Which nutrient provides the most energy. How do carbohydrates, proteins, and fats contribute to our daily energy needs. What are the recommended intake levels for these macronutrients. How do these nutrients impact overall health and bodily functions.

The Role of Carbohydrates as Primary Energy Source

Carbohydrates are one of the six major nutrients and serve as the body’s main source of energy. They come in various forms, including sugars, starches, and fibers. The human body prioritizes carbohydrates as its preferred energy source to sustain cellular activities essential for life.

How much of our daily caloric intake should come from carbohydrates? The Dietary Guidelines for Americans recommend that 45-65% of total daily calories should come from carbohydrates. This translates to about 225-325 grams of carbohydrates per day for someone on a 2000-calorie diet.

Simple vs. Complex Carbohydrates

Carbohydrates can be categorized into two main types:

• Simple carbohydrates: These are quickly absorbed by the body and include sugars found in fruits, milk, and refined sugar products.
• Complex carbohydrates: These take longer to digest and include starches found in whole grains, legumes, and vegetables.

Why are complex carbohydrates often considered healthier? Complex carbohydrates provide a more sustained energy release, help maintain stable blood sugar levels, and often contain more fiber and nutrients compared to simple carbohydrates.

The Importance of Dietary Fiber

Fiber, a type of carbohydrate, plays a crucial role in digestive health. It provides bulk to the diet, promotes normal digestion, and aids in the elimination of waste materials. Additionally, fiber slows down stomach emptying, contributing to a feeling of fullness and potentially aiding in weight management.

How much fiber should we consume daily? The Academy of Nutrition and Dietetics recommends 25 grams of fiber per day for women and 38 grams per day for men.

Proteins: Building Blocks and Energy Source

Proteins are unique among macronutrients due to their nitrogen content. They consist of amino acids and are essential for growth, development, and various regulatory functions in the body. While primarily known for their role in building and repairing tissues, proteins can also serve as an energy source when carbohydrates are scarce.

How much protein do we need daily? The current recommended daily intake for adults is 0.8 grams of protein per kilogram of body weight. However, this amount may increase for children, pregnant women, and highly active individuals.

Complete vs. Incomplete Proteins

Proteins are classified based on their amino acid content:

• Complete proteins: These contain all nine essential amino acids in the necessary proportions. Examples include eggs, dairy, meat, poultry, fish, and soy.
• Incomplete proteins: These lack one or more essential amino acids. Most plant-based proteins fall into this category.

Can vegetarians and vegans meet their protein needs? Yes, by consuming a variety of plant-based protein sources throughout the day, individuals following plant-based diets can obtain all essential amino acids and meet their protein requirements.

Protein Functions Beyond Energy

Proteins serve numerous vital functions in the body, including:

1. Maintaining acid-base balance
2. Transporting vital substances
3. Supporting immune function
4. Enzyme production
5. Hormone regulation

Fats: Dense Energy and Essential Functions

Fats, composed of carbon, hydrogen, and oxygen, are the most energy-dense macronutrient. They provide 9 calories per gram, compared to 4 calories per gram for both carbohydrates and proteins. Beyond energy provision, fats play crucial roles in cell formation, body temperature regulation, and nerve protection.

What percentage of our daily calories should come from fat? Nutritionists recommend that 20-35% of daily calories should come from fat, with an emphasis on unsaturated fats.

Types of Dietary Fats

Dietary fats are categorized into three main types:

• Unsaturated fats: These are usually liquid at room temperature and include monounsaturated and polyunsaturated fats. Examples include olive oil, avocado, and fatty fish.
• Saturated fats: These are typically solid at room temperature and are found in animal products and some tropical oils.
• Trans fats: These are artificially created fats that have been largely phased out of the food supply due to their negative health impacts.

Why are unsaturated fats considered healthier? Unsaturated fats, particularly omega-3 and omega-6 fatty acids, are associated with various health benefits, including improved heart health and reduced inflammation.

Energy Balance and Weight Management

Understanding the energy contribution of each macronutrient is crucial for maintaining a healthy weight. While carbohydrates and proteins provide 4 calories per gram, fats provide 9 calories per gram, making them the most energy-dense nutrient.

How does energy balance affect body weight? When energy intake (from food and drinks) exceeds energy expenditure (through metabolism and physical activity), the excess is stored as body fat, leading to weight gain. Conversely, when energy expenditure exceeds intake, the body uses stored fat for energy, resulting in weight loss.

