Tuneable ophthalmic lens

The invention claimed is: 1. A tuneable contact lens comprising: a first lens portion that is in contact with an eye when the lens is in use; and a second lens portion which forms part of an external curvature of the contact lens when the lens is in use, wherein the first and second lens portions are fused together to form a single piece; a central chamber between the first lens portion and the second lens portion, wherein a boundary of the central chamber is defined by a circumferential wall and an external surface, the external surface forming part of the second portion and facing away from the eye when the lens is in use, and wherein the central chamber is enclosed by a portion of a surface of the first lens portion; a fluid reservoir, the fluid reservoir being in fluid communication with the central chamber; and a pump that is voltage activatable and is configured to pump fluid from the fluid reservoir to the central chamber upon application of an applied voltage; the lens being configured to have an activated state, in which the pump receives voltage and pumps fluid into the central chamber, and a deactivated state, in which the pump does not receive voltage and the central chamber is substantially empty of fluid, wherein the central chamber is biased towards the deactivated state, and wherein the biasing of the central chamber causes fluid to passively vacate the central chamber, thereby changing the optical power of the lens. 2. The tuneable contact lens of claim 1 , wherein the pump is an osmotic pump or a mechanical pump or an electro-mechanical actuator. 3. The tuneable contact lens of claim 1 , wherein the pump comprises a plurality of settings, each setting corresponding to a predetermined volume of fluid in the central chamber. 4. The tuneable contact lens of claim 1 , wherein a volume of fluid in the central chamber is continuously variable. 5. The tuneable contact lens of claim 1 , wherein when in the deactivated state the central chamber contains less than 3 percent of the total volume of fluid in the contact lens. 6. The tuneable contact lens of claim 1 , wherein when in the activated state the central chamber contains between 10 percent and 95 percent of the total volume of fluid in the contact lens. 7. The tuneable contact lens of claim 1 , wherein the pump includes a wireless communication module. 8. The tuneable contact lens as claimed in claim 7 , wherein the wireless communication module is configured to communicate wirelessly to a control module. 9. The tuneable contact lens of claim 1 , wherein the pump is arranged to pump fluid from the central chamber to the fluid reservoir. 10. The tuneable contact lens of claim 1 , wherein the central chamber comprises an elastic external surface, whereby the central chamber is biased towards the deactivated state. 11. A method of tuning a tuneable contact lens, the contact lens comprising: a first lens portion that is in contact with an eye when the lens is in use and a second portion which forms part of an external curvature of the contact lens when the lens is in use, wherein the first and second lens portions are fused together to form a single piece; a central chamber between the first and second lens portions, wherein a boundary of the central chamber is defined by a circumferential wall and an external surface, the external surface forming part of the second portion and facing away from the eye when the lens is in use, and wherein the central chamber is enclosed by a portion of a surface of the first lens portion, ands a fluid reservoir, the fluid reservoir being in fluid communication with the central chamber; and a pump that is voltage activatable, the method comprising the step of: pumping fluid from the fluid reservoir to the central chamber by applying a voltage to the pump, whereby the contact lens transitions from a deactivated state, in which the central chamber is substantially empty of fluid, to an activated state, in which the pump has pumped fluid into the central chamber, wherein the central chamber is biased towards the deactivated state, and wherein the biasing of the central chamber causes fluid to passively vacate the central chamber, thereby changing the optical power of the lens. 12. A method of manufacturing the tuneable contact lens of claim 1 , the method comprising the steps of: forming the first lens portion; forming the second lens portion, forming the central chamber, the central chamber being biased towards the deactivated state, and a fluid reservoir in the first and/or second lens portion, the fluid reservoir being in fluid communication with the central chamber; positioning a pump to be in fluid communication with the fluid reservoir; and bonding the first lens portion to the second lens portion, to form the tuneable contact lens. 13. The method of claim 12 , wherein the central chamber and/or the fluid reservoir is at least partially filled with fluid prior to the bonding step. 14. The method of claim 11 , wherein the pump is an osmotic pump. 15. A kit of parts comprising: (a) the tuneable contact lens of claim 1 , the lens including a communication module; and (b) a control module for communicating with the communication module.