Revision rate of pediatric ventriculoperitoneal shunts after 15 years.
about
Management and Outcome of Infantile Hydrocephalus in a Tertiary Health Institution in NigeriaFractured inlet connecting tube of the flat bottom flushing device of a posterior fossa cystoperitoneal shunt.A Retrospective Analysis of Ventriculoperitoneal Shunt Revision Cases of a Single InstituteUltrasound guided placement of the distal catheter in paediatric ventriculoatrial shunts-an appraisal of efficacy and complicationsReview of the Management of Peroral Extrusion of Ventriculoperitoneal Shunt Catheter.Forty years of shunt surgery at Rigshospitalet, Denmark: a retrospective study comparing past and present rates and causes of revision and infection.Positional plagiocephaly following ventriculoperitoneal shunting in neonates and infancy-how serious is it?Evidence of an application of a variable MEMS capacitive sensor for detecting shunt occlusions.The effects of socioeconomic status and race on pediatric neurosurgical shunting.Endoscopic pediatric neurosurgery: implications for anesthesia.Image Guidance in Ventricular Cerebrospinal Fluid Shunt Catheter Placement: A Systematic Review and Meta-Analysis.Outcome of ventriculoperitoneal shunt and predictors of shunt revision in infants with posthemorrhagic hydrocephalus.LOVA: the role of endoscopic third ventriculostomy and a new proposal for diagnostic criteria.Microbiology and treatment of cerebrospinal fluid shunt infections in children.Hydrocephalus decreases arterial spin-labeled cerebral perfusion.Surgical outcome of the shunt: 15-year experience in a single institution.Management of the Pediatric Neurocritical Care Patient.Shunt revision requirements after posthemorrhagic hydrocephalus of prematurity: insight into the time course of shunt dependency.Using individualized opening pressure to determine the optimal setting of an adjustable proGAV shunt in treatment of hydrocephalus in infants.Adult long-term outcome of patients after congenital hydrocephalus shunt therapy.Use of programmable versus nonprogrammable shunts in the management of normal pressure hydrocephalus: A multicenter retrospective study with cost-benefit analysis in Turkey.A 5-Month-Old Infant with Right Scrotum Swelling; a Case ReportAn Angstrom-sensitive, differential MEMS capacitor for monitoring the milliliter dynamics of fluids.Factors affecting quality of life in early childhood in patients with congenital hydrocephalus.Expression of Aquaporin 1 and 4 in the Choroid Plexus and Brain Parenchyma of Kaolin-Induced Hydrocephalic Rats.Hidden Devices in the School Setting: What the Nurse Needs to Know About Shunts.Treatment of abdominal pseudocysts and associated ventricuoperitoneal shunt failure.In vitro hydrodynamic, transient, and overtime performance of a miniaturized valve for hydrocephalus.Traumatic intracranial displacement of the ventriculoperitoneal valve chamber in a child-a report of 2 cases.Assessment of Ventriculoperitoneal Shunt Function Using Ultrasound Characterization of Valve Interface Oscillation as a Proxy.Evaluation of the use of automatic exposure control and automatic tube potential selection in low-dose cerebrospinal fluid shunt head CT.
P2860
Q33594954-E07BDB16-E0B4-4D5C-9352-743AFC993DCBQ35179386-FEF234C4-AD8F-45E5-B1A6-5B68EAA4AB4DQ35777816-69F0C539-FA77-41EB-B913-D6D188D09BA4Q37100177-97C9AA37-32F9-425B-880C-626252A43A2CQ37543189-C99F47C2-1D5A-48AF-8B3C-4E38FCBA17E1Q37598317-3CA24B98-2894-4F0C-B1E8-1DDFDFFB45FDQ37703193-6A039DDF-E1BD-4DFD-8D54-0DFF761DDDEEQ37737846-15323647-DC3E-4422-B4A2-040CEF45FC3EQ38118068-16909CB9-74E4-4064-9EF0-C6036B41FC6CQ38203957-0E1D7B5E-0F50-4374-8C0E-E5F101B971C1Q38535493-47423D83-85AE-4ECA-8303-7A9131B580ABQ38859495-B93832FD-43FC-4A10-8270-7FBB6B6D9CD3Q38990667-67B1CDF6-A65F-47C4-B9A1-C27B6183B66AQ39144222-6435BE05-6E9F-40F3-A042-17FF967FA473Q39226430-37CCD92F-1089-4499-85A6-8BAE87C073DBQ39523209-8860E8A4-B209-4B56-B216-05D2551584C2Q40427429-9359DA0F-6E50-4D07-868E-82DDD6BDEE11Q40653234-54649659-5DEC-444A-9830-6956AF9C3278Q41122485-84405215-CADE-4BCC-926C-041497F77ECCQ41697678-0DD74079-4380-4325-ACE9-33BA47CC20E4Q42037780-E9E7C97F-3FEA-46F1-942A-F28A563B0F42Q42319888-CA65EF96-24BD-4FAA-8BC0-50E86FFF79A7Q42585679-460C1F1D-355B-4C1F-860A-F32A33BF35DCQ46661421-26774CCA-6537-457F-825F-D68EC504F84DQ47135836-F832E196-E8F5-46C2-B416-B993EEEFD897Q47391148-86BDE809-E286-4459-A2FB-7CB4191F959DQ47831766-7548797D-0B54-482E-BA41-5D6828D69794Q48298611-3992B87E-24CE-44C9-A5ED-09250C361260Q51056711-87023638-DBB6-4D47-A9D2-DB1866393155Q52571106-3142686D-446C-4261-909D-B3BCBF813504Q53021161-98B63FCA-A683-490D-997F-B7A3ACD5CC68
P2860
Revision rate of pediatric ventriculoperitoneal shunts after 15 years.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Revision rate of pediatric ventriculoperitoneal shunts after 15 years.
@en
type
label
Revision rate of pediatric ventriculoperitoneal shunts after 15 years.
@en
prefLabel
Revision rate of pediatric ventriculoperitoneal shunts after 15 years.
@en
P2093
P356
P1476
Revision rate of pediatric ventriculoperitoneal shunts after 15 years.
@en
P2093
Corey T Walker
Howard J Silberstein
Jonathan J Stone
Maxwell Jacobson
Valerie Phillips
P356
10.3171/2012.9.PEDS1298
P577
2012-10-26T00:00:00Z