anti-aging medicine equipment for measuring functional real age described below

Anti-aging Medicine Test for Measuring Functional Real Age

Anti-aging Medicine equipment from LabShelf.com measures functional age. The H-SCAN Functional Real Age Test assists the practice of medicine by measuring 12 physiological biomarkers of aging. The measurements include reaction times, lung capacity, short term memory, hearing (as related to aging) and vision (as related to aging), among others. The H-SCAN system will enable you to evaluate patients in your anti-aging or wellness program. The H-SCAN system can also be used in hospitals or other health facilities. Click here or on the link at the right for more details.    H-SCAN 820:
Measure Physical Age!

One of twelve computerized tests

The H-SCAN anti-aging medicine test is used to obtain information on physiological function in the field of medicine and in wellness programs and anti-aging programs all over the world. It has been in use since 1997. Some facilities have achieved remarkable success in attracting corporate contracts or public business. The 12 aging biomarkers were validated through a process later published in the Journal of Gerontology [Biological Science] at this link.

This unique tool for anti-aging medicine operates automatically and requires no operators to be in attendance. Therefore, data variance associated with differences in the quality of instructions and the degree of motivation provided by operators (important in performance oriented tests) is eliminated. The instruments fit on a table top, are also designed for field use, and the test can be set up quickly by untrained persons in your anti-aging medicine program. This system is needed to measure the level of aging of the patient in order to investigate what therapies or medicine are needed for improvement.

Detailed Information on Anti-Aging Medicine and Life Extension

Life extension refers to an increase in maximum or average lifespan, especially in humans, by slowing down or reversing the processes of aging. Average lifespan is determined by vulnerability to accidents and age-related afflictions such as cancer or cardiovascular disease. Extension of average lifespan can be achieved by good diet, exercise and avoidance of hazards such as smoking and excessive eating of sugar-containing foods. Maximum lifespan is determined by the rate of aging for a species inherent in its genetic code. Currently, the only widely recognized method of extending maximum lifespan is by calorie restriction with adequate nutrient supplementation. Theoretically, extension of maximum lifespan can be achieved by reducing the rate of aging damage, by periodic replacement of damaged tissues, or by molecular repair or (rejuvenation) of deteriorated cells and tissues.

Researchers of anti-aging medicine and life extension are a subclass of biogerontologists known as "biomedical gerontologists". They seek to understand the nature of aging and they develop treatments to reverse aging processes or to at least slow them down, for the improvement of health and the maintenance of youthful vigor at every stage of life. (Biomedical gerontologists are distinguished from biogerontologists in that the latter only take an academic interest in the biological mechanisms of aging, without seeking a "cure".) Those who take advantage of life extension findings and seek to apply them upon themselves are called "life extensionists" or "longevists". The primary life extension strategy currently is to apply available anti-aging medicine methods in the hope of living long enough to benefit from a complete cure to aging once it is developed, which given the rapidly advancing state of biogenetic and general medical technology, could conceivably occur within the lifetimes of people living today.

Many biomedical gerontologists and life extensionists believe that future breakthroughs in tissue rejuvenation with stem cells, organs replacement (with artificial organs or xenotransplantations) and molecular repair will eliminate all aging and disease as well as allow for complete rejuvenation to a youthful condition. Whether such breakthroughs can occur within the next few decades is impossible to predict. Many life extensionists arrange to be cryonically preserved upon legal death so that they can await the time when future medicine can eliminate disease, rejuvenate them to a lasting youthful condition and repair damage caused by the cryonics process.

Whether the maximum human lifespan should be extended is the subject of much ethical debate amongst politicians and scientists. But the anti-aging and life extension movement, which began in the early 1980s, continues to grow rapidly in popularity and momentum.

Contents

Aging

Aging is an accumulation of damage to macromolecules, cells, tissues and organs. The maximum life span known for humans is 122.5 years, whereas the maximum lifespan of a mouse is about 3 years. Genetic differences between humans and mice that may account for these different aging rates include efficiency of DNA repair, types and quantities of antioxidant enzymes, different rates of free radical production, etc.

Strategies of anti-aging medicine and life extension

Anti-aging nutritional supplementation and medicine

Much of anti-aging medicine has been concerned with the use of nutritional supplements to extend lifespan. The idea that antioxidant supplements, such as Vitamin C, Vitamin E, lipoic acid and N-acetylcysteine, might extend human life stems from the free radical theory of aging.

