Title: Cerebrospinal Fluid (CSF) Shunts<br/>Author: Wan-Tsu Wendy Chang<br/><a href='http://umem.org/profiles/faculty/1322/'>[Click to email author]</a><hr/><p>
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        <strong>Cerebrospinal Fluid (CSF) Shunts</strong></p>
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                CSF shunts are used to manage hydrocephalus by diverting CSF from either the ventricles within the brain or the subarachnoid space around the spinal cord to another body region. (Figure 1)</li>
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                Several types of CSF shunts exist; common types are:
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                                Ventriculoperitoneal shunt</li>
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                                Ventriculoatrial shunt</li>
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                                Ventriculopleural shunt</li>
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                                Lumboperitoneal shunt</li>
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                A CSF shunt consists of 3 parts:
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                                An inflow catheter directly draining CSF.</li>
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                                A one-way valve mechanism regulating the amount of CSF drainage.</li>
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                                An outflow catheter directing CSF to the drainage site.</li>
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                There are 2 types of valve mechanisms:
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                                Fixed pressure valves regulate CSF drainage by a predetermined pressure threshold (i.e. low, medium, high).</li>
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                                Adjustable pressure valves can be non-invasively adjusted, via specially designed <em><u>magnetic</u></em> tools, to set the pressure threshold.</li>
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                                Some valves include a reservoir that can be used to test shunt function or to sample CSF for laboratory studies. (Figure 2)</li>
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                Shunt-related complications include:
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                                Shunt malfunction (disconnection, migration, breaks, obstruction)</li>
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                                Shunt infection / ventriculitis / meningitis</li>
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                                Over-drainage</li>
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                A special consideration for adjustable pressure valves is <strong><em>precaution</em></strong> around <em><u>magnetic devices</u></em>.  If a patient is undergoing a MRI, it is recommended for the valve setting to be checked and adjusted afterwards if necessary.</li>
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