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High-power brain scans reveal sodium changes in HD

A new brain scanning technique reveals high sodium levels in HD brains. How might this help clinical trials?

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Using a new brain scanning technique for the first time in HD, researchers have found that people with Huntington’s disease may have increased sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. levels in their brains. But what does increased sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. actually mean? Why do we have sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. in our brains at all – isn’t it just salt? And why might a ‘salty brain’ be bad?

Why we need salt

Your average varieties of salt – table, rock, sea and so on – are all made up of the chemical sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. chloride, or NaCl to those in the industry.

Using a powerful MRI scanner, this study revealed higher sodium levels in the brains of people with Huntington's disease.
Using a powerful MRI scanner, this study revealed higher sodium levels in the brains of people with Huntington’s disease.

Salt has been a vital part of the diet of humans, and all other mammals for that matter, since we stepped out of the primordial soup. The sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. in salt is essential for maintaining the fluid balance in our bodies – in other words, making sure that we have the right amount of water in our blood, other fluids and cells to keep things ticking over nicely. SodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. is also used to help transport chemicals in and out of cells, without which the cells would stop working properly.

Finally, and perhaps most importantly, sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. is crucial for thinking. By that, we mean that sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. is required for sending electrical impulses through neuronsneuron Brain cells that store and transmit information.

And, like all chemicals found in the body, sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. gets used up, so we have to keep eating salt or else we would completely grind to a halt.

Too much of good thing?

Salt tastes good to us because it is such an important part of our diet, and our ancestors would have tried to hunt and gather salty things to eat. However, in the modern world, salt manufacture has become so efficient that we have access to mountains of the stuff. Around 210 million tonnes are produced each year, much of which gets added to our food.

Now, instead of having to seek out rare, precious salt like our ancestors, we actually have to avoid eating too much, or risk strokes, heart disease and other nasty things.

Like most things in life, too much or too little salt is a bad thing, and we need to try and eat a balanced amount. But what has this got to do with Huntington’s disease?

Measuring sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. with an MRImagnetic resonance A technique using powerful magnetic fields to produce detailed images of the brain in living humans and animals scanner

Since the sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. in salt is crucial for to get the brain working, it would be nice to be able to measure it in living humans. That’s the idea behind sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. tissue concentration imaging.

By cleverly tuning a particularly powerful magnetic resonancemagnetic resonance A technique using powerful magnetic fields to produce detailed images of the brain in living humans and animals imaging (MRImagnetic resonance A technique using powerful magnetic fields to produce detailed images of the brain in living humans and animals) scanner into the precise magnetic frequency of sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. atoms, researchers can draw up a ‘sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. concentration map’ of the living brain. These sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. concentration maps can then be compared between HD patients and healthy control participants.

Increased sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. in the caudate nucleusnucleus A part of the cell containing genes (DNA)?

That’s exactly what some researchers at Jülich Research Centre and Aachen University in Germany did recently, and their results have just come out in the journal Neuroimage.

“The concentration of sodium was higher in the brains of HD patients, particularly in a brain region called the caudate nucleus.”

The researchers found that the concentration of sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. was higher in the brains of HD patients, particularly in a brain region called the caudate nucleusnucleus A part of the cell containing genes (DNA). You may well have already heard of the caudate nucleusnucleus A part of the cell containing genes (DNA), as it is well-known for being the part of the brain that is most affected early in HD.

The fact that the sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. imaging research highlighted the caudate fits in with our current understanding of the HD brain, and gives us confidence in the accuracy of the findings.

Why so salty?

So what might be causing this increase in brain sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride.? Well, all cells in the brain usually contain a moderate amount of sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride., whereas the spaces between cells (full of fluids and chemicals) have a much higher level of sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride..

Because of the salty environment that our brain cells live in, they constantly need to pump out excess sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride., in order to maintain the right level. One effect of the mutant huntingtin proteinhuntingtin protein The protein produced by the HD gene. that causes HD may be to weaken cells’ ability to pump out excess sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride.. That would cause sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. levels in HD brain cells to be higher than normal. It could also affect how well the cells work.

