• Manufactured with a porous interconnected micro-architecture that demonstrates mechanical properties similar to human cancellous bone¹

• Upon implantation, blood and surrounding cells are absorbed into the pores of the scaffold via capillary action - creating a regenerative niche that is ideal for tissue formation

• Polycaprolactone (PCL) is a biodegradable polymer that degrades and resorbs fully in vivo by hydrolysis which is then metabolised by the body

• It has a gradual resorption profile, depending on the patients anatomy and metabolism, of approximately 18-24 months^,

• Possesses improved resorption rate that maintains mechanical integrity during healing process

• Osteoplug is designed to fit seamlessly into the burr hole defects, fresh craniotomy cuts. Osteoplug-C is designed to fit perfectly into the post-trephination burr hole defects. This ensures direct interaction between surrounding calvarial bone, allowing repair cells to use the implant as a scaffold, promoting bone tissue regeneration

Osteoplug and Osteoplug-C are bioresorbable implants, made out of Polycaprolactone, used to restore post-trephination burr hole defect and fresh craniotomy cuts by promoting tissue ingrowth^, leading to a shift from purely cosmesis to regeneration of damaged tissues.

• It does not require fixation

• It conforms to a defect, thus maximising direct contact with viable patient bone

Osteomesh is a bioresorbable implant, made out of Polycaprolactone, used for the repair of orbital fractures, leading to a shift in orbital reconstructive surgery from purely repairing bony defects to regeneration of damaged tissues.

• Restores the structural integrity of the orbital floor by bridging the defect and preventing orbital content from herniating into the adjacent periorbital sinuses

• Prevents extra-ocular motility limitations, is malleable and easy for surgeon handling

• Does not need to be contoured

• Does not require fixation

• Can be easily cut with scissors