Phyquantrix™

Technology Superiority

Introduction

Phyquantrix™ represents an advanced delivery system utilizing spherical vesicles composed of one or more phospholipid bilayers. This technology is designed to encapsulate various substances, including minerals, to enhance their absorption and cellular delivery. The following document provides a detailed overview of the technological superiority of PhyquantrixTM the Revolutionary PhyquantrixTM Phytosome Quantum Nano Matrix (PQNM) technology for class leading bioavailability and in cellular absorption of mineral supplementation.

1. Structure and Composition of Phyquantrix

  1. Phospholipid BilayerPhyquantrix is constructed from phospholipids, which possess hydrophilic (water-attracting) heads and hydrophobic (water-repelling) tails. In aqueous environments, these phospholipids spontaneously arrange themselves into a bilayer, forming spherical vesicles with an aqueous core. This bilayer structure is essential for encapsulating and protecting various substances.
  2. Encapsulation of MineralsMinerals can be encapsulated within the aqueous core of Phyquantrix or integrated into the phospholipid bilayer, depending on their chemical properties. This encapsulation serves to protect minerals from degradation by acidic environments and digestive enzymes in the gastrointestinal tract. It also enhances the stability and bioavailability of the minerals.

2. Absorption Mechanism

  1. Protection in the Digestive TractThe phospholipid bilayer of Phyquantrix provides a protective barrier for the encapsulated minerals. This barrier safeguards the minerals from the harsh acidic pH and digestive enzymes in the stomach, preventing premature release and degradation. As a result, the minerals are better preserved until they reach the small intestine, where absorption primarily occurs.
  2. Facilitated AbsorptionPhyquantrix vesicles fuse with the cell membranes of intestinal epithelial cells due to their similar phospholipid composition. This fusion process enables the liposome to merge with the cell membrane, facilitating the direct release of encapsulated minerals into the cells. This mechanism enhances the efficiency of mineral absorption.
  3. EndocytosisIn addition to membrane fusion, Phyquantrix vesicles can be absorbed through endocytosis. During this process, the cell membrane engulfs the liposome, forming an endosome that carries the vesicle into the cell. Inside the endosome, the liposome is broken down, releasing the minerals into the cytoplasm for utilization.

3. Enhanced Bioavailability

  1. Increased Solubility and StabilityEncapsulation in Phyquantrix significantly increases the solubility of minerals, particularly those with low water solubility. This enhanced solubility improves the minerals’ absorption in the intestines, ensuring a higher proportion of the minerals are available for uptake.
  2. Targeted DeliveryPhyquantrix can be engineered to target specific tissues or cells by modifying the surface of the vesicles with ligands or antibodies that bind to specific receptors. This targeted delivery enhances the effectiveness of mineral supplementation by directing minerals to the areas of the body where they are most needed.
  3. Reduced Gastrointestinal Side EffectsPhyquantrix protects encapsulated minerals from direct interaction with the gut lining, which can reduce gastrointestinal irritation and common side effects such as nausea or diarrhea. This protection makes Phyquantrix a gentler alternative to traditional mineral supplements.

4. Cellular Delivery and Utilization

  1. Direct Delivery to CellsOnce absorbed, Phyquantrix releases its encapsulated minerals directly into the cytoplasm of target cells. This direct delivery improves the bioavailability of minerals at the cellular level, ensuring that a higher percentage of the ingested minerals is utilized effectively by the body.
  2. Controlled ReleasePhyquantrix can be designed to release its contents gradually, providing a controlled and sustained delivery of minerals over time. This controlled release helps maintain steady mineral levels in the body and reduces the frequency of dosing, contributing to better compliance and effectiveness.

Advantages of Phyquantrix Mineral Delivery

  1. Improved Absorption

    Phyquantrix enhances the absorption of minerals, especially those that are poorly absorbed in their free form. The combination of protection, increased solubility, and efficient delivery mechanisms contributes to superior mineral absorption compared to conventional methods.

  2. Increased Bioavailability

    The advanced delivery system of Phyquantrix ensures that a greater proportion of the ingested minerals reaches the bloodstream and is utilized by the body. This increased bioavailability maximizes the benefits of mineral supplementation.

  3. Potential for Lower Doses

    Due to improved absorption and bioavailability, lower doses of Phyquantrix-encapsulated minerals may be needed to achieve the desired therapeutic effect. This reduction in dose can minimize the risk of side effects and enhance patient tolerance.

Clinical Applications

  1. Nutrient Deficiencies

    Phyquantrix is particularly advantageous for individuals with nutrient deficiencies who require high absorption rates to restore depleted mineral levels. Its enhanced delivery system ensures effective replenishment of essential minerals.

  2. Chronic Conditions

    In conditions where nutrient absorption is impaired, such as inflammatory bowel disease or celiac disease, Phyquantrix offers a more effective supplementation method. Its ability to improve mineral absorption addresses the challenges faced by individuals with compromised digestive systems.

  3. Support in Targeted Therapy

    Phyquantrix can be employed in targeted therapy to deliver minerals to specific organs or tissues. This targeted approach is beneficial for treating conditions that affect particular areas of the body, allowing for precise and effective mineral supplementation.