Pages:
Author

Topic: Smoking high-strength cannabis may damage nerve fibres in brain - page 2. (Read 1456 times)

legendary
Activity: 3990
Merit: 1385
From http://www.cureyourowncancer.org/how-cannabis-oil-works.html:
Quote
First let’s look at what keeps cancer cells alive, then we will come back and examine how the cannabinoids CBD (cannabidiol) and THC (tetrahydrocannabinol) unravels cancer’s aliveness.

In every cell there is a family of interconvertible sphingolipids that specifically manage the life and death of that cell. This profile of factors is called the “Sphingolipid Rheostat.” If endogenous ceramide(a signaling metabolite of sphingosine-1-phosphate) is high, then cell death (apoptosis) is imminent. If ceramide is low, the cell is strong in its vitality.

Very simply, when THC connects to the CB1 or CB2 cannabinoid receptor site on the cancer cell, it causes an increase in ceramide synthesis which drives cell death. A normal healthy cell does not produce ceramide in the presence of THC, thus is not affected by the cannabinoid. - See more at: http://www.cureyourowncancer.org/how-cannabis-oil-works.html#sthash.YuyL2PDz.dpuf

...

Read more at http://www.cureyourowncancer.org/how-cannabis-oil-works.html.

Smiley

This article shows how plants can protect us from many diseases.

Smiley
legendary
Activity: 3990
Merit: 1385
From http://www.cureyourowncancer.org/how-cannabis-oil-works.html:
Quote
First let’s look at what keeps cancer cells alive, then we will come back and examine how the cannabinoids CBD (cannabidiol) and THC (tetrahydrocannabinol) unravels cancer’s aliveness.

In every cell there is a family of interconvertible sphingolipids that specifically manage the life and death of that cell. This profile of factors is called the “Sphingolipid Rheostat.” If endogenous ceramide(a signaling metabolite of sphingosine-1-phosphate) is high, then cell death (apoptosis) is imminent. If ceramide is low, the cell is strong in its vitality.

Very simply, when THC connects to the CB1 or CB2 cannabinoid receptor site on the cancer cell, it causes an increase in ceramide synthesis which drives cell death. A normal healthy cell does not produce ceramide in the presence of THC, thus is not affected by the cannabinoid. - See more at: http://www.cureyourowncancer.org/how-cannabis-oil-works.html#sthash.YuyL2PDz.dpuf

...

Read more at http://www.cureyourowncancer.org/how-cannabis-oil-works.html.

Smiley
hero member
Activity: 784
Merit: 1000
https://youtu.be/PZm8TTLR2NU
Kay you keep preachin I'll keep smokin. I'm already so far ahead of the rest of this pack o chimps civilization.. ther's not enough weed on the planet to bring me down to your level
sr. member
Activity: 756
Merit: 250
Infleum
Alcohol can damage your brain cells and liver. Is it illegal? No.
legendary
Activity: 2212
Merit: 1038
"may" damage. LOL

Check this stuff out, I "guarantee" it 'll do damage:

https://en.wikipedia.org/wiki/Absinthe
hero member
Activity: 616
Merit: 500
Smoking high-strength cannabis may damage nerve fibres in brain

Study suggests high levels of skunk use may affect the brain’s white matter, making communication between the right and left hemispheres less efficient

Friday 27 November 2015 00.01 GMT

High-strength cannabis may damage nerve fibres that handle the flow of messages across the two halves of the brain, scientists claim. Brain scans of people who regularly smoked strong skunk-like cannabis revealed subtle differences in the white matter that connects the left and right hemispheres and carries signals from one side of the brain to the other.

The changes were not seen in those who never used cannabis or smoked only the less potent forms of the drug, the researchers found.

The study is thought to be the first to look at the effects of cannabis potency on brain structure, and suggests that greater use of skunk may cause more damage to the corpus callosum, making communications across the brain’s hemispheres less efficient.

Paola Dazzan, a neurobiologist at the Institute of Psychiatry at King’s College London, said the effects appeared to be linked to the level of active ingredient, tetrahydrocannabinol (THC), in cannabis. While traditional forms of cannabis contain 2 to 4 % THC, the more potent varieties (of which there are about 100), can contain 10 to 14% THC, according to the DrugScope charity.



“If you look at the corpus callosum, what we’re seeing is a significant difference in the white matter between those who use high potency cannabis and those who never use the drug, or use the low-potency drug,” said Dazzan. The corpus callosum is rich in cannabinoid receptors, on which the THC chemical acts.

 A DTI image of the corpus callosum, as seen from the side, is shown in red on and superimposed on a background MRI image of the brain. Facebook Twitter Pinterest
 A DTI image of the corpus callosum, as seen from the side, is shown in red on and superimposed on a background MRI image of the brain. Photograph: Institute of Psychiatry
“The difference is there whether you have psychosis or not, and we think this is strictly related to the potency of the cannabis,” she added. Details of the study are reported in the journal Psychological Medicine.

The researchers used two scanning techniques, magnetic resonance imaging (MRI) and diffusion tensor imaging (DTI), to examine the corpus callosum, the largest region of white matter, in the brains of 56 patients who had reported a first episode of psychosis, and 43 healthy volunteers from the local community.

The scans found that daily users of high-potency cannabis had a slightly greater – by about 2% – “mean diffusivity” in the corpus callosum. “That reflects a problem in the white matter that ultimately makes it less efficient,” Dazzan told the Guardian. “We don’t know exactly what it means for the person, but it suggests there is less efficient transfer of information.”

The study cannot confirm that high levels of THC in cannabis cause changes to white matter. As Dazzan notes, it is may be that people with damaged white matter are more likely to smoke skunk in the first place.

“It is possible that these people already have a different brain and they are more likely to use cannabis. But what we can say is if it’s high potency, and if you smoke frequently, your brain is different from the brain of someone who smokes normal cannabis, and from someone who doesn’t smoke cannabis at all,” she said.

But even with the uncertainty over cause and effect, she urged users and public health workers to change how they think about cannabis use. “When it comes to alcohol, we are used to thinking about how much people drink, and whether they are drinking wine, beer, or whisky. We should think of cannabis in a similar way, in terms of THC and the different contents cannabis can have, and potentially the effects on health will be different,” she said.



“As we have suggested previously, when assessing cannabis use, it is extremely important to gather information on how often and what type of cannabis is being used. These details can help quantify the risk of mental health problems and increase awareness of the type of damage these substances can do to the brain,” she added.

In February, Dazzan and others at the Institute of Psychiatry reported that the ready availability of skunk in south London might be behind a rise in the proportion of new cases of psychosis being attributed to cannabis.

http://www.theguardian.com/science/2015/nov/27/smoking-high-strength-cannabis-skunk-may-damage-nerves-brain
Pages:
Jump to: