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Theory & Procedure, Detection of Sugar in Urine | Additional Study Material for NEET PDF Download

Objective

Our objective is to detect the presence of sugar in the given sample of urine.

Theory

A large volume of volatile and non-volatile waste products is produced by different metabolic processes in the body. Urine is a liquid byproduct produced in animal and human bodies.  It is produced in the kidneys through a process called urination and is excreted through the urethra. Urination is the primary method of excreting water-soluble chemicals from the body.

Let’s discuss some characteristics of urine.

Normal urine usually has a light yellow colour, due to the presence of a yellow pigment called Urochrome. Average production of urine in adult humans is 2 liters per day, depending upon various conditions. The pH of urine varies between 4.6-8 and the specific gravity of urine varies between 1.010-1.40.
Now let’s see, what are the constituents of urine?

Normal Constituents of Urine

Actually, normal urine is a highly complex aqueous solution of organic and inorganic substances. Urine consists of about 95-96% water. The most important nitrogenous organic substances present in urine are urea, uric acid and creatine. The other organic substances are oxalic acid and lactic acid. The principle inorganic constituents of urine are sodium chloride, potassium chloride, sulphates and phosphates.

Abnormal Constituents of Urine

The abnormal constituents of urine are sugar (glucose), ketone bodies, blood, protein and bile.  Ordinarily, glucose (sugar) is absent in normal urine. But when the glucose level in blood exceeds the renal threshold of glucose (160 – 180 mg /dl), glucose starts to appear in urine. The presence of glucose in urine is called glucosuria and is usually an indication of diabetes mellitus.

Generally the following two tests are used to test the presence of sugar in urine sample.

  • Benedict’s Test
  • Fehling’s Test

In Benedict’s test, Benedict’s solution is used as the reagent.  Benedict’s reagent is a combination of sodium carbonate, sodium citrate and copper (II) sulphate pentahydrate (CuSO4.5H2O). In Fehling’s test, Fehling’s solution-A and Fehling’s solution-B are used as the reagents. Fehling’s solution-A is an aqueous solution of copper (II) sulphate, having blue colour, while Fehling’s solution-B is clear colourless aqueous solution of sodium potassium tartrate.
On boiling the urine sample with the reagents, the copper (II) sulphate (CuSO4) present in the Benedict’s solution and Fehling’s solution is reduced by the reducing agent, glucose (sugar), to form a coloured precipitate of cuprous oxide.

Theory & Procedure, Detection of Sugar in Urine | Additional Study Material for NEET

Depending upon the concentration of glucose, green, yellow and brick red precipitates of cuprous oxide are formed. Below is the table showing the color sequence depending upon the concentration of glucose level.

Colour of precipitate
Percentage of sugar present
Blue    
sugar absent
Green    
0.5 to 1%
Yellow    
1 to 2 % sugar
Brick Red
2 % or more sugar

Learning outcomes

  • Students understand the characteristics of urine.
  • Students understand the normal and abnormal constituents of urine.
  • Students understand the test to detect the presence of sugar in urine sample.
  • Students will be able to do the experiment more accurately in the real lab once they understand the steps through the animation and simulation.

Benedict's Test

Materials required:

Test tube, test tube holder, urine sample, measuring cylinders, Benedict’s solution and burner.

Procedure:

  • Take 2 ml urine sample in a measuring cylinder from the urine sample bottle.
  • Take a test tube and pour the urine sample in it.
  • Take 5 ml Benedict’s reagent in a measuring cylinder.
  • Add Benedict’s reagent to the test tube that contains urine sample.
  • Using a test tube holder, hold the test tube firmly and heat it for 2 minutes on the burner.
  • Keep shaking the test tube while heating.
  • A yellow precipitate appears which indicates the presence of sugar in urine.
  • Depending upon the concentration of sugar in the urine, either green, yellow, or brick red precipitates are formed.

Fehling's test

Materials required

Test tube, test tube holder, urine sample, measuring cylinders, Fehling’s solution A, Fehling’s solution B and burner.