Basal Metabolic Rate (BMR)

The basal metabolic rate refers to the number of calories your body burns at rest to maintain basic life functions. It accounts for about 60-75% of total daily energy expenditure for most people.

What factors influence BMR? Several factors can affect BMR, including:

• Age (BMR typically decreases with age)
• Body composition (higher muscle mass increases BMR)
• Gender (men generally have a higher BMR than women)
• Genetics
• Hormonal factors

Carbohydrate-Related Health Conditions

While carbohydrates are essential for energy, certain health conditions can affect carbohydrate metabolism or tolerance.

Diabetes Mellitus

Diabetes is a condition characterized by elevated blood glucose levels. It occurs when the body doesn’t produce enough insulin or fails to use insulin effectively.

What are the main types of diabetes? The two primary types of diabetes are:

• Type 1 diabetes: An autoimmune condition where the body doesn’t produce insulin
• Type 2 diabetes: A metabolic disorder where the body becomes resistant to insulin or doesn’t produce enough insulin

Lactose Intolerance

Lactose intolerance is a condition caused by a deficiency in the enzyme lactase, which is necessary to break down lactose, the sugar found in milk and dairy products.

What are the symptoms of lactose intolerance? Common symptoms include:

• Bloating
• Gas
• Abdominal cramps
• Diarrhea

The Importance of a Balanced Diet

While each macronutrient plays a crucial role in our health and energy needs, a balanced diet incorporating appropriate amounts of carbohydrates, proteins, and fats is key to optimal health and well-being.

How can we ensure a balanced intake of macronutrients? Following these guidelines can help:

• Choose whole grains, fruits, and vegetables as primary carbohydrate sources
• Incorporate a variety of lean proteins, including plant-based options
• Focus on healthy fat sources such as nuts, seeds, avocados, and olive oil
• Practice portion control and mindful eating
• Stay hydrated and limit intake of added sugars and highly processed foods

Tailoring Nutrient Intake to Individual Needs

While general guidelines exist for macronutrient intake, individual needs can vary based on factors such as age, gender, activity level, and health status.

When might someone need to adjust their macronutrient intake? Situations that may require tailored nutrient plans include:

• Pregnancy and breastfeeding
• Intense athletic training
• Certain medical conditions (e.g., kidney disease, diabetes)
• Weight loss or muscle gain goals

It’s always advisable to consult with a registered dietitian or healthcare provider for personalized nutrition advice.

The Role of Micronutrients in Energy Metabolism

While macronutrients provide the bulk of our energy, micronutrients play crucial roles in energy metabolism and overall health.

Key Vitamins and Minerals for Energy Production

Several vitamins and minerals are essential for energy production and utilization:

• B-complex vitamins: These play a crucial role in energy metabolism, helping to convert food into usable energy.
• Iron: Essential for oxygen transport in the blood, which is crucial for energy production in cells.
• Magnesium: Involved in hundreds of enzymatic reactions, including those related to energy production.
• Coenzyme Q10: Important for cellular energy production, particularly in the heart, liver, and muscles.

How can we ensure adequate intake of these micronutrients? Consuming a varied diet rich in whole foods, including fruits, vegetables, whole grains, lean proteins, and healthy fats, is the best way to obtain these essential micronutrients.

The Impact of Nutrient Timing on Energy Levels

The timing of nutrient intake can significantly affect energy levels throughout the day.

Pre- and Post-Exercise Nutrition

Proper nutrient timing around exercise can optimize performance and recovery:

• Pre-exercise: Consuming easily digestible carbohydrates can provide readily available energy for the workout.
• Post-exercise: A combination of carbohydrates and protein can aid in recovery and muscle repair.

Balancing Blood Sugar Levels

Maintaining stable blood sugar levels throughout the day can help sustain energy and prevent fatigue. Strategies include:

• Eating regular, balanced meals
• Including protein and fiber with each meal to slow digestion and prevent rapid blood sugar spikes
• Avoiding large amounts of simple sugars, especially on an empty stomach

How does meal frequency affect energy levels? While individual responses may vary, some people find that eating smaller, more frequent meals helps maintain steady energy levels throughout the day.

The Future of Nutrition: Personalized Approaches

As our understanding of nutrition and genetics advances, the field is moving towards more personalized approaches to diet and nutrient intake.