Diabetes resembles accelerated aging and is associated with cross-linking of proteins by sugars, more specifically monosaccharides. Some believe that anti-glycating supplements (supplements that reduce the protein cross-linking by monosaccharides), such as carnosine, pyridoxamine, benfotiamin and lysine, might reduce aging.

Hormone replacement therapy - which aims at restoring youthful levels of growth hormone, testosterone, estrogen, progesterone, melatonin, DHEA and thyroid (all of which decline with age) - has also been tried as means of reducing the effects of aging.

Other less popular hormones but which might also be useful are oxytocin, insulin, human chorionic gonadotropin (hCG), erythropoietin (EPO), and others. Resveratrol is a sirtuin stimulant proposed to extend life in mammals in a similar manner to that claimed for calorie restriction in simple model organisms such as nematodes.

Some supplements have been shown to be of benefit against some aging-related disease conditions, or have extended average lifespan. Calorie restriction and supplementation with the minerals selenium, chromium and zinc have been shown to extend maximum lifespan in mice. Metformin may also extend life span in mice, and in the first experiments with fish, resveratrol looks promising. (Resveratrol is presently (2006) being tested in mice.)

Calorie Restriction

Calorie restriction (CR) with adequate nutrition has been shown to extend the maximum lifespan of almost every species on which it has been tested, including rats, yeast, fruit flies, and nematodes. In rodents, a roughly 50% maximum lifespan extension is seen with a roughly 50% restriction of calories from what would be consumed by freely-feeding animals. Experiments are in progress with primates to test whether calorie restriction can extend the lifespan of long-lived species. Some people believe that these experiments will be successful, and that the results will similarly hold true for humans. A group called the Calorie Restriction Society was formed with the help of Brian M. Delaney, Lisa Walford, and Roy Walford in the mid-1990s. These people may have the willpower and determination to restrict their caloric intake in the hope of extending their lives, but they are very few in number. They communicate by e-mail and have been flown to Washington University in St. Louis to be studied by Dr. John Holloszy. Calorie restriction is under current study at the UW-Madison and several other universities. It has moved into testing on primates.

Chemical and genetic interventions in animal models

The evidence for use of growth Hormone is mixed. An early study suggested that supplementation of mice with growth hormone increased average life expectancy. Additional animal experiments have suggested that growth hormone may generally act to shorten maximum lifespan; knockout mice lacking the receptor for growth hormone live especially long.

Resveratrol is a substance that has been shown to extend the lifespan of yeast, fruit flies and certain fishes. Experiments in mammals are currently underway. The manner by which resveratrol achieves this effect remains unknown, although it has been conjectured that it is involved in the mechanism that underlies the lifespan enhancing effects of calorie restriction.

Likewise, the Sir2 class of genes is conjectured to be involved in the calorie restriction mechanism; yeast genetically engineered to overexpress Sir2 live longer.

Large availability of insulin generally leads to shorter lifespan. Mice genetically engineered to lack an insulin receptor in fat tissue live longer. Mice with an overexpression of the Klotho gene, which limits insulin sensitivity, also show an extended lifespan.

SENS (Strategies for Engineered Negligible Senescence)

Dr. Aubrey de Grey has suggested that it will someday be possible for humans to live thousands of years in a youthful condition. He calls his project to reverse the damage we call aging SENS (Strategies for Engineered Negligible Senescence). He has proposed seven strategies for the "seven deadly things":

  1. Cell loss can be repaired (reversed) just by suitable exercise in the case of muscle. For other tissues it needs various growth factors to stimulate cell division, or in some cases it needs stem cells.
  2. Senescent cells, can be removed by activating the immune system against them. Or they can be destroyed by gene therapy to introduce "suicide genes" that only kill senescent cells.
  3. Protein cross-linking can largely be reversed by drugs that break the links. But to break some of the cross-links we may need to develop enzymatic methods.
  4. Extracellular garbage (like amyloid) can be eliminated by vaccination that gets immune cells to "eat" the garbage.
  5. For intracellular junk we need to introduce new enzymes, possibly enzymes from soil bacteria, that can degrade the junk (lipofuscin) that our own natural enzymes cannot degrade.
  6. For mitochondrial mutations the plan is not to repair them but to prevent harm from the mutations by putting suitably modified copies of the mitochondrial genes into the cell nucleus by gene therapy. The mitochondrial DNA experiences a high degree of mutagenic damage because most free radicals are generated in the mitochondria and because the DNA repair mechanisms of mitochondrial DNA are significantly inferior to those of nuclear DNA. A copy of the mitochondrial DNA located in the nucleus will be better protected from free radicals, and there will be better DNA repair when damage occurs. All mitochondrial proteins would then be imported into the mitochondria.
  7. For cancer (the most lethal consequence of mutations) the strategy is to use gene therapy to delete the genes for telomerase and to eliminate telomerase-independent mechanisms of turning normal cells into "immortal" cancer cells. To compensate for the loss of telomerase in stem cells we would introduce new stem cells every decade or so.

