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'''Hydrocephalus''' (HC) is a term for abnormal accumulation of cerebrospinal fluid (CSF) in the ventricles of the brain . As a result, the surrounding brain tissue can be oppressed.  
'''Hydrocephalus''' (HC) is a term for abnormal accumulation of '''[[Milieu of central nervous system|cerebrospinal fluid]]''' (CSF) in the ventricles of the brain . As a result, the surrounding brain tissue can be ''oppressed''.  


A more detailed classification, causes and symptomatology of HC can be found on the hydrocephalus page.
A more detailed classification, causes and symptomatology of HC can be found on the [[Hydrocephalus|'''hydrocephalus''']] page.


HC can be treated surgically in three basic ways:
HC can be treated '''surgically''' in three basic ways:


# '''drainage''',
# '''drainage''',
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This page presents the basic types of drainage and the endoscopic method in the form of ventriculostomy of the III. chamber. The solution of obstructive HC (removal of specific obstruction) is described individually in individual chapters of neurosurgery.
This page presents the '''basic types of drainage''' and the endoscopic method in the form of ventriculostomy of the III. chamber. The solution of '''obstructive HC''' (removal of specific obstruction) is described individually in individual chapters of '''[[:Category:Neurosurgery|neurosurgery]]'''.


==Diagnostics==
==Diagnostics==
*'''CT''' –  the first choice, depending on the type of HC, pathologies can be visualized (ventricular dilatation, origin of obstruction, etc.);
*'''[[Computed tomography|CT]]''' –  ''the first choice'', depending on the type of HC, pathologies can be visualized ''(ventricular dilatation, origin of obstruction, etc.)''
*'''MR''' –  compared to CT, T2 MR has the advantage in particular, on which CSF can be visualized ( ''fluid-sensitive'' T2)
*'''[[MRI]]''' –  compared to CT, T2 MRI has the advantage in particular, on which CSF can be visualized ( ''fluid-sensitive'' T2)
*'''ultrasound''' – especially in infants and younger pediatric patients;
*'''[[ultrasound]]''' – especially in ''infants and younger pediatric patients'';
*'''LIT'''  (lumbar infusion test) – detection of CSF resorption disorders, performed mainly in patients with normotensive hydrocephalus (NHP);
*'''LIT'''  '''(lumbar infusion test)''' – detection of CSF resorption disorders, performed mainly in patients with ''[[normotensive hydrocephalus]]'' (NHP);
*'''LD''' (lumbar drainage) – serves to determine the patient's response to drainage and to evaluate subsequent treatment procedures (mainly before the definitive application of a VP shunt in NHP patients) <ref>{{Citace
*'''LD''' (lumbar drainage) – serves to determine the ''patient's response'' to drainage and to evaluate subsequent treatment procedures (mainly before the definitive application of a VP shunt in NHP patients) <ref>{{Citace
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==Classification of drainage treatment==
==Classification of drainage treatment==
 
'''Surgical treatment''' of [[Drainage|HC drainage]] directly depends on the given type of hydrocephalus:
 
# in the case of '''acute HC, temporary drainage''' is indicated
 
# in the case of '''chronic HC,''' the goal of treatment is '''long-term drainage'''
Surgical treatment of HC drainage directly depends on the given type of hydrocephalus:
# in the case of acute HC, temporary drainage is indicated
# in the case of chronic HC, the goal of treatment is long-term drainage  




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==Treatment of acute hydrocephalus==
==Treatment of acute hydrocephalus==
In the case of acute HC , depending on the patient's individual predispositions, temporary drainage may be indicated . It is most often ventricular or lumbar drainage, or ventriculosubgaleal drainage.
In the case of '''acute HC''' , depending on the patient's individual predispositions, '''temporary drainage''' may be indicated. It is most often ''ventricular or lumbar drainage'', or ''ventriculosubgaleal drainage.''
[[File:EVD-ICH.jpg|thumb|380x380px|External ventricular drainage]]


===External ventricular drainage===
===External ventricular drainage===
External ventricular drainage (EVD – ''external ventricular drain'' ) is used mainly in the case of acute obstructive HC , in which there is a clear limitation of the flow of CSF in the CSF channels<ref>sc</ref>. From the lateral ventricle of the non-dominant hemisphere , the CSF is drained into the reservoir.
'''External ventricular drainage''' (EVD – ''external ventricular drain'' ) is used mainly in the case of '''acute obstructive HC''' , in which there is a clear limitation of the flow of CSF in the CSF channels<ref>sc</ref>. From the lateral ventricle of the non-dominant hemisphere, the CSF is drained into the reservoir.


