Comparison of dural grafts and methods of graft fixation in Chiari malformation type I decompression surgery.

Suboccipital decompression with duraplasty is a widely accepted method for treating patients with Chiari malformation type I. However, important details of the duraplasty technique are still controversial. This retrospective study analyzes clinical and radiological outcomes after surgery depending upon the type of graft and methods of graft fixation. Seventy consecutive decompressions with duraplasty were analyzed. Two types of grafts, nonautologous (Non-AutoG; 60.0%) and autologous (AutoG; 40.0%), and two methods of graft fixation, suturing (S; 67.1%) and gluing (G; 32.9%), were used in four different combinations: (Non-AutoG+S: 31.4%; Non-AutoG+G: 28.6%; AutoG+S: 35.7%; AutoG+G: 4.3%) according to surgeon preference. The mean follow-up was 63.4 months. According to gestalt and Chicago Chiari Outcome Scales, satisfactory results were obtained in 72.9% and 78.6% of cases, respectively, in the long term. The outcomes were not related to the kind of graft (p = 0.44), fixation method (p = 0.89) or duraplasty pattern (p = 0.32). Decreased syringomyelia was observed in 88.9% of cases, and no associations with the kind of graft (p = 0.84), fixation method (p = 1) or duraplasty pattern were found (p = 0.96). Pseudomeningocele occurred 5 times more often in the Non-AutoG group than in the AutoG group (52.4% vs. 10.7%; p < 0.05), whereas their formations were not related to the fixation method (p = 0.34). Three cases (12.0%) required reoperation with reduraplasty. Autologous and nonautologous dural grafts can be sutured or glued with similar clinical results; however, the use of nonautologous grafts is linked with a much higher risk of pseudomeningocele formation.

The Hudson Brace technique for emergency burr holes, an aide-memoire for the front-line military surgeon.

Traumatic brain injury is the leading cause of death in conflict and early surgical intervention achieves better outcomes. The British Army surgical kit includes a Hudson Brace and bit and Gigli saw for decompression of the cranial cavity. Here we demonstrate the Hudson Brace technique for non-neurosurgeons.

Repositioning of an anti-depressant drug, agomelatine as therapy for brain injury induced by craniotomy.

Traumatic brain injury (TBI) leads to the disruption of blood-brain barrier integrity and therefore results in increased brain water content (brain edema). Brain edema is a significant factor for increased intracranial pressure (ICP), which ultimately causes functional disability and death. The decompressive craniotomy (DC) is a surgical procedure widely used for treating increased ICP following TBI. The life-saving craniotomy itself results in brain injury. The objective of this study is to investigate the effect of agomelatine against craniotomy induced brain injury. The craniotomy was performed by a variable speed micro-motor dental driller of 0.8 mm drill bit. The present study, in addition to blood-brain permeability, brain water content (edema) and histological examination of the brain, also estimated locomotor activity, oxidant, and antioxidant parameters. Results show that the craniotomy induced increase in the blood-brain barrier permeability, brain water content (edema), oxidative stress (lipid peroxide and nitric oxide) and impaired antioxidant mechanisms (superoxide dismutase, catalase, and reduced glutathione) in rats. The craniotomy was also found to increase neuronal cell death indicated by augmented chromatolysis and impaired locomotor activity. Administration of agomelatine after the craniotomy ameliorated histopathological, neurochemical and behavioral consequences of craniotomy. Thus agomelatine is effective against brain injury caused by craniotomy.

Using titanium mesh to replace the bone flap during decompressive craniectomy: A medical hypothesis.

