Tag: enzyme

A look at Lactose Intolerance

Todays post is about lactose intolerance. This has been a recent topic of discussion amongst my work colleagues. I decided to do a bit or research and, as usual, share my findings.

First, what is lactose?

Lactose is the main carbohydrate component of mammalian milk. It is a disaccharide consisting of glucose and galactose. Lactose is also found in breast milk, and almost everyone is born with the ability to digest it. Human milk actually contains about 70 grams per L (7%) of lactose. In comparison, cows milk only contains about 46 grams per L (4.6%).

What is lactose intolerance?

This condition, which is also called lactose malabsorption, is usually harmless, but its symptoms can be uncomfortable. In some cases, it has been confused with cow’s milk allergy. However cow’s milk allergy usually has additional external symptoms such as hives and swelling of the lips and tongue.

Lactose intolerance is caused by a lack of a certain enzyme produced in the small intestine. This enzyme is called ‘lactase’. The body uses it to break lactose down into glucose and galactose, which can then be absorbed into the bloodstream and used for energy.

It is possible to have low levels of lactase and still be able to digest milk products. But if the levels are too low, this will result in an inability to digest the lactose. The lactose in your food moves into the colon instead of being processed and absorbed in the gut. In the colon, normal bacteria interact with undigested lactose. This creates symptoms such as abdominal cramps, diarrhoea, gas and bloating after eating or drinking dairy products.

There are two main types of lactose intolerance, which have different causes.

The most common is primary lactose intolerance. It is caused by a decrease in lactase production with age, so that lactose becomes poorly absorbed. This form of lactose intolerance may be partially caused by genes, because it’s more common in some populations than others.

The other type, secondary lactose intolerance, is rare. It is usually caused by illness, such as a stomach bug or a more serious issue like celiac disease. This is because inflammation in the gut wall can lead to a temporary decline in the body’s lactase production.

How is it diagnosed?

A doctor can confirm a diagnosis of lactose intolerance by conducting several tests. The most common are a Hydrogen breath test and a Lactose tolerance test.

The Hydrogen breath test: after drinking a liquid that contains high levels of lactose, the doctor measures the amount of hydrogen in the person’s breath at regular intervals. Breathing out too much hydrogen indicates that the lactose isn’t being fully digesting or absorbed.

The Lactose tolerance test: blood samples are taken 2 hours after drinking a liquid that contains high levels of lactose. Tests are then conducted to measure the amount of glucose in the blood. If the glucose level doesn’t rise, it means the lactose isn’t being properly digested and absorbed.

Is dairy totally off limits?

All dairy foods contain lactose, but this doesn’t mean they are totally off limits for people with lactose intolerance. Most people with lactose intolerance can tolerate small amounts of lactose. For example, some people can tolerate the small amount of milk in tea but not the amount you would get from a bowl of cereal.

Dairy products like butter, yogurt and some cheeses, as well as low fat and skim milk are often tolerated better than whole milk. Most people with lactose intolerance can manage the condition without having to give up all dairy foods.

It is also possible to buy enzymes to help digest lactose. There are lactase enzyme supplements tablets available or drops that can be added to foods and drinks.

As with all supplements, the effectiveness of these products can to vary from person to person.

If you think you may be suffering from this condition, as always, seek advice from a health professional.

I hope you found this information helpful.

 Till the next post,

 Live clean n Prosper.

(Sources – Mayo ClinicKarger – Annuls of Nutrition and MetabolismUS National Library of MedicineHealthline )

Alcohol and the body.

Todays post is about how our body, or more specifically the liver, deals with alcohol.

Many of us indulge in an alcoholic beverage on a regular basis. Some people indulge more regularly and in greater quantities than others. Most of us know the basics of what happens in our bodies when we drink alcohol.

Scott has recently covered this subject in his studies and I thought it was interesting. I decided to learn more details and share this information.

How the alcohol is initially absorbed.

Alcohol absorption begins in the stomach. However, it is absorbed much more rapidly in the small intestine due to the larger surface area. So, the longer the alcohol remains in the stomach, the slower the rise in the blood alcohol level. Fatty acids slow down the movement of food through the stomach. Therefore the consumption of foods higher in fats will slow the rise of blood alcohol. This will also give time for the enzyme alcohol dehydrogenase (ADH) to start breaking down the alcohol.

Alcohol dehydrogenase is our primary defence against alcohol, a toxic molecule that compromises the function of our nervous system. The high levels of alcohol dehydrogenase in our liver and stomach detoxify about one drink (10grams of alcohol) each hour.

Once the alcohol enters the blood stream, it goes directly from the digestive tract to the liver.

The science

In the liver there is more alcohol dehydrogenase to break down ethanol in the blood. The alcohol dehydrogenase breaks alcohol down into another compound, acetaldehyde. Next, another enzyme, called aldehyde dehydrogenase (ALDH) breaks it down further into acetate, another metabolite.

This can then be converted to Acetyl coenzyme A, (acetyl-CoA), an important molecule used in metabolic processes. It is primarily used by the body for energy production and is an essential component in balancing carbohydrate and fat metabolism

 What does this mean?

On those occasions when we consume alcoholic beverages while eating pizza and deep fried foods, followed by cake and ice cream, the body deals with the alcohol first.

This is because the liver recognises the alcohol as the most toxic substance in the body at the time.

So while the liver is dealing with the alcohol, the fats and sugars are getting pushed into the blood stream to wait. This also means that the liver will first break down the alcoholic beverage into its main components and then dealing with the alcohol first.

The liver requires certain essential nutrients from the body to do its job. It also works through the toxins in 2 phases. If there are not enough nutrients available for the liver to do its job, this causes the by-products to hang around for a lot longer in between the phases. This can then cause other issues.

 Supporting the liver

It is possible to provide support to the liver so that it can metabolise alcohol more effectively, therefore reducing long-term damage.

The 2 phases of detoxification require different nutrients.

Phase 1 requires B group vitamins, Folic acid, Glutathione, Antioxidants, Carotenoids, vitamins E and vitamin C.

Phase 2 requires Amino Acids (Glutamine, Glycine, Taurine & Cystine) and sulphurated phytochemicals found in garlic and cruciferous vegetables (broccoli, cauliflower, cabbage & Brussels sprouts)

There are also certain compounds available that may be helpful.

  • Grape seed extract is a well-known antioxidant that assists liver function.
  • Grapefruit seed extract increases gastric protection
  • Vitamin C
  • Zinc
  • Curcumin (found in Turmeric)

Current Australian health guidelines state “For healthy men and women, drinking no more than two standard drinks on any day reduces the lifetime risk of harm from alcohol-related disease or injury.” (NHMRC 2009) Sources – Principles of Anatomy & Physiology by Gerard J Totora/Bryan Derrickson, https://en.wikipedia.org, https://pdb101.rcsb.org

With this in mind, a good diet consisting of whole, unprocessed foods goes a long way in supporting the liver. Many of the nutrients essential for optimal liver function are found in fresh fruit and vegetables.

I hope you found this information interesting.

Till the next post,

Live clean n prosper