An analysis of factors determining the requirement of ventriculoperitoneal shunt surgery in the children suffering from posterior fossa tumour: a single centre retrospective review

Background: Hydrocephalus is a relatively common occurrence in a children suffering from the posterior fossa tumour (PFTm). However, there is a divided opinion regarding the ventriculoperitoneal shunt (VPS) surgery before the posterior fossa tumour resection in a child. For the better clinical outcome, we should be able to predict which patient will require VPS following the resection of PFTm. Purpose of our retrospective analysis is to analyse various factors that predicts the necessity of VPS following PFTm resection.Methods: A consecutive series of twenty-six patients who underwent PFTm resection without undergoing VPS preoperatively are analysed in our series.Results: In our series, we found that the younger age at presentation, incomplete tumour resection, longer period of artificial ventilatory support, insertion of external ventricular drain (EVD) and its duration during the postoperative period correlate the necessity of VPS following PFTm resection. However, the severity of hydrocephalus prior to tumor surgery, tumour size, anatomical location of the tumour, tumour dissemination, use of Dural grafts during closure and histopathological type do not predict the requirement of the VPS following PFTm.Conclusions: Patients who are younger at diagnosis should be treated with utmost importance. Gross total resection should be the goal. Factors which predict the likelihood of the EVD which parallels the likelihood of postresection hydrocephalus must be prevented for the better clinical outcome.

Sphingomonas Paucimobilis: A Rare Infectious Agent Found in Cerebrospinal Fluid

Sphingomonas paucimobilis (S. paucimobilis) is a gram negative bacillus. It has existed in soil, drinking water and plants. It has been isolated from distilled water tanks, respirators, and hemodialysis devices at the hospital setting. Patients with chronic disorders or immune suppression may be susceptible to infections with it. This microorganism has also been reported to infect healthy persons. Both nosocomial and community-acquired infections have been reported. So far, a variety of infections have been reported, including sepsis, septic pulmonary embolism, septic arthritis, peritonitis, and endophthalmitis. Only 2 cases of meningitis have been reported so far in the literature. So far, no previous reports of culture proliferation have been reported in patients with external ventricular drains, as was the case in our patient. Therefore, our case is the first to have S. paucimobilis proliferation in cerebrospinal fluid culture during intensive care unit stay for an external ventricular drain.

Device for Catheter Placement of External Ventricular Drain

To introduce a new device for catheter placement of an external ventricular drain (EVD) of cerebrospinal fluid (CSF). This device was composed of three portions, T-shaped main body, rectangular pillar having a central hole to insert a catheter and an arm pointing the tragus. The main body has a role to direct a ventricular catheter toward the right or left inner canthus and has a shallow longitudinal opening to connect the rectangular pillar. The arm pointing the tragus is controlled by back and forth movement and turn of the pillar attached to the main body. Between April 2012 and December 2014, 57 emergency EVDs were performed in 52 patients using this device in the operating room. Catheter tip located in the frontal horn in 52 (91.2%), 3rd ventricle in 2 (3.5%) and in the wall of the frontal horn of the lateral ventricle in 3 EVDs (5.2%). Small hemorrhage along to catheter tract occurred in 1 EVD. CSF was well drained through the all EVD catheters. The accuracy of the catheter position and direction using this device were 91% and 100%, respectively. This device for EVD guides to provide an accurate position of catheter tip safely and easily.

Accuracy of the Free Hand Placement of an External Ventricular Drain (EVD) / 대한뇌혈관외과학회지

