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Acorn Health Blog

What we love is great health...

...and we like to write about how we can all achieve better health, naturally. Sometimes tips on how you can DIY to better health and sometimes on the therapies that can make a difference to you, your health and wellbeing.
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Do I have a food intolerance?

General Health & Wellbeing Posted by JadwigaPosted on Tue, November 30, 2021 01:49PM

A food intolerance (otherwise known as non-allergic food hypersensitivity), is a condition of the digestive system. It involves some form of negative reaction, which is caused by the body’s inability to properly digest a particular food, food additive or other compound found in food (or drink).

Food intolerances are far more common than true food allergies. They also tend to occur more commonly in women, and one reason for this may be hormone differences as many food chemicals act to mimic hormones.

In the majority of cases, both food allergies and intolerances develop over time; so a food that was once tolerated well might suddenly begin to make you feel ill. Symptoms may begin at any age and, while they can be wide-ranging, some of the most common ones are:

  • stomach bloating
  • water retention
  • irritable bowel syndrome (IBS)
  • inflammatory bowel disease
  • diarrhoea
  • skin rashes
  • weight gain
  • head aches
  • mood changes
  • cravings (ironically, often for the foods responsible for the intolerance or allergy)
  • mouth ulcers
  • recurrent bladder infections
  • fatigue

What causes a food intolerance?

In simple terms, food intolerances can be caused by various chemicals (both natural and artificial) that are present in a wide variety of foods. The reaction experienced is usually the result of a deficiency in, or absence of, particular chemicals or enzymes in the body that are needed to digest a particular food substance.

The role of digestive enzymes

While we eat food for the nourishment of our bodies, our digestive systems can’t actually absorb food in its whole form; instead it absorbs nutrients. So before it can be useful, food has to be broken down into its constituent parts, such as amino acids (from proteins), fatty acids (from fats) and simple sugars (from carbohydrates), as well as vitamins, minerals, and a variety of other plant and animal compounds. Without this efficient process of digestion, which converts nutrients into a form that is absorbable by the body, we would not be able to survive. Digestive enzymes are central to this process. They occur naturally in whole foods (such as fruit, vegetables and plants), but they are also manufactured by the body to assist digestion. While this mainly takes place in the pancreas and small intestine, digestive enzymes are also made in the stomach and even the saliva glands of the mouth. If you don’t eat a diet that contains enough enzyme-rich foods (e.g. a diet high in refined and processed foods), or your body does not produce enough of its own enzymes (e.g. because you are sick, elderly or under stress), it will struggle to properly break down food. This can lead to certain digestive complications and complaints, including:

  • fermentation of food in the stomach and small intestine
  • putrefaction in the colon
  • increased activity and overgrowth of harmful bacteria and parasites
  • poor absorption of nutrients.

In particular, the inability to efficiently digest food can contribute to the development of food intolerances. This is because, if you have poor digestion, your intestinal lining can become irritated and what is known as “leaky gut syndrome” can develop. In susceptible people, any partially digested food particles can seep into the bloodstream, strain the immune system and lead to food intolerances, and even allergies in extreme cases.

Food allergy vs intolerance

Food intolerances and allergies are very different. As mentioned above, an intolerance is a digestive system response. In contrast, a food allergy is an abnormal response to food, which is triggered by the body’s immune system. A true food allergy requires the presence of certain antibodies against the offending food, whilst a food intolerance does not. What’s more, the antibodies tend to lead to an immediate reaction whenever the offending food is eaten. This distinction is important because, while a food intolerance may lead to some unpleasant symptoms, it is not life-threatening and symptoms tend to come on more gradually – usually within half an hour, but sometimes as long as 48 hours after ingestion of the substance which is causing a problem. An allergy, on the other hand, is usually a lot more serious and may even be fatal in extreme cases (e.g. through anaphylaxis).

Some common examples of food intolerance include:

  • Lactose intolerance – The most common food intolerance is to lactose, found in milk and other dairy products. It is caused by the body’s inability to properly digest high amounts of lactose, the predominant sugar in milk, because of a shortage or absence of the enzyme lactase.
  • Gluten sensitivity – Gluten is a protein composite found in foods processed from wheat and related species, including barley and rye. The term “gluten sensitivity” is used to describe those individuals who can’t tolerate gluten and experience symptoms similar to those with coeliac disease, but yet lack the same antibodies and intestinal damage as seen in cases of coeliac disease. Interestingly, although coeliac disease is an autoimmune disorder caused by an immune response to gluten, it can also result in gluten sensitivity, as well as temporary lactose intolerance.

How is food intolerance identified?

Food intolerances are often more difficult to diagnose than food allergies, because they tend to be more chronic, less acute and therefore less obvious in their presentation. For example, there are no antibodies present to look for. As such, they are most often identified through a simple trial and error approach – a dietitian or nutritionist will go through a process of elimination with the individual, removing suspected problematic foods and systematically re-introducing them back into the diet, looking for corresponding improvement and worsening of symptoms. Bioresonance testing is another, much faster method of identyfying any potential food intolerances with results usually available at the time of testing. Other methods of diagnosis include hydrogen breath testing for lactose intolerance and fructose malabsorption and ELISA testing for IgG-mediated immune responses to specific foods.

