An implantable system for the treatment of hydrocephalus has a plurality of hollow microneedles in a fixed array. The microneedles have passages there through and are of a size to extend through dura mater with a proximal end on one side of the dura mater and a distal end communicating with the venous system in an area on a second side of the dura mater. An array of microvalves associated with a proximal end of the microneedles include segments movable by a pressure build up of cerebrospinal fluid (CSF) within the interior of the brain to provide open communication between the interior of the brain on one side of the dura mater and the venous system on the second side of the dura mater. A plurality of fluid transmitting members has distal ends communicating with the microvalves and a proximal end communicating with the ventricular space of the brain. The fluid transmitting members transmit CSF from the ventricular space through the microvalves and micro needles in fluid communication with the fluid transmitting members to prevent an excessive pressure build up of CSF within the interior of the brain.
