I just got out of the hosptial yesterday from what will hopefully be my final surgery. (I had a reaction to the bone paste and it needed to be removed) so I will take a look and see if I can't find the info about radiation effecting cancer cells more readily than non-cancerous cells.
I believe radiation affects cancer cells more quickly, because the cells turn over faster, but not more readily. The process is just slower with benign tumors, but still very effective.
Something else that made it easy for me to make my decision was that I had a large tumor that was pushing against the area that controls breathing.  There was concern that if the tumor was to swell I could be in for real trouble.
That's definitely a good reason. It doesn't really seem like radiation was ever really an option for you.  ÂÂ
I am not against radiation.  the spot that is in my head was listed as possible glioma,  it is in the middle of their brain.  but as my an had displaced my brain stem it was not so far away.   I decided to go with caution.
That is also understandable.
As for delayed side effects of radiation.  many times people have reported facial paralysis, loss of hearing, vertigo and the like 5 or more years after radiation treatment.
I've never heard of any reactions that far out, I've only heard of such issues up to two years after treatment. The study I referenced above touches on this issue. For a patient weighing their options, as far as this issue is concerned, I would think quite a few would take a smaller chance of nerve issues down the road, over a greater chance immediately. But that is only one factor of many that must be considered.  ÂÂ
I think everyone needs to really look at their situation and circumstances.  I box, teach martial arts and train a lot, I felt having it removed was the correct option for me.
I am also very active, I'm a father with a four year old son, and a devoted bodybuilder. I make most of the money for my family and taking a 40% pay cut on medical leave would be very difficult. Another plus of radiosurgery for me was I didn't miss a day in the gym. ÂÂ
I read about the tumor bombs using viruses a few months ago and I think that is really exciting, but from what I read viable use in humans is still 20 years off.
I don't think it's going to be that long.
Now, Delta-24-RGD is expected to start the first phase of human testing in late summer 2004, with a two-staged clinical trial of 15 patients each. One stage will offer the treatment by injection to patients with recurrent gliomas who cannot be treated with surgery. Progress will be monitored with serial diagnostic scans. In the second stage, patients with a glioma will have the therapy, followed by surgery two weeks later. The excised tumor will be examined to see if it has been damaged.
This trial is just part of an ongoing larger "platform" of research that is continually refining Delta-24-RGD therapy, says Charles Conrad, M.D., an associate professor in the Department of Neuro-Oncology who works with Fueyo, Lang and others on the "Delta team."
They have already created a second and now a third generation of the therapy, each of which is proving more adept in infecting cancer cells and disarming them. One idea is to insert genes into the viral smart bomb that will switch on chemotherapy drugs. This way, a patient could receive an inert form of a chemotherapy drug that would be non-toxic to normal cells, but would be activated by the Delta virus when it spreads in cancer cells. "We would deliver the gene that activates the chemotherapy drug only to tumor cells," says Conrad.
http://www.bio.com/realm/features.jhtml?realmId=4&cid=700007
The only thing I found in my search for information was a complete condemnation for the Skull Based institute's use of endoscoping surgery for removing AN's  all of the doctors felt it was much to risky.
Yeah, I found that as well. I was seriously considering that option, I e-mailed them and they never responded. I guess if they accidentally nick a vessel, it's over because they can't open your skull fast enough to repair it. That's what is said anyway, and they don't seem to be out there addressing that concern, so I decided against it. It was an attractive option though, minimally invasive removal with a much shorter down time. Maybe soon that method will improve and it will be a viable option.
When the doctor I chose to do my surgery (apparently he is very well known) looked at me and said "If you were my best friend I would not recommend radiation for you" it made me look real hard at it.  I had already made the decision for surgical removal before I saw the surgeon anyway it just confirmed it when the other doctors chose the same approach with similar time lines and such.
That's no surprise because he is the surgeon. Did you read my post with the survey of neurosurgeons? If not check it out, I know you've already made your decision, but it's an interesting read.
http://anausa.org/forum/index.php?topic=369.0anyway,  I had what will hopefully be my last surgery on wednesday.  I was home yesterday,  I even went out to eat last night.  I've had my ups and downs. It would be great if people didn't need to go through any of this in the future and who knows.
I sincerely hope this is your last one as well. It's a bummer you had that reaction to the cement. Hopefully it's fixed now.
I just don't think we will ever get to the point where we will totally be able to totally leave surgery behind.
I pretty much meant surgery for tumor removal would disappear. With the tumor viruses and nanoshells (another very promising treatment that completely dissolves tumors in days, just google it), surgery for tumors will hopefully soon be an endangered species. As far as all surgery goes, never say never, as nanotechnology improves, many scientists believe they will one day be able to create microscopic robots that will be injected into the blood and can travel to any site in the body and go to work. Like a mini construction team. Sounds like sci-fi I know, but with the rate in which technology increases, it becomes like a snowball.
Here's an article on the subject:
Robotics is already developing for applications in life sciences and medicine. Robots can be programmed to perform routine surgical procedures. Nanobiotechnology introduces another dimension in robotics leading to the development of nanorobots also referred to as nanobots. Instead of performing procedures from outside the body, nanobots will be miniaturized for introduction into the body through the vascular system or at the end of catheters into various vessels and other cavities in the human body.
A surgical nanobot, programmed by a human surgeon, could act as an autonomous on-site surgeon inside the human body. Various functions such as searching for pathology, diagnosis and removal or correction of the lesion by nanomanipulation can be performed and coordinated by an on-board computer. Such concepts, once science fiction, are now considered to be within the realm of possibility. Nanorobots will have the capability to perform precise and refined intracellular surgery which is beyond the capability of manipulations by the human hand.
Surgical nanobots are moving closer to the mainstream. With capabilities "coordinated by an on-board computer," they almost certainly will be built through some form of molecular manufacturing.
http://crnano.typepad.com/crnblog/2005/week27/
