HIGH-PURITY API GRADE
The Molecular
Architecture
ZeoCage micronized zeolite utilizes a clinically optimized honeycomb lattice to provide high-affinity cation exchange and selective toxin sequestration
3-5 μm
Uniform particle distribution achieved through proprietary micronization technology
3D Honeycomb Lattice
Our proprietary micronization process preserves the structural integrity of the clinoptilolite lattice, ensuring a consistent 4-angstrom pore diameter optimized for heavy metal capture.
94%
3.8Å
Selective Ion Exchange
ZeoCage operates on a thermodynamic preference. It selectively binds positively charged toxins like Lead, Mercury, and Cadmium while sparing vital minerals
Binding Affinity Highest Tier
pH Range Stability
Unlike inferior clay-based sorbents, ZeoCage maintains 100% structural stability across pH 1.2 (Gastric) to pH 8.0 (Intestinal), preventing toxin release.
Clinical Kinetics
In comparative kinetic studies, ZeoCage demonstrated a significantly higher absorption rate in the first 60 minutes of exposure.
40%
Higher Absorption
Laboratory Analysis
Molecular Spec Sheet
Standardized testing ensures every micronized batch meets pharmaceutical grade thresholds for surface area and CEC.
| Parameter | Test Method | Clinical Target | Typical Value |
|---|---|---|---|
| Cation Exchange Capacity (CEC) | NH4+ Saturation | > 150 meq/g | 1.82 meq/g |
| Specific Surface Area | BET N2 Adsorption | > 35 m²/g | 42.8 m²/g |
| Particle Size (D50) | Laser Diffraction | < 5.0 µm | 3.2 µm |
| Clinoptilolite Content | X-Ray Diffraction | > 90% | 94.1% |
Access the Clinical dossier
Dive deeper into the molecular kinetics, safety profiles, and ion-exchange thermodynamics of ZeoCage. Our 2024 White Paper includes 15 peer-reviewed study references.