If you’ve been reading my articles as of late you may be seeing a trend. If you haven’t been, here’s my point; your gut flora effects every major part of your body. Whether it be the heart, the kidneys, the liver or, even one of our most vital organs, the brain.
The University of Alabama recently released a study that discovered a correlation between the gut microbiome and Parkinson’s disease. This fits into the category of Parkinson Disease latest news! In this article we’ll discuss the the relationship of the Microbiome/Gut flora and the disease known as Parkinson’s.
The Study In Detail
The researchers at U of A didn’t study rats on this one. 197 Parkinson’s disease patients were studied from 3 polar opposite regions of the US.
There was then a group of 130 individuals that were studied as a control group who did not have Parkinson’s. Within the group that had Parkinson’s disease they noticed radical differences in the bacterial composition of the gut.
Those that had PD, even though in completely different parts of the US, had one thing in common. Every single patient had radically different gut flora composition than the healthy subjects.
Region of the World and Gut Flora?
The research team also found that folks in different regions expressed different gut flora than those of other regions. Meaning that their regular diet, lifestyle and environmental factors played a major role in the patients gut health.
They made this correlation because a vast amount of meta data was contracted from the subjects of the study. Things like diet, lifestyle and other factors in their environment.
This finding could be ground breaking in and of itself. Many studies have shown that there are different gut flora in humans of different regions. We often times will develop a microbiome that is conducive to the digestion of regularly ingest foods. Regardless, I digress on this topic.
What Is the Conclusion?
This study found a simple correlation between certain gut bacteria being present in healthy individuals while lacking in those with PD. That’s what we can take away from this Parkinson Disease latest news.
The scientists cannot yet make the claim that the gut being in dysbiosis directly impacted the development or onset of PD. That conclusion will require more study. Yet, the findings of this entirely human based research are profound. So, let’s talk about it.
What Could This Mean?
We, for years, thought that stress levels or mental conditions effected our gut flora. Studies have revealed that if someone had a certain mental problem or disease that, on the whole, they had similar gut bacteria problems. Mostly, a lack of good bacteria within their gut.
Yet, now we know without a shadow of a doubt that your gut flora actually impacts your mental health and overall heath. That it’s a two way street between your gut flora and your mind.
The Enteric Nervous System connects directly to the Central Nervous System through a nerve called the Vagus. These two Nervous Systems are interwoven to the point that they symbiotically effect one another.
So, to think that your gut flora may impact your chances of getting Parkinson’s Disease may, at first glance, seem far fetched but they are not. The research is happening now.
The breakthrough’s are occurring now. The question is, how long will you take to realize the importance of your gut health? When will you take action?
WHAT YOU CAN DO ABOUT IT
The exciting news is, there’s SO MUCH you can do to turn this downward spiral up and in a different direction! YOU can take charge of your health and future. Thanks to the incredible research in epigenetics, you can modify what genes are expressed by diet and lifestyle factors.
So, set up a free 45 minute consultation with us. We’re here to help and serve you. We’ll get clear on where you are and where you want to go then hammer out a plan to get there.
Your time is now… step up and claim your health. Here’s our calendar.
Picture of Brain By Thomas Jubault 1,2*, Simona M. Brambati 1, Clotilde Degroot 1, Benoît Kullmann 1, Antonio P. Strafella 3, Anne-Louise Lafontaine 4, Sylvain Chouinard 5, Oury Monchi1,2 1 Unité de Neuroimagerie Fonctionelle, Institut Universitaire de Gériatrie de Montréal, Montreal, Quebec, Canada, 2 Département de Radiologie, Université de Montreal, Montreal, Quebec, Canada, 3 Toronto Western Hospital/Research Institute & CAMH-PET Imaging Centre, University of Toronto, Toronto, Ontario, Canada, 4 Movement Disorders Unit, McGill University Health Center, Montreal, Quebec, Canada, 5 Unité des Désordres du Mouvement, Centre hospitalier de l’Université de Montréal, Montreal, Quebec, Canada [CC BY 2.5 (http://creativecommons.org/licenses/by/2.5) or CC BY 2.5 (http://creativecommons.org/licenses/by/2.5)], via Wikimedia Commons