Procedure

  • Take 2 ml urine sample in a measuring cylinder from the urine sample bottle.
  • Take a test tube and pour the urine sample in it.
  • Take 2 ml Fehling’s solution A in a measuring cylinder.
  • Add Fehling’s solution A to the test tube that contains urine sample.
  • Take 2 ml Fehling’s solution B in a measuring cylinder.
  • Add Fehling’s solution B to the test tube that contains urine sample.
  • Using a test tube holder, hold the test tube firmly and heat it gently for 2 minutes on the burner.
  • Keep shaking the test tube while heating.
  • A green precipitate appears which indicates the presence of traces of sugar in urine.
  • Depending upon the concentration of sugar in the urine, either green, yellow or brick red precipitates are formed.

Simulator Procedure (as performed through the Online Labs)

You can select the test from the ‘Select type of test’ drop down list.

Benedict's Test

  • Drag the dropper containing Benedict’s reagent towards the test tube to pour the reagent into it.
  • Click on the knob of the burner to turn it on.
  • Drag the test tube towards the burner to heat it.
  • Click on the information icon to see the inference.
  • You can redo the experiment by clicking on the ‘Reset’ button.

Fehling’s Test

  • Drag the dropper containing the Fehling’s reagent A towards the test tube to pour the reagent into it.
  • Drag the dropper containing the Fehling’s reagent B towards the test tube to pour the reagent into it.
  • Click on the knob of the burner to turn it on.
  • Drag the test tube towards the burner to heat it.
  • Click on the information icon to see the inference.
  • You can redo the experiment by clicking on the ‘Reset’ button.
The document Theory & Procedure, Detection of Sugar in Urine | Additional Study Material for NEET is a part of the NEET Course Additional Study Material for NEET.
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FAQs on Theory & Procedure, Detection of Sugar in Urine - Additional Study Material for NEET

1. What is the theory behind the detection of sugar in urine?
Ans. The theory behind the detection of sugar in urine is based on the fact that in normal physiological conditions, there should be no sugar present in urine. However, in certain medical conditions such as diabetes, the body may not be able to regulate blood sugar levels properly, leading to the presence of sugar in urine. This can be detected through various laboratory tests.
2. What is the procedure for detecting sugar in urine?
Ans. The procedure for detecting sugar in urine involves collecting a urine sample and performing a urine glucose test. This test can be done using test strips or a specialized glucose meter. The test strips or glucose meter are designed to detect the presence of glucose in urine. The urine sample is applied to the test strip or inserted into the glucose meter, and the results are then interpreted based on the color change or digital display provided by the test strip or meter.
3. Why is the detection of sugar in urine important for NEET exam preparation?
Ans. The detection of sugar in urine is an important topic for NEET exam preparation because it relates to the understanding of various medical conditions, particularly diabetes. Diabetes is a common and chronic disease, and the ability to detect sugar in urine is essential for diagnosing and monitoring this condition. As NEET is a medical entrance exam, having knowledge about the detection of sugar in urine will be beneficial for aspiring medical professionals.
4. What are the possible causes of sugar in urine other than diabetes?
Ans. While diabetes is the most common cause of sugar in urine, there can be other possible causes as well. Some of these causes include pregnancy, certain medications, kidney diseases, hormonal disorders, and rare genetic conditions. It is important to consider these alternative causes when interpreting the presence of sugar in urine to ensure accurate diagnosis and appropriate medical management.
5. Are there any limitations or factors that can affect the accuracy of sugar detection in urine?
Ans. Yes, there are certain limitations and factors that can affect the accuracy of sugar detection in urine. One limitation is that the concentration of sugar in urine may not directly reflect the blood sugar levels. Additionally, the timing of the urine sample collection, diet, medications, and hydration status can influence the results. It is important to follow specific instructions provided by healthcare professionals and consider these factors when interpreting the results of sugar detection in urine.
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