Living with a food intolerance

Once the offending food or foods have been identified, the best advice is to avoid them wherever possible or to embark on a desensitizing treatment. This is likely to lead to a reduction, and hopefully over time, the total elimination of symptoms. Fortunately, nowadays there are a number of specialised “free from” foods and health supplements available online, in supermarkets and in health food shops, which help to make life a lot easier for those with food intolerance. However, with any diet where there is restricted food choice, it is important to ensure that you are still getting all of the nutrients you need on a daily basis. Severe food intolerance can, for example, lead to excessive weight loss and, occasionally, can even result in the individual becoming malnourished. Optimum nutrition can be achieved through careful meal planning and appropriate supplementation.



Spotlight on: Beetroot

General Health & Wellbeing Posted by JadwigaPosted on Tue, September 28, 2021 01:50PM

So you think you know beetroot – the humble root vegetable, so often found in pantries in its pickled form since World War II.

But truly, it is so much more. In fact, it is a nutritional powerhouse now widely regarded as a superfood!

Humble beginnings

The beetroot is no stranger to the average household. Also known as “table beet”, it is one of the many cultivated varieties of Beta vulgaris and the most common variety found in Britain, North America and Central America today. In the earliest days of its consumption, the leaves were most commonly eaten by people living in the eastern Mediterranean and the Middle East.

The Romans then began to make use of the root for various medicinal purposes. Over the years, it became popular in Central and Eastern Europe for culinary purposes too. Beetroot, as we know it today, was only cultivated in the 16th century. You may be surprised to learn that modern varieties are derived from the sea beet, an inedible plant that grows wild along the coasts of Europe, North Africa and Asia.

A super-root in disguise

Unlike some of the other, better known superfoods, like wheatgrass, spirulina or acai berry, beetroot is not overtly exotic. But don’t let that fool you! What has traditionally been viewed as a boring, somewhat unappetising vegetable, is really a “super-root” in disguise! It is a rich source of both carbohydrates and plant proteins, along with a broad spectrum of vitamins, minerals and other essential nutrients (considered in more detail below). At the same time, it has a very low caloric value and is almost entirely free of fat. It is also a low-GI food – the sugar conversion process is slow, which supports stable blood sugar levels.

Antioxidants

You can’t have failed to notice the vivid colour of beetroot – whether the deep purple, the bright yellow or the lesser seen candy-stripes! Like so many other superfoods, these colours offer a visual clue about the high level of antioxidants, carotenoids and flavonoids found in beetroot.

The notorious red colour compound is called betanin (or beetroot red), a pigment which is a well-known antioxidant and phyto-chemical. However, all beets contain betalain antioxidants – a class of red and yellow pigments found in plants.

Vitamins and minerals

Beetroot is also rich in a broad spectrum of vitamins and minerals, contributing to its reputation as a superfood. For example, it contains high levels of folate and vitamin C (another powerful antioxidant), as well as riboflavin, niacin and thiamin, vitamin K, calcium, silica, potassium, magnesium, phosphorus, zinc and iron.

Dietary fibre

Beetroot is high in dietary fibre – both soluble and insoluble. A 100g portion “ about two or three small beetroot “ contains as much as 10% of your recommended daily allowance. Fibre is an essential component of healthy digestion and supports everything from stable blood sugar levels to natural cleanse and detox processes in the body.

Dietary nitrate

More recently, much research has been undertaken on beetroot’s capacity to absorb and store exceptionally high levels of nitrate – a nutrient involved in many of the processes that are essential for efficient exercise performance, including blood flow and oxygen usage. In particular, a study conducted by Exeter University in the UK received a lot of media attention when it found that cyclists who drank a half-litre of beetroot juice several hours before setting off were able to ride up to 20% longer than those who drank a placebo blackcurrant juice. Since that study, both beetroot and beetroot supplements have been of particular interest to athletes.

Supporting health and vitality

The unique combination of nutrients found in beetroot mean that it can offer ideal support for all-round health and vitality, including:

  • a healthy heart and cholesterol levels
  • detoxification and liver function
  • a strong immune system
  • healthy homocysteine levels
  • normal tissue growth
  • musculo-skeletal health
  • healthy skin, hair and nails
  • stable blood sugar levels
  • stamina and energy levels
  • stable moods
  • and healthy digestion.

Belonging to the same family as two other nutritional titans, chard and spinach, both the leaves and roots of beetroot can be eaten. Incorporate it into your daily diet and your body will thank you!



Spotlight on: Digestive enzymes

General Health & Wellbeing Posted by JadwigaPosted on Tue, August 31, 2021 12:08PM

Enzymes are clever little molecules of protein that are made from amino acid chains. They act as catalysts (or triggers) to bring about specific biochemical reactions in the body, which produces over 3,000 kinds.

