Objective: To compare the effect of extensive duraplasty and subsequent early cranioplasty on the recovery of neurological function in management of patients with severe traumatic brain injuries received decompressiv...Objective: To compare the effect of extensive duraplasty and subsequent early cranioplasty on the recovery of neurological function in management of patients with severe traumatic brain injuries received decompressive craniectomy. Methods: The computer-aided designation of titanium armor plate was used as a substitute for the repair of skull defect in all the patients. The patients were divided into three groups. Twenty-three patients were in early cranioplasty group who received extensive duraplasty in craniectomy and subsequent cranioplasty within 3 months after previous operation (Group I). Twenty-one patients whose cranioplasty was performed more than 3 months after the first operation were in the group without duraplasty (Group Ⅱ); while the other 26 patients in the group with duraplasty in previous craniotomy (Group Ⅲ). Both the Barthel index of activity of daily living (ADL) 3 months after craniotomy for brain injuries and 1 month after cranioplasty and Kamofsky Performance Score (KPS) at least 6 months aftercranioplasty were assessed respectively. Results: The occurrence of adverse events commonly seen in cranioplasty, such as incision healing disturbance, fluid collection below skin flap, infection and onset of postoperative epilepsy was not significantly higher than other 2 groups. The ADL scores at 3 months after craniotomy in Groups Ⅰ-Ⅱ/were 58.9±26.7, 40.8±20.2 and 49.2±18.6. The ADL scores at 1 month after cranioplasty were 70.2±425.2, 50.8±24.8 and 61.2±21.5. The forward KPS scores were 75.4±19.0, 66.5±24.7 and 57.6±24.7 respectively. The ADL and KPS socres were significantly higher in group I than other 2 groups. Conclusion: The early cranioplasty in those with extensive duraplasty in previous craniotomy is feasible and helpful to improving ADL and long-term quality of life in patients with severe traumatic brain injuries.展开更多
文摘Objective: To compare the effect of extensive duraplasty and subsequent early cranioplasty on the recovery of neurological function in management of patients with severe traumatic brain injuries received decompressive craniectomy. Methods: The computer-aided designation of titanium armor plate was used as a substitute for the repair of skull defect in all the patients. The patients were divided into three groups. Twenty-three patients were in early cranioplasty group who received extensive duraplasty in craniectomy and subsequent cranioplasty within 3 months after previous operation (Group I). Twenty-one patients whose cranioplasty was performed more than 3 months after the first operation were in the group without duraplasty (Group Ⅱ); while the other 26 patients in the group with duraplasty in previous craniotomy (Group Ⅲ). Both the Barthel index of activity of daily living (ADL) 3 months after craniotomy for brain injuries and 1 month after cranioplasty and Kamofsky Performance Score (KPS) at least 6 months aftercranioplasty were assessed respectively. Results: The occurrence of adverse events commonly seen in cranioplasty, such as incision healing disturbance, fluid collection below skin flap, infection and onset of postoperative epilepsy was not significantly higher than other 2 groups. The ADL scores at 3 months after craniotomy in Groups Ⅰ-Ⅱ/were 58.9±26.7, 40.8±20.2 and 49.2±18.6. The ADL scores at 1 month after cranioplasty were 70.2±425.2, 50.8±24.8 and 61.2±21.5. The forward KPS scores were 75.4±19.0, 66.5±24.7 and 57.6±24.7 respectively. The ADL and KPS socres were significantly higher in group I than other 2 groups. Conclusion: The early cranioplasty in those with extensive duraplasty in previous craniotomy is feasible and helpful to improving ADL and long-term quality of life in patients with severe traumatic brain injuries.
