‍

Balancing optimal body composition and peak athletic performance is like walking a nutritional tightrope. Enter the cyclical low-carbohydrate diet (CLCD), a strategy designed to harness the benefits of low-carb living while supporting the high-energy demands of athletic performance. This dietary approach toggles between carbohydrate restriction and replenishment periods, offering a nuanced way to fuel lean physique goals and high-intensity output.

In this blog, we'll explore the physiological mechanisms behind CLCD and highlight evidence-based benefits for athletes and fitness enthusiasts.

What Is the Cyclical Low Carbohydrate Diet?

The cyclical low-carbohydrate diet involves alternating between low-carbohydrate phases and high-carbohydrate refeed days. This cyclical approach benefits individuals who aim to achieve or maintain a lean body composition without sacrificing performance.

• Low-Carb Phase: This phase typically lasts 5–6 days per week and focuses on high protein, moderate fat, and low carbohydrate intake. It promotes fat utilization as the primary energy source.
• Refeed Days: One or two days of increased carbohydrate intake are included to replenish glycogen stores, support recovery, and maintain metabolic flexibility.
• Variation: A variation of this is to go low carbohydrate outside of your training window (3 hours before and after training) and high-carbohydrate within your training window.

Physiological Implications of CLCD

1. Enhanced Fat Oxidation

During the low-carb phase, glycogen stores are depleted, prompting the body to shift towards increased fat oxidation. This metabolic state not only aids in fat loss but also improves mitochondrial efficiency, a critical factor for endurance performance (Volek et al., 2015).

2. Glycogen Supercompensation

Refeed days serve as a glycogen replenishment strategy. After periods of carbohydrate restriction, the body becomes highly sensitive to insulin, allowing for rapid glycogen resynthesis. This glycogen "supercompensation" enhances energy availability during high-intensity workouts or competitions (Ivy, 1991).

3. Hormonal Optimization

Carbohydrate cycling influences hormones that regulate metabolism and performance:

• Leptin: Low-carb phases can decrease leptin, slowing metabolism. Refeed days temporarily restore leptin levels, preventing metabolic adaptation (Ahima & Flier, 2000).
• Insulin Sensitivity: Alternating between low and high carbohydrate intake improves insulin sensitivity, which is critical for nutrient partitioning and recovery (Larsen et al., 2015).

4. Preservation of Muscle Mass

Ketogenic or low carbohydrate diets can sometimes risk muscle loss due to prolonged carbohydrate restriction. By incorporating refeed days, CLCD provides anabolic signals to muscles, minimizing muscle protein breakdown while supporting recovery and performance (Pasiakos et al., 2013).

Benefits of CLCD for Body Composition and Performance

1. Lean Body Compositionsome text
   • The low-carb phase promotes lipolysis (fat breakdown), facilitating fat loss without significant caloric deficits.
   • Strategic refeed days prevent metabolic downregulation, ensuring long-term fat loss sustainability.
2. Improved Athletic Outputsome text
   • Glycogen replenishment on refeed days supports peak performance during high-intensity training.
   • Enhanced insulin sensitivity ensures effective nutrient delivery to muscle tissue, optimizing recovery and growth.
3. Mental Clarity and Energy Stabilitysome text
   • Many individuals report improved mental focus and reduced energy crashes during low-carb phases, likely due to stable blood sugar and ketone availability.
4. Flexibility for Long-Term Adherencesome text
   • Refeed days prevent the monotony of strict low-carb diets, making it easier to stick with the plan.

Implementing CLCD

Here’s how to get started:

1. Calculate Macronutrient Needs: Based on your activity level and goals, determine your daily protein, fat, and carbohydrate targets.
2. Plan Refeed Days Strategically: Align high-carb days with intense training sessions.
3. Monitor Progress: Use body composition measurements and performance metrics to assess the effectiveness of the diet.
4. Adjust as Needed: Adapt carbohydrate frequency and intake based on individual responses.

Training Day (High Carb Around Training)

Goal: Fuel and recover from exercise with high-carb meals around training while keeping meals Paleo-compliant.

Breakfast (Low Carb - High Fat/Protein)

• 3 scrambled eggs cooked in ghee
• 2 slices of bacon
• ½ avocado
• Sautéed spinach with garlic and olive oil

Pre-Workout Snack

• 1 medium banana
• 1 tablespoon almond butter

Post-Workout Meal (High Carb)

• 5 oz grilled chicken breast
• 1 cup roasted sweet potatoes
• 1 cup steamed broccoli with olive oil drizzle

Lunch

• 6 oz wild-caught salmon
• 1 cup cooked quinoa
• Mixed greens with shredded carrots, cucumber, and olive oil/lemon dressing

Afternoon Snack

• 1 apple
• Handful of raw walnuts

Dinner

• 6 oz grass-fed steak
• 1 cup mashed cauliflower with ghee
• 1 cup roasted carrots and parsnips

Optional Dessert

• Coconut milk yogurt topped with fresh berries

Non-Training Day (Low Carb)

Goal: Maintain lower carbohydrate intake, focus on fats and proteins.

Breakfast

• 3 eggs fried in coconut oil
• 2 sausage links
• Sautéed kale with garlic

Morning Snack

• 1 boiled egg
• 1 tablespoon guacamole

Lunch

• 6 oz grilled chicken thighs
• 1 cup roasted Brussels sprouts
• 1 handful of macadamia nuts

Afternoon Snack

• Celery sticks with 2 tablespoons almond butter

Dinner

• 6 oz grass-fed lamb chops
• 1 cup steamed asparagus with olive oil drizzle
• ½ avocado

Optional Dessert

• A small handful of unsweetened coconut flakes or dark chocolate (85% or higher)

Additional Notes:

• Hydration: Drink plenty of water throughout the day. Add a pinch of Himalayan salt for electrolytes.
• Supplements: Consider adding Omega-3s, magnesium, and vitamin D to support recovery and overall health.
• Adjust Portions: Based on your caloric needs and activity levels.
• Carb Sources: Keep high-carb sources clean (sweet potatoes, squash, fruit)

‍

Ready to improve your performance and physique? Schedule a Strategy Session with Central Athlete today, and let’s design a personalized nutrition plan that fits your goals.

Scientific References

1. Volek, J. S., Noakes, T., & Phinney, S. D. (2015). A new look at low-carbohydrate diets for endurance athletes. Open Heart, 2(1), e000229. https://doi.org/10.1136/openhrt-2014-000229
2. Ivy, J. L. (1991). Muscle glycogen synthesis before and after exercise. Sports Medicine, 11(1), 6-19. https://doi.org/10.2165/00007256-199111010-00002
3. Ahima, R. S., & Flier, J. S. (2000). Leptin and the regulation of body weight in mammals. Nature, 395(6704), 763–770. https://doi.org/10.1038/26644
4. Larsen, T. M., Dalskov, S. M., van Baak, M., et al. (2010). Dietary strategies for weight loss maintenance: role of macronutrient composition and glycemic index. The American Journal of Clinical Nutrition, 91(5), 1264S-1269S. https://doi.org/10.3945/ajcn.2010.28701

Pasiakos, S. M., Lieberman, H. R., & McLellan, T. M. (2013). Effects of protein supplements on muscle damage, soreness, and recovery of muscle function and physical performance: a systematic review. Sports Medicine, 44(5), 747-756. https://doi.org/10.1007/s40279-013-0137-7