There are three different treatments for hydrocephalus, a shunt, an endoscopic third ventriculostomy (ETV), and an endoscopic third ventriculostomy with choroid plexus cauterization (ETV/CPC). ETV/CPC is only available to infants. The decision to treat the hydrocephalus with any of these methods is determined on a case by case basis, and also within a timeline of a patient's life. It is perfectly acceptable to be treated with one method and later in life attempt the other.
The ETV requires no shunting so some people prefer this method as there is less likelihood of mechanical failure, but if this method fails a shunt is required. The success rate depends on a lot of
individual factors including age of the patient, cause of hydrocephalus, and amount of scar tissue in the third ventricle. It is not recommended typically for infants because their bodies are so dynamic and quickly changing that it frequently fails. Basically, a neurosurgeon goes into the brain and makes a puncture in the floor of the third ventricle so that CSF is allowed to flow through. It effectively bypasses the blockage if there is one. The third treatment option is very similar to this except it includes cauterizing the choroid plexus which reduces the amount of CSF being generated. There are complications to this method including closure and/or infection of the surgically created pathway, short term memory loss as this procedure may affect the hypothalamus, and potentially endocrinologic irregularities since the third ventricle is responsible for some hormonal function. For individuals that this works for, however, the success rate can be up to 90%.
The shunt method involves a surgical implantation of a shunt. A shunt is a tube that diverts CSF into another region of the body, most typically the abdominal cavity, where it is absorbed and removed. A valve inside the shunt helps maintain normal pressures within the ventricles. The shunt that drains into the abdominal cavity is called a VP shunt (ventriculoperitoneal). The other type of shunt is a VA (ventriculoatrial) shunt which drains into the right atrium of the heart. This is not a preferred placement and is only tried after there have been several malfunctions of a VP shunt. There are
several complications with a shunt system, the most frequent being shunt malfunction. Shunt malfunction is most often caused by a blockage that stops the shunt from being able to function properly. Blood cells, tissue, or bacteria can all create a blockage. Shunts can also malfunction because it is a mechanical device or because it becomes dislodged from its original placement. Shunts can become infected, though this typically occurs within 6 months of the placement. In any of these instances, the patient must have another brain surgery to get a new shunt placed. This is called a shunt revision.
Other shunt complications include under or over draining. This can usually be treated by changing the pressure on the shunt. Abdominal and/or heart complications can also occur depending on where the shunt drains into. Obviously abdominal complications are less severe than heart complications.
Nicholas had a shunt placed on the second day of his life. His neurosurgeon prefers to shunt children
and considering he has the highest success rate of hydrocephalus treatment in the southeast, we trusted his judgement. His goal is to place a shunt once in a child's life and have it last until the child is at least 18. He is successful in that goal in 40% of his patients. Nicholas's surgery was fairly uncomplicated and quick. The neurosurgeon told us that it's easier in babies in that they have a soft spot to go in through, whereas in adults he has to drill through the skull. Nicholas has a scar on his head where the shunt was placed and then also a scar in his belly where the end of the shunt was placed. Most people think that his shunt drains into his stomach, but it doesn't. It drains into the area around his stomach and is absorbed and removed by his intestines. Nicholas has not yet (knocking on wood) had a shunt malfunction but he has had some abdominal complications that involved a hospital stay and several x-rays and ultrasounds. He has had the pressure reset multiple times on his shunt as his neurosurgeon tried to drain the massive amount of fluid he was born with and then to normalize the pressure in his head to remove the optimal amount of CSF.
It is not uncommon for patients to have multiple surgeries with hydrocephalus. There are people who have had hundreds of surgeries and then there are some who have lived with the same shunt for decades. There is no rhyme or reason to why shunts fail multiple times in some people and work like a dream for others. We hope that Nicholas is in the latter group, but the honest answer is we just don't know. We are asked frequently if he is done having surgery and we just don't know. We hope so, but the likelihood is that he will have brain surgery again at some point in his life. Maybe more than once.
individual factors including age of the patient, cause of hydrocephalus, and amount of scar tissue in the third ventricle. It is not recommended typically for infants because their bodies are so dynamic and quickly changing that it frequently fails. Basically, a neurosurgeon goes into the brain and makes a puncture in the floor of the third ventricle so that CSF is allowed to flow through. It effectively bypasses the blockage if there is one. The third treatment option is very similar to this except it includes cauterizing the choroid plexus which reduces the amount of CSF being generated. There are complications to this method including closure and/or infection of the surgically created pathway, short term memory loss as this procedure may affect the hypothalamus, and potentially endocrinologic irregularities since the third ventricle is responsible for some hormonal function. For individuals that this works for, however, the success rate can be up to 90%.
The shunt method involves a surgical implantation of a shunt. A shunt is a tube that diverts CSF into another region of the body, most typically the abdominal cavity, where it is absorbed and removed. A valve inside the shunt helps maintain normal pressures within the ventricles. The shunt that drains into the abdominal cavity is called a VP shunt (ventriculoperitoneal). The other type of shunt is a VA (ventriculoatrial) shunt which drains into the right atrium of the heart. This is not a preferred placement and is only tried after there have been several malfunctions of a VP shunt. There are
several complications with a shunt system, the most frequent being shunt malfunction. Shunt malfunction is most often caused by a blockage that stops the shunt from being able to function properly. Blood cells, tissue, or bacteria can all create a blockage. Shunts can also malfunction because it is a mechanical device or because it becomes dislodged from its original placement. Shunts can become infected, though this typically occurs within 6 months of the placement. In any of these instances, the patient must have another brain surgery to get a new shunt placed. This is called a shunt revision.
Other shunt complications include under or over draining. This can usually be treated by changing the pressure on the shunt. Abdominal and/or heart complications can also occur depending on where the shunt drains into. Obviously abdominal complications are less severe than heart complications.
Nicholas had a shunt placed on the second day of his life. His neurosurgeon prefers to shunt children
and considering he has the highest success rate of hydrocephalus treatment in the southeast, we trusted his judgement. His goal is to place a shunt once in a child's life and have it last until the child is at least 18. He is successful in that goal in 40% of his patients. Nicholas's surgery was fairly uncomplicated and quick. The neurosurgeon told us that it's easier in babies in that they have a soft spot to go in through, whereas in adults he has to drill through the skull. Nicholas has a scar on his head where the shunt was placed and then also a scar in his belly where the end of the shunt was placed. Most people think that his shunt drains into his stomach, but it doesn't. It drains into the area around his stomach and is absorbed and removed by his intestines. Nicholas has not yet (knocking on wood) had a shunt malfunction but he has had some abdominal complications that involved a hospital stay and several x-rays and ultrasounds. He has had the pressure reset multiple times on his shunt as his neurosurgeon tried to drain the massive amount of fluid he was born with and then to normalize the pressure in his head to remove the optimal amount of CSF.
It is not uncommon for patients to have multiple surgeries with hydrocephalus. There are people who have had hundreds of surgeries and then there are some who have lived with the same shunt for decades. There is no rhyme or reason to why shunts fail multiple times in some people and work like a dream for others. We hope that Nicholas is in the latter group, but the honest answer is we just don't know. We are asked frequently if he is done having surgery and we just don't know. We hope so, but the likelihood is that he will have brain surgery again at some point in his life. Maybe more than once.
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