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Understanding detoxification: how the liver works

The liver is the body’s second largest organ after our skin (although if you count the endothelium — the thin layer of cells that line all of the blood vessels and lymphatic vessels — as an organ the liver is the third biggest organ). It sits just behind your right ribcage and plays a host of vital roles inside you, including ones involved in the production of certain proteins and the storage of specific nutrients, like iron. Another primary role it plays is detoxification, a concept surrounded by much confusion.

Detoxification is a process that goes on inside us, all day every day, and it is essentially a transformation process in which any substance that would be harmful to you, if it were to accumulate, is changed by the liver into a less harmful form, so it can then be incorporated into your urine or faeces and excreted safely from your body. The lifestyle choices we make influence how efficiently the liver is able to do its job.

There are technically three stages to detoxification. The liver is responsible for the first two and the gut for the third. The two stages of the liver detoxification process are appropriately named phase 1 and phase 2. Both stages require certain nutrients to function, and dietary choices can influence how efficiently each phase is able to proceed.

A helpful way to picture how it works is that there are three roads into the liver (the phase 1 pathways) and six pathways out of it (the phase 2 pathways). Both phases require certain nutrients to function properly (refer to the table as a guide). Most ‘toxins’ are fat-soluble and we need to make them water soluble for elimination. Phase 1 is essentially responsible for beginning the transformation of every potentially problematic substance into a less problematic form. It requires numerous nutrients, including B vitamins which are widely on offer in many whole foods. Iron is also crucial for the phase 1 pathways to operate, yet it’s the most common nutritional deficiency in the world. After Phase 1 detoxification, the slightly transformed substance is actually momentarily more problematic, which is a major reason why optimal antioxidant consumption is important – to limit the damage this slightly changed substance could do. Phase 2 is responsible for continuing the transformation process so that the once problematic substance can safely exit the body. This phase requires specific amino acids (found in protein foods) and sulphur, in particular. We obtain dietary sulphur from eggs (the yolks), onions, garlic and shallots, as well as the Brassica family of vegetables, which includes broccoli, cabbage, kale, Brussels sprouts and cauliflower.

The liver makes enzymes that are responsible for the transformation of each substance, and the rate of production of these essential enzymes determines how quickly each substance is processed. If there are nutrient deficiencies, the amount of and the rate at which liver enzymes can be made, will be compromised. The load placed on the liver as a result of — for example — dietary choices, environmental factors, gut health and estrogen metabolism also determines how quickly things ‘move through’ the liver.

After years of regularly consuming substances found in processed foods and drinks that I refer to as ‘liver-loaders’, and/or hormonal or bowel problems, the phase 2 pathways especially, can become ‘congested’. A useful way to imagine this is like traffic on a motorway that’s banked up. Conventional blood tests for liver function do not reveal this. They look at liver damage. The liver usually takes years of battering before conventional blood tests reflect the congestion that has led to them becoming elevated (damaged) in the first place.

When the traffic is banked up (or there are unfavourable changes to the gut microbiome), there is a risk of partially detoxified substances being recycled, a process that can potentially be harmful to health. The recycled substances can’t stay in the blood though (as we are at greater risk of damage if this occurs) so the body in its infinite wisdom, stores these substances away from our vital organs, typically in body fat and bones. Not only does this increase the likelihood that body fat increases to provide more storage space, the risk of developing degenerative diseases down the track is also elevated. What organ can we take much better care of if we want to stop this recycling from happening? Our precious liver. Most people’s liver needs more support in this day and age – and less of a load – for amazing energy, vitality, efficient fat utilisation, hormone balance and healthy blood glucose regulation, just to name a few.

Some signs your liver could use some support include:

  • Liver roll — body fat that protrudes from under the breasts of women, under the pectorals of men
  • If your gall bladder has been removed, your liver has to make the bile on demand that the gall bladder once stored, so additional liver support is often required
  • Very short fuse or temper, and this is new to you
  • “Liverish,” gritty, impatient behaviour, and this is new to you
  • PMS
  • Overheating easily
  • Itchy skin (when other conditions have been ruled out)
  • “Floaters” in your vision (and iron deficiency has been ruled out)
  • Waking around 2am
  • Sleep which is worse on an evening you consume alcohol
  • Waking hot in the night
  • Not hungry for breakfast when you first get up in the morning
  • Prefer to start your day with coffee
  • Elevated blood cholesterol
  • Estrogen-excess symptoms
  • Bloat easily
  • Drinking alcohol daily, or almost daily

The best way to care for your liver is through what you consume and what you omit or minimise from your way of eating. Decrease liver loaders (alcohol, trans fats, refined and artificial sugars, synthetic substances such as pesticides and non-essential medication, as well as those found in skin products). Increase bitter foods, such as leafy green vegies, particularly those in the Brassica genus such as cauliflower, broccoli, cabbage and kale. Be sure to consume plenty of other foods that contain the nutrients required for liver detoxification including protein foods for amino acids. We only have one liver. Love it accordingly.