OBJECTIVE: Free hand insertion of an external ventricular drain (EVD) is one of the most common emergency neurosurgical procedures, usually performed on critically ill patients. Complications such as infection and hemorrhage that accompany the placement of an EVD have been studied thoroughly, but few reports have focused on the accuracy of EVD positioning. As a result, the authors of this paper retrospectively studied the accuracy of tip positioning in the placement of an EVD. METHODS: One hundred and thirteen emergency EVDs were performed through Kocher's point during the past 3 years. All patients underwent the following procedures: at least one routine post-EVD computed tomographic (CT) scan that was retrospectively reviewed for accuracy of the EVD tip position, calculation of the Evan's index, and measurement of the intracranial length of the EVD. We divided the EVD tip position into 6 groups as follows:1) ipsilateral frontal horn of the lateral ventricle, 2) contralateral frontal horn of the lateral ventricle, 3) third ventricle, 4) body of the ipsilateral or contralateral lateral ventricle, 5) basal cisterns, or 6) brain parenchyma. Among the 6 groups, only the ipsilateral frontal horn group was considered to be the correct position for the EVD tip. RESULTS: The mean age of the patients was 55.6+/-15.3 years (age range, 12~90 years), and the most common indication for the EVD was supratentorial intracerebral hemorrhage (ICH) and intraventricular hemorrhage (IVH) (57.5%). Forty-five out of a total of 113 EVDs were placed by inexperienced neurosurgical trainees, and the remaining 68 were placed by experienced practitioners. Among 113 post-EVD CT scans, 48 EVD tips (42.5%) were in the ipsilateral frontal horn of the lateral ventricle (considered to be the correct position); 22 (19.5%) were in the third ventricle, 16 (14.1%) in the body of the ipsilateral or contralateral lateral ventricle, 14 (12.4%) in the contralateral frontal horn of the lateral ventricle, 11 (9.7%) within the brain parenchyma and 2 (1.8%) in the basal cistern. The mean estimated EVD length was 57+/-8.4mm. The mean length of EVDs that were positioned in the ipsilateral frontal horn was 55+/-4.3 mm, whereas the mean lengths of EVDs in the parenchyma and basal cistern were 64+/-14mm and 72+/-3.5mm, respectively. In addition, there was no statistically significant relationship between the surgeon's experience and the accuracy of the position of the EVD tip (p > 0.05). CONCLUSION: Emergency free hand placement of an EVD might be an inaccurate procedure. Further multi-institutional prospective studies are required to assess the accuracy and complications of free hand insertion of EVDs in an emergency setting. Studies are also needed on the feasibility of routine use of intra-operative neuro-navigation of other guidance tools, such as ultrasonography.

Clinical Analysis of External Ventricular Drainage Related Ventriculitis

OBJECTIVE: The aim of this study is to analyze on the external ventricular drainage (EVD) related ventriculitis, especially on their risk factors, management, and prevention. METHODS: From January 2003 to December 2005, a total of 174 EVD catheters were placed in 112 patients at our institution. Of these patients, EVD-related ventriculitis were developed in 15 cases. Clinical variables such as age, sex, prior clinical diagnosis, placement of EVD insertion, duration of EVD, total numbers of EVD per person, and outcome were analyzed in theses cases to verify the risk factors, causative agents and outcomes. RESULTS: Fifteen cases of EVD related ventriculitis were noted presenting infection incidence of 13.39 % per patient and 8.62% per procedure. Of these, five patients died from sepsis, seven patients were recovered from infection but neurological complications remained and three patients were recovered without any complications. Microbes were obtained from cerebrospinal fluid only in six patients. Acinetobactoer baumanii was the most common pathogen in our study (4 cases). Among the various risk factors, only the prior clinical diagnosis showed the statistical significance. Patients who underwent decompressive craniectomy after severe brain trauma showed unfavorable outcome because of possible contaminative environment compared with other cases. CONCLUSION: EVD is considered as a safe procedure with good control of intracranial pressure if meticulous care is provided for EVD procedure and maintenance. With regards to risk factors and prevention, the higher incidence and unfavorable outcome was seen especially in patients with severe head trauma. Thus, special attention is required in these clinical settings.

Therapeutic Results of Posterior Fossa Tumors with Hydrocephalus

OBJECTIVE: This study is designed to identify the clinical characteristics and the optimal treatment modality of hydrocephalus in posterior fossa tumors. METHODS: The authors reviewed 154 infratentorial tumor patients. Age, sex, clinical symptoms, types of treatment, and surgical results of posterior fossa tumor patients with hydrocephalus were analyzed, retros-pectively. Factors which might predict the need for external ventricular drainage(EVD) or ventriculo-peritoneal shunt were analyzed statistically. RESULTS: Hydrocephalus was noted in 86 cases(56%), and it was associated with medulloblastoma in 16 cases(89%), hemangioblastoma in 12(63%) and brain stem glioma in three(33%). The surgical results of the posterior fossa tumors with hydrocephalus were poorer than those without hydrocephalus(p<0.05). A large tumor(p<0.05) and an incomplete removal(p<0.05) were factors predicting the need for EVD or shunt. Complications of intraoperative EVD or shunt developed in four cases. They were infection, he-morrhage at puncture site, and obstruction. Five patients in whom intraoperative EVD or shunt had not been performed developed a fatal hydrocephalic attack at immediate postoperative period, and the pos-toperative computed tomography scan revealed intraventricular hemorrhages in three cases cerebellar swellings in two cases. CONCLUSION: Intraoperative EVD or shunt is a safe, effective treatment modality especially in large size tumor and/or incomplete tumor resection. Intraventricular hemorrhages or cerebellar swellings during immediate postoperative period might cause fatal hydrocephalic attack, therefore EVD or shunt might be recommended in selected cases.