Every process in the body is driven by enzymes of one kind or another – whether acting alone, in combination or in complex chain reactions. They are therefore vital substances – without them, many biological functions would simply be impossible, or too slow for us to survive. So, they are certainly worth finding out a little more about because they play a central role in helping us to achieve optimal nutrition, health and vitality.

Types of enzymes

If we are deficient in enzymes, this can have a direct effect on the efficiency of important processes in the body, which can become unbalanced, making us more prone to ill-health. The structure of enzymes establishes their particular function or use.

Enzymes produced by the body can be classified into two types: metabolic enzymes and digestive enzymes.

Metabolic enzymes are primarily involved in energy production and cellular activity on every level, but they also have other functions – like helping to detoxify the body.

Digestive enzymes also have a number of functions, chief amongst which is assisting in the break down of food into its constituent nutrients (as the name suggests), followed by the absorption of these. The body uses different types of digestive enzymes to digest fats, proteins and carbohydrates for example. Enzymes can also be obtained through dietary sources, i.e. food enzymes present in natural whole foods, such as leafy green plants, fruit and vegetables. These assist the body with the digestion of that particular food. For the purposes of this article, we are particularly interested in the role played by enzymes in digestion.

The process of digestion

During digestion, food is broken down into a simple form that can be absorbed by the body. The process starts in the mouth with the chewing of food, continues in the stomach and small intestine where it is chemically broken down by the digestive juices and enzymes and finally gets completed in the large intestine. Basically, food is taken in, digested to extract essential nutrients and energy and any remaining waste is finally expelled.

Digestion is arguably one of the most important and complex processes in the body, because it dictates our nutrient absorption, as well as our toxin and waste elimination. It also involves a wide number of organs and nutrients. For instance:

  • Organs and other components: the mouth, teeth, tongue, oesophagus, stomach, small intestine, large intestine, liver, gallbladder, pancreas, rectum, anus and other organs are all involved in the digestive process.
  • Nutrients and other chemicals: such as saliva, hormone regulators, nerve regulators, gastric juices, friendly bacteria, bile, hydrochloric acid and, of course, digestive enzymes.

The efficiency of the digestive process therefore affects everything from immunity and hormone balance, to metabolism, toxic load, general health and well-being.

A digestive system that is sluggish or functioning less than optimally can lead to a number of unpleasant symptoms and conditions, including constipation, imbalanced bowel flora, irritable bowel, heightened toxic load and even self-poisoning. Healthy digestion is therefore arguably the cornerstone of good health.

A bit more about digestive enzymes

Digestive enzymes play a central role in healthy digestion. The human body produces around 22 different kinds, each of which acts on a different type of food. They work best at a specific temperature and pH and also have specific sites of action, such as the mouth and stomach.

As mentioned above, these enzymes are used to help break food down into nutrients and waste. The nutrient molecules must be digested into molecules that are small enough to be absorbed through the lining of the small intestine. When we don’t produce enough digestive enzymes to complete this process efficiently, or there are insufficient enzymes available from the foods in our diet, this can lead to what is called partial digestion.

Food that is not properly broken down cannot be absorbed. It can therefore sit fermenting in the stomach and small intestine, or putrefying in the colon. This can, in turn, lead to increased activity of harmful bacteria and parasites in the gut, along with poor nutrient absorption, fatigue, digestive upset, flatulence, bloating and more serious health issues (including food intolerances and allergies).

Digestive enzymes and health

In relation to digestion and nutrition therefore, it is essential to recognise the critical role of enzymes and the importance of having sufficient levels of these. However, according to Dr. Edward Howell, each of us has a finite reservoir of enzyme activity. What’s more, the complex digestive process requires a great deal of enzyme activity to extract nutrients from food and translate these into all the various tasks of the body. Factors such as caffeine and alcohol intake, illness, pregnancy, stress, severe weather and exercise can also all take their toll on our enzyme reserves. Plus, our bodies produce fewer enzymes as we age. By age 35, the production of enzymes in the stomach, pancreas and small intestines begins to decline. Enzyme production in the body decreases by 30% in most adults over 50. It therefore follows that it is sensible to put the least possible strain on the digestive system and its enzyme reserves, both by eating a healthy diet and, in particular, including a high number of enzyme-rich foods in it (such as raw foods, sprouted and/or fermented foods).

Unprocessed whole foods contain most of the enzymes required for digesting that particular food, which can then help to relieve some of the strain on the body when having to produce its own enzymes. Many people also consider digestive enzyme supplements, to support their digestion. In contrast, a diet high in enzyme-poor, highly refined and processed foods can place a significant strain on digestion. The body will try to compensate by producing more of its own digestive enzymes to make up for the lack of external plant enzymes, thereby depleting its own reserves more quickly. Theoretically, the more we can preserve our reservoir of precious enzymes, the better able our bodies will be to protect themselves against ill-health and maintain a healthy balance between activity, repair, immunity and recovery.