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Information about Blood Glucose

Blood sugar is a term used to refer to the amount of glucose in the blood. Glucose, transported via the bloodstream, is the primary source of energy for the body's cells.

Blood sugar concentration, or glucose level, is tightly regulated in the human body. Normally, the blood glucose level is maintained between about 4 and 8 mmol/L (70 to 150 mg/dL). The total amount of glucose in the circulating blood is therefore about 3.3 to 7g (assuming an ordinary adult blood volume of 5 liters). Glucose levels rise after meals and are usually lowest in the morning, before the first meal of the day.

Failure to maintain blood glucose in the normal range leads to conditions of persistently high (hyperglycemia) or low (hypoglycemia) blood sugar. Diabetes mellitus, characterized by persistent hyperglycemia of several causes, is the most prominent disease related to failure of blood sugar regulation.

Though it is called "blood sugar" and sugars besides glucose are found in the blood, like fructose and galactose, only glucose levels are regulated via insulin and glucagon.

Glucose measurement

Sample type

Glucose can be measured in whole blood, serum, or plasma. Historically, blood glucose values were given in terms of whole blood, but most laboratories now measure and report the serum glucose levels. Because RBC (erythrocytes) have a higher concentration of protein (i.e. hemoglobin) than serum, serum has a higher water content and consequently more dissolved glucose than does whole blood. To convert from whole-blood glucose, multiply the value by 1.15 to give the serum/plasma level.

Collection of blood in clot (red-top) tubes for serum chemistry analysis permits the metabolism of glucose in the sample by blood cells until separated by centrifugation. Higher than normal amounts of white or red blood cell counts can lead to excessive glycolysis in the sample with substantial reduction of glucose level if the sample is not processed quickly. Ambient temperature at which the blood sample is kept prior to centrifugation and separation of Plasma/Serum also affects glucose levels. At refrigerator temperatures, glucose remains relatively stable for several hours in the blood sample. At room temperature (25°C), a loss of 1 to 2% of glucose per hour should be expected. The loss of glucose levels in aforementioned conditions can be prevented by using Fluoride top (gray-top) as the anticoagulant of choice upon blood collection, as Fluoride inhibits glycolysis. However, this should only be used when blood will be transported from one hospital laboratory to another for glucose measurement. Red-top serum separator tubes also preserve glucose in samples once they have been centrifugated to isolate the serum from cells, this tube would be the most efficient. Particular care should be given to drawing blood samples from the arm opposite the one in which an intravenous line is inserted, to prevent contamination of the sample with intravenous fluids (IV). Alternatively, blood can be drawn from the same arm with an IV line after the IV was turned off for at least 5 minutes and the arm is elevated to drain the infused fluids away from the vein. As little as 10% contamination with 5% dextrose (D5W) will elevate glucose in a sample by 500mg/dl or more. Arterial, capillary and venous blood have comparable glucose levels in a fasting individual, whereas after meals venous levels are lower than capillary or arterial blood.

Methodology

There are two different major methods that have been used to measure glucose. The older one is a chemical method that exploits the nonspecific reducing property of glucose in a reaction with an indicator substance that acquires or changes color on its reduction. Since other blood compounds also have reducing properties (e.g., urea, which can build up in uremic patients), this method can have erroneous measurements up to 5 to 15 mg/dl. This is solved by the Enzymatic methods that are highly specific for glucose. The two most common employed enzymes are glucose oxidase and hexokinase.

I. CHEMICAL METHODS
A. Oxidation-Reduction Reaction
1. Alkaline Copper Reduction
Folin Wu MethodBlue end-product
Benedict's method
  • Modification of Folin wu for Qualitative Urine Glucose
Nelson Somoygi MethodBlue end-product
Neocuproine Method*Yellow-orange color Neocuproine
Shaeffer Hartmann Somygi
  • Utilizes the principle of Iodine reaction with Cuprous byproduct.
  • Excess I2 is then titrated with thiosulfate.
2. Alkaline Ferricyanide Reduction
Hagedorn JensenColorless end product; other reducing substances interfere with reaction
B. Condensation
Orht-touidine Method
Anthrone (Phenols) Method
  • Forms hydroxymethyl furfural in hot acetic acid
II. ENZYMATIC METHODS
A. Glucose Oxidase
Saifer Gernstenfield MethodInhibited by reducing substances like BUA, Bilirubin, Glutathione, Ascorbic Acid
Trinder Method
Kodak Ektachem
  • A Dry Chemistry Method
  • Uses Reflectance Spectrophotometry to measure the intensity of color through a lower transparent film
Glucometer
  • Home monitoring blood glucose assay method
  • Uses a strip impregnated with a Glucose Oxidase reagent
B. Hexokinase
  • NADP as cofactor
  • NADPH (reduced product) is measured in 340 nm
  • More specific than Glucose Oxidase method due to G-6PO_4, which inhibits interfering substances except when sample is hemolyzed

