Guiding assembly for intradermal injection

The invention claimed is: 1. A guiding assembly for an injection device, comprising: a mount adapted to receive the injection device comprising a piercing assembly, the mount being configured such that the piercing assembly is movable along a longitudinal axis of the guiding assembly relative to the mount and extends along the longitudinal axis when the injection device is coupled to the mount; a first gripping member rotatably coupled to the mount; a second gripping member coupled to the mount; a first lateral stop member coupled to the first gripping member, the first lateral stop member comprising a distal bearing surface adapted to engage a surface of skin of a patient and extending along the longitudinal axis of the guiding assembly; a second lateral stop member coupled to the second gripping member; and a torsion spring biasing the first gripping member in a first angular position relative to the mount, wherein when the first gripping member is in the first angular position, the first lateral stop member and the second lateral stop member are adapted to engage the surface of the skin, and wherein the mount is positioned relative to the first lateral stop member and the second lateral stop member such that the piercing assembly is asymmetrically displaced between the first and second lateral stop members and such that the piercing assembly is displaced at a predefined lateral distance with respect to one of the first and second lateral stop members when the first gripping member is in the first angular position. 2. The guiding assembly according to claim 1 , wherein the first gripping member is configured to rotate away from the mount into a second angular position. 3. The guiding assembly according to claim 1 , wherein the first lateral stop member comprises a first interlock member engaged with a second interlock member of the second lateral stop member, the first lateral stop member and the first gripping member being rotatable relative to the second lateral stop member and the second gripping member about the second interlock member. 4. The guiding assembly according to claim 3 , wherein the longitudinal axis of the guiding assembly extends through the first interlock member and the second interlock member. 5. The guiding assembly according to claim 3 , wherein the torsion spring is coupled to at least one of the first and second interlock members to bias the first gripping member in the first angular position relative to the mount. 6. The guiding assembly according to claim 1 , wherein the second gripping member extends along the longitudinal axis of the guiding assembly. 7. The guiding assembly according to claim 6 , wherein the first gripping member extends along the longitudinal axis of the guiding assembly. 8. The guiding assembly according to claim 6 , wherein the second gripping member comprises a guide mechanism configured to slidably couple the injection device to the second gripping member. 9. The guiding assembly according to claim 1 , further comprising an intermediate section connecting the second lateral stop member to the second gripping member, the intermediate section comprising a curved profile. 10. The guiding assembly according to claim 9 , wherein the intermediate section defines an opening extending through the intermediate section, the opening being positioned to receive the piercing assembly. 11. The guiding assembly according to claim 10 , wherein the opening is positioned between the first lateral stop member and the second lateral stop member. 12. The guiding assembly according to claim 11 , wherein the opening is positioned beneath the second gripping member. 13. The guiding assembly according to claim 1 , wherein the second lateral stop member comprises a distal bearing surface adapted to engage the surface of the skin, the distal bearing surface of the second lateral stop member extending along the longitudinal axis of the guiding assembly and being configured to extend parallel to the piercing assembly when the first gripping member is in the first angular position. 14. The guiding assembly according to claim 13 , wherein the first gripping member and the first lateral stop member are intertwined with the second gripping member and the second lateral stop member. 15. The guiding assembly according to claim 13 , wherein the distal bearing surface of the first lateral stop member and the distal bearing surface of the second lateral stop member are configured to engage the surface of the skin to form a bulged skin portion when the first gripping member is in the first angular position, the bulged skin portion comprising a portion extending along the longitudinal axis of the guiding assembly. 16. The guiding assembly according to claim 13 , wherein the pre-defined lateral distance corresponds to a depth of an intradermal layer of the skin. 17. The guiding assembly according to claim 1 , further comprising a collar configured to support a neck portion of the injection device in a lateral direction and a distal direction when the piercing assembly is moved distally along the longitudinal axis of the guiding assembly. 18. The guiding assembly according to claim 1 , wherein the second gripping member is adjacent the mount and is configured to be adjacent the injection device when the injection device is coupled to the mount. 19. A drug delivery device for injecting a dose of a medicament into skin of a patient and comprising: an injection device comprising a cartridge defining an inner volume containing the medicament and having a piston slidably disposed within the cartridge, and a piercing assembly extending from the cartridge and being in fluid connection with the inner volume; and a guiding assembly comprising a mount adapted to receive the injection device, the mount being configured such that the piercing assembly is movable along a longitudinal axis of the guiding assembly relative to the mount and extending along the longitudinal axis when the injection device is coupled to the mount; a first gripping member rotatably coupled to the mount; a second gripping member coupled to the mount; a first lateral stop member coupled to the first gripping member, the first lateral stop member comprising a distal bearing surface adapted to engage a surface of the skin of the patient and extending along the longitudinal axis of the guiding assembly; a second lateral stop member coupled to the second gripping member; and a torsion spring biasing the first gripping member in a first angular position relative to the mount, wherein when the first gripping member is in the first angular position, the first lateral stop member and the second lateral stop member are adapted to engage the surface of the skin, and wherein the mount is positioned relative to the first lateral stop member and the second lateral stop member such that the piercing assembly is asymmetrically displaced between the first and second lateral stop members and such that the piercing assembly is displaced at a pre-defined lateral distance with respect to one of the first and second lateral stop members when the first gripping member is in the first angular position.