Abstract
Introduction
We evaluated the osteogenic potential of a novel biomimetic bone paste (DBSint®), made of a combination of a human demineralized bone matrix (hDBM) and a nano-structured magnesium-enriched hydroxyapatite (Mg-HA), in a standardized clinical model of high tibial osteotomy for genu varus.
Methods
A prospective, randomized, controlled study was performed and thirty patients were enrolled and assigned to three groups: DBSint® (Group I), nano-structured Mg-HA (SINTlife®) (Group II) and lyophilized-bone-chips (Group III). Six weeks after surgery, computed tomography-guided biopsies of the grafts were performed. Clinical/radiographic evaluation was performed at six weeks, twelve weeks, six months, one and 2 year after surgery, in order to verify if the graft type influenced the healing rate.
Results
By histomorphometry, DBSint® was shown able to promote a quick and effective bone tissue regeneration, superior to the healing process occurred in presence of SINTlife® and lyophilized bone chips.
At a mean follow up of 32,59 months, no statistical differences between the groups were found, both pre-and post-operatively, according to the Knee Society Scoring System. Mean time of ostointegration was 3,9 months in the DBSint® group, 4,2 months in the lyophilized-bone group and 4,5 in the SINTlife® group.
Discussion/conclusion
Orthopedic practice may be adversely affected by an inadequate bone repair that might compromise the success of surgery. Therapy for bone regeneration with DBSint® could be particularly attractive in the treatment of patients with bone defects difficult to heal, where it could shorten the period necessary for bone regeneration, due to the higher osteogenetic potential.