Laboratory tests commonly employed

  1. Fasting Blood Sugar or Glucose test (FBS)
  2. Urine Glucose test
  3. Two-hr Postprandial Blood Sugar Test (2-h PPBS)
  4. Oral Glucose Tolerance test (OGTT)
  5. Intravenous Glucose Tolerance test (IVGTT)
  6. Glycosylated Hemoglobin (HbA1C)
  7. Self-monitoring of Glucose level via Home Kits

Clinical correlation

The fasting blood glucose (FBG) level is the most commonly used indication of overall glucose homeostasis. Conditions that affect glucose levels are shown in the table below. They reflect abnormalities in the multiple control mechanism of glucose regulation.

The metabolic response to a carbohydrate challenge is conveniently assessed by the postprandial glucose level drawn 2 hours after a meal or a glucose load. In addition, the glucose tolerance test, consisting of serial timed measurements after a standardized amount of oral glucose intake, is used to aid in the diagnosis of Diabetes.

Causes of Abnormal Glucose Levels
Persistent Hyperglycemia Transient Hyperglycemia Persistent Hypoglycemia Transient Hypoglycemia
Reference Range, FBG: 70-110 mg/dl
Diabetes MellitusPheochromocytomaInsulinomaAcute Alcohol Ingestion
Adrenal cortical hyperactivity Cushing's SyndromeSevere Liver DiseaseAdrenal cortical insufficiency Addison's DiseaseDrugs: salicylates, antituberculosis agents
HyperthyroidismAcute stress reactionHypopituitarismSevere Liver disease
AcromegalyShockGalactosemiaSeveral Glycogen storage diseases
ObesityConvulsionsEctopic Insulin production from tumorsHereditary fructose intolerance

Health effects

If blood sugar levels drop too low, a potentially fatal condition called hypoglycemia develops. Symptoms may include lethargy, impaired mental functioning, irritability, and loss of consciousness.

If levels remain too high, appetite is suppressed over the short term. Long-term hyperglycemia causes many of the long-term health problems associated with diabetes, including eye, kidney, and nerve damage.

Low blood sugar

Some people report drowsiness or impaired cognitive function several hours after meals, which they believe is related to a drop in blood sugar, or "low blood sugar". For more information, see:

Converting glucose units

Countries that use the metric system use mmol/L. The U.S. uses mg/dL.
To convert Blood Glucose readings:
  • Divide the mg/dL by 18 to get mmol/L (or multiply by 0.055).
  • Multiply the mmol/L by 18 to get mg/dL (or divide with 0.055).

References

  • John Bernard Henry, M.D.: Clinical diagnosis and Management by Laboratory Methods 20th edition, Saunders, Philadelphia, PA, 2001.
  • Ronald A. Sacher and Richard A. McPherson: Widmann's Clinical Interpretation of Laboratory Tests 11th edition, F.A. Davis Company, 2001.

External links

Glucose (Glc), a monosaccharide (or simple sugar), is an important carbohydrate in biology. The living cell uses it as a source of energy and metabolic intermediate.
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Blood is a specialized biological fluid consisting of red blood cells (also called RBCs or erythrocytes), white blood cells (also called leukocytes) and platelets (also called thrombocytes) suspended in a complex fluid medium known as blood plasma.
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Blood sugar regulation is the process by which the levels of blood sugar, primarily glucose, are maintained by the body.

Mechanisms of blood sugar regulation

Blood sugar levels are regulated by negative feedback in order to keep the body in homeostasis.
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Hyperglycemia
Classification & external resources

ICD-10 R73.9
ICD-9 790.6

Hyperglycemia, hyperglycaemia, or high blood sugar is a condition in which an excessive amount of glucose circulates in the blood plasma.
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MeSH D007003 Hypoglycemia (hypoglycaemia in British English) is a medical term referring to a pathologic state produced by a lower than normal level of glucose (sugar) in the blood. The term hypoglycemia literally means "under-sweet blood" (Gr.
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Diabetes mellitus
Classification & external resources

ICD-10 E 10. –E 14.
ICD-9 250

MedlinePlus 001214
eMedicine med/546   emerg/134

MeSH C18.452.394.
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Fructose (or levulose) is a simple sugar (monosaccharide) found in many foods and is one of the three most important blood sugars along with glucose and galactose. Honey, tree fruits, berries, melons, and some root vegetables, such as beets, sweet potatoes, parsnips, and
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Galactose (Gal) (also called brain sugar[1]) is a type of sugar which is less sweet than glucose and not very water-soluble. It is considered a nutritive sweetener because it has food energy.