Decompressive craniectomy (DC) plays a significant role in treating refractory intracranial hypertension. During this surgical procedure, part of the skull is removed and the underlying dura mater is open, which can effectively release intracranial pressure. However, in some cases, the decision whether or not to remove the bone flap relies on the surgeon's personal experience. Positive decisions are usually made to avoid massive postoperative cerebral edema and infarction, which can lead to overtreatment. The procedure is related to many side-effects, which may affect the recovery of neurological function. Patients who have survived have to be anesthetized and undergo secondary cranioplasty 3 or 6 months later. Despite its technical simplicity, complications associated with cranioplasty are hard to ignore. Therefore, there is a need for a new surgical procedure combining decompressive craniectomy and cranioplasty. Acute expansion of the skin flap is limited, and the compensatory capacity of the skull after DC depends on the volume of the bone flap at the early stage. The titanium mesh is thin and strong, does not take up extra space provided by bone flap. Therefore, we put forward the concept of Decompressive Bone Flap Replacement. During this procedure, neurosurgeons resect the massive bone flap, open the dura mater, remove the hematoma in a similar manner to a standard craniotomy and then use titanium mesh shaped appropriately to replace the bone flap. Compared with traditional DC, it can ensure the integrity of the skull without affecting the effect of decompression. This paper presents 2 cases of DC and reviews the literature sustaining our hypothesis.

Biomechanics of a novel reversibly expandable dynamic craniotomy bone flap fixation plate.

OBJECTIVE: Biomechanical evaluation of a novel expandable cranial fixation plate was assessed in cadavers. The dynamic craniotomy procedure uses low-profile reversibly expandable plates that allow cranial decompression by providing for intracranial volume expansion without removal of the bone flap. The plates allow reversible outward movement of the bone flap upon an increase in intracranial pressure (ICP) and also retract the bone flap and prevent it from sinking inside the cranium once the ICP normalizes. METHODS: A comparative evaluation of the extent of ICP control with an increase in intracranial volume between various bone flap fixation techniques was undertaken along with testing of the expandable plate compliance. Static compression tests of the plates were performed to assess bone flap fixation and prevention of sinking. Quasi-static shear tension testing of the plates was undertaken to test the tolerance of the plates for expansion. Fatigue shear tension evaluation of the plates was undertaken to assess tolerance for repetitive expansion and contraction. RESULTS: The dynamic craniotomy provided superior control of ICP with an increase in intracranial volume compared to the hinged craniotomy and standard craniotomy techniques (p < 0.001). Static compression results revealed that the plates withstood bone flap sinkage with a mean peak load of 643.3 ± 26.1 N and a mean inward bone flap displacement of 1.92 ± 0.09 mm. Static shear tension results indicated that the plates could withstand a peak expansion of 71.6 mm. Dynamic shear tension testing of the plates with repetitive 15-mm outward expansion and retraction for a total of up to 500 cycles revealed no cracking and no failure points. CONCLUSIONS: The reversibly expandable plates provide for a low-profile bone flap fixation with rigid restriction of bone flap sinking and also enable cranial decompression with a high tolerance for repetitive expansion and contraction.

Emergent Single Burr Hole Evacuation for Traumatic Acute Subdural Hematoma with Cerebral Herniation: A Retrospective Cohort Comparison Analysis.

OBJECTIVE: To investigate the clinical benefits of emergent single burr hole evacuation technology in traumatic acute subdural hematoma (ASDH) with cerebral herniation cases. METHODS: We conducted a review comparing patients with ASDH with cerebral herniation who underwent single burr hole evacuation followed by decompressive craniectomy and intracranial hematoma removal surgery (n = 45, group A) and those who underwent decompressive craniectomy and intracranial hematoma removal surgery after rapid infusion of mannitol 250 mL (n = 53, group B) in our institution. Pre- and postoperative assessments included Glasgow Coma Scale (GCS), Glasgow Outcome Scale (GOS), activities of daily living (ADLs), and common complication incidences. RESULTS: At 1 and 6 months after operation, the median GCS score of group A was significantly higher than group B (P = 0.04 and P = 0.03, respectively). After 6 months, the GOS score and ADLs between the 2 groups had significant differences (P < 0.05). There were no differences between the 2 groups in the common complication incidences. CONCLUSIONS: Emergent single burr hole evacuation in combination with decompressive craniectomy surgery is a useful treatment for ASDH with cerebral herniation, which can achieve reduction of intracranial pressure as soon as possible and improve the prognosis.

Surgical Management of Aneurysmal Hematomas in the Presence of Brain Herniation on Arrival: A Single-Center Case Series Analysis.

