Sri Lanka coach Sanath Jayasuriya has urged a revision of cricket’s regulations following the super over confusion in the Asia Cup 2025 Super 4s match between India and Sri Lanka on September 26. Speaking to reporters, Jayasuriya emphasized the need for clarity in key match situations. He said, “I think that was the rules. According to the rules, if you appeal for the catch, then he Dasun had to go by the third umpire's call, so it was the first decision that counts always, not the second one. So he went for the replay and it was not out. So that's what happened. But I think, there are a few areas from this game they'll have to look into to fine-tune a little bit of the rules." Jayasuriya added, "He also addressed the absence of Pathum Nissanka in the super over. “He was having hamstring and groin injuries during the last two games, and we were a little worried about him, and that is the reason we went with the left-hand and right-hand combination." Read also: Watch: Sanju Samson Smashes Straight Six off Hasaranga Super Over confusion underscores need for rule clarity The Asia Cup Super 4s encounter had ended in a tie, forcing a super over. Sri Lanka batted first but lost Kusal Perera early. On Arshdeep Singh’s fourth delivery, Dasun Shanaka swung at a yorker outside off stump and missed. Singh appealed for a caught behind, and umpire Gazi Sohel initially raised his finger. Despite the decision, Shanaka attempted a run while the ball rested in Sanju Samson’s gloves. Samson’s direct under-arm throw to the striker’s end appeared to complete a run-out, but under Law 20.1.1.3, the ball was already dead once Shanaka was given out. Shanaka reviewed the decision, and UltraEdge revealed no contact between bat and ball, overturning the call. He was dismissed on the next delivery, leaving Sri Lanka with just two runs. India then finished the chase off their first ball. The incident highlighted ambiguities in super over rules and raised questions about how immediate decisions interact with reviews, fueling discussions on possible refinements in high-pressure scenarios.