San Diego, CA – The Oceanic Research Institute (ORI) today announced the successful revival of “Claude,” a laboratory zebrafish, using its experimental AI-assisted Cellular Recovery and Regenerative Platform (CRRP).
Claude experienced acute hypoxic shock during a controlled study and entered full cardiac and neural arrest. Within 90 seconds, researchers initiated ultra-rapid vitrification to preserve cellular structure before deploying ORI’s AI system to map molecular damage across neural, vascular, and mitochondrial networks.
The AI simulated millions of repair pathways and generated a ranked intervention plan. Guided by this modeling, scientists administered targeted nanobiological treatments designed to restore ion balance, repair mitochondrial membranes, and stabilize damaged proteins.
Spontaneous cardiac activity resumed 14 hours post-intervention. Within 36 hours, measurable neural signaling returned. After 10 days of monitoring, Claude demonstrated coordinated swimming, feeding response, and gene expression profiles closely matching pre-arrest baselines.
“This was not traditional resuscitation,” said Dr. Elena Marquez, Director of Regenerative Systems at ORI. “AI enabled us to model and reverse early cellular cascade failure under tightly controlled conditions.”
The Institute emphasized that the procedure required immediate stabilization and intact tissue preservation, and is not applicable to advanced biological decomposition.
Preliminary findings have been submitted for peer review. Claude remains under observation and continues to exhibit stable physiological function.
Media Contact:
Oceanic Research Institute
(555) 019-2026m
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