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Neurocirugía

versión impresa ISSN 1130-1473

Neurocirugía vol.18 no.2  abr. 2007

 

 

 

Delayed intracerebral hemorrhage after ventriculoperitoneal shunt insertion. Case report and literature review

Hemorragia intracerebral tardía tras la colocación de una derivación ventriculoperitoneal. Caso clínico y revisión de la literatura

 

 

L. Alcázar; R. Alfaro; M. Tamarit; J.C. Gómez-Angulo; J.M. Ortega; P. Aragonés; P. Jerez; F. Salazar y J.M. del Pozo

Department of Neurosurgery. The Getafe Universitary Hospital. Getafe. Madrid. Spain.

Dirección para correspondencia

 

 


SUMMARY

We present another case of delayed intracerebral hemorrhage after a ventriculoperitoneal (VP) shunting procedure. In this case, a right occipital intraparenchymal hematoma and associated intraventricular hemorrhage occurred six days after the operation for hydrocephalus secondary to subarachnoid hemorrhage in a 64 year old woman. It is a rare complication of VP shunting, with few cases reported previously in the literature. The presumed mechanism is the erosion of a cerebral blood vessel secondary to a close contact with the ventricular catheter; bleeding disorder, vascular malformation, head trauma or brain tumor were excluded in this patient.

Key words: Intracerebral hemorrhage. Ventriculoperioneal shunt. Hydrocephalus. Postoperative complication. Ventricular catheter.


RESUMEN

Presentamos un caso de hemorragia intracerebral tardía tras la colocación de una derivación ventriculoperitoneal. Una paciente de 64 años de edad, con hidrocefalia secundaria a una hemorragia subaracnoidea, sufre una hemorragia intraparenquimatosa occipital derecha con hemorragia intraventricular secundaria seis días después de la intervención quirúrgica. Se trata de una complicación rara de la derivación ventriculoperitoneal, con pocos casos publicados anteriormente. El mecanismo supuesto es la erosión de un vaso sanguíneo secundaria a un íntimo contacto con el catéter proximal de la derivación; trastornos sanguíneos, malformaciones vasculares cerebrales, traumatismo craneal o tumor cerebral fueron excluidos en esta paciente.

Palabras clave: Hemorragia intracerebral. Derivación ventriculoperitoneal. Hidrocefalia. Complicación postquirúrgica. Catéter ventricular.


 

Introduction

Complications of cerebrospinal fluid (CSF) ventricular shunting have been reported19,23 a lot of years ago, such as infections, shunt malfunction, subdural hematomas, seizures, migrating catheter, kinked tubing. Small amounts of blood are frequently recognized in the ventricle or in the parenchyma along the catheter path16, but clinically significant lesions, however, are uncommon7,15,23. Fukamachi explain on his report in 1985 that intracerebral hemorrhage after a ventricular shunting procedure is uncommon, usually occurring soon after surgery6. In several large series reviewing the complications of this procedure authors don't mention intracerebral hemorrhage17,19. We can find some reports of such a complication9,16,19,23 in which the hemorrhage occurred directly after the operative procedure. Bleeding secondary to ventricular puncture may be detected on imaging studies (ultrasonography, computerized tomography-CT, magnetic resonance imaging-MRI), but they are not ordered in uncomplicated cases22; therefore, the incidence of delayed intracerebral hemorrhage following ventricular cannulation is difficult to establish.

This type of complication had not been described in the literature until 1985, when Matsumura et al reported a case of delayed intracerebral hemorrhage that occurred after a ventriculoperitoneal (VP) shunting procedure in a 17 year-old boy on the 7th postoperative day15. Posteriorly, other two cases of this surgical complication have been reported14,22 and Savitz et al performed in 199918 a retrospective analysis in a series of 125 VP shunting procedures, documenting by routine neuroradiological follow up (CT scan obtained within 48 hours of surgery) a rate of delayed intracerebral or intraventricular hematoma of 4%.

We report a case of delayed intraparenchymal hemorrhage, along the path of the ventricular catheter, which occurred six days after a VP shunting procedure and review the previous literature about this rare complication.

 

Case report

A 64 year-old woman was admitted to the neurosurgical department of our hospital on January 20, 2002, being diagnosed of subarachnoid hemorrhage (grade III, Hunt-Hess scale). She was brought because of transient loss of conciousness for several minutes following a sudden headache in the morning. The past history was unremarkable. The neurological examination on admission showed right hemiparesis with a punctuation in the Glasgow Coma Scale (GCS) of 13/15. A computed tomographic (CT) scan demonstrated a widespread subarachnoid hemorrhage, an interhemispheric hematoma and a small acute left temporal subdural hematoma (Figure 1).

