"We are on the verge of a revolution in medicine: understanding, treating, and ultimately preventing the causes of degenerative aging. But medical revolutions only happen if we all stand up in support of funding and research. We did it for cancer. We're doing it for Alzheimer's. We can do it for aging - and create an era of longer, healthier lives!"

Email Contact
reason -at- fightaging -dot- org

  
Search

The Causes of Aging
Accumulating AGEs
Buildup of Amyloid Between Cells
The Failing Immune System
Declining Lysosomal Function
Mitochondrial DNA Damage
Senescent Cells
Other Causes of Aging

Required Reading
Calorie Restriction
The Community, Visualized
Cryonics
Engineered Negligible Senescence
Envisaging a World Without the FDA
Healthy Life Extension Explained
Introductory Articles
Longevity Meme Newsletter
The Odds of Human Longevity Mutations
The Need For Activism and Advocacy
Stem Cells, Regenerative Medicine
Twelve Ways to Extend Mouse Life Span
The Vital Debate in Aging Research
What is Anti-Aging?

Initiatives
Biogerontology Research Foundation
Campaign Against Aging
Campaign for Aging Research
LifeStar Institute
Immortality Institute
Maximum Life Foundation
Methuselah Foundation
Mprize for Longevity Research
Science Against Aging (Translate)
SENS Foundation

Benefiting From Medical Research
How to Read Scientific Research
Researching Therapies and Clinical Trials

Objections Answered
Boredom
Inequality and Economics
Overpopulation
Stagnation
Being Older for Longer?
What About Retirement?

Recent Entries

  • The Conservative View of Progress in Applied Cancer Research
  • More on Stem Cell Technology and the Rise of Medical Tourism
  • Resting Metabolic Rate and Aging, Another of Metabolism's Complexities
  • Capabilities in Stem Cell Science Are Advancing Rapidly
  • Incentives and Cryonics
  • Videos From the Foresight 2010 Conference
  • A Steady Flow of New Donors at the Methuselah Foundation
  • Manipulating Fat in the Context of Slowing Aging
  • On Medical Tourism For Stem Cell Therapies
  • Cells, Hearts, and Brains
  • Rapamycin Research Rolls Onward
  • Reversing Blindness in Retinitis Pigmentosa With Stem Cells
  • The Body Does Work to Break Down Damaging Aggregates
  • A Few Cancer Stem Cell Articles
  • The Latest on Mitochondrial Uncoupling
  • Longevity Research at the Science Network
  • Journalists Are In the Business of Gathering Eyeballs, Not Truth
  • @ging, a New Aging Science Blog
  • Redefining Bionics Again
  • Encouraging Transparency in Life Science Fundraising

    Blogs of Interest
    @ging
    Accelerating Future
    Ageing Research
    Alcor News
    Al Fin Longevity
    April's CR Diary
    Andart
    Biology of Aging
    Biosingularity
    CRON Diary
    Cryonics Society
    Depressed Metabolism
    Distributed Republic
    Ethical Technology Blog
    Existence is Wonderful
    Foresight Institute
    Future Current
    FuturePundit
    grailsearch.org
    green light go
    HumanPlus
    In Search of Enlightenment
    Marginal Revolution
    Maximum Life Foundation Blog
    Metamagician and the Hellfire Club
    Metamodern
    Methuselah Foundation Blog
    Mises Economics Blog
    Ouroboros
    Overcoming Bias
    Pimm - Partial immortalization
    Responsible Nanotechnology
    ScienceBlogs
    Sentient Developments
    Singularity Hub
    Singularity Institute Blog
    Sonia Arrison
    The Speculist
    The Technological Citizen

    Archives (Monthly)

    March 2010
    February 2010
    January 2010
    December 2009
    November 2009
    October 2009
    September 2009
    August 2009
    July 2009
    June 2009
    May 2009
    April 2009
    March 2009
    February 2009
    January 2009
    December 2008
    November 2008
    October 2008
    September 2008
    August 2008
    July 2008
    June 2008
    May 2008
    April 2008
    March 2008
    February 2008
    January 2008
    December 2007
    November 2007
    October 2007
    September 2007
    August 2007
    July 2007
    June 2007
    May 2007
    April 2007
    March 2007
    February 2007
    January 2007
    December 2006
    November 2006
    October 2006
    September 2006
    August 2006
    July 2006
    June 2006
    May 2006
    April 2006
    March 2006
    February 2006
    January 2006
    December 2005
    November 2005
    October 2005
    September 2005
    August 2005
    July 2005
    June 2005
    May 2005
    April 2005
    March 2005
    February 2005
    January 2005
    December 2004
    November 2004
    October 2004
    September 2004
    August 2004
    July 2004
    June 2004
    May 2004
    April 2004
    March 2004
    February 2004
    January 2004

    Creative Commons

    Creative Commons License

    Fight Aging! is published under the Creative Commons Attribution 3.0 license. In short, this means that you are encouraged to republish and rewrite Fight Aging! content in any way you see fit, the only requirements being that you (a) link to the original, (b) attribute the author, and (c) attribute Fight Aging!.