Are ‘sugar free’ alternatives a better option than sugar?

For years, people have been seeking ways to reduce their sugar intake, and the sugar-free movement has gained immense popularity. Consumers are drawn to sugar-free alternatives as a way to reduce their sugar intake and the lousy health consequences this can bring, but are these alternatives really better than sugar?

Sugar-free alternatives, such as artificial sweeteners and low calorie sweeteners, are marketed as a healthier alternative to sugar. But it’s just that – marketing.They claim to have fewer calories, less impact on blood sugar levels and be better for your teeth. While some of these claims may be true, it’s essential to understand that this doesn’t mean that sugar-free alternatives to sugar are better for your health. Let’s explore the two sugar free alternatives you will currently find in numerous products on the supermarket shelves.

Artificial sweeteners

Artificial sweeteners are synthetic substances that have no nutritional value. They are added to food and drinks to provide a sweet taste without the added calories of sugar. However, there are concerns about the potential health risks associated with artificial sweeteners. Some studies have linked them to an increased risk of certain types of cancer, while others suggest that they can disrupt the balance of gut bacteria and lead to body fat gain. Animal studies have also begun to show that, on top of the above range of health consequences, some artificial sweeteners actually raise blood glucose and insulin levels, driving the precise processes inside the body that they were designed to negate. It’s marketing that has convinced people otherwise, which is simply another reason to eat food, not junk, because we have no idea of the long-term consequences of some of these manufactured substances.

Some examples of artificial sweeteners (along with their food additive code) to avoid include:

  • Acesulphame-K (950)
  • Advantame (969)
  • Aspartame (951)
  • Aspartame-acesulphane salt (962)
  • Cyclamate (952)
  • Neotame (961)
  • Saccharin (954)
  • Steviol glycosides (960)
  • Sucralose (955)

Low calorie sweeteners

Low calorie sweeteners are the newer kids on the sweetener block. As food manufacturers look for new ways to sweeten their products by using substances the consumer may consider to be more natural, the list of low calorie sweeteners only continues to grow.

Low calorie sweeteners are usually made from sugar alcohols. While some sugar alcohols are found naturally in fruits and vegetables, the added sugar alcohols are produced artificially in very concentrated amounts. Remember that these manufactured substances are usually made to sell things, not to help people and sugar alcohols can upset the delicate balance of our internal ecosystem. Unlike sugar, which is easily digested and absorbed for energy or storage, sugar alcohols are not absorbed or completely digested in our digestive tract. This can cause digestive symptoms such as bloating, gas, nausea or diarrhoea due to the fermentation of these sugar alcohols in our intestines. If you are someone who experiences digestive symptoms, you may like to start to consider if your consumption of sugar alcohols is contributing.

Some examples of low calorie sweeteners (along with their food additive code) to avoid include:

  • Maltitol (965)
  • Erythritol (968)
  • Mannitol (421)
  • Isomalt (953)
  • Sorbitol (420)
  • Lactitol (966)
  • Sucralose (955)
  • Xylitol (967)
  • Monk fruit extract (no code number associated)

The other problem with sugar-free alternatives is that people often feel like they can eat more of them because they are calorie-free/low calorie. As most of these substances are found in processed foods, this can lead to overconsuming foods of little to no nourishment which often means fewer whole real foods – the foods that offer our body the nutrients it needs to thrive – are eaten. Sugar-free alternatives are best avoided or at minimum consumed sparingly, same as sugar or any other sweetener. And for the most part, stick to sweeteners that are whole, like fruits (including dates to sweeten snacks and desserts). Some honey has health benefits and maple syrup contains trace amounts of a few nutrients. These latter two sweeteners are still best used sparingly. Aim for your sweet food to (mostly) provide you with some nutritional benefits, other than on special occasions or when you are being hosted by friends.

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