Filling the Tank — Restoring Cellular Energy (Part 1)

• Whole foods support mitochondrial function — Prioritizing nutrient-dense, whole foods and eliminating harmful components restores balance and empowers your mitochondria to work as they should. This approach will optimize energy production and lay the foundation for efficient cellular repair and resilience. A key component of this approach is focusing on the quality of the macronutrients you consume, particularly carbohydrates.

• Carbohydrates fuel mitochondrial energy production — Glucose, ideally derived from whole food carbohydrates, enters cells and powers countless biological functions. It is the primary fuel for oxidative phosphorylation, the process by which your mitochondria generate ATP.¹

Without sufficient carbohydrates, your body shifts to fat metabolism, increasing the production of FADH2, which overwhelms the electron transport chain (ETC) and causes reductive stress. To limit reductive stress — which in turn worsens oxidative stress — a diet rich in clean, whole-food carbohydrates optimal for your biology, is essential.

• Best carbohydrate sources for mitochondrial health — Ripe fruits, white rice, well-cooked vegetables and properly prepared organic grains provide a steady supply of glucose that supports mitochondrial function without overwhelming the energy pathways. However, the introduction of carbohydrates into your diet, especially complex carbs, requires careful consideration if you have compromised gut health.

• Gut health determines carbohydrate tolerance — Dietary fiber feeds the beneficial bacteria in a healthy gut microbiome, leading to the production of short-chain fatty acids (SCFAs) that strengthen the gut barrier and boost cellular energy. However, when harmful bacteria dominate a disrupted microbiome, their fermentation of fiber produces endotoxins instead.

• The role of endotoxins in metabolic dysfunction — Endotoxins, which are toxic lipopolysaccharides found in the outer membrane of pathogenic gram-negative bacteria, are released when the bacteria die or multiply. The endotoxins trigger inflammation in the gut wall and impair metabolic function throughout the body.²

• Restore gut health before reintroducing complex carbohydrates — Before you start to load up on complex carbs, focus on healing your gut first by establishing an oxygen-free environment that allows beneficial bacteria to thrive. Elevating carbon dioxide levels in the gut through increased carbohydrate intake, particularly from easily digestible sources, supports this process.

When beneficial gut bacteria ferment complex carbohydrates, CO₂ is produced as a byproduct. This healthy anaerobic environment supports the dominance of these bacteria and is an indication of a healthy gut.

• Gradually transitioning to complex carbohydrates — As a general rule, the more compromised your gut health, the simpler the carbs you need to facilitate healing.

After your gut improves, gradually transition to more complex carbohydrate sources, starting with the foods under the yellow group below, which are moderately easy to digest, followed by foods in the red category, which are the most complex, have the most fiber, and are the most difficult to digest.

• Fats maintain mitochondrial integrity — Fats are essential for maintaining mitochondrial membrane integrity.³ Unfortunately, the fats present in modern diets are mostly polyunsaturated fats (PUFs), like omega-6 linoleic acid (LA), which are prone to lipid peroxidation, which generates harmful byproducts that disrupt mitochondrial function and increase inflammation.⁴

• Saturated fats as a stable fuel source — In contrast, saturated fats from sources like coconut oil, ghee, tallow and grass fed butter are particularly beneficial, as they resist oxidation and provide a stable fuel source for mitochondria.⁵ Limiting harmful PUF intake and prioritizing saturated fats supports mitochondrial health and reduces oxidative stress.

• Medium-chain triglycerides (MCTs) for rapid energy — MCTs, found in coconut oil, offer additional benefits by bypassing traditional metabolic pathways. These fats are quickly converted into ketones.

While they’re not a replacement for carbohydrates, ketones serve as an efficient and anti-inflammatory alternative energy source, especially if you’re recovering from mitochondrial dysfunction. MCT-rich foods boost mental clarity, physical endurance and overall energy levels.⁶

• Clean protein for mitochondrial restoration — Clean protein completes the macronutrient foundation for mitochondrial restoration. High-quality protein sources, such as grass fed meats, wild-caught fish and low-PUF eggs, are rich in bioavailable amino acids needed for tissue repair and mitochondrial membrane maintenance.

• Optimizing protein intake for energy balance — Determining the right amount of protein is key to optimize energy production without overloading your system. For most individuals, protein needs to make up approximately 15% of daily caloric intake or 0.6 to 0.8 grams per pound of your ideal body weight, with one-third coming from collagen-rich sources like bone broth.