Galactan is a polymer of the sugar galactose.
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''Note: This article title may be easily confused with inulin.


Insulin is an animal hormone whose presence informs the body's cells that the animal is well fed, causing liver and muscle cells to take in glucose and store it in the form of glycogen, and
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Glucagon is an important hormone involved in carbohydrate metabolism. Produced by the pancreas, it is released when the glucose level in the blood is low (hypoglycemia), causing the liver to convert stored glycogen into glucose and release it into the bloodstream.
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Blood plasma is the liquid component of blood, in which the blood cells are suspended. It makes up about 55% of total blood volume. Blood plasma is prepared simply by spinning a tube of fresh blood in a centrifuge until the blood cells fall to the bottom of the tube.
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Blood plasma is the liquid component of blood, in which the blood cells are suspended. It makes up about 55% of total blood volume. Blood plasma is prepared simply by spinning a tube of fresh blood in a centrifuge until the blood cells fall to the bottom of the tube.
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Serum (Latin for "whey") may refer to:
  • Blood plasma, with clotting factors removed
  • Serous fluid, any clear bodily fluid
  • Truth serum, a general term for sedative drug or unspecified drug that is likely to make people tell truth or divulge information

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RBC most frequently refers to:
  • Royal Bank of Canada, which uses RBC as its master brand and is used in
  • its group name: RBC Financial Group;

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Red blood cells are the most common type of blood cell and the vertebrate body's principal means of delivering oxygen from the lungs or gills to body tissues via the blood.
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Serum-separating tubes, also known as serum separator tubes or SSTs, are used in medical clinical chemistry tests requiring blood serum.

SSTs are sometimes called "marble-top tubes" or "red top tubes", referring to the stoppers which are either gold or red-gray.
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Centrifugation is a process that involves the use of the centripetal force for the separation of mixtures, used in industry and in laboratory settings. In chemistry and biology, increasing the effective gravitational force on a test tube so as to more rapidly and completely cause
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RBC most frequently refers to:
  • Royal Bank of Canada, which uses RBC as its master brand and is used in
  • its group name: RBC Financial Group;

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Embden-Meyerhof pathway, initially explained by Gustav Embden and Otto Meyerhof. The term can be taken to include alternative pathways, such as the Entner-Doudoroff Pathway. However, glycolysis will be used here as a synonym for the Embden-Meyerhof pathway.
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Intravenous therapy or IV therapy is the giving of liquid substances directly into a vein. It can be intermittent or continuous; continuous administration is called an intravenous drip.
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Glucose (Glc), a monosaccharide (or simple sugar), is an important carbohydrate in biology. The living cell uses it as a source of energy and metabolic intermediate.
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The glucose oxidase enzyme (GOx) (EC 1.1.3.4 ) binds to beta-D-glucose (an isomer of the six carbon sugar, glucose) and aids in breaking the sugar down into its metabolites.
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hexokinase is an enzyme that phosphorylates a six-carbon sugar, a hexose, to a hexose phosphate. In most tissues and organisms, glucose is the most important substrate of hexokinases, and glucose-6-phosphate the most important product.
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Iodine (IPA: /ˈaɪədaɪn, ˈaɪədɪn/, or /ˈaɪədiːn/; from Greek: iodes
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Thiosulfate (S2O32−) is an oxyanion of sulfur produced by the reaction of sulfite ions with elemental sulfur in boiling water. Thiosulfate occurs naturally in hot springs and geysers, and is produced by certain biochemical processes.
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An aromatic amine is an amine with an aromatic substituent - that is -NH2, -NH- or nitrogen group(s) attached to an aromatic hydrocarbon, whose structure usually contains one or more benzene rings. Aniline is an example.
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Acetic acid, also known as ethanoic acid, is an organic chemical compound best recognized for giving vinegar its sour taste and pungent smell. Its structural formula is represented as CH3COOH.
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Glycosylamine is a biochemical compound consisting of an amine with a β-N-glycosidic bond to a carbohydrate.

Examples

  • Ribofuranosylamine

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Bilirubin is a yellow breakdown product of normal heme catabolism. Its levels are elevated in certain diseases and it is responsible for the yellow colour of bruises and the brown colour of feces.
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Glutathione (GSH) is a tripeptide. It contains an unusual peptide linkage between the amine group of cysteine and the carboxyl group of the glutamate side chain. Glutathione, an antioxidant, protects cells from toxins such as free radicals.
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