Determination Of Active Sweet Components Of Common Artificial Sweeteners That Are Used As Replacement For Sugar

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Determination Of Active Sweet Components Of Common Artificial Sweeteners That Are Used As Replacement For Sugar

ABSTRACT

This research investigated how the sweetness of sugar substitute compares to the sweetness of sugar. In this research different percentage solution of sugar, artificial sweetener and natural sweetener (10%, 1%, 0.1% and 0.01%) were prepared. Ten volunteers were gathered for the sensory evaluation in this case tasting of the solution, the vol. The artificial sweetener was found out to be the sweetest among the substances experimented and at the percentage of 0.1% and 0.01% saccharin an artificial sweetener was able to mimic the taste of sugar. Research prove that artificial sweetener are non-nutritive they have virtually no calories in contrast to sugar which contains 4 calories at each gram, a teaspoon of sugar is about 4 grams, for weight lose artificial sweetener may be an attractive option to sugar. Artificial sweetener may also be a good alternative for diabetic patient, unlike sugar; artif blood sugar levels because they are not carbohydrates.

TABLE OF CONTENTS

CHAPTER ONE

1.0 Introduction

1.1Research aim and objectives

1.2 Significance of study 5

CHAPTER TWO

Review of literature

2.0 Table sugar (sucrose)

2.1Classification of sugar

2.1.1Mechanism of action in the body

2.1.2 Sugar alcohols and novel sweeteners

2.1.3 Advantages and disadvantages of sugar

2.2 Artificial sweetener

2.2.1 Advantages and disadvantages of artificial sweetener

2.2.2 Reasons for use

2.2.3 Differences btw sugar and artificial sweetener

2.2.4 Biochemical reaction of artificial sweetener

2.3 Aspartame

2.4 Sucralose

2.5 Saccharin

2.6 Stevia

2.7 Erythritol

2.8 Honey

CHAPTER THREE

3.0 Materials and methods

3.1 Equipment/apparatus used

3.2 Methodology

3.3 Testing the solutions

CHAPTER FOUR

4.0 Result

4.1 Volunteer‟s taste

4.2 Volunteer‟s taste

4.3 Volunteer‟s taste

4.4Total number of people who detected a change in taste

4.5 Degree of sweetness

CHAPTER FIVE

Discussion and conclusion

References

Appendix

List of tables

Table 4.1

Table 4.2

Table 4.3

Table 4.4

Table 4.5

CHAPTER ONE

1.0 INTRODUCTION:

A sugar substitute is a food additive that duplicates the effect of sugar in taste, usually with less food energy. Some sugar substitutes are natural and some are synthetic. Those that are not natural are in general, called artificial sweeteners. Artificial sweeteners and other sugar substitutes are found in a variety of food and beverages marketed as sugar free or diet including soft drinks, chewing gum, jellies, baked goods, candy, fruit juice and ice-cream and yoghurt. [Whitney 2011]

People may not all like the same kind of baked treats but one thing we all agree on is that baked treats should be sweets usually, sugar is used to lend sweetness to foods but would cake taste just as good if the baker used a sugar substitutes instead of sugar? Many people prefer not to use sugar often due to health reasons and instead depend on sugar substitutes to sweeten their foods. But are sugar substitutes the same as sugar? What exactly are the differences between sugar and sugar substitutes?

Sugar also known as sucrose comes from plants like sugar cane and sugar beets and is a carbohydrate. Sugar adds bulk to cakes, cookies and all kinds of treats; sugar also causes browning and caramelizing in foods when it is heated as when cookies turn golden brown in the oven sugar is a natural substance, something that our bodies can use for energy.