Nutrigenomics

Nutrigenomics is the study of how genes and nutrients interact. This emerging field holds promise for tailoring dietary recommendations based on an individual’s genetic makeup.

Microbiome Considerations

The gut microbiome plays a crucial role in nutrient metabolism and overall health. Research is ongoing to understand how dietary choices can optimize the gut microbiome for better health and energy utilization.

What does the future hold for personalized nutrition? As technology advances, we may see more widespread use of genetic testing, microbiome analysis, and other personalized tools to create highly individualized nutrition plans. However, it’s important to note that this field is still in its early stages, and more research is needed to fully understand and implement these approaches.

Sustainable Nutrition: Balancing Health and Environmental Concerns

As awareness of environmental issues grows, there’s increasing interest in how our dietary choices impact both personal health and the planet.

Plant-Based Diets and Sustainability

Plant-based diets, which emphasize foods derived from plants, are often touted for their potential health and environmental benefits. These diets can be rich in complex carbohydrates, plant proteins, and healthy fats while potentially reducing greenhouse gas emissions associated with food production.

Balancing Nutrient Needs with Environmental Concerns

How can we meet our nutrient needs while minimizing environmental impact? Some strategies include:

• Incorporating more plant-based proteins
• Choosing locally sourced and seasonal foods when possible
• Reducing food waste
• Opting for sustainably sourced animal products when consumed

Is it possible to follow a sustainable diet while meeting all nutrient needs? Yes, with careful planning and attention to nutrient intake, it’s possible to follow a diet that is both nutritionally adequate and environmentally sustainable. However, some individuals may need to pay extra attention to certain nutrients, such as vitamin B12, iron, and omega-3 fatty acids, particularly if following a strict plant-based diet.

Chapter 10: Nutrients that Provide Energy (Carbohydrates, Fats, and Proteins) – HLT 111 – Health and the Young Child – Textbook

Chapter 10: Nutrients that Provide Energy (Carbohydrates, Fats, and Proteins)

Chapter objectives

At the conclusion of this chapter students will be able to

1. Identify the three major nutrient groups and their energy contributions
2. Define the concepts of basal metabolic rate
3.  Describe the relationship between amount of energy consumed and body weight.
4. Describe simple sugars and complex carbohydrates as sources of energy
5. Describe proteins as energy source; explain complete and incomplete proteins
6. Describe unsaturated, monosaturated and poly saturated fats as sources of energy.

Overview

Carbohydrates

Carbohydrates are one of the six major nutrients and the main source of energy. Examples of carbohydrates include sugars, starch, and fiber in the diet. The body’s top priority is to provide enough energy for all cellular activities needed to sustain life. Carbohydrates are the preferred source of energy. If the diet does not provide adequate carbohydrates the body will draw mainly upon proteins for its energy needs.

By eating  adequate amounts of carbohydrates, proteins will be spared to be used for growth, development and regulatory functions of the body. If the diet is too low in carbohydrates, the body cannot break down fats completely, and incomplete fat break down products called ketones are produced and this may lead to Ketosis, a condition frequently encountered in diabetes mellitus, though in this case the cause is failure of the body to utilize carbohydrates rather that inadequate intake.

Fibers are carbohydrates which provide bulk in the diet. Fiber also helps to promote normal digestion and elimination of waste materials. Fibers also provide a feeling fullness by slowing the rate at which the stomach empties.

When the body does not make enough insulin or fails to use insulin correctly, glucose builds up in the bloodstream, a condition called diabetes mellitus. Another condition related to carbohydrate metabolism is called lactose intolerance.  This condition is caused by a lack of the digestive enzyme lactase, which is needed to break down lactose.  People who are lactose intolerant may experience gas, cramping, nausea and diarrhea when they consume dairy products.

Proteins

Protein is an energy-yielding nutrient composed of carbon, hydrogen, oxygen, and nitrogen.

Proteins differs from carbohydrates and fats because of the presence of nitrogen. They are the  building blocks of all protein molecules are amino acids.  Protein is vital to the optimal growth and development of kids. Proteins account for 50% of the dry weight of the human body. Unlike lipids and carbohydrates, proteins are not stored, so they must be consumed daily. Current recommended daily intake for adults is 0.8 grams of protein per kg of body weight (more is needed for children).

