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Dignan,

I recently posted a presentation given at the end of November 2006 by Professor Thompson of the UK. The presentation covered neuro-protective agents and the following comment was made about minocycline:

Minocycline is very interesting. This is an antibiotic which inhibits nitrous oxide synthetase and there's been a small pilot study done of that in MS which has been very interesting and there's a very large study planned in Canada which is just going through for funding to the Canadian MS Society at the moment, which hopefully will be positive.

I'm not sure if the larger study is the minocycline + copaxone study (which I thought had already started) or a different one. Have you or any other Canadians heard of this?

Talking of Canadians, his presentation also covered (very briefly) uric acid which should please JL.

Ian

Interesting. The copaxone plus minocycline trial is finished recruiting, according to this:
http://clinicaltrials.gov/ct/show/NCT00203112?order=1

That trial is taking place in Canada. Is it likely that there is another large minocycline trial that's going to take place in Canada? I wouldn't have thought so, but I really hope Thompson is right.

The other minocycline trial I just added to the pipeline the other day is one with rebif taking place in Denmark (I think).

This all makes me more hopeful than ever about minocycline. If there are this many groups testing it, that has to be a good sign. Also, if the CRAB makers are sponsoring tests with their existing treatment, that must mean they think it's quite likely to prove to be beneficial and they want to make sure that their drug is one of the options people will have when considering combination therapy, which lots of neurologists seem to be assuming will become the normal treatment regimen for RRMS over the next 5 years. Just imagine, betaseron plus copaxone plus minocycline plus FTY720 plus lipitor. MS: cured. Liver: exploded.

Lol, funny, very funny.

I imagine the health insurers are going to say,"Enough already" as these treatments are doubled or tripled cost wise.

gwa

Dignan,

Professor Giovannoni mentioned a minocycline trial in Denmark. Minocyline is also being studied by one of the four NMSS Promise 2010 projects. Although in this example for it's anti-inflammatory rather than it's neuro-protective effects (although they may overlap!)

Dr. Ian D. Duncan’s Team (University of Wisconsin, Madison)

“We have made some significant progress toward our long-term goal of initiating a clinical trial in MS.”

Experimental models: In the rat, we established a focal model of MS-like EAE in the spinal cord that results in neurologic defects in the hind limbs. We will use this model to explore the anti-inflammatory effects of the antibiotic minocycline, and the restorative capabilities of immature myelin-making cells (oligodendrocyte progenitors) transplanted into, or adjacent to the lesion.

So I think minocycline has legs as a therapy - it's cheap and it's safe (I had some for two years for acne as a teenager). What someone needs to do is a three way trial CRAB + minocycline, minocycline alone, and placebo.

MS: cured. Liver: exploded.

I don't think we should worry about the liver - they can do liver transplants, but they can't replace our brains. And once you have had a liver transplant you are on anti-rejection drugs, which are good for MS!

Ian

Hi
about minocycline, I would have 3 questions:
-If it's so safe and cheap as Ian says, why don't we use as ldn?
-Also do you know what have been exactly the effects of it for the first tests: on disability and relapse?
-Last question what quantities are currently on trial?
Thanks.

Superman,

Hopefully other people can answer other questions for you, but below is a brief summary of the only results I know of from a clinical trial of minocycline for MS.



Small Study of Minocycline Shows Promise as MS Therapy

June 11, 2004

Summary
A small pilot study headed by Dr. Luanne Metz, associate professor of neurosciences at the University of Calgary and director of the MS Clinic at Foothills Hospital, has found that minocycline, an oral medication used to treat acne, decreased MS lesions in the brains of study participants. Study results were published in the May 2004 issue of the Annals of Neurology. The MRI portion of the study was headed by Dr. Ross Mitchell, associate professor at the University of Calgary. The findings offer the possibility of a new and safe treatment option for people with MS. The study grew out of basic laboratory research led by Dr. V. Wee Yong, professor of oncology and clinical neurosciences at the University of Calgary. The research found that minocycline decreased tissue damage and improved movement in mice with MS-like disease and spinal cord injury. The MS Society of Canada funded Dr. Yong’s initial research while the current pilot study in MS patients was funded by an Interdisciplinary Health Research Team grant from the Canadian Institutes of Health Research. The potential use of minocycline as a treatment for MS will be studied further in a just announced clinical trial which will study the combined use of minocycline with Copaxone (glatiramer acetate).

