VR Resources Ltd. announced that the fall 2021 drill program has been completed at its Hecla-Kilmer (?H-K?) project in northern Ontario, with 5 holes completed to target depths for a total of 2,604 m. Four drill holes completed in 2020 which targeted the northern MVI anomaly (total magnetic vectorization) at H-K, derived from the 3D inversion of the high resolution airborne magnetic survey over the entire H-K complex, and which resulted in the discovery of significant widths of rare earth element (?REE?) and critical metal mineralization. The five follow-up drill holes which have just been completed focused on a large and high contrast, 3.5 mGal gravity anomaly that is co-spatial with, but offset from, the MVI magnetic anomaly. XRF scanning is currently being done on each drill hole in its entirety in order to better integrate mineralogy and geochemistry, and to obtain continuous density and magnetic readings. Geochemical sampling of drill core is also ongoing, and the Company expects to have all mineral and geochemical data in hand by calendar year-end. The Company has also received final geochemical data from its expanded sampling of drill core from the 2020 drill program at H-K. The new data confirm the discovery reported in July (see NR-21-17) of rare earth elements (?REE?) and critical metals, for example, lithium and niobium, at H-K, hosted in sulfide-bearing carbonatite dykes, fluorite-carbonate vein breccia and hydrothermal breccia. Drill hole HK20-004 from 2020 was re-logged and sampled prior to the start-up of the current drill program in order to obtain accurate data using a lithium borate fusion assay technique designed to optimize the analytical detection for all rare earth elements. The new data from HK20-004 confirm the REE and critical metals intersected in carbonatite dykes and hydrothermal fluorite-carbonate vein breccia in hole 002. Key aspects of the new data include: Total rare earth oxide concentrations (TREO) exceed 0.5% TREO over widths greater than 50 m; TREO up to 1.44 % over 3.21 m; Middle and Heavy rare earth oxides (HREO) of up to 0.15% over 3.21 m; Concentrations of the critical metal niobium of 0.15% Nb2O5 over widths greater than 50m, including 10.77m at 0.27% Nb2O5; this is a full order of magnitude greater than the niobium concentrations in carbonatite with REE mineralization in hole 002.