Ted Williams help to bring to light cryogenics and the procedure of freezing a human head. While preserving parts of us after we die may seem bazaar, there may be some things we can learn from brain preservation.
According to the Brain Preservation Organization, “Due to a series of recent scientific developments, human beings may soon have an inexpensive and reliable way to preserve their brains, including the molecular features that give rise to their memories and identities, in room-temperature storage after they die. This technology is called plastination (chemopreservation), or chemical fixation and embedding in plastic, and is a distant cousin of the process seen in such exhibits as Body Worlds. Today, “perfect” plastination is routinely done for very small amounts of brain tissue (one millimeter cubed), and soon it will be attempted for whole animal and human brains. Cryopreservation (involving very low temperature storage) is another, more expensive process that also deserves to be carefully evaluated for its ability to preserve the critical structures of our brains. Today, leading-edge neuroscience is identifying the synaptic structures that store and generate our unique memories and identity, and new imaging techniques are allowing us to verify when these special structures have been successfully preserved, starting with general synaptic connectivity all the way to the signal states of individual brain proteins.”
This organization is even offering a prize of $106,000 to those teams that can actually preserve a large animal brain. Their hope is to preserve the human wisdom and diversity that dies with us along with our brains.
As one might guess, not everyone is thrilled with this idea. For those with objections to such a project, this site has created a page for overcoming objections.
Their mission is to, “promote scientific research and services development in the field of whole brain preservation for long-term static storage. Through outreach to appropriate scientific communities, online activities, presentations and articles, directed research grants, challenge prizes, and other methods, we seek to explore the scientific hypothesis of whether a reliable surgical procedure exists that is capable of preserving the precise neural circuitry of the human brain at nanometer scale.”
For those interested in reading more about cryopreservation, chemical preservation or scanning and circuit mapping click here for more information.