System and method for valve control

What is claimed is: 1. A flow and/or pressure regulating assembly for a hydrocephalus shunt system, the regulating assembly comprising: a reservoir having a reservoir inlet and a reservoir outlet; a controller; a valve seat; a valve member configured to be supported relative to the valve seat to regulate flow into the reservoir through the reservoir inlet; and an actuator in response to an actuator signal from the controller to move between an active position and an inactive position; wherein the actuator is selectively positioned in the active position or the inactive position to assist in the valve member regulating the flow into the reservoir; wherein the actuator comprises: a first support member; a second support member; and an activating system; wherein the activating system is configured to move the first support member relative to the second support member to raise the second support member or lower the second support member wherein the first support member is hingedly connected to the second support member; wherein the second support member is hingedly connected at a fixed position and the first support member is hingedly connected to a pushing arm configured to move the first support member. 2. The flow and/or pressure regulating assembly of claim 1 , further comprising: a support arm member; wherein the support arm member is configured to bias the valve member in a closed position relative to the valve seat. 3. The flow and/or pressure regulating assembly of claim 2 , further comprising: a substrate positioned on a side of the support arm member away from the valve member; wherein the actuator is a formed from and on the substrate. 4. The flow and/or pressure regulating assembly of claim 2 , further comprising: a valve support member having a surface configured to engage the valve member; wherein the support arm member extends from the valve support member to a connection. 5. The flow and/or pressure regulating assembly of claim 1 , further comprising: a pressure sensor configured to sense a pressure within the reservoir and transmit a pressure signal relating the sensed pressure to the controller. 6. The flow and/or pressure regulating assembly of claim 5 , wherein the controller is configured to execute instructions to compare the sensed pressure transmitted via the pressure signal and a predetermined set point pressure. 7. The flow and/or pressure regulating assembly of claim 6 , wherein the controller is configured to transmit the actuator signal to move the actuator between the active position and the inactive position based on the comparison of the sensed pressure and the predetermined set point pressure. 8. The flow and/or pressure regulating assembly of claim 1 , wherein the actuator is a microelectromechanical system. 9. The flow and/or pressure regulating assembly of claim 1 , wherein the first support member is guided within a rail assembly to direct a force to the second support member. 10. The flow and/or pressure regulating assembly of claim 2 , wherein the actuator in the active position changes and effective length of the arm support member to increase a biasing force on the valve member. 11. The flow and/or pressure regulating assembly of claim 1 , further comprising: an inlet catheter having length between a first end and a second end, wherein the second end is connected to the reservoir inlet; and an outlet catheter connected to the reservoir outlet. 12. A flow and/or pressure regulating assembly for a hydrocephalus shunt system, the regulating assembly comprising: a valve seat; a valve member configured to be supported relative to the valve seat to regulate flow into a reservoir; a support arm member, wherein the support arm member is configured to bias the valve member in a closed position relative to the valve seat; a substrate positioned on a side of the support arm member away from the valve member; and a plurality of actuators formed on the substrate and spaced apart along a length of the support arm member, each actuator of the plurality of actuators contacts the support arm member at a different point along the length of the support arm member; wherein an effective support length of the support arm member determines a biasing force on the valve member and each of the plurality of actuators is configured to be selectively positioned in an active position or an inactive position to select the effective support length; wherein each of the plurality of actuators is configured to be actuated to contact the support arm member at a plurality of positions along the length of the support arm member to change the effective support length. 13. The flow and/or pressure regulating assembly of claim 12 , wherein the support arm member is operable to have a plurality of effective support lengths. 14. The flow and/or pressure regulating assembly of claim 12 , further comprising: a controller operable to transmit a control signal configured to change each of the plurality of actuators between the active position and the inactive position. 15. The flow and/or pressure regulating assembly of claim 12 , wherein the support arm member includes a plurality of support arm members. 16. The flow and/or pressure regulating assembly of claim 15 , further comprising: a pressure sensor configured to sense a pressure within a reservoir and transmit a pressure signal relating the sensed pressure to the controller; wherein the control signal is based on the sensed pressure. 17. A method of configuring a flow and/or pressure regulating assembly for a hydrocephalus shunt system, the method comprising: positioning a valve member within a reservoir to be biased relative to a valve seat; supporting and biasing the valve member in a closed position relative to the valve seat with a support arm member; providing a plurality of actuators on a substrate near the support arm member and spaced apart along a length of the support arm member, each actuator of the plurality of actuators contacts the support arm member at a different point along the length of the support arm member; configuring each of the plurality of actuators to be selectively positioned in an active position or an inactive position relative to the support arm member to assist in achieving a selected biasing force applied to the valve member; and selecting an effective support length of the support arm member to achieve the selected biasing force on the valve member, where selecting the effective support length includes configuring each of the plurality of actuators to contact the support arm member at a plurality positions along a length of the support arm member. 18. The method of claim 17 , further comprising: configuring a controller to compare a sensed pressure within the reservoir to determine positioning each of the plurality of actuators in the active position or the inactive position.