    • Wednesday, February 14, 2007

    You Can't Row the Whole Distance With Oars Made of Stem Cells

    Many people new to healthy life extension look at the projected future of regenerative medicine, stem cell research and tissue engineering and say "hey - why do we need all the rest of this science and hard work yet to be done? Why can't we just get all the way to rejuvenation with ever-improving stem cell medicine and parts replacement as needed?" An example of this sort of thought process showed up as a reprint at the LEF News recently:

    The search for the fountain of youth is an old one, but it looks like scientists may just have found the real deal, at the tip of a syringe.

    No, we don't mean plastic surgery - that's just looking like you'll live forever. What we're talking about is space-age regeneration, and they do it with stem cells.

    Unless you live under a rock, you already know that scientists think stem-cell research will provide treatments for cancer, Parkinson's disease and spinal-cord injuries. But here's where you really start to care: It also has the potential to reverse the aging process.

    Hypothetically, yes, pretty much everything except your brain is open to replacement just as soon as scientists can figure out how to build and install those replacements in a useful manner. That's a high bar, however. Your body isn't easily divided into piecemeal components; it's an overlapping bundle of interlinked, complex components - age-related damage to one system may make many related replacements useless or even counterproductive. Developing the technology base for safe replacement of the entire aging body is a long term project - not impossible, but certainly not something that you'll be seeing any time soon.

    What will come in the next two decades are commonplace, affordable (for suitable definitions of "affordable") replacements for commonly failing organs and tissue types - new heart muscle, new liver cells, new dopamine neurons, and so forth. Many people will benefit and live modestly longer as a result, but while this first step into the world of replacement parts is underway, your biological systems will still be aging. Your immune system will still be becoming ever more frail, your telomeres shortening, free radicals spreading their damage, chemical junk building up within and between your cells, risk of cancer increasing - and most importantly, wear and tear growing in your brain.

    What, then, will be the causes of age-related death 30 years from now? The body is an exceedingly complex machine; blocking off one failure mode, or preventing a single mode of death that results from a class of accumulated damage will leave many other possibilities. Behind the neurodegenerative diseases we know lie a hundred, a thousand ever more subtle and devilish ways in which age-related cellular damage can kill us. You can plug as many holes as you like, but eventually you're going to run out of fingers.

    We can plausibly look forward to sidestepping this problem of ongoing damage by replacing an old heart with a young, tissue engineered heart lacking age-related damage. We are within a decade or two of being able to do the same for any other organ or system within the body ... but not the brain.

    This prospect of unending discovery of new failure modes - and the long development of a cure, all too late to save those unlucky enough to be at the head of the queue - is one of the reasons that an engineering approach to fixing age-related disease is so attractive. Rather than play catch-up and research with ever more complex consequences of age-related cellular damage, let's identify, repair and prevent that damage. Strike at the root, in other words, by taking the path of greater effectiveness and least complexity. If we can do that, there would be no need to determine and decipher the fatal neurodegenerative conditions that follow Alzheimer's - no-one will ever accumulate the damage required to suffer from these presently unknown killers.

    Your great-grandchildren may well live in a world in which bodies are like cars: built well, and discarded with regret when they have passed their prime, exchanged for new models. If we are to live to see that world, however, we have to take smaller first steps in the fight to defeat aging. The stem cell technologies of the next few decades are but one part of the technology base needed to repair the aging human body and brain.

    Technorati tags: ,

    Posted by Reason

    		 
    Share |

    Posted by: Attila Csordas at February 16, 2007 12:38 AM

    1. Currently the biggest grants in life sciences are in regenerative medicine and stem cell biology.
    2. The rate of progress is very fast (if not the fastest) in stem cell biology comparing to the other branches of life sciences due to the growing number of researchers and grants in the field.
    3. Systemic regenerative medicine is a coherent and inclusive engineering approach to eliminate all aging related problems indefinitely.
    Definition: Systemic regenerative medicine theoretically means the continuous, gradual and consecutive regeneration of every tissue and organ of the human body n times by combined regenerative medicine approaches, i.e. tissue engineering (in vitro grown organs and tissues implants or parts of them), systemic (via circulation) and locally targeted stem and progenitor cell transplantation, and endogenous stem cell niche activation with proper growth factor delivery aiming to maintain the physiological turnover and condition of the human body.
    4. Taking the above premises into consideration it is very rational to assume that systemic regenerative medicine has a real chance to reach its goal in itself within the next decades.
    /If, the current rate of progress will remain stable and will be focused throughout these decades/


    [Posted by: Attila Csordas at February 16, 2007 12:38 AM]

    Posted by: Tyciol at February 19, 2007 1:18 AM

    I'm looking forward to reading these articles on the brain, I find it doubtful it's irreplacable.

    [Posted by: Tyciol at February 19, 2007 1:18 AM]

    Post a comment; thoughtful, considered opinions are valued. Please note that comments incorporating ad hominem attacks, advertising, and other forms of inappropriate behavior are likely to be deleted.










    Remember personal info?

    Please read our disclaimer and advertising policy.