OBJECTIVES: To assess the outcomes in aggressively treated patients with aneurysmal intracerebral hematoma (ICH) and signs of brain herniation, and to investigate possible predictive factors. METHODS: This retrospective study included 43 patients with aneurysmal ICH who presented to the Emergency Department with brain herniation and received aggressive surgical treatment between 2008 and 2016. Emergency surgical clipping, hematoma removal, and external decompression were combined as an aggressive surgical treatment. Outcomes were assessed using in-hospital survival and the Glasgow Outcome Scale at a 6-month follow-up. RESULTS: All the patients were World Federation of Neurological Societies grade V on presentation. The mean hematoma volume was 59.1 ± 16.5 mL. The in-hospital mortality rate was 48.8%. At the 6-month follow-up, favorable outcomes were achieved in 7 patients (16.3%). Significant factors related to death included bilateral mydriasis, lower initial Glasgow Coma Scale (GCS) score, larger hematoma volume, and no recovery of pupil reactivity after surgery. Bilateral restoration of pupil reactivity and higher initial GCS score were associated with 6-month favorable outcomes. Patients with an intrasylvian hematoma were more likely than those with an intraparenchymal hematoma to achieve a favorable outcome (62.5% vs. 5.7%; P = 0.001). CONCLUSIONS: Our data indicate that the protocol of aggressive surgical treatment in patients with a herniated aneurysmal ICH might be warranted. Despite mydriasis, favorable outcomes might be achieved in some patients. However, careful individual patient-centered decision making is essential, particularly when bilateral pupil dilation persists.

Dynamic Decompressive Craniotomy with a Novel Reversibly Expandable Plate.

Objective To assess the feasibility of a dynamic craniotomy procedure with the use of a novel reversibly expandable cranial bone flap fixation plate. The expandable plate allows outward bone flap migration with an increase in intracranial volume or intracranial pressure (ICP). Methods Dynamic craniotomy intracranial hypertension compliance was evaluated in a skull model with progressive increase in intracranial volume and compared with the standard craniotomy with fixed plates. Results Dynamic craniotomy provided significant control of ICP with increasing intracranial volume compared with the standard craniotomy. With an incremental increase in intracranial volume from 360 mL to 600 mL, the ICP increased from 2.6 to 91.9 mm Hg with the standard craniotomy, whereas with the dynamic craniotomy the ICP for similar intracranial volume increased from 2.5 to 25 mm Hg (p < 0.00001). Conclusions The dynamic craniotomy procedure provides superior control of ICP with an abrupt intracranial volume increase when compared with the standard craniotomy.

Analysis of Decompressive Craniectomies with Subsequent Cranioplasties in the Presence of Collagen Matrix Dural Substitute and Polytetrafluoroethylene as an Adhesion Preventative Material.

OBJECTIVE: Decompressive craniectomy is an established treatment for malignant intracranial hypertension. Cranioplasty is performed once cerebral swelling has resolved. Complications include infection, postoperative fluid collections, hematoma, reoperation, and seizures. Our experience using a double layer technique during craniectomy with a collagen matrix onlay dural substitute and expanded polytetrafluoroethylene for antiadhesive properties during cranioplasty was reviewed. METHODS: This is a retrospective chart review of 39 consecutive patients who underwent craniectomy with placement of collagen matrix dural onlay and expanded polytetrafluoroethylene and subsequent cranioplasty. Demographic data, size of craniectomy defect, estimated blood loss, operative time, time between operations, presence of dural tackups, and postoperative complications were analyzed. RESULTS: Mean operative time was 132 minutes and estimated blood loss was 112 mL. Overall complication rate was 25.6% and no mortality was encountered. Nine patients had postoperative fluid collections measuring ≥ 10 mm in thickness and/or 5 mm of midline shift. Two patients required reoperation for these collections. Two patients developed infections requiring bone flap removal. Three patients developed seizures after cranioplasty. Five patients required shunt placement for hydrocephalus. CONCLUSIONS: Our dual layer closure technique at time of decompressive craniectomy carries a similar reduction in operative time and estimated blood loss when compared with cranioplasty series with other antiadhesives present. The technique described enables easy dissection of the musculocutaneous flap from the dural plane during cranioplasty and increases the safety of the operation.

Effects of electromagnetic fields from mobile phones on depression and anxiety after titanium mesh cranioplasty among patients with traumatic brain injury.

