Calcium–Potassium (Ca/K) Ratio in HTMA | Thyroid & Metabolic Insight

The calcium–potassium ratio (Ca/K) is one of the most important mineral ratios on a Hair Tissue Mineral Analysis (HTMA) report.

In nutritional balancing science, this ratio is known as the thyroid ratio, because calcium and potassium both play key roles in regulating thyroid effect at the cellular level.

If energy feels slow and heavy — or fast but unsustainable — the Ca/K ratio often helps explain why, even when blood thyroid tests appear normal.

• What the Ca/K Ratio Reflects
• Why It’s Called the Thyroid Ratio
• Ideal Ca/K Ratio and Reference Ranges
• High vs Low Ca/K: What It Can Feel Like
• Why Blood Thyroid Tests May Differ
• Ca/K and the Oxidation Rate
• Factors That Can Temporarily Skew the Ca/K Ratio
• Interpreting Changes on a Retest
• The Bigger Picture
• Related Reading

Dr. Paul C. Eck, founder of Analytical Research Laboratories, referred to the calcium–potassium ratio as the thyroid ratio based on decades of clinical observation.

This is well supported physiologically:

• Thyroid glandular activity lowers calcium in the tissues
• Potassium sensitises cells to thyroid hormone

For this reason, the Ca/K ratio reflects thyroid hormone effect, not simply hormone availability.

Dr. Eck established the ideal Ca/K ratio at 4 : 1, a benchmark still used today.

The ideal calcium–potassium ratio is:

4 : 1

Elevated Ca/K (reduced thyroid effect / slow metabolism)

• 4 – 8 → mildly sluggish thyroid activity
• 8 – 16 → moderately sluggish thyroid activity
• 16 – 32 → sluggish thyroid activity
• >32 → severe low thyroid effect

Higher ratios indicate reduced thyroid effect at the cellular level, even if blood hormone levels appear normal.

Low Ca/K (excessive thyroid effect / fast metabolism)

• 2 – 4 → mildly increased thyroid effect
• 1 – 2 → moderately increased thyroid effect
• <1 → excessive thyroid effect

Lower ratios indicate excessive cellular responsiveness to thyroid hormone, which can be stressful rather than beneficial.

The Ca/K ratio does not measure blood thyroid hormones such as TSH, free T3, free T4, reverse T3, or antibodies.

This is because HTMA is a tissue-level test, not a serum test.

It measures the endpoint effect of thyroid hormones at the level of the cells.

For example:

• Blood thyroid hormones may be normal or elevated, but cellular response is low due to poor hormone entry into cells
• This can occur when cell membranes have reduced permeability, often related to calcium accumulation, fatty acid imbalances, or other nutritional factors

The opposite can also occur:

• Blood thyroid hormones may be low
• Yet cellular response is excessive due to increased membrane permeability, a pattern commonly seen in fast oxidizers

In these cases, adding thyroid hormone can worsen imbalance rather than correct it.

The Ca/K ratio is one of the two primary ratios used to determine oxidation rate, alongside the sodium–magnesium ratio.

In simplified terms:

• Ca/K above 4 contributes to a slow oxidation pattern
• Ca/K below 4 contributes to a fast oxidation pattern

Oxidation rate reflects how efficiently nutrients are converted into cellular energy.
It is not the same as basal metabolic rate or calorie expenditure.

The calcium–potassium ratio is best interpreted over time, not from a single test.

Changes on a retest often reflect:

• mineral redistribution
• detoxification effects
• shifts in cellular responsiveness

As the Ca/K ratio gradually moves toward the ideal 4 : 1, overall body chemistry and energy regulation typically improve.

A ratio that appears to worsen temporarily does not automatically indicate decline. In many cases, it reflects the body adjusting after long-standing compensation.

Read more: Sodium–Magnesium (Na/Mg) Ratio
Read more: Sodium–Potassium (Na/K) Ratio
Read more: Oxidation Rate Explained