Influence of Neuroendoscopic Third Ventriculostomy on the Size of Ventricles in Chronic Hydrocephalus

NowosXawska, Emilia; Polis, Lech; Kaniewska, Danuta; MikoXajczyk, Wanda; Krawczyk, Jacek; Szymański, Wojciech; Zakrzewski, Krzysztof; Podciechowska, Joanna

doi:10.1177/088307380401900803

Cited by 15 publications

(14 citation statements)

References 26 publications

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“…However, the factors weighed by a given surgeon to determine whether to perform an additional hydrocephalus intervention are not clearly defined. The ventricles of successfully shunted infants with hydrocephalus reliably decrease in size postoperatively [40,41] . But studies have shown the ventricles of young children following ETV may not significantly decrease in size, despite resolution of clinical features of hydrocephalus [42] .…”

Section: Etv/cpc Failures Complications and Redo Operationsmentioning

confidence: 99%

The Global Rise of Endoscopic Third Ventriculostomy with Choroid Plexus Cauterization in Pediatric Hydrocephalus

Dewan

Naftel²

2016

Pediatr Neurosurg

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In the quest to identify the optimal means of cerebrospinal fluid diversion free of shunt dependency, endoscopic third ventriculostomy (ETV) with choroid plexus cauterization (CPC) has been proposed as a promising procedure in select children. Supplementing traditional ETV with obliteration of the choroid plexus has been shown to decrease the likelihood of ultimate shunt dependency by roughly 20%. Originally devised to treat hydrocephalus in infants in sub-Saharan Africa, ETV/CPC has gained eager attention and cautious support in the developed world. Herein, we offer a comprehensive review of ETV/CPC beginning with the history and theory behind the operation. Next, we delve into the data supporting its use across heterogeneous pediatric populations, and finally we discuss clinical outcomes and future directions.

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Section: Etv/cpc Failures Complications and Redo Operationsmentioning

confidence: 99%

The Global Rise of Endoscopic Third Ventriculostomy with Choroid Plexus Cauterization in Pediatric Hydrocephalus

Dewan

Naftel²

2016

Pediatr Neurosurg

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“…For hydrocephalus that is successfully shunted, ventricular volume reliably decreases, while the head circumference trajectory typically decreases or plateaus. 8,10 As a reference procedure, shunting augments CSF dynamics in a completely different manner from that of endoscopic treatment, and, therefore, the same metrics used for assessment of success may change in different magnitudes. On the other hand, following a successful ETV in older children, preoperative symptoms often improve but the ventricular volume may not decrease.…”

mentioning

confidence: 99%

Endoscopic third ventriculostomy with choroid plexus cauterization outcome: distinguishing success from failure

Dewan

Lim

Morgan

et al. 2016

PED

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E ndoscopic third ventriculostomy with choroid plexus cauterization (ETV/CPC) for the treatment of infantile hydrocephalus is being performed as an alternative to shunting. 7,11,12,16 Multiple validated success scales exist as simple tools to calculate the expected success rate of endoscopically treated hydrocephalus based on preoperative variables. 6,15 All of these predictive models depend on the manner in which the diagnosis of failure is established. The decision making in diagnosing ETV/ CPC success or failure remains subjective, ambiguous, and often opaque in current studies.Metrics of assessing infantile hydrocephalus include head circumference, ventricular size, and fontanel quality. In traditional treatment of infantile hydrocephalus, a ventriculoperitoneal shunt is inserted, and it is expected that all 3 of these metrics will begin to normalize or "improve," i.e., the fontanel will flatten and soften, accelerated head growth will cease, and ventricle size will decrease. In obJeCtive Endoscopic third ventriculostomy with choroid plexus cauterization (ETV/CPC) offers an alternative to shunt treatment for infantile hydrocephalus. Diagnosing treatment failure is dependent on infantile hydrocephalus metrics, including head circumference, fontanel quality, and ventricle size. However, it is not clear to what degree these metrics should be expected to change after ETV/CPC. Using these clinical metrics, the authors present and analyze the decision making in cases of ETV/CPC failure. MethoDs Infantile hydrocephalus metrics, including bulging fontanel, head circumference z-score, and frontal and occipital horn ratio (FOHR), were compared between ETV/CPC failures and successes. Treatment outcome predictive values of metrics individually and in combination were calculated. resUlts Forty-four patients (57% males, median age 1.2 months) underwent ETV/CPC for hydrocephalus; of these patients, 25 (57%) experienced failure at a median time of 51 days postoperatively. Patients experiencing failure were younger than those experiencing successful treatment (0.8 vs 3.9 months, p = 0.01). During outpatient follow-up, bulging anterior fontanel, progressive macrocephaly, and enlarging ventricles each demonstrated a positive predictive value (PPV) of no less than 71%, but a bulging anterior fontanel remained the most predictive indicator of ETV/CPC failure, with a PPV of 100%, negative predictive value of 73%, and sensitivity of 72%. The highest PPVs and specificities existed when the clinical metrics were present in combination, although sensitivities decreased expectedly. Only 48% of failures were diagnosed on the basis all 3 hydrocephalus metrics, while only 37% of successes were negative for all 3 metrics. In the remaining 57% of patients, a diagnosis of success or failure was made in the presence of discordant data. ConClUsions Successful ETV/CPC for infantile hydrocephalus was evaluated in relation to fontanel status, head growth, and change in ventricular size. In most patients, a designation of failure or success was m...

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“…Endoscopic third ventriculostomy often results in stability or, in some cases, an increase in ventricular size. 20,23 This report shows for the first time improvements in white matter tract DTI parameters and strong intellectual development following ETV, despite minimal change in ventricular size—although, notably, the third ventricular morphology index improved. We believe this report provides additional support for the role of DTI as a candidate biomarker of subtle neurobehavioral and cognitive deficits not evident on clinical examination.…”

Section: Discussionmentioning

confidence: 62%

Longitudinal comparison of diffusion tensor imaging parameters and neuropsychological measures following endoscopic third ventriculostomy for hydrocephalus

Buckley

Yuan

Mangano

et al. 2012

PED

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The authors report the case of a 25-month-old boy who underwent endoscopic third ventriculostomy (ETV) for hydrocephalus resulting from aqueductal stenosis. The patient's recovery was monitored longitudinally and prospectively using MR diffusion tensor imaging (DTI) and formal neuropsychological testing. Despite minimal change in ventricle size, improvement in the DTI characteristics and neurodevelopmental trajectory was observed following ETV. These data support the use of DTI as a biomarker to assess therapeutic response in children undergoing surgical treatment for hydrocephalus. In the patient featured in this report, DTI appeared to provide more information regarding postoperative neurodevelopmental outcome than ventricle size alone.

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Influence of Neuroendoscopic Third Ventriculostomy on the Size of Ventricles in Chronic Hydrocephalus

Cited by 15 publications

References 26 publications

The Global Rise of Endoscopic Third Ventriculostomy with Choroid Plexus Cauterization in Pediatric Hydrocephalus

The Global Rise of Endoscopic Third Ventriculostomy with Choroid Plexus Cauterization in Pediatric Hydrocephalus

Endoscopic third ventriculostomy with choroid plexus cauterization outcome: distinguishing success from failure

Longitudinal comparison of diffusion tensor imaging parameters and neuropsychological measures following endoscopic third ventriculostomy for hydrocephalus

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