The quality of a protein is determined by its ability to provide the 9 essential amino acids.   Proteins from animal sources (eggs, dairy, meat, poultry, and fish) and one vegetable protein (soy) are all considered high-quality because they contain all of the essential amino acids in the necessary proportions. The function proteins includes,

• Maintain acid-base balance
• Maintenance of the correct level of acidity of a body fluid
• Proteins in the blood act as chemical buffers (counteract an excess of acid or base in a fluid)
• Carry vital substances
• Transport lipoproteins (protein linked with fat), iron, and other nutrients, as well as oxygen, chromosomes, and other bundles of protein to other parts of cells
• Provide energy
• Provides the cells with the energy they need to exist

If carbs and fats are lacking, the body uses protein as an energy source

Fats

Fats are made of carbon, hydrogen, and oxygen. Fats supply your body with energy, form your cells, maintain body temperature, and protect your nerves.   A nutrient that provides energy and helps the body store and use vitamins is a fat.  Unsaturated Fats have at least one unsaturated bond in a place where hydrogen can be added to the molecule. Unsaturated fats are usually liquid at room temperature (corn oil, soybean oil, peanut oil).

Unsaturated fats are classified as either monounsaturated fats or polyunsaturated fats. Fats that have all the hydrogen the carbon atoms can hold are called saturated fats. Saturated fats are usually solid at room temperature (butter, ghee, lard, margarine).

Too much saturated fat in your diet can lead to heart disease. Nutritionists recommend that 20-35% of your calories come from fat, primarily unsaturated fat.

[Solved] Which nutrient provides the maximum energy on breakdown?

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RRB JE Previous Paper 11 (Held On: 25 May 2019 Shift 3)

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1. Carbohydrates
2. Fats
3. Fibres
4. Proteins

Option 2 : Fats

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Fat is the correct answer.

• Fats:
  • Fats are the slowest source of energy but the most energy-efficient form of food.
  • Fat molecules consist of primarily carbon and hydrogen atoms and some of them essential for diet.
  • Fats provide a source of concentrated energy as well as the fat-soluble vitamins A, D, E, and K.
  • It is needed for hormone metabolism, healthy skin and hair, tissue repair, protecting the internal organs and to prevent excessive loss of body heat.
• Carbohydrate:
  • A carbohydrate is an organic compound that consists only of carbon, hydrogen, and oxygen, usually with a hydrogen: Oxygen: atom ratio 2:1.
  • The body uses carbohydrates to make glucose which is the fuel that gives energy and helps keep everything going.
  • The body can use immediately or store it in the liver and muscles for when it is needed. Glucose is a carbohydrate which is the major fuel for the cells in the body.
• Proteins:
  • Proteins, building blocks of life, are compounds of carbon, oxygen, hydrogen and nitrogen.
  • Majority of proteins contain sulphur.
  • It is made up of numerous monomers, the amino acids, which are joined together by peptide bonds.
  • It is a major part of skin, muscles, organs, and glands and also found in all body fluids, except bile and urine.
• Fibres:
  • Fibre is the indigestible parts of plant foods, such as vegetables, fruits, grains, beans and legumes. It is a type of carbohydrate that helps keep our digestive systems healthy.

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Carbohydrates | Tervisliku toitumise informatsioon

Carbohydrates are the main source of energy in the body. Energy from dietary carbohydrates comes primarily from starches and sugars, and to a lesser extent from dietary fiber and sugar alcohols.

The main sources of carbohydrates are cereals and potatoes. Fruits, fruit juice, berries and milk also contain sugars (mono- and disaccharides). Sweets, sugary drinks, fruit syrups, sweetened confectionery, and flavored dairy products are major sources of added sugars. Added sugars are sugars added to foods during processing or preparation.

Carbohydrate and sugar are not the same thing. Sugar is a conventional term used primarily for sucrose (so-called table sugar) as well as other water-soluble, sweet-tasting simple carbohydrates (mono- and disaccharides such as glucose, fructose, lactose, maltose).

• Carbohydrates should cover 50-60% of the daily dietary energy requirement.
• Energy from added sugar should not exceed 10% of daily dietary energy.

A person with a daily energy requirement of 2000 kcal per day should consume: 0.5 x 2000 kcal / 4 kcal = 250 g to 0.6 x 2000 / 4 kcal = 300 g of carbohydrates. With a daily energy requirement of 2500 kcal, the recommended daily amount of carbohydrates is 313-375 g, with 3000 kcal – 375-450 g.

