Domain: mayo.edu
Stories and comments across the archive that link to mayo.edu.
Stories · 3
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Mayo Clinic Reports Dramatic Outcomes In Prostate Cancer Treatment
Zorglub writes "Two prostate cancer patients who had been told their condition was inoperable are now cancer-free as the result of an experimental therapy, the Mayo Clinic in Rochester announced Friday. 'Cancer has a propensity for turning off T cells. Dr. Allison hypothesized that if you block the off-switch, T cells will stay turned on and create a prolonged immune response. Dr. Kwon, then at NIH, demonstrated that CTLA-4 blockage could be used to treat aggressive forms of prostate cancer in mice. There was one limitation to that concept — the worry that by simply leaving all the T cells on there may not be enough response aimed at the tumor. Dr. Kwon called Dr. Allison and designed the trial together. The idea: use androgen ablation or hormone therapy to ignite an immune approach — a pilot light — and then, after a short interval of hormone therapy, introduce an anti-CTLA-4 antibody that acts like gasoline to this pilot light and overwhelms the cancer cells.' After the treatment, the patients' tumors shrunk to such a degree that they could be successfully removed." -
Nanobacteria Discovered?
mfh writes "The BBC is reporting that a new form of life has been discovered, nanobacteria, which was previously only theorized by Finnish researchers Kajander and Ciftcioglu. A team lead by Dr John Lieske of the Mayo Clinic claims they have found irrefutable evidence of the existence of nanobacteria, which is likely responsible for a plethora of illnesses." -
Convergence of Biology and Computers?
Pankaj Arora asks: "This summer I am working on both Bioinformatics and Molecular Biology research projects at the Mayo Clinic Rochester. Being an MIS major with a heavy CS background, I've been learning about biochemistry performing polymerase chain reactions (PCRs) and RNA retranslation among other things. I've learned biology works a lot like computers; binary has 1s and 0s, DNA has nucleotides: A, T, C, and G. Binary has 8 bits to a byte, DNA has 3 nucleotides to a codon. Computers and biology seem to have a natural fit; information is encoded and represented 'digitally' in a sense. I was wondering what people thought about the future of biology-based and genetics-based computing due to the immense efficiencies that lie in nature. This has been discussed to an extent here, but there were some specific aspects that I feel are quite important and were not discussed thoroughly, thus I have a few questions to pose to the Slashdot community.""The aspects I would like discussed are as follows:
- In the long run, will biology rewrite computing or will modern day technology concepts and theory be integrated into biology? If both are true, which will have the greater effect? I understand long run is ambiguous in this question, but Iâ(TM)m interested in all thoughts using any applicable definition.
- Tied to the first question: How will the nature of computing, and how we perceive it, change due to biology integration? More to the point, how much of the theory we learn today may change?
- What will be the biggest issue determining the success of the adoption of biology-integrated computing? Will it be technology factors or will it be societal factors (e.g., rebellion by the Right Wing), or something else? What things must hold true to make the idea succeed?
- And perhaps the hottest issue of all: Is there anything inherently wrong with pursuing this avenue? What may be some of the consequences?