Biostasis: A Roadmap for Research in Preservation and Potential Revival of Humans

Brain Sci. 2024 Sep 21;14(9):942. doi: 10.3390/brainsci14090942.

Abstract

Human biostasis, the preservation of a human when all other contemporary options for extension of quality life are exhausted, offers the speculative potential for survival via continuation of life in the future. While provably reversible preservation, also known as suspended animation, is not yet possible for humans, the primary justification for contemporary biostasis is the preservation of the brain, which is broadly considered the seat of memories, personality, and identity. By preserving the information contained within the brain's structures, it may be possible to resuscitate a healthy whole individual using advanced future technologies. There are numerous challenges in biostasis, including inadequacies in current preservation techniques, methods to evaluate the quality of preservation, and potential future revival technologies. In this report, we describe a roadmap that attempts to delineate research directions that could improve the field of biostasis, focusing on optimizing preservation protocols and establishing metrics for querying preservation quality, as well as pre- and post-cardiac arrest factors, stabilization strategies, and methods for long-term preservation. We acknowledge the highly theoretical nature of future revival technologies and the importance of achieving high-fidelity brain preservation to maximize the potential of future repair technologies. We plan to update the research roadmap biennially. Our goal is to encourage multidisciplinary communication and collaboration in this field.

Keywords: aldehyde-stabilized cryopreservation; biostasis; brain preservation; chemical fixation; connectomics; cryonics; cryopreservation; molecular nanotechnology; vitrification; whole-brain emulation.

Publication types

  • Review

Grants and funding

The work of Brian Wowk and Borys Wróbel was supported by the Biomedical Research and Longevity Society. Otherwise, the authors received no specific funding for this work.