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Hydrocephalus Treatment in Turkey (For International Patients)

Hydrocephalus is the accumulation of cerebrospinal fluid (CSF) in the ventricles, exerting pressure on the brain, and it can occur at any age from infant to elderly. Many families living abroad find themselves between conflicting opinions after this diagnosis, asking 'which method is right?' Before traveling to Turkey, you can obtain an online assessment by sharing your existing MRI images remotely. There are two main treatment paths: the ventriculo-peritoneal (VP) shunt and endoscopic third ventriculostomy (ETV); the right question is not 'which is better' but 'which for which type'. This page explains how an international patient can plan a hydrocephalus assessment and treatment process in Turkey.

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Remote Assessment: Distinguishing the Type Is the Foundation

The most critical step in hydrocephalus is determining the correct type, because a method applied to the wrong type fails. For this reason an international assessment begins with a remote review of your MRI images. You can request an online preliminary assessment by sharing your existing MRI and reports via WhatsApp; if normal-pressure hydrocephalus (NPH) is suspected, a short walking video is also very valuable. In this opinion, the type of hydrocephalus, the suitability of a shunt versus ETV, and whether traveling to Turkey is meaningful for your situation are discussed honestly.

Types of Hydrocephalus and Why They Matter

There are three main types, and the treatment method changes entirely according to the type. In obstructive hydrocephalus there is an obstacle to CSF flow (aqueductal stenosis, tumor, bleeding); in the communicating type flow is free but absorption is impaired; and NPH is a treatable condition seen in the elderly that progresses with the triad of gait disturbance, urinary incontinence and dementia. Symptoms differ by age: in infants, a rapidly enlarging head circumference and the 'setting sun' sign; in adults, a morning-predominant headache, visual disturbance and balance problems; in the elderly, a 'magnetic gait' in which the feet feel stuck to the floor. The first aim of the remote assessment is to clarify this type distinction with the MRI and history at hand, because the choice of the right method depends on it.

Ventriculo-Peritoneal (VP) Shunt

The VP shunt is a permanent drainage system that transfers excess CSF to the abdominal cavity through a valve and tubes, where it is absorbed naturally. It is preferred in communicating hydrocephalus, in NPH and in many infant/child cases, or where ETV is not suitable. Its advantage is that it can be applied across a wide range of patients and rapidly returns pressure to normal; in NPH a significant proportion of patients are reported to have meaningful improvement in gait and cognitive function. Its disadvantage is lifelong dependence on the system and the increasing chance over time of complications such as infection, blockage or disconnection; a shunt revision is performed when needed. For a patient coming from across a border, how shunt follow-up will be continued in their home country is planned from the outset.

Endoscopic Third Ventriculostomy (ETV)

ETV endoscopically creates a small opening (stoma) in the floor of the third ventricle, allowing CSF to bypass the obstruction and engaging the body's own absorption mechanism. For it to succeed, the obstruction must be below the third ventricle and the absorption mechanism must be intact; its main indication is obstructive hydrocephalus such as aqueductal stenosis. Its greatest advantage is that it leaves no foreign body in the body, so the risk of shunt infection is almost zero, and it offers a permanent solution when successful; the procedure usually takes 30-60 minutes and a 1-2 day stay is sufficient. Its disadvantage is that it is not suitable for every type (not preferred in the communicating type or NPH) and that the chance of success is low in small infants. Suitability is estimated before surgery with tools such as the ETV Success Score (ETVSS) and shared with you in the remote assessment.

The Treatment Journey in Turkey and Programmable Valves

Once it is clear after the remote opinion which method is suitable, the date and estimated length of stay are planned before your arrival. In communicating hydrocephalus and NPH a shunt generally comes to the fore, in suitable obstructive cases ETV; in infants under one year a shunt is mostly preferred. If a shunt is chosen, the valve type also matters: programmable valves can be adjusted from outside with a magnet without surgery and are particularly valuable in NPH—a practical advantage for international patients who may need fine-tuning after returning home. In NPH a 'tap test' can be performed before the decision to shunt. No method guarantees 100% success; our aim is to choose the right method for the right type and to ensure treatment can be followed up after Turkey.

Sources

1Winn HR, ed. Youmans Neurological Surgery. 6th ed. Saunders; 2011:516-524.
2Greenberg MS. Greenberg's Handbook of Neurosurgery. 10th ed. Thieme; 2023:453-458.
3Drake JM, et al. Randomized trial of cerebrospinal fluid shunt valve design in pediatric hydrocephalus. Neurosurgery. 1998.
📚 Read our encyclopedia article for a detailed, fully-referenced medical explanation

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Can you assess my MRI (and walking video) remotely before I travel?

Yes. For international patients this is the first step. You can receive an online preliminary assessment by sharing your existing MRI images and, if NPH is suspected, a short walking video via WhatsApp (+90 533 075 72 94). This opinion helps you understand the type of hydrocephalus and whether traveling to Turkey is meaningful.

What is the difference between a shunt and ETV, and which is suitable?

A shunt transfers excess CSF to the abdominal cavity through a permanent tube-valve system and usually remains for life; it comes to the fore in communicating hydrocephalus and NPH. ETV creates an opening in the floor of the ventricle, leaves no foreign body in the body and is preferred in suitable obstructive cases. Which is suitable is determined by the type of hydrocephalus and your MRI.

If I come from my country for treatment, how long must I stay and how is follow-up handled?

ETV usually involves a 1-2 day stay and a shunt a few days; additional days for follow-up and fitness-to-fly clearance are added. A written medical summary is prepared at discharge; if a programmable valve is used, valve-setting coordination with your team back home can be planned.

Will the gait disturbance in my elderly relative (NPH) improve with treatment?

NPH is a treatable condition, and with a shunt a significant proportion of patients are reported to have meaningful improvement in gait and cognitive function; however, the same degree of success cannot be guaranteed in every patient. A 'tap test' can be performed to predict the chance of success. Sharing a walking video and a recent MRI remotely makes the assessment easier.

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