Our body, and especially the brain, needs a constant supply of glucose to ensure the efficiency and effectiveness of its work. With a prolonged lack of carbohydrates, the body begins to synthesize glucose from its own proteins, which significantly reduces its protective ability against environmental factors.

In terms of nutritional value, carbohydrates are divided into two large groups:

Carbohydrates perform many functions in the body:

• are the main source of energy in the body: 1 gram of carbohydrates = 4 kcal0014
• are part of cells and tissues,
• determine the blood type,
• are part of many hormones,
• perform a protective function in the composition of antibodies,
• play the role of a reserve substance in the body: glycogen accumulated in the liver and muscles is a temporary reserve glucose, which the body can easily use if necessary,
• Dietary fiber is essential for the proper functioning of the digestive system.

Main carbohydrates and their best sources:

Mono- and disaccharides*, i.e. simple carbohydrates, i.e. sugars
Glucose, or grape sugar	honey, fruits, berries, juices
Fructose or fruit sugar	fruit, berries, juices, honey
Lactose or milk sugar	milk and dairy products
Maltose or malt sugar	cereal products
Sucrose or table sugar	sugar cane, sugar beet, table sugar, sugar-containing products, fruits, berries
Oligosaccharides
Maltodextrin	is produced from starch and is used primarily as a dietary supplement. Also found in beer and bread
Raffinose	legumes
Polysaccharides
Starch	potatoes, grains Fresh products, rice, pasta
Dietary fibers (cellulose, pectin)	cereals, fruits

fiber is found only in plants, for example, cellulose and pectin are found mainly in whole grains foods, fruits and vegetables, and legumes.

Microorganisms living in the intestines are able to partially break down dietary fiber, which is food for the microbes of the digestive tract, which in turn are important for the defenses of the human body.

Dietary fiber:

• ​increases the volume of food porridge, thereby causing a feeling of satiety,
• accelerates the movement of food through the small intestine,
• helps prevent constipation and may prevent some forms of cancer, cardiovascular diseases and diabetes II types,
• facilitate the removal of cholesterol from the body,
• slow down the absorption of glucose, preventing too sharp an increase in blood sugar levels,
• help maintain normal body weight.

Dietary fibers are not absorbed in the body, but due to partial decomposition in the intestines under the influence of the microflora of the digestive tract, they form fatty acids with a short molecular chain and provide about 2 kcal/g of energy.

Dietary fiber can be divided into water-soluble and insoluble. Since they perform different functions, you should consume foods containing both types of dietary fiber daily:

• Oats, rye, fruits, berries, vegetables and legumes (peas, lentils, beans) are good sources of water-soluble dietary fiber.
• Whole grains (rye bread, whole wheat bread, sepik, cereals, whole grain cereal, whole grain rice) are good sources of water-insoluble dietary fiber.

An adult should receive 25 to 35 g of dietary fiber per day, depending on the daily energy requirement (approx. 13 g of dietary fiber per 1000 kcal).

The recommended daily amount of dietary fiber for a child older than one year is 8-13 g per 1000 kcal of energy intake. The recommended daily amount for a child can be roughly calculated using the formula “age + 7”. Excessive consumption of dietary fiber is not recommended, since there is a danger that any mineral substance necessary for the body will be bound in a sparingly soluble compound, and the body will not be able to absorb it.

Recommendations for increasing intake of foods rich in starch and dietary fiber:

• When choosing a main course, opt for whole grain pasta or rice and less sauce.
• For sausages with boiled potatoes, use more potatoes and fewer sausages.
• Add beans and peas to stews, vegetable casseroles or stews. This will increase the content of dietary fiber in the dish. By acting in this way, you can eat less meat, meals become more economical, and the amount of saturated fatty acids consumed is also reduced.
• Prefer whole grain rye and wheat bread.
• Choose whole-grain rice: it contains a lot of dietary fiber.
• Eat whole grain cereal for breakfast or mix it into your favorite cereal.
• Porridge is a great warming winter breakfast, whole grain oatmeal with fresh fruits, berries and yogurt is a refreshing summer breakfast.
• Eat 3-5 slices of whole grain rye bread a day.
• Eat at least 500 g of fruits and vegetables per day.

Sugar

Most people tend to consume too much sugar because they eat a lot of sweets, cakes, pastries and other sugar-rich foods, drink soft drinks and juice drinks. The sugars found in unprocessed foods like fruit and milk are not to be feared. First of all, you should reduce the consumption of food containing added sugar.