====Indication====
====Indication====
Indications for the application of EVD (it does not always have to be only acute HC) are:  
Indications for the ''application of EVD'' (it does not always have to be only acute HC) are:  
# reduction of intracranial pressure (eg, acute hydrocephalus, craniotrauma)
# '''reduction of intracranial pressure''' (eg, acute hydrocephalus, craniotrauma)
#drainage of inflammatory CSF (CNS infection – the reason is the prevention of post-inflammatory obstructive HC, or the emergence of acute obstruction of the outlet tracts);
#'''drainage of inflammatory CSF''' (CNS infection – the reason is the prevention of post-inflammatory obstructive HC, or the emergence of acute obstruction of the outlet tracts);
# drainage of bloody CSF (most often after bleeding or surgery (post-hemorrhagic HC), again we want to prevent the risk of obstructive HC or acute obstruction of the drainage channels);
# '''drainage of bloody CSF''' (most often after bleeding or surgery (post-hemorrhagic HC), again we want to prevent the risk of obstructive HC or acute obstruction of the drainage channels);
# diversion of the natural flow of CSF (most often in the healing of wounds in the region of the posterior fossa)  . <ref>{{Citace
# '''diversion of the natural flow of CSF''' (most often in the healing of wounds in the region of the posterior fossa)  . <ref>{{Citace
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| strany = 61-81
| strany = 61-81
| issn = 1541-6933
| issn = 1541-6933
| doi = 10.1007/s12028-015-0224-8}}</ref>.
| doi = 10.1007/s12028-015-0224-8}}</ref>
{{Note|EVD can also be used perioperatively. It is thus indicated in the case of the need to achieve decompression in brain operations (especially in surgical resections of lesions in the posterior fossa area).}}


===External lumbar drainage ===
===External lumbar drainage ===
In addition to diagnostic use, external lumbar drainage (LD – ''lumbar drain'' ) is also used in the treatment of acute communicating HC . The cerebrospinal fluid is drained from the lumbar section of the spine and, as in the case of EVD, is drained into a reservoir. It is applied between L3–L5. <ref>{{Citace
In addition to diagnostic use, external lumbar drainage (LD – ''lumbar drain'' ) is also used in the treatment of '''acute communicating HC'''. The cerebrospinal fluid is drained from the lumbar section of the spine and, as in the case of EVD, is ''drained into a reservoir''. It is applied between L3–L5. <ref>{{Citace
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| strany = 577-582
| strany = 577-582
| issn = 0030-6665
| issn = 0030-6665
| doi = 10.1016/j.otc.2005.01.001}}</ref>.
| doi = 10.1016/j.otc.2005.01.001}}</ref>
 
{{Note|LD, like EVD, can also be used perioperatively to achieve decompression in brain operations (most often in resections of lesions in the posterior fossa, brainstem). In certain cases, it is applied for liquefaction , which can arise as a postoperative complication in case of incomplete closure of the dura, etc., and if a total revision of the wound is not necessary.}}


===Ventriculosubgaleal drainage ===
===Ventriculosubgaleal drainage ===
This type of drainage is similar to external ventricular drainage, as in this case too the CSF is drained from the lateral ventricle of the non-dominant hemisphere . This time, however, the cerebrospinal fluid is not drained into a reservoir, but into a pocket created in the subgaleal space of the head . There, the resorption of cerebrospinal fluid occurs, or it can be punctured .<ref>{{Citace
This type of drainage is similar to external ventricular drainage, as in this case too the CSF is drained from the '''lateral ventricle of the non-dominant hemisphere'''. This time, however, the cerebrospinal fluid is not drained into a reservoir, but into a ''pocket created in the subgaleal space of the head'' . There, the resorption of cerebrospinal fluid occurs, or it can be [[Puncture|punctured]] .<ref>{{Citace
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==Treatment of chronic hydrocephalus ==
==Treatment of chronic hydrocephalus ==
Even in the case of treatment of chronic hydrocephalus, surgery is indicated based on the individual presentation of the patients. It is not a rule that every chronic hydrocephalus must be treated surgically. Treatment of chronic HC is long-term.
Even in the case of treatment of chronic hydrocephalus, surgery is indicated based on the individual presentation of the patients. It is not a rule that every chronic hydrocephalus must be treated surgically. Treatment of '''chronic HC is long-term'''.


