Modern diets filled with processed foods and artificial additives can disrupt this delicate acid-alkaline balance, affecting overall health. Beyond diet, electrolytes, mitochondrial energy production, and the electron transport chain (ETC) all contribute to maintaining proper homeostasis.

Understanding pH in the Body: The Role of Homeostasis

Homeostasis is the body’s ability to maintain a stable internal environment, including pH levels. Various organs and systems regulate acidity and alkalinity to ensure optimal function.

Key pH Ranges in the Body

• Blood pH: Tightly regulated between 7.35 and 7.45. Even minor deviations can be life-threatening. The lungs and kidneys help maintain this balance.
• Stomach pH: Ranges from 1.5 to 3.5, creating an acidic environment to break down food and kill harmful bacteria.
• Small Intestine pH: Increases to 6 to 7.5, allowing for enzyme activation and nutrient absorption.
• Large Intestine pH: Maintains a slightly acidic 5.5 to 7, supporting gut bacteria and digestion.
• Urinary pH: Fluctuates between 4.5 and 8, depending on hydration and diet.

Disruptions in pH balance can trigger metabolic disorders, digestive issues, and low energy levels by affecting the electron transport chain (ETC), which is essential for cellular function.

The Myth of Alkaline Water and Digestion

Many believe that consuming alkaline water can neutralise acids in the body and improve health. However, this contradicts basic pH regulation principles. The stomach’s acidity is essential for proper digestion, and excessive alkalisation can impair nutrient absorption and disrupt gut function.

• Dilution of Stomach Acid – The stomach requires an acidic pH for optimal digestion. Alkaline water can temporarily raise stomach pH, leading to incomplete breakdown of food.
• Reduced Protein Digestion – Pepsin, a digestive enzyme, requires acidity to function properly. A higher pH reduces its efficiency, causing digestive distress.
• Increased Risk of Bacterial Overgrowth – The stomach’s acidity prevents harmful bacteria from entering the intestines. Less acidity allows pathogens to thrive.
• Impaired Mineral Absorption – Calcium, iron, and magnesium require an acidic environment for proper uptake. Chronic alkaline water consumption may lead to deficiencies over time.

Rather than focusing on alkaline water, a more effective strategy is to consume whole, nutrient-dense foods that support electrolyte balance and electron transport chain efficiency.

Electrolytes and Energy Production

Electrolytes—such as sodium, potassium, calcium, and magnesium—are charged minerals that play a crucial role in maintaining hydration, nerve function, and cellular energy production.

Key Electrolytes for Mitochondrial Energy

• Sodium (Na+) & Potassium (K+) – Maintain nerve signals and muscle contractions through the sodium-potassium pump.
• Calcium (Ca2+) – Essential for muscle function, blood clotting, and ATP synthesis.
• Magnesium (Mg2+) – A crucial cofactor in over 300 enzymatic reactions, particularly in the electron transport chain, where it optimises ATP production.

Magnesium plays a key role in energy metabolism, and deficiencies can result in fatigue, muscle cramps, and metabolic disorders. Ensuring proper magnesium intake through mineral-rich foods or supplementation can significantly enhance energy levels and cellular function.

Food as an Electrical Charge: The Basis of Nutrition and Energy Transfer

At the most fundamental level, food is more than just macronutrients (proteins, fats, and carbohydrates); it is a source of electrical energy. When food is broken down, it releases electrons that drive metabolic processes and fuel ATP production.

• Oxidation-Reduction Reactions: These chemical reactions involve the transfer of electrons and are essential for energy production in mitochondria.
• Electron Transport Chain (ETC): In cellular respiration, food molecules are broken down into electrons that pass through the electron transport chain, ultimately generating ATP.
• Alkalinity vs. Acidity in Metabolism: The idea that foods should be categorized strictly as “acidic” or “alkaline” is an oversimplification. Rather than focusing on external pH, it’s more important to consume foods rich in bioavailable nutrients and electrical potential, such as whole foods, fresh produce, and electrolyte-rich sources.

Ensuring Proper pH and Nutrient Balance for Optimal Health

Rather than focusing on artificial alkalization strategies like alkaline water, individuals should prioritize maintaining their body’s natural pH regulation by:

• Eating a Balanced Diet: Whole foods, rich in minerals, vitamins, and electrolytes, provide the necessary components for cellular function.
• Hydrating with Natural Mineral Water: Water containing natural electrolytes supports hydration and nutrient transport better than artificially alkaline water.
• Avoiding Overuse of Antacids and Alkaline Products: Chronic use of antacids or alkaline water can lead to digestive issues and nutrient deficiencies.
• Supporting Gut Health: Fermented foods, probiotics, and fibre help maintain the natural pH balance of the digestive tract.
• Managing Stress: Chronic stress alters pH balance and depletes essential nutrients, affecting overall health.

Conclusion

The body’s pH balance is a delicate and dynamic system, regulated by multiple organs and physiological mechanisms. Misconceptions about alkaline diets and water often lead people to disrupt their own digestion, impair nutrient absorption, and negatively affect their health. Rather than focusing on artificially altering pH, a more effective approach is to ensure proper hydration, electrolyte intake, and a nutrient-dense diet to support mitochondrial function and ATP production.

Understanding the electrical nature of food and energy transfer at a cellular level further emphasises the need for whole, bioavailable nutrition rather than simplistic alkaline-promoting trends. By respecting the body’s natural homeostasis, we can support long-term health and optimal function.

For more insights, check out “The Science of Health” section.