The 3-Step Iterative Protocol
1Test
Data Acquisition
➔
2Adjust
Local AI Synthesis
➔
3Repeat
90-Day Validation
Phase 1: Precision Data Acquisition
LHE regulation success is determined by the precision of initial data. You must select professional laboratories equipped with ICP-MS (Inductively Coupled Plasma Mass Spectrometry) technology.
| Laboratory Name |
Core Engineering Advantage |
Official Website |
| Trace Elements (TEI) |
No-Wash Protocol: Does not wash hair samples, preserving water-soluble minerals. This is the gold standard for LHE $Na/K$ accuracy. |
traceelements.com ➔ |
| Analytical Research (ARL) |
Metabolic Modeling: Specializes in body metabolic rate analysis via mineral ratios. The birthplace of LHE adjustment logic. |
arltma.com ➔ |
| Doctor's Data (DDI) |
Heavy Metal Mapping: Provides extremely high-precision toxic element profiles to identify system disruptors (Mercury, Aluminum, Cadmium). |
doctorsdata.com ➔ |
⚠️ Sampling Engineering Details (SOP):
- Location: Occipital region (back of head), cut as close to the scalp as possible.
- Length: Use only the first 3 cm (1.5 inches) from the scalp. Excess length reflects outdated data.
- Weight: Approx. 125 mg (about one level tablespoon).
- Precautions: Do not dye, perm, or use medicated shampoos 24 hours prior to sampling.
Phase 2: Local AI Diet & Recipe Engineering
🤖 Local AI Synthesis Protocol:
The Local AI acts as the computation engine, generating recipes based on Age, Weight, Height, and Gender to satisfy these requirements:
- #1 RDA Standard: Every daily meal plan must meet 90% of the Recommended Dietary Allowance (RDA) for all vitamins and minerals.
- #2 5-Pair Mineral Balance Diet: The AI mathematically synthesizes a diet that aligns all 5 primary mineral pairs into their Green Zone ratios simultaneously.
- Recipe Engineering: Builds high nutrient-density meals that serve as the physical vehicle for mineral balance.
Phase 3: Ideal Target Ranges (Green Zone)
Reflects cellular electrical charge and stress response.
Regulation: If Low (Exhaustion), increase sea salt and limit high-potassium foods (Bananas, Potatoes). If High (Stress), increase Mg/K.
Determines the systemic "firewall" thickness against oxidative damage.
Regulation: Typically requires introducing Selenium (e.g., Brazil nuts) to coordinate Copper metabolism.
* Derived from converged element reference ranges across multiple labs; for long-term trend analysis.
Regulates neurotransmitters and immune depth.
Regulation: If High (Copper overload), increase Zinc-rich foods (Red meat, Oysters, Pumpkin seeds) and B6.
Determines the physical efficiency of the electron transport chain.
Regulation: Adjust intake of Heme-Iron vs. Manganese to optimize the cellular "battery."
Controls muscle tension and prevents soft tissue calcification.
Regulation: If High (>11.0), significantly increase Magnesium and pair with Vitamin K2.
Verification & Loop Closure
🔄 90-Day Regulation Cycle
Mineral turnover in soft tissue follows a physical 90-day cycle. A re-test must be performed every 90 days to confirm the vector of shift.
Stop Condition: All 5 ratios must reside in the Green Zone simultaneously.
If any parameter remains outside the target, the Local AI re-synthesizes the diet for a new 90-day iteration.