Sugar is added to many foods, but most of all it contains:

• soft drinks and juice drinks: for example, 500 ml of lemonade can contain up to 50 g, i.e. 10-15 teaspoons of sugar,
• sweets, sweets, biscuits,
• jams,

The main disadvantages of many sugar-rich foods are, on the one hand, their relatively high energy content, and, on the other hand, their generally rather low content of vitamins and minerals. In addition, many sugar-laden foods are also high in fat, such as chocolate, cookies, muffins, cakes, and ice cream.

Sugar-rich foods and drinks can damage your teeth if you do not pay enough attention to oral hygiene. Teeth should be thoroughly brushed at least 2 times a day, and cleaned between meals, for example, with chewing gum. While the sugars found in fruit aren’t that bad for teeth, they’re already broken down in juices and are just as bad for teeth as any other sugar-rich food, especially if eaten frequently. Drinking a glass of fruit juice a day is still recommended (and preferably with food), as it enriches our table with vitamins, minerals and phytochemicals.

Eating less sugar is a solution!

What is the main source of energy in the human body?

April 19, 2018

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Carbohydrates are the main source of energy

It has long been known that nothing in the world arises from the void and does not disappear into nowhere. This fully applies to our energy reserves. Let’s try to figure out what is the main source of energy in the human body and what ways to replenish it can be called the most effective.

In contrast to the plant world, which successfully uses the method of photosynthesis to convert solar energy, a person is deprived of such an opportunity. Therefore, we need to use food of plant and animal origin. At the same time, do not forget to take into account that all products differ in their energy value (not to mention the ability to work both for good and for harm).

Discussion of the calorie content of certain dishes has long been on everyone’s lips. But what is it like in ordinary language? In fact, everything is quite easy. A calorie is a unit of energy that has a simple calculation formula: the amount of heat that raises the temperature of 1 gram of water by 1 degree. Accordingly, caloric content (it is also energy value) is the amount of energy that our body is able to acquire with the full assimilation of what is eaten.

Proteins, fats and carbohydrates are a complex of essential nutrients. At the same time, the role of the key energy “supplier” is assigned to carbohydrates, the level of which differs in different products. In addition, they are usually divided into simple (fast) and complex (slow) – we will talk about the features of each type later. Lean meats and fish are high-protein foods, while oils (both vegetable and animal) are a source of fat, for example.

Various trace elements and vitamins are also integral components, however, they primarily serve the processes of energy metabolism.

There is simply no universal formula that allows you to establish the exact amount (or ratio) of BJU for each, since the individual characteristics of each of us, as well as factors such as height, weight, metabolic rate, daily activity, lifestyle, bad habits, the regularity of playing sports – all this directly affects what the diet should be. Some general dependencies, of course, exist – for example, for people who are actively involved in sports training, the daily consumption rate can be quite high. And people who set themselves the goal of losing weight often make a serious mistake, thinking that it is enough to reduce the amount of calories consumed. Most often, this does not lead to any results in cases where physical activity is minimal. Lack of physical education in combination with a sedentary lifestyle, even with a minimum calorie content of food consumed, can not only not affect the situation with excess weight for the better, but also contribute to its further gain.

Let’s take a closer look at the mechanics of converting food into energy. After entering the stomach, the process of digestion of food is started, which does not stop even with its further advancement into the intestines (which is why the entire system is called the gastrointestinal system). Its purpose is to break down food into elements, some of which enters the bloodstream. It is worth noting that not all the energy received is immediately used by us. Some part plays the role of a reserve, being converted, including into fat. The less we move, the fewer calories we burn, the more intensively the fat layer increases.

At the beginning of the article, we mentioned simple and complex carbohydrates. It is time to remember them and explain the difference. The essence of the former lies already in the designation – their digestion occurs as quickly as possible, without additional efforts, moreover, the same applies to their assimilation. This is where their main negative property manifests itself – they increase appetite, provoking overeating and, as a result, accelerated weight gain. All types of sugar are simple varieties, so it is so easy to get fat from sweet and flour products, and you really want to eat “one more” cake.

Complex carbohydrates also go through the process of breaking down into glucose, however, it takes much longer. Thanks to them, we feel a feeling of fullness, at the same time some of them – starch and glycogen – supply us with energy. During meals, the level of glucose in the blood rises and it is in the form of glycogen that its excess amount is absorbed in the muscles and liver “in reserve”.