Abstract
BackgroundDistraction techniques are effective methods for the treatment of craniosynostoses when a significant gain of an intracranial volume is required. However, this technique raises some challenges at different stages of the treatment. While installing the distractors in patients with thin calvarial bone, there is a risk of dural damage from the titanium screws. The need for wide exposure of the devices and the screws during removal causes soft tissue damage and bleeding.ObjectiveThis study aimed to evaluate sonic pin use in the distraction procedures.MethodsResorbable sonic pins were used in 11 consecutive posterior cranial vault distraction procedures to attach distraction devices to the calvarial bone.ResultsThis method allowed for a less traumatic and faster removal of the devices without the risk of leaving foreign bodies in the wound. In three out of 11 cases on follow-up, displacement of proximal distractor footplate and partial relapse of distraction were detected. Though there was a smaller volume increase in these patients, all of them benefited clinically from the PCVD and did not require reoperations.ConclusionsThis method allows a strong and stable attachment of the distractor devices to the cranial vault bones with a reduced risk of dural tears due to the screws. It also allows for easier and less traumatic device removal.
Highlights
Posterior cranial vault distraction (PCVD) techniques are widely used as an effective method for the treatment of craniosynostoses where a significant gain in intracranial volume is required
This paper describes our experience using resorbable sonic pins for the attachment of the distractor devices during the posterior cranial vault distraction (PCVD) procedures
When implanting the distraction device during the PCVD, especially in cases with a thin calvarial bone, there is a risk of damage to the dura from the titanium screws used to attach the footplate to the bone
Summary
Posterior cranial vault distraction (PCVD) techniques are widely used as an effective method for the treatment of craniosynostoses where a significant gain in intracranial volume is required. The devices consist of two footplates with holes for screws, connected by one or two rotating bars This allows the shifting of the footplates away from each other, thereby increasing the gap between the osteotomized bone and the rest of the skull during the device activation stage. It allows for increasing the intracranial volume up to 30% [5]. The distraction devices gradually shift the osteotomized bone and provide a stable attachment for it until ossification occurs During these activation and consolidation periods, the screws experience a certain amount of pressure. The need for wide exposure of the devices and the screws during removal causes soft tissue damage and bleeding
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