Suffering from an incurable and metastatic kidney cancer, Dr. James Hiram Bedford became the first person in history to be cryonically preserved on January 12, 1967. Frozen at the boiling point of liquid nitrogen, −321° Fahrenheit, he remains in cryonic suspension, to this day.
The human brain is an awesome thing. Weighing in at about 3-pounds, the organ is comprised of something like 86 billion neurons, each comprised of a stoma or cell body, an axon to take information away from the cell, and anywhere between a handful and a hundred thousand dendrites bringing information in. Chemical signals transmit information over minute gaps between neurons called synapses, about 1/25,000th to 1/50,000th of the thickness of a sheet of paper.
There are roughly a quadrillion such synapses, meaning that any given thought could wend its way through more pathways than there are molecules in the known universe. This is roughly the case, whether you are Stephen J. Hawking, or Forrest Gump.
For all of this, the brain cannot store either oxygen or glucose (blood sugar), meaning that there’s about 6 minutes after the heart stops, before the brain itself begins to die.
Legally, brain death occurs at “that time when a physician(s) has determined that the brain and the brain stem have irreversibly lost all neurological function”. Brain death defines the legal end of life in every state except New York and New Jersey, where the law requires that a person’s lungs and heart must also have stopped, before that person is declared legally dead.
“Information-theoretic death” is defined as death which is final and irreversible by any technology. Clearly then, there is a gap, a small span of time, between the moment of legal death and a person’s permanent and irreversible passing.
So, what if it were possible to get down to the molecular level and repair damaged brain tissue. For that matter, when exactly does such damage become “irreversible”?
The Alcor Life Extension Foundation, the self-described “world leader in cryonics, cryonics research, and cryonics technology” explains “Cryonics is an effort to save lives by using temperatures so cold that a person beyond help by today’s medicine can be preserved for decades or centuries until a future medical technology can restore that person to full health”.
The practice is highly controversial, and not to be confused with Cryogenics, the study of extremely low temperatures, approaching the still-theoretical cessation of all molecular activity. Absolute zero.
The Cryogenic Society of America, Inc. includes this statement on its home page:
“We wish to clarify that cryogenics, which deals with extremely low temperatures, has no connection with cryonics, the belief that a person’s body or body parts can be frozen at death, stored in a cryogenic vessel, and later brought back to life. We do NOT endorse this belief, and indeed find it untenable”.
The modern era of cryonics began in 1962, when Michigan College physics professor Robert Ettinger proposed that freezing people may be a way to reach out to some future medical technology.
The Life Extension Society, founded by Evan Cooper in 1964 to promote cryonic suspension, offered to preserve one person free of charge in 1965. Dr. James Hiram Bedford was suffering from untreatable kidney cancer at that time, which had metastasized to his lungs.
Bedford became the first person to be cryonically preserved on January 12, 1967, frozen at the boiling point of liquid nitrogen, −321° Fahrenheit, and sealed up in a double-walled, vacuum cylinder called a “dewar”, named after Sir James Dewar, the 19th century Scottish chemist and physicist best known for inventing the vacuum flask, and for research into the liquefaction of gases.
Fifty-one years later, cryonics societies around the world celebrate January 12 as “Bedford Day”. Dr. Bedford has since received two new “suits”, and remains in cryonic suspension, to this day.
Advocates experienced a major breakthrough in the 1980s, when MIT engineer Eric Drexler began to publish on the subject of nanotechnology. Drexler’s work offered the hope that, theoretically, one day injured tissue may be repaired at the molecular level.
In 1988, television writer Dick Clair, best known for television sitcoms “It’s a Living”, “The Facts of Life”, and “Mama’s Family”, was dying of AIDS related complications. In his successful suit against the state of California, “Roe v. Mitchell” (Dick Clair was John Roe), Judge Aurelio Munoz “upheld the constitutional right to be cryonically suspended”, winning the “right” for everyone in California.
The decision failed to make clear who was going to pay for it.
As to cost, a Cryonics Institute (CI) video advertises a cryopreservation fee of $28,000, payable in monthly installments of $25.
Ted Williams went into cryonic preservation in 2002, despite the bitter controversy that split the Williams first-born daughter Bobby-Jo Williams Ferrell, from her two half-siblings John-Henry and Claudia. The pair were adamant that the greatest hitter in baseball history wanted to be preserved to be brought back in the future, while Ferrell pointed out the will, which specified that Williams be cremated, his ashes scattered off the Florida coast.
The court battle produced a “family pact” written on a cocktail napkin, which was ruled authentic and allowed into evidence. So it is that Ted Williams’ head went into cryonic preservation in one container, his body in another.
The younger Williams died of Leukemia two years later, despite a bone marrow donation from his sister. John-Henry joined his father, in 2004.
Walt Disney has long been rumored to be in frozen suspension, but the story isn’t true. After his death in 1966, Walt Disney was interred at Forest Lawn Memorial Park in Glendale, California.
In April 1773, Benjamin Franklin wrote a letter to Jacques Dubourg. “I wish it were possible”, Franklin wrote, “to invent a method of embalming drowned persons, in such a manner that they might be recalled to life at any period, however distant; for having a very ardent desire to see and observe the state of America a hundred years hence, I should prefer to an ordinary death, being immersed with a few friends in a cask of Madeira, until that time, then to be recalled to life by the solar warmth of my dear country! But…in all probability, we live in a century too little advanced, and too near the infancy of science, to see such an art brought in our time to its perfection”.
Maybe so but, for the several hundred individuals who have plunked down $25,000 to upwards of $200,000 to follow Dr. Bedford into cryonic suspension, hope springs eternal.
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