In the last blog post, I told you about an excellent article called How and why does photobiomodulation change brain activity.
An ardent reader would know that I tend to wax lyrical about the way that red and near infrared light works directly and indirectly on the cell batteries, the mitochondria. The mitochondria contain special proteins that are able to respond to the light pulse. Some of these proteins are quite famous, like cytochrome c oxidase, which has been well studied and probably has its own fan club.
But guess what. Even if there is no cytochrome c oxidase present, mitochondria still respond to light.
Continue reading “Water and light…”
I was asked today if ongoing research into the effects of red and near infrared light on Parkinson’s disease is validating the early observations.
The short answer is yes.
The long answer is most definitely yes!
Here are links to recent blog posts with recent research information from the peer-reviewed medical literature.
2019 – early results from a clinical trial – here
2019 case study journal article – here
2019 clinical trial – specifically looking at changes in motor or movement symptoms – here
Dr Ann Liebert and her team have just published another peer-reviewed journal article specifically about the microbiome.
Parkinson’s is mentioned, but the article aimed to describe the potential for red and near infrared light to change bacterial colonies that live in our gut and thus change the way other parts of the body function.
Here is a link to the full article. It is extremely interesting.
If you haven’t started putting your Eliza, Cossack or Coronet on your tummy a few times each week, then it is worth doing. It might sound weird, but then red lights on the head were once thought to be weird.
In case the above link doesn’t work, you can download the full article.
Hot off the press is a peer-reviewed journal article describing the observations of people with Parkinson’s disease using transcranial red and near infrared light hats on a daily basis.
The title of the article is a hoot: The “Buckets”: Early Observations on the Use of Red and Infrared Light Helmets in Parkinson’s Disease Patients.
The authors are: Catherine L. Hamilton, Hala El Khoury, David Hamilton, Frank Nicklason, and John Mitrofanis.
The article is published in: Photobiomodulation, Photomedicine, and Laser Surgery.http://doi.org/10.1089/photob.2019.4663
Here is a link to the abstract, or you can download the full article.
Twelve people in South Australia volunteered to participate in a study on the effect of near-infrared light on people with Parkinson’s disease.
Dr Liebert presented the findings of a preliminary analysis of the data to the study participants, their families and members of Parkinson’s South Australia on Tuesday 9 September 2019.
Continue reading “South Australian PD study – early results”
This afternoon researcher Dr Ann Liebert will be presenting early results of the clinical trial she has been running in conjunction with Parkinson’s South Australia. This study looked at the effects of red and near infrared light on people with Parkinson’s disease.
Dr Liebert will continue to work with Parkinson’s SA and as well, will start a new study In Parkinson’s patients in Sydney this month.
The Sydney study will use the Well Red coronet, so Ron and I are very chuffed.
The initial analysis of the SA study confirms the kinds of improvements we’ve been seeing in people using red and near infrared lights on a daily basis for Parkinson’s.
Dr Liebert has kindly agreed that I can put a summary of the early findings of her clinical trial on the blog.
It is fantastic to see research into this promising area happening in Australia. Prof John Mitrofanis and his team from the University of Sydney were the first to document the huge potential of red and near infrared lights in Parkinson’s disease.
We in Tasmania played around with LED strips, buckets and plastic-coated wire and showed that trans-cranial lights make a difference to people with Parkinson’s. Now Dr Ann Liebert’s clinical trials are helping to confirm and define the changes that red lights make.