How RAXON works?

YSZ Pearls: Ceramic pearls with a specialized YSZ coating

 

YSZ exhibits excellent biocompatibility with minimal interaction with blood components.

YSZ is antimicrobial and highly resistant to pressure and corrosion.

Certain YSZ formulations promote osteoblast proliferation, making them valuable for bone tissue engineering and implants to enhance bone growth.

 

YSZ materials are already FDA-approved for use in other medical devices. The unique properties of YSZ Pearls make them an ideal candidate for a wide range of biomedical applications. Imagine tiny, durable, and biocompatible spheres seamlessly integrating within the body, facilitating healing and regeneration.

 

Potential applications include:

 

Drug Delivery: YSZ Pearls can be loaded with therapeutic agents for targeted and controlled release, minimizing systemic side effects. The durable YSZ coating protects the drug from premature degradation and ensures delivery to the intended site.

 

Surgical Implants: As a component in bone grafts or as a scaffold for new tissue growth, YSZ Pearls offer a biocompatible and osteoinductive surface, accelerating healing and improving implant integration. Their resistance to corrosion and pressure ensures long-term stability within the body.

 

Wound Healing: Incorporated into wound dressings, YSZ Pearls can promote faster healing by creating a biocompatible and antimicrobial environment, preventing infection and stimulating tissue regeneration.

 

Dental Implants: The biocompatibility and resistance to corrosion make YSZ Pearls a valuable addition to dental implants, potentially improving osseointegration and long-term implant success.

 

Furthermore, the established safety profile of YSZ materials, demonstrated by their FDA approval in other medical devices, streamlines the regulatory pathway for YSZ Pearls. This offers a significant advantage in bringing innovative medical solutions to market faster.

Ongoing research and development are focused on optimizing YSZ formulations and pearl sizes to further enhance their therapeutic potential and expand their application across various medical fields.

 

Hour-Glass Tube

Turbulent flow may irritate white blood cells (WBCs). Increased WBC activity releases pro-inflammatory cytokines. Furthermore, turbulent blood flow's complex shear stress fluctuations activate platelets, which release prothrombotic and proinflammatory molecules via α-granules and microparticles.

 

The disturbed flow also affects endothelial cells, which line blood vessels. These cells respond to turbulent flow with altered gene expression, increasing the presentation of adhesion molecules like VCAM-1 and ICAM-1. This, in turn, facilitates greater WBC adhesion to the endothelium, prolonging their exposure to the inflammatory milieu and further exacerbating the cycle of inflammation and thrombosis.

RAXON PREPARATION STEPS

1. Blood Collection:

 

Approximately 25 ml of blood is drawn for patient comfort.

 

2. Processing:

 

The blood is processed in a specially designed hourglass tube with YSZ beads. Centrifugation generates controlled turbulent flow, stimulating the release of anti-inflammatory cytokines and growth factors.

 

3. Reinjection:

 

The enriched serum is immediately extracted with a sterile syringe and re-administered as a point-of-care, autologous regenerative treatment.

Get in Touch

 

We’re excited to explore partnership and investment opportunities with like-minded organizations and individuals. Let’s work together to bring RAXON to the world and make a lasting impact on global healthcare.