Details
A small pilot study headed by Dr. Luanne Metz, associate professor of neurosciences at the University of Calgary and director of the MS Clinic at Foothills Hospital, has found that minocycline, an oral medication used to treat acne, decreased MS lesions in the brains of study participants. Study results were published in the May 2004 issue of the Annals of Neurology. Ten people with relapsing-remitting MS took minocycline orally (by mouth) twice a day for six months. There was an initial three-month run-in period during which time participants did not receive active treatment but underwent MRI scans every four weeks. The MRI scans continued at four week intervals once treatment began. Dr. Ross Mitchell, professor of oncology and clinical neurosciences at the University of Calgary, directed the analyses of the MRI scans.

The primary outcome for the study was the change in the number of gadolinium-enhancing lesions in the brain in the treatment period compared to the three-month run-in period. (Gadolinium is a contrast agent which is sometimes injected into the veins of people with MS who are undergoing MRI scans. The gadolinium concentrates in areas where there is inflammation. If there is inflammation in the brain, the gadolinium shows up as a bright spot on the MRI scan.) At the end of the study, the researchers found the number of enhancing lesions was reduced after treatment began.

During the untreated period the mean total of enhancing lesions was 1.38 per scan. During the treatment period the mean total of enhancing lesions was 0.22 per scan. This is a relative reduction of more than 84 percent.

The study provides preliminary evidence that minocycline may be useful as an MS treatment and that it safe.

The study grew out of basic laboratory research led by Dr. V. Wee Yong, professor of oncology and clinical neurosciences at the University of Calgary. The research found that minocycline decreased tissue damage and improved movement in mice with MS-like disease and spinal cord injury. Dr. Yong has been studying the role of enzymes called matrix metalloproteinases (MMP) in the disease process. He and his colleagues have found increasing evidence that MMPs are involved in MS activity. Certain MMPs may be responsible for allowing immune system cells to penetrate the central nervous system and to start the attack on the protective myelin covering of nerve fibres. Working with mice that have MS-like disease, Dr. Yong confirmed that minocycline inhibits MMPs and reduces the access of damaging immune system cells to the brain and spinal cord. There is also some evidence that minocycline may protect nerve cells.

Clinical Trial of Minocycline and Copaxone
The potential use of minocycline as a treatment for MS will be studied further in a just announced clinical trial. It will examine the combined use of minocycline with Copaxone (glatiramer acetate). A total of 50 people with relapsing-remitting MS will start Copaxone therapy (via daily injections) and at the same time will receive either oral minocycline or oral placebo tablets for nine months. This randomized, placebo-controlled study will compare Copaxone plus oral minocycline versus Copaxone plus an inactive oral placebo tablet. Earlier studies in animals through a research grant to Dr. Yong from Teva Neuroscience had determined that the combination of Copaxone and minocycline had enhanced benefits in reducing disease in mice with MS-like symptoms.

The primary outcome will be to evaluate MS lesions in the brain by various MRI measures. The study, which is funded by Teva Neuroscience, will take place at the MS Clinics in Calgary, Vancouver and the University of Montreal MS Clinics and at Dr. Mary Lou Myles practice in Edmonton. All of the clinics mentioned and Dr Myles are enrolling people with relapsing-remitting who are currently not on any MS disease modifying therapy.

Commenting on the study, Dr. Metz pointed out: “The pilot study in people with MS shows great promise for minocycline but we do not have proof as yet that it works. The study sponsored by Teva Neuroscience allows us to further pursue the possible benefits of minocycline and it will also address whether the combination of Copaxone and minocycline will result in greater benefit for patients. The team approach at the University of Calgary has allowed us to rapidly translate bench research to clinical trials.”

The Multiple Sclerosis Society of Canada funded Dr. Yong’s initial research to explore the potential benefits of minocycline in mice with MS-like disease. The MS Society of Canada is funding Dr. Mitchell’s studies of MRI in MS.

http://www.mssociety.ca/en/research/med ... june04.htm

I have to admit that I was completely disappointed to learn that by 2008 the MRF will only start to try and develop a drug not start a trial. I really hope that Minocycline does show results and gets a chance to be a stand-alone treatment. I have no desire to start on a different CRAB in order to use it. I want to move forward to better treatments.