Sugar substitutes come in three categories; artificial sweeteners, sugar alcohols and natural sweeteners. Artificialsweeteners are attractive because they add almost no calories to foods and are sometimes a part of weight loss programs. Also they donot increase blood sugar levels which mean that diabetics can use them. Many artificial sweeteners like sucralose were discovered by accident in the laboratory. In 1976, a scientist in England was studying different compounds made from sugar. The scientist asked a student to test the compounds but instead the student tested them. Another category of sugar substitutes is sugar alcohols. Sugar alcohols are not alcoholic beverages they do not contain ethanol which is found in alcoholic beverages. Sugar alcohols like sugar have calories and energy but not asmuch as sugar. Sugar alcohols like artificial sweeteners do not contribute to tooth decay and affect blood sugar levels slowly so diabetics can use them. Although sugar alcohols like xylitol, sorbitol and erythritol are manufactured products the sources are often natural.

The last category of sugar substitutes is called natural substitutes. The categories include maple syrup, agave nectar and honey. These substances are absorbed by our digestive system and contain calories and nutrients that our bodies can use. [Michelle 2002]

The chart lists some popular sugar categorized:

Artificial

Sugar alcohols

Novel

Natural

sweeteners

sweeteners

sweeteners

Acesulfame

potassium

Erythritol

Stevia

extracts

Agave nectar

(sunett,sweet

(pure via, truvia)

one)

Aspartame

Hydrogenated

Tegatose

Date sugar

(Equal,

starch

(Naturlose)

Nutrasweet)

hydrolysate.

Neotame

Isomalt

Trehalose

Fruitjuice

concentrate

Saccharin

Lactitol

Honey

(sugartwin, sweet

“N” low

Sucralose

Maltitol

Maple syrup

(splenda)

Mannitol

Molasses

Sorbitol

Xylitol

1.1 AIM AND OBJECTIVES OF THE STUDY

AIM: To create an alternative to sugar by replicating the sweetnessfound in natural sugar.

Objectives:

To determine how the sweetness of sugar substitutes compare to the sweetness of sugar. In this research sugar and sugar substitutes will be tested and the sweetness will be compare in relation to sugar.

To compare the availability and affordability of the active components in the artificial sweetener and sugar

To know the components of this artificial sweetener and what makes them taste sweet

1.2 SIGNIFICANCE OF STUDY

Artificial sweetener mimicking the taste of sugar will be a better alternative to people who are suffering from diabetics. Unlike sugar, artificial sweeteners generally don‟t raise blo carbohydrates.

CHAPTER TWO

REVIEW OF LITERATURE

2.0 TABLE SUGAR (SUCROSE): Sugar was brought to the Americas by Christopher Columbus. At the time, sugar was processed by boiling the cane juice and then harvesting the crystals left behind after the water evaporated. These crystals contained protein, fiber, vitamins and minerals. Sugar is generally extracted from plants sugar beet and sugar cane or a main ingredient in many foods and recipes available as sucrose or saccharose (household sugar), lactose (milk sugar), fructose (fruit sugar), glucose (dextrose). [Abishak, 2009] .

2.1 CLASSIFICATION OF SUGAR:

Raw sugar: It is interesting to note that raw sugar is already refined. Only sugars from evaporated cane juice can be classified as truly raw or unrefined sugars. Sugars can come from other sources as well such as beets and fruit, once the cane juice crystals are harvested; they are washed, boiled, centrifuged, filtered and dried. The purpose of this is to remove all the original plant materials (stalk, fiber etc.) to produce pure sugar.

This process removes most of the fiber and nutrients that existed in the original crystals. The sugar then becomes refined and is now a food high in calories with little nutritional value.

Refined sugar: several centuries ago, refined sugars were expensive to produce and were also taxed at a higher rate. Refined sugar is derived from cane juice but is extremely processed with many of the natural enzymes, vitamins, minerals and fiber removed.

Natural sugar: natural sweeteners include; barley malt, evaporated cane juice before it is refined, fruit juice, rice, syrup honey and sugar alcohols. [Wikipedia 2013]

2.1.1 MECHANISM OF ACTION IN THE BODY

Sucrose is the organic compound commonly known as table sugar and sometimes called saccharose. A white, odorless, crystalline powder with a sweet taste. The molecule is a disaccharide composed of the monosaccharide, glucose and fructose. Glucose is a carbohydrate and is the most important simple sugar in human metabolism. In living organisms the oxidation of glucose contributes to a series of complex biochemical reactions which provide the energy needed by cells. The first step in the breakdown of glucose in all cells is glycolysis, producing pyruvate which is the starting point for all other processes in cellular respiration. In cells where oxygen is present (aerobic respiration) these processes have been modeled in the TCA cycle. A major part of the use of the energy from glucose oxidation is the conversion of ADP to ATP with the energy rich molecule. ATP being subsequently used as the energy currency of the cell. [Jeremy, 2013] .