Dr. de Grey co-founded the Methuselah Mouse Prize, which awards money to researchers who can extend the lifespan of mice or rejuvenate mice.

Cryonics

Cryonics is inspired by the fact that life extension technologies may eventually allow people to live thousands of years of youthful life. But these technologies may not be available for another 50 years, if ever. There is a danger that anyone, including young people, may die before the new medicine becomes available. Cryopreservation shortly after legal death may provide an "ambulance" into the future. The basis of cryonics is that at cryogenic temperatures there will be no alteration in biological tissue for thousands of years, which allows plenty of time for future medicine to achieve the required capabilities.

For those in cryonics, future medicine will not only be able to cure all disease and rejuvenate everyone to a youthful condition, but it will be able to repair any damage that is caused by the cryopreservation process. Molecular repair technology (nanotechnology and nanomedicine) is expected to be able to achieve these results. But to be safe, and to minimize damage, efforts have been made to eliminate all freezing damage through vitrification and to minimize ischemic damage through rapid cooling and cardio-pulmonary support immediately following pronouncement of death.

Cryonics is not freezing of humans or pets. Ice is very damaging to body tissues, so all cryonics organizations use cryoprotectants to prevent ice formation, i.e., anti-freeze substances that can reduce or prevent ice formation. Formerly cryonics organizations used glycerol as their cryoprotectant, which resulted in about 80% ice elimination (vitrification) and about 20% freezing. Cryonicists believed that damage that was being caused by disease, by aging and by the freezing would someday be repaired by nanotechnology. With vitrification the burden on future technology has been greatly reduced. With cells and tissues mainly preserved by cooling, future technology should be able to repair damage resulting if the cooling process is not too delayed.

Since the 1990s vitrification solutions have been developed that have virtually eliminated ice formation (reduced to less than 0.2%). In fact, it was announced in July 2005 that one such solution had been used to vitrify rabbit kidney at -135 degrees Centigrade, and was later transplanted into a rabbit with full viability.

Stoppage of heartbeat and breathing, the usual criteria for legal death, do not correspond to the death of cells and tissues of the body. The cells and tissues are still very much alive when death is pronounced. Even at room temperature cells and tissues take hours to die, and days to decompose. Although neurological damage is the usual consequence of cessation of heartbeat for more than 4-6 minutes, the irreversible neurodegenerative processes do not manifest for hours.

Rapid cooling and cardio-pulmonary support applied immediately after pronouncement of death can preserve cells and tissues for long-term preservation at cryogenic temperatures. People, especially children, have survived up to an hour without heartbeat after having fallen into ice water. Cryonics "standby teams" wait by the bedside of cryonics patients to apply cooling and cardio-pulmonary support as soon as possible after declaration of death. Cryonicists do not believe that legal death is real death (irreversible destruction of the anatomical basis of mind) any more than conventional medicine now accepts that cessation of heartbeat is "real death", when the heart can be restarted with a defibrillator.

Mind Uploading

Mind uploading is the transfer of the human mind/consciousness to a more durable material vessel (stereotypically but not necessarily a silicon computer). The concept is based on materialism, the philosophy of mind that argues that the human spirit is entirely composed of a very complex system of physical and chemical interactions. However, it is not understood how consciousness exists, and thus no existing scientific understanding for "reading" the "contents" of a human mind. With computer power increasing exponentially, and technology in the pipeline to keep up the trend, futurist Ray Kurzweil predicts that computer hardware will be powerful enough to run a functional model of the human mind by the 2020s. Several developing technologies hypothetically allow the complete mapping of human brains on a similar timescale. Uploading the human mind to a computer, if possible, would potentially greatly extend human lifespan due to the ability to construct highly durable computer hardware and due to the potential to copy or transfer the mind to multiple computers.