 


Figure 1. CT scan showing a widespread subarachnoid
hemorrhage within basal cisterns, both silvian fissures
and an interhemispheric hematoma.

 

The conventional cerebral angiography was not completed because of the appereance of left hemiparesis; so a CT angiogram was performed revealing a right pericallosal artery aneurysm (Figure 2) which was supposed to be the cause of the bleeding.

 


Figure 2. The CT angiogram revealed a right pericallosal artery
aneurysm (2.7 x 5.2 mm) as CT scan on admission suggested.

 

The patient was not operated on immediately because her clinical evolution was not favourable. The surgical pro-cedure was performed one month later, when her clinical situation improved (GCS 13/15); the described aneurysm was clipped through a right frontal parasagital craniotomy, without intraoperative complications.

She initially did quite well, although very slowly. A CT scan performed 15 days after the operation revealed marked ventricular dilatation compared with previous imaging study performed on admission (Figure 3). By this, a VP shunt was placed in the patient on March 11; through a right occipital burr hole a ventricular catheter was inserted in the right lateral ventricle, connected to a Hakim programmable valve (pressure 100 mmH2O). The operative procedure was uneventful; correct placement of the ventricular catheter was accomplished after one pass. Because of the absence of improvement and no decreased ventricular size (CT scan performed after 24 hours) (Figure 4), the valve was reprogrammed, this time at 80 mmH2O; after it, the patient improved in attention and verbal response.

 


Figure 3. CT scan performed fifteen days after
the clipping of the aneurysm. It can be
observed postsurgical changes related to the right
frontal craniotomy and marked ventricular dilatation.

 


Figure 4. (A, B). Postoperative CT scan performed 24 hours
following ventriculoperitoneal shunt insertion that showed
no decreased ventricular size compared with the previous imaging study.

 

She deteriorated five days later becoming less alert, without collaboration. This time the patient didn't well; 24 hours later she remained with closed eyes, absence of verbal response and localizing to painful stimulus. The new CT scan (Figure 5) revealed a right occipital intraparenchymal hematoma, around the ventricular catheter, with opening to the ventricular system and ventricular size without changes. She was operated on for revision of the VP shunt that proved to be obstructed; it was removed and we inserted an external ventricular drainage through a right frontal burr hole. The system of drainage obstructed repeatedly and the ventricular catheter was inserted in the left frontal horn and in the right temporal horn of the lateral ventricles subsequently.


Figure 5. (A, B). The third postoperative CT scan performed five daysafter the ventriculoperitoneal
shunt insertion revealed a right occipital intraparenchymal hemorrhage along the path of the ventricular
catheter and into the ventricular system; ventricular size remained without changes.

 

The clinical course was unfavourable and the patient was again operated on for evacuation of the intraparenchymal and intraventricular hemorrhage through a right occipital craniotomy. The subsequent improvement was slight; she remained conscious, with open eyes, but without verbal response and submission. The CT scan performed after this operative procedure demonstrated minimal intraparenchymal hematoma in the right occipital lobe, with less edema and minimal shift of the medium line.

The patient deteriorated progressively, with renal failure and fever toward the multiorganic failure that caused the death of the patient on May 25, 2002.

 

Discussion

Ventriculoperitoneal shunting (VP) is one of the most frequently performed procedure in our daily neurosurgical practice. All of us know complications following insertion of a CSF shunt, such as infection, obstruction, subdural hematoma, malfunction, seizures, migrating or kinked catheter19,23; obstruction or blockage of the ventricular and abdominal ends of the tubing and infection of the system are the major problems of CSF shunting procedures. Postoperative intracerebral or intraventricular hematoma usually ocurr soon after ventricular puncture6. In the pediatric population intracranial hemorrhage may be seen after 0.4% to 4% of shunt operations9,15,16.

Several mechanisms whereby intracerebral hemorrhage can ocurr after ventricular cannulation can be described22: coexistant bleeding disorder, shunt-induced disseminated intravascular coagulation, disruption of an intracerebral vessel by the catheter, hemorrhage into an intracerebral tumor, hemorrhage from an occult vascular malformation and head trauma occurring shortly after shunt placement. Disseminated intravascular coagulation (DIC) has been reported after head trauma8,13, brain tumor surgery6 and VP shunting20. On the other hand, intratumoral hemorrhage has been described following ventricular cannulation24,25,27.

