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Cerebrospinal fluid (CSF) is produced in the choroid plexus of the lateral ventricles and in the 4th ventricle of the brain. CSF then circulates through the ventricles of the brain and the subarachnoid space of the meninges. CSF is returned to the venous system via the arachnoid granulations connecting the subrachnoid space with the superior sagittal sinus at the superior portion of the neurocranium.

  • What circulates the CSF such that it can return to the venous system against gravity?

  • In other words, why does CSF not all just pool in the caudal cistern?

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Very good question, I'm looking forward to read an answer! –  nico Dec 15 '11 at 15:02

2 Answers 2

up vote 17 down vote accepted

There are several points here.

Arachnoid granulations are not the only "sinks" for CSF.

Even though it is true that most of the CSF is eliminated from ventricular system and subarachnoid space through these granulations, there are also suggestions that there are also other potential mechanism of shunting CSF into the venous system:

  1. Cranial nerves leaving CNS go through dura mater and these holes are not sealed, so it is suggested that some CSF can just go along the nerves and then accumulate in the lymphatic nodes in submucus.

  2. Dura mater is mostly perforated at the area of lamina cribrosa, that basically separates the nasal holes and our brain. Leaking through multiple small holes here CSF is accumulated into the lymphatic submucusal nodes, found in abundance here. This way is considered to be primary CSF drainage way in newborns who don't have a well developed granularities in (sub)arachnoid space.

  3. Spinal nerves, especially in the upper part of the spinal cord, also leave unsealed holes and the presence of lymphatic nodes adjacent to the places where these nerves leave the verterbral column also make them a potential place for CSF drainage.

Arachnoid granularitis do not only drain, they are capable of active CSF uptake.

CFS is not just "circulating" here going from the place of its origin in lateral ventricles to venous system. The granularities are here to actively resorb this fluid, meaning that they effectively take it up forming vacuoles and then excrete it to the venous system. Constant uptake leads to the pressure gradient (see also below!) that acts as a driving force for CSF.

Venous system has generally low pressure, thus sucking the CSF up to drainage points.

Speaking about drainage we also should consider the fact that the venous system has a pressure lower than the atmospheric pressure and much lower than pressure in any middle-sized arterial vessels. This is reached by having elastic walls and by transmitting the negative pressure from the mediastinum during the inhale, when the diaphragm and the thorax expand. This negative pressure propagates mostly to the connected vessels, including sinus system. Due to the elastic wall other parts of venous system can accommodate this negative pressure constrict their lumen, but not the sinus system which has a hard external framework formed by dura mater and bones. That is here we can measure the lowest pressure and this is the pressure that sucks CSF in into the venous system.

I hope that answers your question.

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Does this mean that a purpose of yawning is to get the CSF flowing? –  Gabriel Fair Apr 1 '12 at 15:29
Perhaps you should add some references. –  inf3rno May 13 at 7:38

Circulation of cerebrospinal fluid (CSF) through the ventricular system is driven by motile cilia on ependymal cells of the brain.

Hagenlocher C1, Walentek P, M Ller C, Thumberger T, Feistel K.Ciliogenesis and cerebrospinal fluid flow in the developing Xenopus brain are regulated by foxj1.Cilia. 2013 Sep 24;2(1):12. doi: 10.1186/2046-2530-2-12.

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We were talking about humans and not frogs. –  inf3rno May 13 at 7:38

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