Body Part Replacement

Biotechnologies, particularly those of human cloning and stem cell research, are thought to offer some possibility of replacing aging body parts with 'new' parts grown artificially. Current technology has already demonstrated the feasibility of body part replacement in laboratory experiments, most notably the fabrication of a funtioning dog's bladder that proved to be viable after successful implantation. Bladders and other simple biological structures more readily lend themselves to artificial fabrication, whereas complex biological structures such as mammalian joints and limbs are not yet possible to fabricate artificially. Given the exponential progression of technology, it is probable that the artificial fabrication of replacement body parts, both simple and complex, along with successful implantation technology will one day be possible. In one popular scenario, an individual's brain is transplanted from his or her aging body into a new, youthful body cloned from his or her own tissues. Experiments were conducted in the mid-20th century to transplant brains from one body to another (conducted in both monkeys and dogs), but failed due to rejection and the inability to restore nerve connections. Proponents of body part replacement contend that the required biotechnologies are likely to appear earlier than other life-extension technologies. Ethical controversy surrounding stem cell research and human cloning continues to cloud the issue.

History of life extension and the Life Extension Movement

In 1970, the American Aging Association was formed under the impetus of Denham Harman originator of the free radical theory of aging. Harman wanted an organization of biogerontologists that was devoted to research and to the sharing of information among scientists interested in extending human lifespan.

Although the desire to extend life can be traced as far back as the Epic of Gilgamesh, it was the 1982 bestselling book Life Extension: A Practical Scientific Approach (ISBN 0-446-51229-X) by Durk Pearson and Sandy Shaw that popularized the phrase. In that book the authors detailed six major causes of aging, and presented dietary supplementaion strategies for slowing down five of those. They also emphasized improving the quality of life, presenting methods of using the same dietary supplements that extend life to enhance sex (sex drive and sexual performance), cognitive function (intelligence, concentration, memory, mental stamina, etc.), stress management, sleep (quality of sleep, sleep reduction, and fast recovery from jet lag), athletic performance, body building, sports medicine, etc. The authors' two-pronged approach (showing how to live long and live well) makes their book a virtual nutritional toolbox, and this may account for why the book was so successful at kickstarting the life extension movement. Many other authors have followed this general strategy, promoting the quality of life applications of nutrients and drugs to attract readers to the subject of life extension.

The 1980 book The Life Extension Revolution (ISBN 0-688-03580-9) by Saul Kent did not sell so well. But Mr. Kent appeared on the Merv Griffin Show with Pearson and Shaw, and was able to use the flood of letters to create the nutraceutical firm called the Life Extension Foundation, which is non-profit. The Life Extension Foundation has grown to produce a magazine which has a large circulation. The group has a track record which includes promoting the benefits of many health supplements such as S-adenosyl methionine and melatonin many years before the medical field accepted the benefits of those substances.

Money generated by the Life Extension Foundation allowed Saul Kent to finance the Alcor Life Extension Foundation, the largest cryonics organization. The cryonics movement had been launched in 1962 by Robert Ettinger's book, The Prospect of Immortality. In the 1960s, Saul Kent had been a co-founder of the Cryonics Society of New York. Alcor gained national prominence when the baseball star Ted Williams was cryonically preserved by Alcor in 2002 and a family dispute arose as to whether Ted had really wanted to be cryopreserved.

In 1983, Dr. Roy Walford, a life-extensionist gerontologist published a popular book called Maximum Lifespan. Later, Dr. Walford and his student Dr. Richard Weindruch summarized years of their research into the ability of calorie restriction to extend the lifespan of rodents in their 1988 scholarly work The Retardation of Aging and Disease by Dietary Restriction (ISBN 0-398-05496-7). It had been known since the work of Clive McCay in the 1930s that calorie restriction can extend the maximum lifespan of rodents. But it was the work of Walford and Weindruch that gave detailed scientific grounding to that knowledge. Walford's personal interest in life extension motivated his scientific work and he practiced calorie restriction himself.