===Ventriculostomy of the III. chamber===
===Ventriculostomy of the III. chamber===
It is a neuroendoscopic creation of an opening in the base of III. ventricle , is a solution to obstructive HC (some authors mention the possibility of applying ventriculostomy of the III ventricle also in other types of hydrocephalus, but this is not usual). <ref>{{Citace
It is a neuroendoscopic creation of an opening in the base of '''III. ventricle''' , is a solution to '''obstructive HC''' (some authors mention the possibility of applying ventriculostomy of the III. ventricle also in other types of hydrocephalus, but this is not usual). <ref>{{Citace
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====Technique====
====Technique====
A cerebrotomy is performed near the ''coronal suture'' , the endoscope is introduced through the lateral ventricle into the III. chambers. As a result of HC, the ''foramen intraventriculare widens'' , so it is possible to revise the base III. ventricles and perforation of the arachnoid membrane. Monopolar electrocoagulation is used for perforation.<ref>{{Citace
A cerebrotomy is performed near the ''coronal suture'' , the [[endoscope]] is introduced through the lateral ventricle into the III. chambers. As a result of HC, the ''foramen intraventriculare widens'' , so it is possible to revise the base III. ventricles and perforation of the arachnoid membrane. ''Monopolar electrocoagulation'' is used for perforation.<ref>{{Citace
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| doi = 10.5114/wiitm.2014.46076}}</ref>
| doi = 10.5114/wiitm.2014.46076}}</ref>


The subsequent dilation of the opening is important, so that it does not close due to tissue regeneration. We achieve the possibility of CSF circulation through III. chamber into the interpeduncular cisterns at the base, through the hole in the base III. ventricles it is possible to see ''a. basilaris''. <ref>{{Citace
The subsequent dilation of the opening is important, so that it does not close due to ''tissue regeneration''. We achieve the possibility of CSF circulation through III. chamber into the interpeduncular cisterns at the base, through the hole in the base of III. ventricles it is possible to see ''[[Brain vessels|a. basilaris]]''. <ref>{{Citace
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* stenosis of ''aquaeductus Sylvii'',
* stenosis of ''aquaeductus Sylvii'',
* Dandy-Walker malformation,
* [[Dandy-Walker syndrome|Dandy-Walker malformation]],
* intraventricular hematoma,
* ''intraventricular hematoma'',
* tumor in the posterior fossa
* ''tumor'' in the posterior fossa
* craniosynostosis <ref>{{Citace
* ''craniosynostosis'' <ref>{{Citace
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=====Benefits=====
=====Benefits=====
For example:
For example:
* effective causal treatment
* ''effective causal treatment''
* unlike a shunt, the patient is not at risk of valve dysfunction
* unlike a shunt, the patient is not at risk of ''valve dysfunction''


=====Cons=====
=====Cons=====
Disadvantages of the III. ventriculostomy can be divided into two basic points:
Disadvantages of the III. ventriculostomy can be divided into '''two basic points''':
* high risk of complications (both morbidity and mortality)
* '''high risk of complications''' (both morbidity and mortality)
* invasive procedure
* '''invasive procedure'''


===Shunt===
===Shunt===
Long-term drainage, the principle of which is the implantation of two catheters together with a valve that regulates the circulation of CSF . Excessive CSF in the cerebral ventricles , or in the lumbar part of the spine, it is diverted by means of a shunt to another part of the body , where the CSF is allowed to be absorbed.
Long-term drainage, the principle of which is the '''implantation of two catheters together with a valve''' that '''regulates the circulation of CSF'''. Excessive CSF in the ''cerebral ventricles'' , or in the ''lumbar part'' of the spine, it is diverted by means of a shunt to '''another part of the body''', where the CSF is allowed to be absorbed.


======Valve Requirements======
======Valve Requirements======
The valve must respond to opening pressure and must be one-way. The flow of CSF is regulated according to the setting of the opening pressure of the valve, which has different values. According to the values ​​of the opening pressure, we divide the valves into high-pressure, medium-pressure and low-pressure. <ref>{{Citace
[[File:Hydrocephalus Shunt Adult.png|thumb|377x377px|Ventriculoperitoneal shunt ]]
The valve must ''respond to opening pressure'' and must be one-way. The flow of CSF is regulated according to the setting of the opening pressure of the valve, which has different values. According to the values ​​of the opening pressure, we divide the valves into ''high-pressure, medium-pressure and low-pressure''. <ref>{{Citace
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====Ventriculoperitoneal shunt (VP shunt)====
====Ventriculoperitoneal shunt (VP shunt)====
CSF is drained into the peritoneal cavity via a catheter leading from the lateral chamber further under the skin.
'''CSF is drained into the peritoneal cavity''' via a catheter leading from the ''lateral chamber'' further under the skin.


