Increasingly science agrees with the poetry of direct human experience: we are more than the atoms and molecules that make up our bodies, but beings of light as well. Biophotons are emitted by the human body, can be released through mental intention, and may modulate fundamental processes within cell-to-cell communication Continue reading
A startling health breakthrough out of the UK should literally make us stand up and take notice. And, get moving. Could sitting too much be as bad for our health as smoking? There is an argument to be made based on shocking findings from this morsel of health news.
This indeed may be one of the most important health issues to arise in recent years. Sedentary behavior (a.k.a. sitting too much and not exercising) takes a devastating toll on the human body. This has been suggested for decades, but the new study published in the journal Diabetologia really puts it in perspective.
Researchers pored through Continue reading
Candida Albicans is a fungal yeast that occurs naturally in the human body. It naturally lives in harmony with a variety of other microorganisms and actually performs some important functions. The problem occurs when certain lifestyle based environmental conditions upset the balance of micro flora in the body. This allows the yeast to proliferate and dominate certain regions of the body. Certain lifestyle measures must be taken to conquer Candida and regain balance and health to the internal ecosystem.
Candida normally resides in the mucous membranes of the intestinal tract, mouth, throat and genitals. When overgrowth occurs, Candida has the ability to burrow holes in the intestinal tract and enter the blood stream. Once it gets into the blood stream it is able to make its way into any organ or region of the body. The worst part is that it emits over 70 different toxins into the blood stream and body.
Candida loves sugar and anything that breaks down into sugar. When Candida eats it releases toxic metabolites that acidify Continue reading
BOULDER – Scientists have developed an atlas of the bacteria that live in different regions of the human body.
Some of the microbes help keep us healthy by playing a key role in physiological functions.
The University of Colorado at Boulder team found unexpectedly wide variations in bacterial communities from person to person.
The researchers hope their work, published in Science Express, will eventually aid clinical research.
They say that it might one day be possible to identify sites on the human body where transplants of specific microbes could benefit health.
The study was based on an intensive analysis of the bacteria found at 27 separate sites on the bodies of nine healthy volunteers.
BODY SITES ANALYZED
Back of the knee
Soles of the feet
Not only did the bacterial communities vary from person to person, they also varied considerably from one site on the body to another, and from test to test – but some patterns did emerge.
What is healthy?
“The goal is to find out what is normal for a healthy person, which will provide a baseline for further studies to look at people with diseased states.”
There are an estimated 100 trillion microbes living on or inside the human body.
They are thought to play a key role in many physiological functions, including the development of the immune system, digestion of key foods and helping to deter potentially disease-causing pathogens.
The researchers took four samples from each volunteer over a three-month period – usually one to two hours after they had showered.
They used the latest gene sequencing and computer techniques to draw up a profile of the microbes found at each specific site.
Most sites showed big variations in the bacteria they harboured from test to test even within the same individual.
However, there was less variation in the bacteria found in the armpits and soles of the feet – possibly because they provide a dark, moist environment.
The least variation of all was found in the mouth cavity.
Skin sites in the head area, including the forehead, nose, ear and hair, were dominated by one specific type of bacteria.
Sites on the trunk and legs were dominated by a different group.
“Why do healthy people have such different microbial communities?
“Do we each have distinct microbial signatures at birth, or do they evolve as we age? And how much do they matter?”
The researchers disinfected the forearms and foreheads of some volunteers, and “inoculated” both sides with bacterial communities from the tongue.
The tongue bacteria lasted longer on the forearms than foreheads.
A previous study by the same examined the bacteria on 102 human hands.
In total, they identified more than 4,200 species of bacteria, but only about five were shared by all 51 participants.
“If we can better understand this variation, we may be able to begin searching for genetic biomarkers for disease,” he said.
“Because our human genomes vary so little but our repertoire of microbial genes vary so much, it makes sense to look for variations that correlate with disease at specific locations.”