OBJECTIVE: To explore the effects of radiofrequency-electromagnetic fields (RF-EMFs) from mobile phones on depression and anxiety after titanium mesh cranioplasty among patients with traumatic brain injury (TBI). METHODS: Two hundred and twenty patients with TBI and titanium mesh cranioplasty who were hospitalized from 2008-2012 were recruited in this study. From November-December 2012, the relevant information was surveyed including socio-demographic characteristics, lifestyle variables, injury-related information, RF-EMF exposure of mobile phone, Self-rating Depression Scale (SDS) and Self-rating Anxiety Scale (SAS). Associations of RF-EMFs exposure after titanium mesh cranioplasty with SAS and SDS were respectively estimated by multivariable linear regression models. RESULTS: The patients with long durations of mobile phone use (ß = -6.6, p = 0.002), long individual call duration (ß = -5.3, p = 0.012), more daily calls (ß = -3.6, p = 0.027), invariably answer call immediately (ß = -3.9, p = 0.022) and high comprehensive exposure level (ß = -4.8, p = 0.003) had a lower score of depression compared with those without a mobile phone. Moreover, an ipsilateral and contralateral answering phone enhanced the protective effect on depression. Individuals with a long duration of mobile phone use had a lower score of anxiety (ß = -4.2, p = 0.008), while those with a bilateral answering phone had higher anxiety (ß = 3.9, p = 0.012) in comparison to those without a mobile phone. CONCLUSION: RF-EMFs after cranioplasty were significantly associated with the lower risk of depression and anxiety status among patients with TBI. Chronic and frequent RF-EMFs exposure may improve psychiatric disorders among patients with TBI.

Titanium mesh-assisted dural tenting for an expansile suboccipital cranioplasty in the treatment of Chiari 1 malformation.

Cerebellar ptosis and dural prolapse are known complications after posterior craniocervical decompression of Chiari 1 malformation (CM1), and are associated with larger craniectomies, epidural scarring and intradural adhesions. Although management of these complications has been well documented, little has been reported in regards to their prevention. We describe our variation of the posterior fossa decompression technique for CM1 using a titanium mesh-assisted dural tenting expansile cranioplasty to prevent both cerebellar ptosis and dural prolapse. A watertight dural augmentation patch is performed after posterior craniocervical decompression. A titanium mesh cranioplasty is performed to cover the superior aspect of the craniectomy. The duraplasty is then tented to the titanium mesh plate with several interrupted sutures. The titanium mesh plate was intended to prevent postoperative cerebellar ptosis or sag, while the dural tenting was performed to prevent delayed collapse and restenosis of the cistern magna. Four patients with CM1 underwent this technique without complication. Postoperative MRI did not demonstrate cerebellar ptosis, restenosis or collapse of the cisterna magna. The expansile suboccipital cranioplasty with titanium mesh-assisted dural tenting technique is a simple and efficient strategy that may be useful to prevent cerebellar ptosis and dural prolapse and maintain the patency of the surgically created neo-cisterna magna.

Cesárea urgente y craneotomía en una paciente con rotura de una malformación arteriovenosa cerebral / Emergency cesarean section and craniectomy in a patient with rupture of a cerebral arteriovenous malformation

La hemorragia intracerebral en el embarazo, aunque es un evento raro, puede tener consecuencias catastróficas tanto para la madre como para el feto. El manejo de las malformaciones arteriovenosas no rotas en el embarazo genera una gran controversia en la literatura actual, ya que siempre existe la posibilidad de sangrado espontáneo y de convertirse en una verdadera urgencia. Presentamos el caso de una paciente secundigesta de 35 semanas diagnosticada de una malformación arteriovenosa cerebral conocida, que desarrolló un cuadro súbito de cefalea, convulsiones tónico-clónicas generalizadas, pérdida de conciencia y hemiparesia, con imágenes radiológicas de hematoma intracraneal con efecto de masa y signos de herniación. Discutimos el tratamiento multidisciplinario, haciendo énfasis en el abordaje perioperatorio de cesárea más craneotomía, drenaje del hematoma, el manejo posterior en Cuidados Intensivos y el definitivo por Neurorradiología, con buen resultado (AU)

