Micro-needle device

We claim: 1. A micro-needle device for delivering a dental local anesthetic, comprising: a micro-needle array having a base and two or more of an elongate micro-needle, the elongate micro-needle having an interior surface defining an opening through the elongate micro-needle and the base having a first major surface and a second major surface through which the opening of the elongate micro-needle passes to provide a passage across the base, the base further comprising a sidewall extending between the first major surface and the second major surface thereof; and a hollow spheroid shaped container comprising a wall with a first wall portion and a second wall portion wherein the second wall portion has a wall thickness less than a wall thickness of the first wall portion, wherein an inner surface of the first wall portion contacts and fluidly seals against the first major surface of the base, and where the first wall portion extends over the sidewall on the base such that an exterior surface of the base forms a gripping surface against which force may be applied to retain the micro-needle device and insert the micro-needle array into an oral tissue, and where the first major surface of the base and an inner surface of the wall of the hollow spheroid shaped container define a volume that is in fluid connection with the opening of the elongate micro-needle to allow the dental local anesthetic to flow from the volume of the micro-needle device through the opening of the elongate micro-needle when the hollow spheroid shaped container is elastically deformed under a compressive force applied to an outer surface of the wall of the hollow spheroid shaped container and wherein the outer surface of the wall of the hollow spheroid shaped container comprises a volumetric scale marker defined by a transition in a thickness of the wall between the first wall portion and the second wall portion thereof. 2. The micro-needle device of claim 1 , where the transition in the thickness of the wall follows along a latitudinal portion of the hollow spheroid shaped container. 3. The micro-needle device of claim 1 , where the wall of the hollow spheroid shaped container is formed of a polymer. 4. The micro-needle device of claim 3 , where the polymer is selected from the group consisting of high density polyethylene, low density polyethylene, polypropylene, polyethylene terephthalate, brominated butyl rubber or acrylonitrile-methyl acrylate copolymer. 5. The micro-needle device of claim 1 , where an outer surface of the second wall portion changes from having a convex shape to having a concave shape under the compressive force. 6. The micro-needle device of claim 1 , where the volume of the hollow spheroid shaped container is about one milliliter. 7. The micro-needle device of claim 1 , where the base of the micro-needle array has a disk-shape. 8. The micro-needle device of claim 7 , where the base of the micro-needle array in the disk-shape has a diameter of 4 millimeters (mm) to 15 mm and a height of 0.5 mm to 8 mm. 9. The micro-needle device of claim 7 , where the base of the micro-needle array has 6 to 18 micro-needles. 10. The micro-needle device claim 9 , where the elongate micro-needle is uniformly arranged in a circular pattern to define the infiltration area. 11. The micro-needle device of claim 1 , wherein the outer surface of the wall of the hollow spheroid shaped container includes a pressure sensitive adhesive for retaining the micro-needle device on a user's finger.