain, and reduced performance in sports that require speed or agility. Individual needs vary depending on training intensity, frequency, body composition goals, and metabolic rate—there’s no one-size-fits-all.

    Working with a nutritionist or using tracking tools can help athletes find the sweet spot that meets their specific energy demands.

    Final Thoughts: The Big Picture

    Performance nutrition isn’t just about what you eat—it’s a strategic combination of when, what, and how much you eat. These three pillars—timing, type, and total—are the backbone of effective fuelling for performance. Whether you’re training for a marathon, lifting heavy in the gym, or simply looking to feel more energised and focused in your daily life, getting these fundamentals right is essential.

    By fine-tuning these elements, you’re not just eating—you’re fuelling with purpose.

  • Nutrition for Recovery in Pilates: What Science Says

    Pilates is a low-impact yet highly effective exercise system that improves flexibility, strength, and endurance. Whether you’re practicing classical or contemporary Pilates, proper nutrition plays a crucial role in recovery, muscle repair, and overall performance. While Pilates may not be as physically demanding as high-intensity workouts, research shows that balanced nutrition enhances recovery, reduces inflammation, and supports long-term progress.

    In this post, we’ll explore evidence-based nutritional strategies for optimal Pilates recovery, citing relevant literature.

    1. The Role of Macronutrients in Pilates Recovery

    Protein: Supporting Muscle Repair and Strength

    While Pilates primarily targets core strength and stability rather than muscle hypertrophy, it still induces micro-tears in muscles, requiring protein for repair and recovery. Studies show that consuming adequate protein post-exercise enhances muscle protein synthesis (Moore et al., 2015).

    Recommendation:

    • Aim for 0.3–0.4 g/kg of body weight of high-quality protein (e.g., Greek yogurt, eggs, or plant-based protein) within 30–60 minutes after your session (Morton et al., 2018).

    Carbohydrates: Replenishing Energy Stores

    Pilates, especially dynamic reformer classes, depletes muscle glycogen. Research suggests that consuming carbohydrates post-exercise enhances glycogen resynthesis and prevents fatigue (Burke et al., 2017).

    Recommendation:

    • Include 1–1.2 g/kg of body weight of carbohydrates post-session, preferably in combination with protein (e.g., a smoothie with banana and protein powder) (Beelen et al., 2010).

    Healthy Fats: Managing Inflammation

    While fats do not play a direct role in immediate recovery, omega-3 fatty acids have been shown to reduce inflammation and support joint health (Philpott et al., 2019). Given the importance of flexibility and joint mobility in Pilates, incorporating healthy fats is beneficial.

    Recommendation:

    • Include omega-3-rich foods like salmon, flaxseeds, or walnuts in your daily diet.

    2. Hydration: Essential for Muscle Function and Recovery

    Even mild dehydration can impair muscle function, leading to cramps and reduced flexibility (Casa et al., 2019). Since Pilates sessions often emphasize controlled breathing and core engagement, proper hydration supports optimal performance.

    Recommendation:

    • Drink 500 ml of water 30 minutes before your session and rehydrate with electrolyte-rich fluids post-workout, especially after a sweaty class.

    3. Micronutrients for Pilates Recovery

    Magnesium: Reducing Muscle Tension

    Pilates often engages deep stabilizing muscles, leading to muscle fatigue. Magnesium plays a crucial role in muscle relaxation and recovery (Volpe, 2015).

    Sources: Dark leafy greens, nuts, and seeds.

    Vitamin D & Calcium: Supporting Bone Health

    Weight-bearing movements in Pilates improve bone density, but adequate Vitamin D and calcium intake further enhance bone strength (Weaver et al., 2016).

    Sources: Dairy products, fortified plant-based milk, and sunlight exposure.

    4. Anti-Inflammatory Foods for Joint and Muscle Health

    Given Pilates’ emphasis on controlled movement, reducing inflammation is key to preventing stiffness. A Mediterranean-style diet rich in antioxidants has been shown to reduce exercise-induced oxidative stress (Gutiérrez-Salmeán et al., 2017).