The intracerebral hemorrhage in pregnancy is a rare event, but can have catastrophic consequences for both mother and fetus. The management of non-ruptured arteriovenous malformations in pregnancy is not free of controversy in the current literature, as there is the possibility of spontaneous bleeding and becoming a true emergency. We report the case of a pregnant patient of 35 weeks with a diagnosis of a cerebral arteriovenous malformation, who developed a sudden onset of headache, generalized tonic-clonic seizures, loss of consciousness, and hemiparesis with radiological images of an intracranial hematoma with a mass effect, and signs of herniation. The multidisciplinary management is discussed, emphasizing perioperative cesarean approach plus craniotomy and drainage of the hematoma, and subsequent management in intensive care, and definitive management by neuroradiology, with a successful outcome (AU)

Cranial compression using distractors in reverse fashion as an alternative method for correcting scaphocephaly in older patients.

BACKGROUND: Intraoperative calvarial contraction of conventional calvarial remodeling is more difficult in scaphocephaly patients who are 1 year or older in age. In our current study, gradual cranial compression with a distractor was used to correct scaphocephaly in this older age group and the surgical results were quantitatively analyzed. METHODS: Gradual cranial compression was used to treat 7 sagittal craniosynostosis patients. The mean age was 20.9 months (range, 12-32 months) and the mean follow-up period was 65 months (range, 3-81 months). Computed tomography was used to calculate the cephalic index (CI; equal to the maximum width of the head/maximum length of the head ×100), and the ratios of these indices at 3 different time periods (before, immediately after, and at 1 year postoperatively) were evaluated. RESULTS: An average cranial compression of 18 mm was found to be possible with an average CI increase from 67.9 to 73.5. The CI ratio at 1 year after surgery was found to be the highest, showing a 9.8% increase. CONCLUSION: Sagittal craniosynostosis patients are less easy to treat with conventional calvarial remodeling surgery if they are older than 1 year. Gradual cranial vault compression with distractors can be another option in these cases.

Cranioplasty with custom-made titanium plates--14 years experience.

BACKGROUND: There is no consensus on which material is best suited for repair of cranial defects. OBJECTIVE: To investigate the outcomes following custom-made titanium cranioplasty. METHODS: The medical records for all patients who had titanium cranioplasty at 2 major neurosurgical centers in Western Australia were retrieved and analyzed for this retrospective cohort study. RESULTS: Altogether, 127 custom-made titanium cranioplasties on 113 patients were included. Two patients had 3 titanium cranioplasties and 10 patients had 2. Infected bone flap (n = 61, 54%), either from previous craniotomy or autologous cranioplasty, and contaminated bone flap (n = 16, 14%) from the initial injury were the main reasons for requiring titanium cranioplasty. Complications attributed to titanium cranioplasty were common (n = 33, 29%), with infection being the most frequent complication (n = 18 patients, 16%). Complications were, on average, associated with an extra 7 days of hospital stay (interquartile range 2-17). The use of titanium as the material for the initial cranioplasty (P = .58), the presence of skull fracture(s) (P > .99) or scalp laceration(s) (P = .32) at the original surgery, and proven local infection before titanium cranioplasty (P = .78) were not significantly associated with an increased risk of infection. Infection was significantly more common after titanium cranioplasty for large defects (hemicraniectomy [39%] and bifrontal craniectomy [28%]) than after cranioplasty for small defects (P = .04). CONCLUSION: Complications after using titanium plate for primary or secondary cranioplasty were common (29%) and associated with an increased length of hospital stay. Infection was a major complication (16%), and this suggested that more vigorous perioperative infection prophylaxis is needed for titanium plate cranioplasty.

Improved survival following cerebral edema using a novel hollow fiber-hydrogel device.

