Comparison of the incidence of intracranial hemorrhage in two different planning techniques for stereotactic electrode placement in the deep brain stimulation.

AIM: Intracranial hemorrhage is an infrequent but potentially devastating complication associated with the placement of electrodes for deep brain stimulation (DBS). The objective of this retrospective review is to compare the risk of hemorrhage before and after the introduction of image-guided neuronavigation for the implant of electrodes for DBS. METHODS: We reviewed all DBS implant performed at our Institute between 1998 and 2010. In 63 of the 106 patients, the targeting was based on ventriculography and merge of CT/MRI. After 2006, in the latter 43 procedures, we introduced targeting based on the merging of angio CT and MRI.. In both implant techniques, microelectrode recording (MER) was used to better define the target. All DBS procedures were performed by a single surgeon (M.P.). Patients had postoperative imaging (MRI or CT) 4-24 h following surgery. RESULTS: In the group of patients implanted with the first targeting technique, 3 hematomas occurred and all of them solved with sequelae (one residual weakness and two hemiplegias.) After the introduction of neuronavigator, 2 hemorrhages occurred, one solved without sequelae while the second resulted in epileptic seizures. CONCLUSION: Although the incidence of hemorrhage occurred before and after the use of neuronavigation is the same, the severity is lower in the neuronavigated procedures. Targeting based on the merging of CT angiography and MRI T1/T2 seemed to increase the safety of the lead placement reducing the risk of sequelae related to bleeding. The use of MER was not found to be correlated with an increased hemorrhage rate.

A computational model to compare different investment scenarios for mini-stereotactic frame approach to deep brain stimulation surgery.

UNLABELLED: Deep brain stimulation (DBS) alleviates symptoms of many neurological disorders by applying electrical impulses to the brain by means of implanted electrodes, generally put in place using a conventional stereotactic frame. A new image guided disposable mini-stereotactic system has been designed to help shorten and simplify DBS procedures when compared to standard stereotaxy. A small number of studies have been conducted which demonstrate localization accuracies of the system similar to those achievable by the conventional frame. However no data are available to date on the economic impact of this new frame. AIM: The aim of this paper was to develop a computational model to evaluate the investment required to introduce the image guided mini-stereotactic technology for stereotactic DBS neurosurgery. METHODS: A standard DBS patient care pathway was developed and related costs were analyzed. A differential analysis was conducted to capture the impact of introducing the image guided system on the procedure workflow. The analysis was carried out in five Italian neurosurgical centers. RESULTS: A computational model was developed to estimate upfront investments and surgery costs leading to a definition of the best financial option to introduce the new frame. Investments may vary from Euro 1.900 (purchasing of Image Guided [IG] mini-stereotactic frame only) to Euro 158.000.000. Moreover the model demonstrates how the introduction of the IG mini-stereotactic frame doesn't substantially affect the DBS procedure costs.

Thromboembolic complications related to indwelling central venous catheters in children with oncological/haematological diseases: a retrospective study of 362 catheters.

Indwelling central venous catheters (CVC) are essential devices in the management of children with oncological/haematological diseases being treated with chemotherapy or undergoing bone marrow transplantation. Our study was aimed at detecting the incidence of important thrombotic events caused by CVC in children, and the coexistence of coagulation disorders in children affected with thromboembolic disease related to CVC. Therefore, we describe some antithrombotic strategies which have been successfully applied to solve functioning problems of correctly inserted CVC. We retrospectively evaluated the clinical records of 308 children (age range 2 months to 14 years) with oncological/haematological diseases undergoing insertion of 362 indwelling CVC from January 1994 to December 1998 at the Gaslini Children's Hospital. We collected data on seven serious asymptomatic thrombotic episodes diagnosed between 1994 and 1998 following catheter malfunctioning and one case of suspected lung embolism with symptoms. Coagulation tests allowed us to identify one case of probable heterozygosis of Protein C deficiency and one case of G20210A prothrombotic prothrombin mutation. This finding suggests the need for further evaluation for thrombophilia in all patients presenting with thrombotic complications of CVC. We therefore emphasise the importance of prophylaxis with low-dose heparin in children with malignancies receiving CVC. A prospective study, which has already been started, should identify the exact role of thromboembolic complications in children with indwelling CVC for oncological/ haematological malignancies.

The role of decompressive craniectomy in the treatment of uncontrollable post-traumatic intracranial hypertension.

The benefit of decompressive craniectomy for the treatment of uncontrolled post-traumatic intracranial hypertension seems to be encouraging if medical management fails. We present our experience in 22 cases of cerebral edema due to head trauma. The edema alone was rarely the direct consequence of head trauma. Frequently it was associated with an acute subdural or extradural hematoma and contusion (with or without mass effect). First of all we treated the mass effect of the hematoma and contusion when the diameter was more than 3 cm. Intracranial pressure was monitored in the majority of patients. Bone decompression was performed in the operating theatre depending on the values of intracranial pressure. In our series 41% of patients had a good recovery, 18% a severe disability, 23% a vegetative state and 18% died. The findings showed that the bony decompression must be performed early before the situation becomes irreversible. We suggest that if intracranial pressure values remain greater than 30 mmHg with cerebral perfusion pressure below 70 mmHg, despite vigorous anti-edema therapy, decompressive craniectomy should be considered.