    Foods to Include:

    • Berries (high in polyphenols)

    Turmeric (curcumin reduces inflammation)

    • Green tea (rich in catechins)

    5. Timing Matters: When to Eat for Recovery

    The “anabolic window”—the period after exercise when nutrient intake maximizes recovery—is often debated. Research suggests that while immediate post-workout nutrition is beneficial, overall daily intake matters more (Schoenfeld & Aragon, 2018).

    Best Approach:

    • Eat a balanced meal within 1–2 hours post-Pilates.

    • Prioritize whole, nutrient-dense foods rather than relying solely on supplements.

    Final Thoughts

    Pilates is a practice of balance, and nutrition should reflect that. By incorporating protein for muscle repair, carbohydrates for energy, and anti-inflammatory foods for joint health, you can enhance recovery and improve performance. Science-backed strategies like proper hydration, magnesium intake, and mindful meal timing will help you feel strong and energized after every session.

    References

    • Beelen, M., Burke, L. M., Gibala, M. J., & van Loon, L. J. C. (2010). Nutritional strategies to promote postexercise recovery. International Journal of Sport Nutrition and Exercise Metabolism, 20(6), 515-532.

    • Burke, L. M., van Loon, L. J. C., & Hawley, J. A. (2017). Post-exercise muscle glycogen resynthesis in humans. Journal of Applied Physiology, 122(5), 1055-1067.

    • Casa, D. J., et al. (2019). Hydration and health: Consensus document update. Journal of Athletic Training, 54(6), 588-595.

    • Gutiérrez-Salmeán, G., et al. (2017). Dietary antioxidants and exercise performance. Antioxidants, 6(1), 10.

    • Moore, D. R., et al. (2015). Protein ingestion to stimulate myofibrillar protein synthesis. The American Journal of Clinical Nutrition, 101(3), 528-533.

    • Morton, R. W., et al. (2018). Protein intake to maximize resistance training. Sports Medicine, 48(1), 67-78.

    • Philpott, J. D., et al. (2019). Omega-3 supplementation and exercise recovery. Frontiers in Nutrition, 6, 33.

    • Schoenfeld, B. J., & Aragon, A. A. (2018). Is there an anabolic window? Journal of the International Society of Sports Nutrition, 15, 10.

    • Volpe, S. L. (2015). Magnesium and the athlete. Current Sports Medicine Reports, 14(4), 279-283.

    • Weaver, C. M., et al. (2016). The importance of calcium in bone health. Osteoporosis International, 27(12), 3675-3685.

  • The Importance of Nutrition for Game Day Minus One: A Football Player’s Key to Peak Performance

    As the big game approaches, football players are focused on refining their skills, finalizing tactics, and psyching themselves up for the win. However, one key aspect that can often be overlooked is nutrition—specifically, how players fuel themselves in the day leading up to the game. Nutrition on “game day minus one” (the day before the match) plays a crucial role in ensuring that athletes are physically prepared to perform at their peak. This blog post will explore why nutrition on the day before the game matters and provide evidence-based strategies for soccer players to optimise their energy, hydration, and recovery.

    Why Nutrition on Game Day Minus One Matters

    The human body operates as a finely tuned machine, and much like any machine, it requires the right fuel to function at its best. The day before a soccer match, players are looking to maximise glycogen stores (the body’s stored form of carbohydrate), maintain hydration levels, and promote recovery from previous training sessions.

    Here’s why nutrition on the day before the match is crucial:

    1. Glycogen Storage for Endurance Glycogen, the primary source of energy for athletes during high-intensity exercise, is stored in the muscles and liver. Football, with its high intensity, requires significant energy expenditure, especially during sprints, changes in direction, and bursts of activity. Ensuring that the body has sufficient glycogen stores is essential for endurance, focus, and strength on the field. Research suggests that carbohydrate loading, or increasing carbohydrate intake in the 24-48 hours prior to an event, enhances performance in endurance sports like soccer (Jeukendrup & Killer, 2010). On game day minus one, athletes should aim to consume complex carbohydrates like whole grains, pasta, rice, and potatoes, which provide a slow and sustained release of energy.
    2. Hydration for Optimal Performance Hydration is another pivotal factor in maximising performance. Dehydration can lead to decreased physical performance, reduced cognitive function, and an increased risk of injury. Studies show that even mild dehydration can impair performance, especially in sports that involve aerobic activity and intermittent sprints, such as soccer (Maughan & Shirreffs, 2010). On the day before the game, players should focus on staying hydrated throughout the day. A good rule of thumb is to drink water consistently throughout the day, starting early in the morning and continuing until evening. For some athletes, electrolyte-enhanced beverages may be beneficial, especially if training sessions leading up to the game have been intense.
    3. Promoting Recovery and Reducing Inflammation The training sessions leading up to the game can leave muscles fatigued and inflamed. Proper nutrition supports muscle recovery and minimises inflammation, helping players feel fresh and strong on match day. Protein, in particular, is essential for muscle repair, and it should be consumed at regular intervals throughout the day. A balanced intake of protein and fats is key for recovery. Sources of high-quality protein include whey, chicken, turkey, lean beef, fish, eggs, and plant-based options like tofu and lentils. Omega-3 fatty acids, found in fatty fish (like salmon), flaxseeds, and walnuts, are particularly beneficial for reducing inflammation (Mickleborough et al., 2011).
    4. Mental Focus and Cognitive Function A player’s mental clarity and focus are just as important as their physical condition when it comes to performing well on game day. The foods consumed the day before can influence cognitive function, decision-making speed, and focus. Foods rich in antioxidants, such as berries, spinach, and nuts, are helpful for reducing oxidative stress and maintaining mental sharpness (McLeay et al., 2013). Additionally, vitamin B-rich foods, such as whole grains and leafy vegetables, play a key role in the nervous system’s function.

    Practical Tips for Nutrition on Game Day Minus One

    Breakfast: A balanced breakfast should focus on providing carbohydrates, moderate protein, and a small amount of healthy fats. An example could be oatmeal topped with fruit, nuts, and a scoop of protein powder or Greek yogurt.

    Lunch: This meal should aim to increase glycogen stores further. A whole grain sandwich or wrap with lean protein (chicken or turkey), vegetables, and a side of fruit or a whole grain salad is a great option.

    Dinner: The final meal of the day should still prioritize carbohydrates, but with a slight emphasis on protein to aid recovery. A plate of whole grain pasta with lean protein (such as chicken) and a tomato-based sauce, alongside a large serving of vegetables, would provide a good balance.

    Snacks: Snacks throughout the day should be light but effective. A small bowl of mixed nuts, a banana with almond butter, or whole-grain crackers with cheese can maintain energy levels.

    Hydration: Drink plenty of water throughout the day. A good target is 3-4 liters for an average adult male, adjusting based on the player’s size, activity level, and environmental conditions.

    Foods to Avoid on Game Day Minus One

    While focusing on nutrition, it is just as important to avoid foods that may hinder performance. Players should steer clear of foods high in refined sugars or overly fatty foods, as they can cause blood sugar fluctuations and sluggishness. Additionally, heavy, rich foods (like greasy fast food) may lead to discomfort or gastrointestinal issues on match day.

    Conclusion

    Nutrition on game day minus one is a powerful tool that can directly influence a soccer player’s performance. By focusing on proper glycogen storage, hydration, recovery, and cognitive function, athletes can ensure that they are ready to perform at their best when the whistle blows. With the right strategies and meal planning, football players can fuel their bodies for success and give themselves the best possible chance of performing to their best.

    References

    • Jeukendrup, A., & Killer, S. C. (2010). The application of carbohydrate periodization in sport. Sports Science Exchange, 23(3), 1-6.
    • Maughan, R. J., & Shirreffs, S. M. (2010). Dehydration and rehydration in competitive sport. Scandinavian Journal of Medicine & Science in Sports, 20(Suppl 3), 40-47.
    • Mickleborough, T. D., Murray, R. L., & Ionescu, A. A. (2011). Omega-3 fatty acids and exercise-induced oxidative stress: A critical review. Journal of Sports Sciences, 29(5), 457-467.
    • McLeay, Y., Mullen, S., & Rattray, B. (2013). Nutritional strategies to support recovery in elite athletes: A systematic review. Journal of Sports Sciences, 31(9), 888-903.