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Purepoint Uranium Group Inc (TSX-V:PTU, OTCQX:PTUUF, FRA:P5X0) said on Thursday it has improved uranium exploration targeting across multiple projects in Saskatchewan’s Athabasca Basin by using an integrated geophysical program that combines airborne MobileMT surveys with advanced 3D structural modelling.
The company said the work covered its Celeste East, Russell South and Tabbernor projects and is designed to enhance its ability to identify and rank subsurface structures prospective for uranium mineralization.
Purepoint said the integrated program uses airborne passive electromagnetic (EM) data to update the geological interpretation of uranium systems across its portfolio.
“The airborne passive EM results are changing how we understand and target uranium systems across our portfolio,” said Scott Frostad, vice president of exploration at Purepoint.
At Celeste East, Purepoint said modelling showed that a previously identified east-west conductor is part of a broader folded conductive system. The company said the model includes hinge zones that it considers favourable for uranium deposition in Athabasca Basin settings.
Purepoint added that such structures can create pathways for hydrothermal fluids, which it described as a key factor in uranium mineralization.
The company said the refined 3D geological framework is intended to guide drilling and improve interpretation of future results.
Purepoint said the Celeste East property is part of the Celeste Block project, a joint venture with IsoEnergy.
At its wholly owned Russell South project, Purepoint said MobileMT technology enabled it to detect basement conductive features that had been obscured by shallow conductive layers in earlier surveys.
It said the resulting 3D models identified previously unrecognized structures and generated new drill targets.
At Tabbernor, which Purepoint said covers a large land package along a major structural corridor, the company said the integrated data has allowed it to prioritize conductive trends for follow-up exploration.
“The 3D structural modelling gives us a much clearer picture of where uranium is most likely to occur and how to target mineralization more effectively,” Frostad added.
Purepoint said the next phase of work will focus on its Dorado project, where it aims to build a similar 3D structural model around the Nova discovery and other identified targets. The company said it expects that integrating the new geophysical data with existing drill results will further refine targeting ahead of the upcoming drill program.
The company also said it plans to expand the program to its Dorado and Henday Lake projects later this month, ahead of a scheduled drill campaign in June 2026.
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