G Li1, L Wen, R Y Zhan, F Shen, X F Yang, W M Fu. 1. Department of Neurosurgery, First Affiliated Hospital, College of Medicine, Zhejiang University, Zhejiang, PR, China.
Abstract
BACKGROUND: Large cranial defects combined with hydrocephalus after decompressive craniectomy are a common, harsh reality among patients with head trauma. Typically, a shunt is first used to relieve the hydrocephalus. However, subsequently the patients may develop a severe sinking scalp flap over the skull defect before cranioplasty, which would make the procedure difficult. METHODS: This problem was overcome by temporarily adjusting the shunt pressure using a programmable ventriculoperitoneal shunt tube, which allowed expansion of the depressed scalp flap and facilitated the subsequent cranioplasty. This study describes two patients who were treated for this problem after severe head trauma. RESULTS: When performing a titanium mesh cranioplasty after a shunt, this new method facilitated the separation of the scalp from the underlying muscle or dura and obliterated the dead space between the titanium mesh and the underlying tissue. Both patients had satisfactory outcomes without complications. CONCLUSIONS: This method is easy and safe and it facilitates the cranioplasty, reducing the potential complications, including intracranial haematoma, effusions and infection, and thereby improving the patient outcome.
BACKGROUND: Large cranial defects combined with hydrocephalus after decompressive craniectomy are a common, harsh reality among patients with head trauma. Typically, a shunt is first used to relieve the hydrocephalus. However, subsequently the patients may develop a severe sinking scalp flap over the skull defect before cranioplasty, which would make the procedure difficult. METHODS: This problem was overcome by temporarily adjusting the shunt pressure using a programmable ventriculoperitoneal shunt tube, which allowed expansion of the depressed scalp flap and facilitated the subsequent cranioplasty. This study describes two patients who were treated for this problem after severe head trauma. RESULTS: When performing a titanium mesh cranioplasty after a shunt, this new method facilitated the separation of the scalp from the underlying muscle or dura and obliterated the dead space between the titanium mesh and the underlying tissue. Both patients had satisfactory outcomes without complications. CONCLUSIONS: This method is easy and safe and it facilitates the cranioplasty, reducing the potential complications, including intracranial haematoma, effusions and infection, and thereby improving the patient outcome.
Authors: Igor Paredes; Marta Cicuendez; Manuel A Delgado; Rafael Martinez-Pérez; Pablo M Munarriz; Alfonso Lagares Journal: Surg Neurol Int Date: 2011-06-30
Authors: C Iaccarino; A Kolias; P D Adelson; A M Rubiano; E Viaroli; A Buki; G Cinalli; K Fountas; T Khan; S Signoretti; V Waran; A O Adeleye; R Amorim; A Bertuccio; A Cama; R M Chesnut; P De Bonis; A Estraneo; A Figaji; S I Florian; R Formisano; P Frassanito; C Gatos; A Germanò; C Giussani; I Hossain; P Kasprzak; F La Porta; D Lindner; A I R Maas; W Paiva; P Palma; K B Park; P Peretta; A Pompucci; J Posti; S K Sengupta; A Sinha; V Sinha; R Stefini; G Talamonti; A Tasiou; G Zona; M Zucchelli; P J Hutchinson; F Servadei Journal: Acta Neurochir (Wien) Date: 2020-12-22 Impact factor: 2.216