The New Standard in Regenerative Orthopedics
Aurora Exo Series Ortho is a new generation of exosome technology with engineered content for bone and cartilage tissues.
Its lyophilized form offers superior stability, while its structure, enriched with osteogenic and chondrogenic biological components, supports targeted tissue regeneration.
Developed for orthopedic surgeons, this innovative platform provides a reliable, standardized, and ready-to-use solution in regenerative treatment approaches.
Thanks to content engineering targeting specific tissue, it is enriched with biological signals that support bone and cartilage regeneration, unlike standard MSC-derived exosomes.
*5 billion standardized exosome particles
*Storable at +4°C
*Ready-to-use activator system
*Form specifically developed for orthopedic use
Why Aurora Exo Ortho? Targeted Regeneration
While most exosome products offer general-purpose MSC-derived ingredients, Aurora Exo Series Ortho® is derived from osteogenic and chondrogenic differentiated cells. This makes it enriched with biological signals that support bone and cartilage regeneration.
Lyophilized Technology
Does not require deep freezing.Eliminates the need for -80°C logistics. Offers the advantage of +4°C storage.Provides a long shelf life.
Standardized Dosage
Each vial contains exactly 5 billion exosome particles.This approach provides higher product standardization and predictability in clinical applications.
Ready to Use
Prepared within minutes using the activator solution included in the box, it can be used in a clinical or operating room setting.
Not an ordinary exosome, but an exosome designed for orthopedics.
APPLICATION AREAS
Osteoarthritis
Applications aimed at supporting the cartilage matrix and improving joint biology.
Osteochondral Lesions
Supporting the simultaneous regeneration of cartilage and subchondral bone.
Bone Defects
Combined use with graft or synthetic scaffold systems.
Spinal Fusion
Biological fusion support by adding to graft materials.
Meniscus and Labrum Injuries
Minimally invasive biological support applications.