For years the FDA was in contention with the Life Extension Foundation, including through seizure of merchandise and court action. The FDA did not regard aging as a disease or life extension as a valid treatment category. In 1991 Saul Kent and Bill Faloon, the principals of the Foundation were jailed and told by the FDA that they would become the target of criminal indictments that would "destroy their lives forever" and were advised to plead guilty of crimes against the state. Against legal advice, Kent and Faloon fought the FDA in court and filed countercharges concerning their mistreatment. In 1995 the FDA informed Kent and Faloon that, in exchange for a guilty plea, they would not have to go to prison and could continue doing business on a more limited basis. Instead of pleading guilty, Kent and Faloon filed a new battery of legal motions, escalated their counterattack against the FDA and began extensive preparations for their trial. In November 1995, the FDA dropped all charges except the charge of "obstruction of justice" against Saul Kent. In February 1996, this charge was also dropped.

In 1992 the American Academy of Anti-Aging Medicine (A4M) was formed to create an anti-aging medical specialty distinct from geriatrics, and to hold conferences for physicians interested in this field.

An important recent development in anti-aging medicine and life extension has been the work of biogerontologist Aubrey de Grey of Cambridge University. Dr. de Grey proposes that damage to macromolecules, cells, tissues and organs can be repaired by advanced biotechnology.

Scientific Controversy about anti-aging medicine and life extension

Anti-aging nutritional supplementation and medicine

Although Alex Comfort and Bernard Strehler have been retrospectively claimed as anti-aging gerontologists, other biogerontologists vehemently deny that aging is a disease. Possibly the most prominent biogerontologist making this denial is Leonard Hayflick, who determined that fibroblasts are limited to around 50 cell divisions. Hayflick reasons that aging is an unavoidable consequence of entropy.

Dr. Denham Harman spent years experimenting with antioxidants, and was able to establish only that they can extend mean lifespan; he was unable to demonstrate an effect on maximum lifespan. Non-antioxidant nutrients (such as selenium, chromium and zinc[3]) are more effective and have extended maximum lifespan. In response to what they saw as unscrupulous profiteering by those engaged in the selling of supplements and the practice of anti-aging medicine, a group of prominent biogerontologists began a "war" on anti-aging medicine in general and the A4M in particular. Jay Olshansky, Leonard Hayflick, and Bruce Carnes wrote a position paper against anti-aging medicine.

Calorie Restriction

Despite the results on yeast, fruit flies and nematodes, criticisms have been raised that the results of calorie restriction experiments on laboratory rats are not generalizable because years of inbreeding have made these animals different from those found in the wild. Even if it is conceded that the rat work may be generalizable to some extent, some argue that the results are applicable only to short-lived species that have evolved to respond to feast and famine with alterations in longevity. Proving that the results are generalisable in a way that encourages hope of extended life for human beings is difficult, since experiments with long-lived species necessarily take a very long time to perform.

Scientists have varying theories on why calorie restriction experiments would increase the life spans of the animals who have been tested with it besides the calories being reduced. These include the habitat, the genetic line of the test subjects, and the nutritional content of the animal's diets, and the frequencies of feeding. Some critics observe that the test animals are not exposed to the same stresses that humans are in everyday life in modern environments, which may give humans a greater need for the calories.

SENS (Strategies for Engineered Negligible Senescence)

SENS is a novel program initiated by Aubrey de Grey, which aims to research and develop engineering-like strategies for the indefinite extension of life in individuals, rather like one might attempt to indefinitely keep a classic car in working order by various types of intervention, including improving the robustness of existing components by replacement or modification.

The SENS project has been criticized as a pipe dream based on pure speculation, rather than on robust science. Aubrey de Grey has been criticized on the ground that he is a theoretician who does no empirical work himself. Yet Dr. de Grey collaborates extensively with experimental scientists, publishes several peer-reviewed scientific papers per year, organizes scientific conferences, and is editor-in-chief of the peer-reviewed journal Rejuvenation Research. Detailed and concrete criticism of SENS is still lacking.

Aubrey de Grey's claim that the only significant effect of nuclear DNA (nDNA) damage is cancer is open to dispute, and this impacts both of his last two strategies (neither of which is appropriately described as "repair"). Evidence of significantly reduced oxidative damage to mitochondrial DNA (mtDNA) and negligible oxidative damage to nDNA in calorie restricted rats is misleading because DNA repair capability declines with age. Thymine dimer removal (a form of DNA repair) is about five times greater in newborn fibroblasts than in fibroblasts from the elderly. So although DNA damage other than mutation (cancer), may be small in the young, it increases greatly with age. Moving mtDNA into the nucleus would not be as beneficial as he presumes if nDNA is subject to such a decline in DNA repair with age.

