Use of biodegradable polycaprolactone matrix for filling bone defects (experimental study)

Abstract: Background. There are unresolved issues in bone defect management associated with complications, invasiveness and long duration of treatment. The use of elastic implants made of bioactive biodegradable materials that take any form of defect could close many of them.The aim. To investigate features of reparative regeneration in filling bone defects with an elastic degradable implant made of polycaprolactone (PCL) with and without hydroxyapatite (HA).Materials and methods. The study was carried out on 10 adult m… Show more

“…This phenomenon is called stress shielding results from the huge difference between the elastic modulus of these fixation implants and that of human bones creating a stress shielding effect around the bone fracture [8]. Metal implants have less bioactivity and less osteo inductivity that help fracture repair [9,10]. Stress shielding may necessitate repeated operations to remove the bone implant fixation plates, causing additional health-care expenses and patient health hazards [11].…”

Developing Biodegradable Polymeric Composite for Nails Manufacturing of Bone Fracture Fixation

“…This phenomenon is called stress shielding results from the huge difference between the elastic modulus of these fixation implants and that of human bones creating a stress shielding effect around the bone fracture [8]. Metal implants have less bioactivity and less osteo inductivity that help fracture repair [9,10]. Stress shielding may necessitate repeated operations to remove the bone implant fixation plates, causing additional health-care expenses and patient health hazards [11].…”

Developing Biodegradable Polymeric Composite for Nails Manufacturing of Bone Fracture Fixation