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|LETTERS TO EDITOR
|Year : 2019 | Volume
| Issue : 3 | Page : 903-905
Pleuro-peritoneal (PLP) shunt in paediatric hydrocephalus: A report
Laxmi Narayan Tripathy, Indrajit Rana
Department of Neurosurgery, Medica Superspecialty Hospital, Kolkata, West Bengal, India
|Date of Web Publication||23-Jul-2019|
Dr. Indrajit Rana
Medica Superspecialty Hospital, 127 Eastern Metropolitan Bypass, Mukundapur, Kolkata - 700 099, West Bengal
Source of Support: None, Conflict of Interest: None
|How to cite this article:|
Tripathy LN, Rana I. Pleuro-peritoneal (PLP) shunt in paediatric hydrocephalus: A report. Neurol India 2019;67:903-5
Post-meningitic multiloculated hydrocephalus is a difficult entity to treat, requiring repeated and multiple drainage procedures. In spite of endoscopic fenestration, septostomy and endoscopic third ventriculostomy, external diversions are frequently necessary. Ventriculo-peritoneal (VP) shunts are commonly done for such cases of hydrocephalus, but with peritoneal complications at times, conversion to ventriculo-atrial (VA) or ventriculo-pleural (VPL) shunt may be required.
We report a case of a 3-year old boy who developed post-meningitic neonatal hydrocephalus with multiple compartments and sequestrated ventricles. The initial right VP shunt got infected, requiring its removal and left frontal Ommaya reservoir insertion for aspiration as well as administration of intraventricular drugs. Intravenous antibiotics were also administered. After control of infection, a fresh left VP shunt was placed and later endoscopic septostomy was done [Figure 1]. The child developed perforation of the small intestine and peritonitis, requiring shunt exteriorization and re-insertion after control of infection. The VP shunt malfunctioned for which a VPL shunt was performed, which worked satisfactorily for some time, but subsequently, the child developed recurrent excessive pleural effusion [Figure 2] requiring frequent aspirations. A pleuro-peritoneal (PLP) shunt was performed to tackle the excessive cerebrospinal fluid (CSF) collection in the pleural cavity. The child remained asymptomatic and the chest X-ray remained satisfactory [Figure 3].
|Figure 1: Non-contrast computed tomographic scan of the brain showing the post-endoscopic septostomy status. The left VP shunt is draining both the ventricles|
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|Figure 3: X-ray showing good resolution of the left-sided pleural effusion|
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VPL shunting for the management of hydrocephalus was first reported by Ransohoff in 1954. The commonest reason for insertion of the VPL shunt is a pre-existing infected VP shunt. In children, VPL shunts may dysfunction due to poor absorption, resulting in excessive pleural collection. Large hydrothorax due to excess CSF accumulation in the pleural cavity has been reported, although rarely. Although timely pleural taps sometimes help in the process, there will be a proportion of children, who would need additional CSF diversion.
PLP shunt as an alternative therapy for pleural effusions in adult was first reported by Alex G, et al., in 1988. The PLP shunt in the management of persistent chylothorax  and malignancy  in paediatric patients has been reported earlier. The placement of a PLP shunt in persistent hydrothorax of a patient who has already undergone a VPL has never been reported in the literature.
For absorption of fluid from a cavity (e.g., pleural and peritoneal), a functional serosal surface is required. A larger serosal surface has better absorptive capacity. In our case, the child had bowel perforation and peritonitis for which the VP shunt had been converted to the VPL shunt earlier. When he presented with recurrent pleural effusion, the absorption capacity of solely the peritoneal/pleural cavity was in doubt. The PLP shunt increased the absorption capacity by conecting the serosal surface of both pleural and peritoneal cavity [Figure 4]. The PLP shunt is a simple procedure. It should be considered as an alternative method of CSF diversion in patients undergoing a VPL shunt who develop a persistent symptomatic pleural effusion.
To conclude, the PLP shunt, commonly done for recurrent primary pleural effusion, can be considered in the patients with shunt malfunction due to inadequate absorption of CSF in the pleural cavity and in the patients with symptomatic hydrothorax.
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Conflicts of interest
There are no conflicts of interest.
| » References|| |
Hoffman HJ, Hendrick EB, Humphreys RP. Experience with ventriculo-pleural shunts. Childs Brain
Küpeli E, Yilmaz C, Akçay S. Pleural effusion following ventriculopleural shunt: Case reports and review of the literature. Ann Thorac Med
Shahzad A, Nagaraju M. Severe respiratory failure following ventriculopleural shunt. Indian J Crit Care Med
Little AG, Kadowaki MH, Ferguson KM, Staszek VM, Skinner DB. Pleuro-peritoneal shunting. Alternative therapy for pleural effusions. Ann Surg
Engum SA, Rescorla FJ, West KW, Scherer LR, Grosfeld JL. The use of pleuroperitoneal shunts in the management of persistent chylothorax in infants. J Pediatr Surg
Ponn RB, Blancaflor J, D'Agostino RS, Kiernan ME, Toole AL, Stern H. Pleuroperitoneal shunting for intractable pleural effusions. Ann Thorac Surg
Harischandra LS, Sharma A, Chatterjee S. Shunt migration in ventriculoperitoneal shunting: A comprehensive review of literature. Neurol India 2019;67:85-99.
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[Figure 1], [Figure 2], [Figure 3], [Figure 4]