2.1.2 SUGAR ALCOHOLS AND NOVEL SWEETENER

Sugar alcohols (polyols) are carbohydrates that occur naturally in

certain fruits and vegetables, but they are also manufactured. They‟re not considered intense sweeteners, becaus some are less sweet than sugar.

Sugar alcohols aren‟t considered non because they contain calories,.Despitetheir but t name sugar alcohols aren‟t alcoholic found in alcoholic beverages.

Novel sweeteners are combinations of various types of sweeteners. Novels sweeteners such as stevia are hardtop fit into one particular category because of what they‟re made from and how the are considered novel sweeteners because of their chemical structure.

Tagatose is a low carbohydrate sweetener similar to fructose that occurs naturally but is also manufactured from lactose in dairy products.

[Mayo, 2012]

USES OF SUGAR ALCOHOL

Sugar alcohols generally aren‟t used they are found in many processed foods and other product including chocolate, candy, baked goods etc. usually replacing sugar on an equal basis. When added to foods sugar alcohols add sweetness, bulk and texture.

They also help food stay moist, prevent browning when heated and add a cooling sensation to products. Sugar alcohols are often combined with artificial sweeteners to enhance sweetness. [Mayo,2013] .

2.1.3 ADVANTAGES AND DISADVANTAGES OF SUGAR

ADVANTAGES: Natural sugar is a direct form of glucose, which is required for the body to function. Insulin breaks down glucose or blood sugar and converts it into energy for the body to use, sugar in its natural or refined form is an easily digestible carbohydrate and a quick source of energy for the body.

DISAVANTAGES: There are many health concerns over sugar. Large amounts of sugar are required to make food sweet and because sugar contains a lot of calories, the body absorbs more calories and fat into its system. Similarly regularly eating food containing natural, refined or processed sugar increases the blood sugar intake and can result in type II diabetes, where the insulin in the body is inadequate to break up the amount of sugar in the bloodstream [Mayo, 2012] .

2.2 ARTIFICIAL SWEETENERS

Artificial sweeteners are synthetic sugar substitutes but may be derived from naturally occurring substances including herbs or sugar itself. Artificial sweeteners are also known as intense sweeteners because they are many times sweeter than regular sugar. Artificial sweeteners are chemical compositions and are not naturally in foods or naturally produced or extracted. There are a variety of artificial sweeteners available such as aspartame, saccharin, sucralose, neotame which are sold under brand names but can be identified by the chemical name on food packages. All artificial sweeteners must be approved by the Food and Drug Administration. [Whitney et al, 2011] .

2.2.1 ADVANTAGES AND DISAVANTAGES

ADVANTAGES: Artificial sweetener can be chemically composed to be low in calories. Natural, refined or processed sugar is generally full of calories and large amounts of sugar are required to sweeten food, artificial sweetener, however is much sweeter than sugar up to 400 times sweeter and low in calories therefore less artificial sweetener is needed to make food sweet.

DISADVANTAGES: Artificial sweetener is a chemical compound and there has been concern about the bo compounds to natural sugar. Artificial sweeteners despite being lower in calories also provide less energy for the body to use. There are also concerns of side effects from consumingartificial sweeteners; aspartame for example contains 50 percent phenylalanine, 40 percent aspartic acid and 10 percent methanol which are considered dangerous neurotoxins. [Mayo, 2011] .

2.2.2 REASONS FOR USE

To assist in weight loss: Some people chose to limit their food energy intake by replacing high energy. Sugar or corn syrup with other sweeteners having little or no food energy. This allows them to eat the same foods they normally would, while allowing them to lose weight and avoid other problems associated with excessive calorie

 

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