Infrastructure Materials Corp. reported that its joint venture partner for the Nivloc Mine Project released assay results from three additional diamond drill holes at the Project. The results announced by International Millennium Mining Inc. are from holes 11NL-26 to 11NL-28, all designed to expand the mineralized zone on the Nivloc property, which remains open at depth and along strike to both the northeast and southwest directions. Drill holes 11NL-26 to 11NL-28 intersected 244 grams/tonne (g/t) to 352 g/t Ag lenses enclosed by wider zones of lower grade material. Drill hole 11NL-26 intersected the Nivloc vein system between the 700 and 800 foot levels, in the eastern portion of the target area below the old mine workings. Drill hole 11NL-27 was drilled to the 440 foot level in the western part of the target area and was designed to test a geological cross-cutting feature postulated in this part of the vein system. This hole intersected two zones of lower grade mineralization. Hole 11NL-28 was also drilled in the western part of the target area, directly below Hole 11NL 27, between the 600 and 700 foot levels. The level numbers referred to above, along with distances from other hole intercepts, are deemed to be approximate. The drilling reported to date is focused on a target area that lies between previously mined zones within the northeast-southwest-trending Nivloc vein structure. The exploration target lies between the surface and the existing 800 foot level drift in the old mine workings. The 800 foot mine level is approximately 900 feet vertically below surface, and the vein and workings dip from minus-45 to minus-65 degrees toward the northwest. Previous mining at Nivloc focused on higher-grade lenses of ore that were encountered while drifting along the vein structure. The IMMI drilling program indicates the Nivloc structure ranges from 50 to more than 150 feet wide and contains several parallel vein zones. It appears from available data that only one of these parallel vein zones was exploited by prior mining. In addition to the potential for higher-grade lenses similar to those that were mined historically, the material between the lenses is consistently mineralized to some degree.