Microfluidic device and a method of loading fluid therein

The invention claimed is: 1. A method of loading a microfluidic device with an assay fluid, the method comprising: filling a chamber with a filler fluid or with a fluid mixture containing the filler fluid as one component, the chamber having one or more inlet ports and an outlet port for extracting the filler fluid or fluid mixture, wherein as the chamber is filled with the filler fluid or fluid mixture, a venting fluid is vented from a vent area through one or more vents, and the chamber is filled with the filler fluid or fluid mixture in an amount whereby the one or more inlet ports and the one or more vents remain dry of the filler fluid or fluid mixture; inserting a volume of the assay fluid into one of the one or more inlet ports; and extracting a sufficient amount of the filler fluid or fluid mixture through the outlet port to enable at least some of the volume of the assay fluid to enter the chamber from the one of the one or more inlet ports. 2. A method as claimed in claim 1 , wherein the microfluidic device comprises electrodes, and the method further comprises controlling the assay fluid within the chamber by actuation of said electrodes. 3. A method as claimed in claim 2 , and comprising controlling the assay fluid within the chamber by actuation of said electrodes during the introduction of the filler fluid and the assay fluid into the chamber. 4. A method as claimed in claim 1 wherein the filler fluid comprises a non-polar fluid, an oil, or a surfactant. 5. A microfluidic device, comprising: first and second substrates spaced from one another by a spacer and a fluid barrier, the microfluidic device further including side walls and the first substrate being an upper substrate and the second substrate being a lower substrate such that the first and second substrates and the side walls define a chamber therebetween the chamber having one or more inlet ports and at least one vent port for venting a venting fluid from the chamber; a restriction element that provides a flow restriction that has a tendency to maintain a metered volume of a filler fluid that partially fills the chamber in a part of the chamber; and the restriction element is configured to allow displacement of some of the filler fluid from the part of the chamber when a volume of an assay fluid introduced into one of the one or more inlet ports enters the part of the chamber, thereby causing a volume of the venting fluid to vent from the chamber through the at least one vent port. 6. The microfluidic device of claim 5 , wherein the chamber has an outlet port for extracting a filler fluid whereby a volume of an assay fluid introduced into one of the one or more inlet ports is enabled to enter the chamber as a sufficient amount of the filler fluid is extracted through the outlet port. 7. A microfluidic system comprising a microfluidic device as claimed in claim 5 , said microfluidic device contained within a disposable cartridge, and a reader device configured to control the microfluidic device.