A comparison of the heart mitochondria in rats (4-year lifespan) and pigeons (35-year lifespan) showed that pigeon mitochondria leak fewer free radicals than rat mitochondria, despite the fact that both animals have similar metabolic rate and cardiac output. Pigeon heart mitochondria (oxidative phosphorylation protein Complexes I & III) showed a 4.6% free radicals leak compared to a 16% free radical leak in rat heart mitochondria. Rather than copy mtDNA into the nucleus, it may be a more effective strategy to reduce free radical production in mitochondria by making human Complex I more like the Complex I found in birds, by copying from the bird genome. A comparison of 7 non-primate mammals (mouse, hamster, rat, guinea-pig, rabbit, pig and cow) showed that the rate of mitochondrial superoxide and hydrogen peroxide production in heart and kidney were inversely correlated with maximum life span. A similar study of 8 non-primate mammals showed a direct correlation between maximum lifespan and oxidative damage to mtDNA in heart & brain. There was a 4-fold difference in levels of oxidative damage and a 13-fold difference in longevity, supportive of the idea that mtDNA oxidative damage is not the only cause of aging.

The segmental progerias ("accelerated aging" diseases) are part of the evidence that the weakest link in extending lifespan is DNA repair -- along with the fact that DNA repair capability correlates with maximum lifespan in mammals. There is much that could be done to improve DNA repair both in the nucleus and in the mitochondria. We could study organisms like the bacterium Deinococcus radiodurans and adapt their enzymes to our cells. Thus, improved DNA repair and reduced free radical production (by Complex I proteins taken from birds) may be much more cost effective strategies than SENS for reducing aging-damage, extending maximum lifespan and preventing cancer.

Cryonics

Although cryonics is not current science, many scientists support the idea based on their expectations of the capabilities of future science. No mammal has been cryopreserved and brought back to life. Nonetheless, vitrification has made remarkable strides in eliminating freezing damage and maintaining viability of cryopreserved tissues, including functional kidneys. Life extensionists compare cryopreservation skeptics with the cloning skeptics of the recent past. Journalists routinely interview scientists who dismiss the possibilities of the field but whose grasp of the subject is questioned by life extensionists. The phrase most often quoted is that "believing cryonics could reanimate somebody who has been frozen is like believing you can turn hamburger back into a cow." Some cryonics enthusiasts believe that this transformation will be "no problem" for nanotechnology.

Mind Uploading

There is no scientific understanding that explains the detailed functioning of the human consciousness. A "reading" of the "contents" of a human mind is thus a purely speculative hypothesis. However, a key objection, if sceince were able to read and transfer the mind's contents, and a model of a human mind was then actually moved to a computer, would the personal identity of that human be retained? And what would be the status of personal identity after duplication?

A possible solution to the first objection is to interface biological humans brains with computer parts, and the gradual replacement of biological components with mechanical ones - functionally no different to the biological renewal of synapses. The philosophical Ship of Theseus enigma still remains with this solution.

The difficulty in seeing mind uploading as a solution is along the same lines of mind cloning and transporter duality paradox. The situation is contemplated where the mind is uploaded, yet the original mind remains. In this case, the person will still be themselves, and the clone will be alien to them, and vice versa. The biological mind would view itself as the original, but would die. The computer mind would view itself as original yet artificial. If the clone is a separate individual, then the consciousness of the original would still die. Even in the case where there is never a clone (killing the original upon mind uploading, or the gradual replacement of biological components) while the distinction would be less apparent, it would still be applicable in some regards.

Accepting mind uploading as a solution would divert attention and funding from anti-aging and cryonics research, which are less objectionable approaches insofar as they do not necessitate cloning (when the procedure is based upon a mind upload to a biological clone). Rejuvenation and other forms of life extension are likely to become practical many decades (at least) before any form of mind uploading becomes feasible. From a practical point of view, those who aspire to mind uploading must focus on cryonics or other forms of life extension if they have any hope of surviving long enough to personally benefit from mind uploading.