Another possible explanation for the increased sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. concentration in HD is that the mutant protein is causing brain cells to die. So when the scanner looks at a particular brain area, it will contain fewer cells, and more of the highly salty fluid between cells. That means that the average salt concentration in the brain area will be higher.

How does this help in fighting HD?

Great, so we’ve seen that HD brains are generally saltier. But how might this be helpful in looking for HD treatments, rather than just an expensive way of measuring salt?

Well, in addition looking at sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. levels, the researchers also measured the size of different brain areas. While this has been done plenty of times before in HD, they wanted to compare sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. levels with the sizes of brain regions.

As expected, the highest levels of sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. were found in the brain regions that are already shrinking in the early stages of HD, such as the caudate nucleusnucleus A part of the cell containing genes (DNA).

However sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. levels also were abnormally high in parts of the brain that were not shrinking, such as the amygdalaAmygdala A small brain area, in the temporal lobe, important for emotions and response to fear..

That might mean that the sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. increases actually happen before any brain shrinkage. This idea fits in with theories about sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. in HD. If it’s correct, then measuring sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. levels could be the a good way to detect brain changes at their earliest stage.

Levels of sodium were highest in the caudate nucleus, which is affected early in Huntington's disease.
Levels of sodium were highest in the caudate nucleus, which is affected early in Huntington’s disease.
Image credit: Life Science Databases

What’s more, if we wanted to test a potential HD treatment, we could see whether the drug helps keep sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. concentrations at a normal level, to get an idea if the drug is working long before clinical symptoms start and even before brain areas start to change in size.

When a measurement tells us something useful about a disease, we call it a biomarkerbiomarker a test of any kind – including blood tests, thinking tests and brain scans – that can measure or predict the progression of a disease like HD. Biomarkers may make clinical trials of new drugs quicker and more reliable..

Hang on a moment…

If there’s more sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. than normal in HD brains, does this research mean I just eat less salt to combat HD?

Unfortunately no, it’s not that simple.

The results only show that the sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. is unevenly spread through the brain in HD, which is a possible sign that things are going wrong. Changing your dietary levels of salt won’t affect this uneven spread.

There are few other things to bear in mind too, when interpreting the results of this study. SodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. concentration imaging is really new, and the technique is not as well refined as other brain imaging methods. The images it produces are much lower resolution, like photos from an old digital camera. That means that trying to match up the sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. levels to specific brain areas is not very accurate. Hopefully, the technique will improve with time.

Also, this research was only done in a small group of thirteen Huntington’s disease patients and thirteen controls. Research in much bigger groups needs to be done before we can say for sure that sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. is higher in HD brains.

And finally

It’s early days for research using sodiumSodium A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride. imaging in Huntington’s disease. However, this research is innovative and shows interesting results that fit with our understanding of brain problems in HD. If more people decide to use this approach, and test bigger groups with more refined methods, then the saltiness of the brain could become a biomarkerbiomarker a test of any kind – including blood tests, thinking tests and brain scans – that can measure or predict the progression of a disease like HD. Biomarkers may make clinical trials of new drugs quicker and more reliable. of treatment response in HD.

Sources & References

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Glossary

Amygdala
A small brain area, in the temporal lobe, important for emotions and response to fear.
biomarker
a test of any kind – including blood tests, thinking tests and brain scans – that can measure or predict the progression of a disease like HD. Biomarkers may make clinical trials of new drugs quicker and more reliable.
huntingtin protein
The protein produced by the HD gene.
magnetic resonance
A technique using powerful magnetic fields to produce detailed images of the brain in living humans and animals
neuron
Brain cells that store and transmit information
nucleus
A part of the cell containing genes (DNA)
Sodium
A chemical element found abundantly on planet earth, in rocks, plants and animals (including humans). The main constituent of salt, AKA sodium chloride.

More glossary terms…

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