It is the most frequently applied shunt <ref>{{Citace
It is the '''most frequently applied shunt''' <ref>{{Citace
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====Ventriculoatrial shunt (VA shunt)====
====Ventriculoatrial shunt (VA shunt)====
CSF is drained from the lateral ventricles by the venous system into the ''atrium dextrum.''
CSF is drained from the lateral ventricles by the venous system into the '''''atrium dextrum'''.''
 
[[File:ShuntCT.png|thumb|361x361px|CT - Ventriculoperitoneal shunt]]
It is not as common as a VP shunt, it depends on the individual disposition of the patient and his comorbidities – it is often indicated for a VA shunt due to contraindications or a previous unsuccessful application of a VP shunt.
It is ''not as common'' as a VP shunt, it depends on the individual disposition of the patient and his comorbidities – it is often indicated for a VA shunt due to contraindications or a previous unsuccessful application of a VP shunt.


====Lumboperitoneal shunt (LP shunt)====
====Lumboperitoneal shunt (LP shunt)====
CSF is drained from the dural sac (subarachnoid space) in the area of ​​the lumbar spine into the peritoneal cavity . The catheter is inserted below the level of the L2 vertebra .  
CSF is drained from the '''dural sac''' (subarachnoid space) in the area of ​​the lumbar spine into the '''peritoneal cavity'''. The catheter is inserted ''below the level of the L2 vertebra''.  


In addition to the mentioned three types of shunts, there are others, e.g. ventriculopleural shunts (VPL shunt) etc. <ref>{{Citace
In addition to the mentioned three types of shunts, there are others, e.g. v''entriculopleural shunts (VPL shunt)'' etc. <ref>{{Citace
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| doi = 10.1016/j.wneu.2020.03.208}}</ref>
| doi = 10.1016/j.wneu.2020.03.208}}</ref>


====Ventrikulocisternal shunt (Torkildsen shunt)====
====Ventriculocisternal shunt (Torkildsen shunt)====
Using an implanted catheter, CSF is drained from the lateral ventricle into the cerebellomedullary cistern <ref>{{Citace
Using an implanted catheter, CSF is drained from the lateral ventricle into the '''cerebellomedullary cistern''' <ref>{{Citace
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====Complications====
====Complications====
As in the case of the treatment of acute HC, drainage treatment in the similar application of shunts is accompanied by a spectrum of possible complications:
As in the case of the treatment of acute HC, drainage treatment in the similar application of shunts is accompanied by a spectrum of possible complications:
* '''infection''' – (up to 15%) most often ''Staphylococcus epidermidis'' , ventriculitis, meningitis;
* '''infection''' – (up to 15%) most often ''Staphylococcus epidermidis,'' ventriculitis, [[meningitis]];
* '''shunt failure''' – obstruction, kinking of the catheter (most often in the neck area), etc.
* '''shunt failure''' – obstruction, kinking of the catheter (most often in the neck area), etc.
* '''distal complications'''–  peritoneal pseudocysts, pleural effusion (primarily in ventriculopleural shunts) <ref>{{Citace
* '''distal complications'''–  peritoneal pseudocysts, [[pleural effusion]] (primarily in ventriculopleural shunts) <ref>{{Citace
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==Links==
==Links==
===Related articles===
===Related articles===
* [[Hydrocefalus]]
* [[Hydrocephalus]]
* [[Hydrocefalus (neonatologie)]]
* [[Malformations of the CNS]]
* [[Malformace CNS]]
* [[Normotensive hydrocephalus]]
* [[Normotenzní hydrocefalus]]
* [[Drainage]]
* [[Drenáž]]


===External links===
===External links===
* [https://www.neurosurgicalatlas.com/volumes/principles-of-cranial-surgery/lumbar-drain Lumbální drenáž – video a článek]
* [https://www.neurosurgicalatlas.com/volumes/principles-of-cranial-surgery/lumbar-drain Lumbar drainage - video and article]
* [https://www.youtube.com/watch?v=3LWBNkcOnzk Ventrikulostomie III. komory – video s komentářem]
* [https://www.youtube.com/watch?v=3LWBNkcOnzk Ventriculostomy of the III. chamber - video with commentary]
* [https://radiopaedia.org/articles/ventriculoperitoneal-shunt?lang=us VP shunt]
* [https://radiopaedia.org/articles/ventriculoperitoneal-shunt?lang=us VP shunt]


===References===
===References===
<references/>
<references/>
[[Kategorie:Neurochirurgie]]
[[Kategorie:Chirurgie]]

Revision as of 18:59, 22 December 2022

Hydrocephalus (HC) is a term for abnormal accumulation of cerebrospinal fluid (CSF) in the ventricles of the brain . As a result, the surrounding brain tissue can be oppressed.

A more detailed classification, causes and symptomatology of HC can be found on the hydrocephalus page.

HC can be treated surgically in three basic ways:

  1. drainage,
  2. by removing the obstruction (in the case of obstructive HC, most often it is a tumor),
  3. endoskopically [1].


This page presents the basic types of drainage and the endoscopic method in the form of ventriculostomy of the III. chamber. The solution of obstructive HC (removal of specific obstruction) is described individually in individual chapters of neurosurgery.

Diagnostics

  • CTthe first choice, depending on the type of HC, pathologies can be visualized (ventricular dilatation, origin of obstruction, etc.)
  • MRI – compared to CT, T2 MRI has the advantage in particular, on which CSF can be visualized ( fluid-sensitive T2)
  • ultrasound – especially in infants and younger pediatric patients;
  • LIT (lumbar infusion test) – detection of CSF resorption disorders, performed mainly in patients with normotensive hydrocephalus (NHP);
  • LD (lumbar drainage) – serves to determine the patient's response to drainage and to evaluate subsequent treatment procedures (mainly before the definitive application of a VP shunt in NHP patients) [2][3].

Classification of drainage treatment

Surgical treatment of HC drainage directly depends on the given type of hydrocephalus:

  1. in the case of acute HC, temporary drainage is indicated
  2. in the case of chronic HC, the goal of treatment is long-term drainage


Table summarizing the individual types of drainage in terms of duration of drainage treatment:

Type of treatment Temporary Long term
Type of drainage external ventricular drainage ventriculoperitoneal drainage
external lumbar drainage ventriculoatrial drainage
ventriculosubgaleal drainage lumboperitoneal drainage

Treatment of acute hydrocephalus

In the case of acute HC , depending on the patient's individual predispositions, temporary drainage may be indicated. It is most often ventricular or lumbar drainage, or ventriculosubgaleal drainage.

External ventricular drainage

External ventricular drainage

External ventricular drainage (EVD – external ventricular drain ) is used mainly in the case of acute obstructive HC , in which there is a clear limitation of the flow of CSF in the CSF channels[4]. From the lateral ventricle of the non-dominant hemisphere, the CSF is drained into the reservoir.

Indication

Indications for the application of EVD (it does not always have to be only acute HC) are:

  1. reduction of intracranial pressure (eg, acute hydrocephalus, craniotrauma)
  2. drainage of inflammatory CSF (CNS infection – the reason is the prevention of post-inflammatory obstructive HC, or the emergence of acute obstruction of the outlet tracts);
  3. drainage of bloody CSF (most often after bleeding or surgery (post-hemorrhagic HC), again we want to prevent the risk of obstructive HC or acute obstruction of the drainage channels);
  4. diversion of the natural flow of CSF (most often in the healing of wounds in the region of the posterior fossa)  . [5]
EVD can also be used perioperatively. It is thus indicated in the case of the need to achieve decompression in brain operations (especially in surgical resections of lesions in the posterior fossa area).

External lumbar drainage

In addition to diagnostic use, external lumbar drainage (LD – lumbar drain ) is also used in the treatment of acute communicating HC. The cerebrospinal fluid is drained from the lumbar section of the spine and, as in the case of EVD, is drained into a reservoir. It is applied between L3–L5. [6][7]

Indication

The indications are very similar compared to EVD, the decision to choose the type of drainage is directly proportional to the individual symptoms and comorbidities of individual patients:

  1. reduction of intracranial pressure;
  2. drainage of inflammatory CSF;
  3. drainage of bloody CSF;
  4. diverting the natural flow of CSF [8]


LD, like EVD, can also be used perioperatively to achieve decompression in brain operations (most often in resections of lesions in the posterior fossa, brainstem). In certain cases, it is applied for liquefaction , which can arise as a postoperative complication in case of incomplete closure of the dura, etc., and if a total revision of the wound is not necessary.