Ethics and Politics of Life Extension

It is commonly claimed that life extension would destroy the planet with overpopulation. Leon Kass (chairman of the US President's Council on Bioethics from 2001 to 2005) has exemplified the anti-life extension view with the following statement:

"simply to covet a prolonged life span for ourselves is both a sign and a cause of our failure to open ourselves to procreation and to any higher purpose. ... [The] desire to prolong youthfulness is not only a childish desire to eat one's life and keep it; it is also an expression of a childish and narcissistic wish incompatible with devotion to posterity."

Some life extensionists perceive a lack of respect for individual choice in these words. This view would characterize Kass and others as seeking to use government power to ensure that no one's life is extended regardless of their wishes:

"the finitude of human life is a blessing for every individual, whether he knows it or not."

In retort to Leon Kass's stance, transhumanist philosopher Nick Bostrom published an article titled "The Fable of the Dragon Tyrant", which metaphorically illustrates the importance of conducting research about anti-aging therapies.

Anti-aging nutritional supplementation and medicine

Politics relevant to the substances of anti-aging medicine and life extension pertain mostly to communications and availability. In the United States, the claims which can be made on food and drug product labels are strictly regulated. Meanwhile, freedom of speech guaranteed by the First Amendment currently only protects the right of 3rd-party publishers to print books, newsletters, websites, etc. on every aspect of these substances, including opinions, speculations, etc. Many manufacturers and suppliers also provide publications, but because they are also marketing the substances, they are subject to the monitoring and enforcement efforts of the FTC (Federal Trade Commission) which has jurisdiction over false claims made by marketers in public media. What constitutes the difference between truthful and false claims is hotly debated and is a central controversy in this arena.

SENS (Strategies for Engineered Negligible Senescence)

In February 2005, Technology Review, which is owned by the Massachusetts Institute of Technology, published an article by Sherwin Nuland, a Professor of Clinical Surgery at Yale University and the author of "How We Die" (ISBN 0-679-74244-1), that drew a skeptical portrait of Aubrey de Grey. While admiring de Grey's intelligence, Nuland concluded that he "would surely destroy us in attempting to preserve us" because living for such long periods would undermine what it means to be human. The article made no attempt to address the science of SENS, and this omission was severely criticized by many readers. In response, Jason Pontin (the magazine's editor) has offered $10,000 to any gerontologist who can convince an independent review panel that de Grey's ideas about radical life-extension have no merit. De Grey's Methuselah Foundation matched the $10,000, making the prize for debunking him $20,000. So far there have been no takers. This debate has been called the De Grey Technology Review controversy.

Cryonics

As a life extension practice, cryonics has been under attack for many of the same reasons as the other life extension practices. Additionally, however, some people appear to be aesthetically revolted by the practice of cryopreserving "dead bodies" and especially of cryopreserving the head ("neuropreservation"). (The term "neuropreservation" implies just the brain, but in fact the entire head is cryopreserved, so the word is a slight misnomer.)

Almost from the beginning the Society for Cryobiology has attacked cryonics as being "fraud" and "quackery" and has banned cryonicists from being members of the Society. There are cryonicists who are members, but they are necessarily discreet about their affiliations. Most of the members of the Society have also made it clear that they have non-scientific grounds for their hostility, including the usual anti-life extension arguments as well as aesthetic arguments.

As a result of a media circus surrounding following a 2003 Sports Illustrated article claiming that Alcor had mishandled the body of baseball super-star Ted Williams, a bill was passed in 2004 by the Arizona House of Representatives to place cryonics and cryonics procedures under the regulation of the state funeral board. In its original form, the law would have prevented Alcor's use of the Uniform Anatomical Gift Act. The bill was withdrawn while under consideration in the Arizona Senate. Although the Cryonics Institute (CI) was not responsible for Ted Williams, the media attention resulted in CI being placed under a "Cease and Desist" order by the State of Michigan for six months. Finally the Michigan government decided to regulate CI as a cemetery.

There are many people who have negative feelings about cryonics in general, and Alcor in particular. The Ted Williams affair has become a focus of such people. In many cases, cryonics was less an issue than the perception that the final wishes of Williams had not been respected and that Williams had not been treated with dignity. A novel was recently written that portrayed a baseball star cryopreserved by the fictional cryonics organization "Mizar" (the sister star to Alcor). The novel had the "happy ending" of a determined suicidal zealot flying an airplane into the Mizar building, thereby destroying himself and everyone within.