Dose setting mechanism and method of setting a dose

The invention claimed is: 1. Dose setting mechanism for a drug delivery device, the mechanism comprising: a drug delivery device housing; a dose dial component positioned at least partly in the housing and rotatable during dose setting and dose delivery; and a split threaded insert in threaded engagement with a helical groove of the dose dial component, wherein the split threaded insert comprises a thread, a first portion, and a second portion, wherein the split threaded insert is configured such that when the dose dial component is rotated, the first portion and the second portion move relative to each other such that the split threaded insert transforms from a first configuration in which the thread or parts of the thread are in an open state to a second configuration in which the thread or parts of the thread are in a closed state. 2. Mechanism according to claim 1 wherein in the first configuration of the split threaded insert, friction between the split threaded insert and the dose dial component when moved relative to each other is higher compared to the second configuration of the split threaded insert. 3. Mechanism according to claim 1 wherein the first portion is a proximal threaded portion and the second portion is a distal threaded portion. 4. Mechanism according to claim 3 wherein the distal threaded portion of the split threaded insert is fixed axially and rotationally to the drug delivery device housing. 5. Mechanism according to claim 3 wherein the proximal threaded portion of the split threaded insert comprises a flexible finger that engages a stop on the distal threaded portion of the split threaded insert. 6. Mechanism according to claim 1 wherein the dose dial component comprises at least one pip. 7. Mechanism according to claim 5 wherein the flexible finger engages a first pip of the dose dial component causing the split threaded insert to transform into the first configuration and/or wherein the flexible finger engages a second pip of the dose dial component causing the split threaded insert to transform into the second configuration. 8. Mechanism according to claim 3 wherein the proximal and distal threaded portions mate to form a thread. 9. Mechanism according to claim 8 wherein the thread is a male thread and wherein the male thread comprises an enlarged male thread when the dose dial component has been rotated to a set dose that is less than a predetermined minimum set dose and/or comprises a reduced male thread when the dose dial component has been rotated to set a dose equal to or greater than a predetermined minimum. 10. Mechanism according to claim 1 wherein a set dose cannot be delivered when the thread is in the first configuration. 11. Mechanism according to claim 5 wherein the dose dial component comprises a first pip and a second pip, wherein a distance between the first pip and the second pip is proportional to a predetermined minimum set dose. 12. Mechanism according to claim 1 wherein a male threaded portion of the split threaded insert is in threaded engagement with a groove provided on an outer surface of the dose dial component. 13. Mechanism according to claim 1 wherein the dose setting mechanism further comprises a visual indication that notifies a user that a dose less than a predefined minimum dose has been dialed. 14. Dose setting mechanism for a drug delivery device, the mechanism comprising: a drug delivery device housing; a dose dial component positioned at least partly in the housing and rotatable during dose setting and dose delivery; and a split threaded insert in threaded engagement with a helical groove of the dose dial component, wherein the split threaded insert comprises a thread, a first portion, and a second portion, wherein the split threaded insert is configured such that when the dose dial component is rotated, the first portion and the second portion rotate relative to each other such that the split threaded insert transforms from a first configuration in which the thread or parts of the thread are in an open state to a second configuration in which the thread or parts of the thread are in a closed state. 15. Dose setting mechanism for a drug delivery device, the mechanism comprising: a drug delivery device housing; a dose dial component positioned at least partly in the housing and rotatable during dose setting and dose delivery; and a split threaded insert in threaded engagement with a helical groove of the dose dial component, wherein the split threaded insert comprises a thread, wherein the split threaded insert is configured such that when the dose dial component is rotated, the split threaded insert transforms from a first configuration in which the thread or parts of the thread are in an open state to a second configuration in which the thread or parts of the thread are in a closed state, wherein the split threaded insert comprises a proximal threaded portion and a distal threaded portion, wherein the proximal and distal threaded portions mate to form a thread, and wherein the thread is a male thread and wherein the male thread comprises an enlarged male thread when the dose dial component has been rotated to a set dose that is less than a predetermined minimum set dose and/or comprises a reduced male thread when the dose dial component has been rotated to set a dose equal to or greater than a predetermined minimum. 16. Dose setting mechanism for a drug delivery device, the mechanism comprising: a drug delivery device housing; a dose dial component positioned at least partly in the housing and rotatable during dose setting and dose delivery; and a split threaded insert in threaded engagement with a helical groove of the dose dial component, wherein the split threaded insert comprises a thread, wherein the split threaded insert is configured such that when the dose dial component is rotated, the split threaded insert transforms from a first configuration in which the thread or parts of the thread are in an open state to a second configuration in which the thread or parts of the thread are in a closed state, and wherein a male threaded portion of the split threaded insert is in threaded engagement with a groove provided on an outer surface of the dose dial component.