Ventriculosubgaleal drainage

This type of drainage is similar to external ventricular drainage, as in this case too the CSF is drained from the lateral ventricle of the non-dominant hemisphere. This time, however, the cerebrospinal fluid is not drained into a reservoir, but into a pocket created in the subgaleal space of the head . There, the resorption of cerebrospinal fluid occurs, or it can be punctured .[9]

Complications

The most common complications of drainage treatment include:

  • bleeding [10],
  • infection,
  • mechanical complications of drainage,
  • system overdrainage,
  • surgical complications – drainage malposition, epidural hematoma, etc. [11][12]

Treatment of chronic hydrocephalus

Even in the case of treatment of chronic hydrocephalus, surgery is indicated based on the individual presentation of the patients. It is not a rule that every chronic hydrocephalus must be treated surgically. Treatment of chronic HC is long-term.

Ventriculostomy of the III. chamber

It is a neuroendoscopic creation of an opening in the base of III. ventricle , is a solution to obstructive HC (some authors mention the possibility of applying ventriculostomy of the III. ventricle also in other types of hydrocephalus, but this is not usual). [13]

Technique

A cerebrotomy is performed near the coronal suture , the endoscope is introduced through the lateral ventricle into the III. chambers. As a result of HC, the foramen intraventriculare widens , so it is possible to revise the base III. ventricles and perforation of the arachnoid membrane. Monopolar electrocoagulation is used for perforation.[14]

The subsequent dilation of the opening is important, so that it does not close due to tissue regeneration. We achieve the possibility of CSF circulation through III. chamber into the interpeduncular cisterns at the base, through the hole in the base of III. ventricles it is possible to see a. basilaris. [15]

Principle

The principle is to re-enable the circulation of CSF , which was limited as a result of the obstruction.

Indication

Ventriculostomy is primarily III. chambers applied for a specific obstructive HC, which arose as a secondary consequence of, for example:

Benefits

For example:

  • effective causal treatment
  • unlike a shunt, the patient is not at risk of valve dysfunction
Cons

Disadvantages of the III. ventriculostomy can be divided into two basic points:

  • high risk of complications (both morbidity and mortality)
  • invasive procedure

Shunt

Long-term drainage, the principle of which is the implantation of two catheters together with a valve that regulates the circulation of CSF. Excessive CSF in the cerebral ventricles , or in the lumbar part of the spine, it is diverted by means of a shunt to another part of the body, where the CSF is allowed to be absorbed.

Valve Requirements
Ventriculoperitoneal shunt

The valve must respond to opening pressure and must be one-way. The flow of CSF is regulated according to the setting of the opening pressure of the valve, which has different values. According to the values ​​of the opening pressure, we divide the valves into high-pressure, medium-pressure and low-pressure. [19]

Ventriculoperitoneal shunt (VP shunt)

CSF is drained into the peritoneal cavity via a catheter leading from the lateral chamber further under the skin.

It is the most frequently applied shunt [20][21].

Ventriculoatrial shunt (VA shunt)

CSF is drained from the lateral ventricles by the venous system into the atrium dextrum.

CT - Ventriculoperitoneal shunt

It is not as common as a VP shunt, it depends on the individual disposition of the patient and his comorbidities – it is often indicated for a VA shunt due to contraindications or a previous unsuccessful application of a VP shunt.

Lumboperitoneal shunt (LP shunt)

CSF is drained from the dural sac (subarachnoid space) in the area of ​​the lumbar spine into the peritoneal cavity. The catheter is inserted below the level of the L2 vertebra.

In addition to the mentioned three types of shunts, there are others, e.g. ventriculopleural shunts (VPL shunt) etc. [22]

Ventriculocisternal shunt (Torkildsen shunt)

Using an implanted catheter, CSF is drained from the lateral ventricle into the cerebellomedullary cistern [23][24].

Complications

As in the case of the treatment of acute HC, drainage treatment in the similar application of shunts is accompanied by a spectrum of possible complications:

  • infection – (up to 15%) most often Staphylococcus epidermidis, ventriculitis, meningitis;
  • shunt failure – obstruction, kinking of the catheter (most often in the neck area), etc.
  • distal complications– peritoneal pseudocysts, pleural effusion (primarily in ventriculopleural shunts) [25][26][27]

Video library

Lumbar drainage

LD application, video with English language commentary.

Ventriculostomy of the III. chamber

Video in English with commentary.

Links

Related articles

External links

References

  4. sc
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