Bleeding along the path of the ventricular catheter and into the ventricular system has been reported previously following VP shunt placement2,6,10,14,19,23; it may be caused by puncture of the choroid plexus, repeated attempts at perforation of the ventricles or inadequate placement of the tubing within the parenchyma of the brain.

Savitz et al reported in 1999 a series of 125 adults operated on for primary insertion of a one-piece shunting system18; each one was evaluated based on a CT scan obtained within 48 hours of surgery; no bleeding was observed in the CSF at the time of the ventricular cannulation; they recorded three cases of postoperative intraventricular hemorrhage and delayed hemorrhage around the catheter in the right parietal area was documented on postoperative CT scan in two patients. The mechanism in these five patients was more likely disruption of a cerebral blood vessel by the catheter; the normal pulsations of the CSF transmitted to the tubing might have caused the catheter to erode through a blood vessel with subsequent intracerebral hemorrhage.

Snow et al proposed a similar mechanism on his report in 198622 about a delayed intracerebral hemorrhage in a 43 year-old woman seven days after a VP shunting procedure. Matsumura et al15 described the case of a 17 yearold boy who developed a marked ventricular dilatation two years after an operation for a traumatic intracerebral hematoma. Fujioka5 presented to us another case of intracerebral hematoma after a ventricular puncture in the same location; he hypothesized that the bleeding might have occurred by the same mechanism as traumatic delayed intracerebral hemorrhage1,4,21. Mascalchi14 presented in 1991 the case of a patient with an extensive intraparenchymal hemorrhage far from the catheter of the VP shunt12,14.

CT scans are not often obtained within the first week after an uneventful ventricular shunting procedure, so the true incidence of intracerebral hemorrhage after it is difficult to know. The CT scan finding of small amounts of blood within the ventricle occurred in 10% of the cases in the Palmieri's series; less frequently small pools of blood were noted under the ependyma next to the catheter tip or along its path in the parenchyma. Savitz in 1999 determined with his analysis an incidence of delayed intracerebral hemorrhage of 4%18. Snow22 reported an incidence of moderate hemorrhage after ventricular shunting procedures of 0.3% (3 to 5 cm in maximal diameter). Fukamachi et al performed CT scans on 242 patients within the first week of ventricular shunting procedures6 and found that ten of them had small intracerebral hematomas (3 cm maximal diameter); they didn't offer any explanation for the one moderate-sized hematoma in their series. Udvarhelyi et al23 reported two cases of intracerebral hematoma after VP shunting among 55 cases of normal pressure hydrocephalus. Sayers19 reported six cases of intracerebral hematoma among 1390 shunted cases. The incidence in these reports varies from 0.4%3 to 3.6%23. In spite of the low incidence of this complication, mortality is high, ranging from 50%19 to 100%7.

The cause of the right occipital intraparenchymal hemorrhage in our patient remains unknown; the mechanism could have been the erosion of a surface or deeper cerebral blood vessel secondary to a close contact between the tubing and the blood vessel, as the cases described by Savitz18 and Snow22. We can think in favour of this mechanism because no hemorrhagic CSF was observed following puncture of the lateral ventricle and the first CT scan performed after the shunting procedure didn't demonstrate any intracerebral hemorrhage. Bleeding disorder, tumor, occult vascular malformation or head trauma were not the cause of this event as clinical examination, laboratory tests and radiological studies determined. Another possible factor we think could have influence it is the handling of the valve system; the patient deteriorated five days after changing its opening pressure (from 100mmH2O to 80mmH2O); nevertheless, the ventricular size didn't reduce following the manipulation of the valve, as the CT scan performed at the moment of the deterioration demonstrated.

Here we report another case of this unusual complication, review the previous literature about cerebral hemorrhagic complications after ventricular shunting procedures and discuss the supposed causative factors and mechanisms involved in this infrequent event.

 

References

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Correspondence:
Lucía Alcázar Vaquerizo.
Department of Neurosurgery.
The Getafe Universitary Hospital.
Toledo Road, Km. 12.500. 28905 Getafe. Madrid. Spain.

Recibido: 23-02-06.
Aceptado: 16-05-06

Abreviations. CSF: cerebrospinal fluid. CT: computerized tomography. DIC: disseminated intravascular coagulation. GCS: Glasgow coma scale. MRI: magnetic resonance imaging. VP: ventriculoperitoneal.

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