• The importance of glycine for mitochondrial function — Glycine, a key component of collagen, promotes mitochondrial health, regulates inflammation, contributes to collagen synthesis and aids in repairing and maintaining your gut lining.⁷

• Omega-3s for mitochondrial protection — Wild-caught fish, such as Alaskan salmon, sardines, anchovies, mackerel and herring, are excellent sources of omega-3 fats, such EPA and DHA. These two fats enhance mitochondrial function by reducing inflammation and protecting against oxidative stress. They also support mitochondrial biogenesis, improving energy output in high-demand tissues like your brain, heart and muscles.⁸

• Balance omega-3 intake to avoid risks — It’s important to note that omega-3 fats are also PUFs, so you do not want to consume excessive amounts. Research⁹ shows that daily omega-3 intake exceeding 1 gram, especially from supplements, raises the risk of atrial fibrillation (AFib), a heart rhythm disorder, especially if you have a preexisting heart condition.

If supplementing, choose low-dose, high-quality options like krill oil to minimize oxidative stress. However, whole food sources are the safest and provide additional nutrients like CoQ10, another essential component in the electron transport chain.¹⁰ CoQ10 is also found in organ meats like liver and heart, particularly from grass fed sources.¹¹

• Magnesium for ATP synthesis — Magnesium acts as a cofactor for numerous enzymatic reactions, including those involved in energy production and muscle function.¹² This mineral is abundant in leafy greens such as spinach, kale and Swiss chard. Other excellent sources include fatty fish, bananas and dark chocolate (with a cocoa content of 70% or higher).^13,14

• B vitamins enhance mitochondrial metabolism — B vitamins, particularly B1 (thiamine), B3 (niacin) and B6 (pyridoxine), are vital for energy metabolism.¹⁵ Grass fed meats, low-PUF eggs and organic whole grains provide a bioavailable source of these vitamins. Niacinamide, a form of niacin, is particularly beneficial for enhancing NAD⁺ levels, a molecule essential for mitochondrial energy production and cellular repair.¹⁶

• Polyphenols protect against oxidative stress — Polyphenols, plant-based compounds with antioxidant properties, protect mitochondria by neutralizing reactive oxygen species (ROS).¹⁷ Some excellent sources include berries, such as blueberries and raspberries, along with dark chocolate and green tea.

These dietary sources support your body’s natural antioxidant systems, as opposed to taking antioxidant supplements, which disrupt the delicate redox balance essential for efficient energy production, particularly if you already have a compromised mitochondrial function.

• Seed oils disguise themselves as “vegetable oils” — Often marketed as “healthy,” seed oils are ubiquitous in ultraprocessed foods, restaurant meals and even certain meats like chicken and pork raised in concentrated animal feeding operations (CAFOs).

• Hidden sources of seed oils and refined sugar — Reading product labels and becoming familiar with common sources of seed oils and refined sugar are important steps in the transition. Many salad dressings, snack bars and pre-packaged meals contain these harmful ingredients. Opting for fresh or minimally processed whole-food alternatives ensures that your diet supports rather than sabotages energy production.

• Home cooking minimizes exposure to harmful additives — Preparing meals at home using fresh, whole ingredients will also minimize your exposure to hidden additives and synthetic chemicals that gunk up your cellular machinery. Choosing organic produce and grass fed animal products will also reduce your intake of pesticides and other agricultural chemicals that disrupt mitochondrial function.

• Resolving energy barriers unlocks true healing — When you remove the barriers that disrupt your mitochondrial function, your body regains its ability to heal from virtually any disease, so you no longer need to rely on temporary fixes from modern medicine that only mask the underlying problem. Instead, you build the foundation for health that is resilient, enduring and rooted in the natural design of your body.

• Cellular energy is the missing link in modern medicine — Despite its fundamental role in health, cellular energy has been overlooked by modern medicine for far too long. Refueling your cells with the nutrients, lifestyle habits and restorative practices they need isn’t just a novel approach — it is the only approach that delivers real, lasting results.

• Redefining medicine through mitochondrial restoration — Placing cellular energy at the core of every diagnosis and treatment plan redefines the medical paradigm, fundamentally transforming how we prevent and treat diseases. This is a revolution in health and a return to what medicine was always meant to be — a system that supports your body’s ability to restore itself, not suppress it.