OBJECT: Cerebral edema is a significant cause of morbidity and mortality in many disease states. Current therapies of cerebral edema are often ineffective in treating severe edema. Here, the authors develop a hollow fiber-hydrogel device (HFHD) for direct surface contact-based treatment of severe cerebral edema. METHODS: Brain edema was induced in adult mice via water intoxication by intraperitoneal water administration (30% body weight). Control mice received no treatment. A distinct group of mice was treated with craniectomy but no device application (craniectomy only). A third experimental group was treated with craniectomy and HFHD application. The HFHD contained a lumen solution of 350 g/L bovine serum albumin in room-temperature artificial CSF at pH 7.4. Survival and brain water content were assessed as end points. RESULTS: Craniectomy and application of the HFHD enhanced survival in animals with severe cerebral edema. Animals treated with a craniectomy and HFHD (n = 5) survived up to 5 hours longer than animals treated with craniectomy only (n = 5) (p < 0.001) or no treatment (n = 5) (p < 0.001). Animals treated with craniectomy and HFHD (n = 5) had a survival rate of 80% within the observation period (360 minutes), whereas no animal treated with craniectomy only (n = 5) or no treatment (n = 5) survived longer than 50 and 33 minutes, respectively. Statistical significance was observed for the survival rate between the animals treated with a craniectomy + HFHD (n = 5) versus those treated with craniectomy only (n = 5) (p < 0.001), and craniectomy + HFHD versus no treatment (n = 5) (p < 0.001). Histological analysis demonstrated no significant cell loss in the cortex subjacent to HFHD application. CONCLUSIONS: Here, the authors demonstrate the feasibility of their HFHD to treat cerebral edema in this model. These results indicate that controlled water extraction from edematous brain tissue can be performed and can lead to increased survival compared with craniectomy only. Further studies remain to be performed to further optimize the HFHD and to test it in more clinically relevant models, such as traumatic brain injury.

[Decompressive craniectomy in acute stroke - The different perspective]. / Dekompressionskraniektomie bei ischämischen Hirninfarkten - Die chirurgische Perspektive.

Extensive space occupying strokes occur in about 1-10% of all ischaemic supratentorial infarctions. Both the high mortality and morbidity primarily result from secondary brain damage due to an accompanying brain edema. Therefore, the primary therapeutic target in patients with space occupying strokes is the control of the brain edema and the consecutively elevated intracranial pressure. If intracranial pressure cannot be controlled by conservative treatment methods, a decompressive craniectomy (DC) is a possible treatment option in selected patients to reduce intracranial pressure. In this review recommendations from the surgeon's perspective are given concerning the indication and timing of DC in patients with space occupying supra- and infratentorial cerebral infarctions.

Endoscope-assisted strip craniectomy and postoperative helmet therapy for treatment of craniosynostosis.

OBJECT The primary goals of treatment in the infant with craniosynostosis are to correct the deformity and allow for adequate brain growth in as safe and effective a manner as possible. Herein, the authors present the results of treating craniosynostosis using an endoscope-assisted strip craniectomy and postoperative helmet therapy (EASC + PHT) in the hopes of providing further evidence of its role in the treatment of multiple different forms of craniosynostosis. This is a retrospective review of the patients treated with this technique at Children's Hospital Boston. METHODS The electronic medical records of all children with craniosynostosis treated using this technique were reviewed retrospectively. A priori, data were collected for deformity type, patient age at surgery, number of transfusions, operative time, length of hospital stay, and anthropometric measurements. RESULTS One hundred seventy-three patients (61 females and 112 males) were treated at our institution between July 2004 and March 2011 with EASC + PHT. The mean operative time was 46.30 minutes. Eight (4.6%) of the 173 patients received blood transfusions. The average length of hospital stay was 1.35 days, with the majority of patients being discharged the day after surgery. All complications and any patient who required additional craniofacial reconstructions are discussed. In addition, a subgroup analysis was done for patients who had undergone surgery and had longer than 1 year of follow-up. CONCLUSIONS The authors' growing database of patients supports the experiences described by others that early treatment of craniosynostosis with an EASC + PHT is a safe and efficacious technique. In addition, cost reduction due to decreased hospital stay and limitation of blood transfusions are demonstrable benefits associated with the use of this technique.

Technical aspects of decompressive craniectomy for malignant middle cerebral artery infarction.

Decompressive craniectomy is considered a life-saving procedure for malignant middle cerebral artery territory infarction in selected patients. However, the procedure is associated with a significant risk of morbidity and mortality, and there is no universal agreement as to how this operation should be combined with optimal medical management. In this review we consider the goals of this procedure and the technical aspects which may be employed to optimise results.