Introduction
- HDL stands for High-Density Lipoprotein, commonly called good cholesterol.
- HDL is one of the major classes of plasma lipoproteins.
- It is synthesized mainly in the liver and intestine.
- HDL contains apolipoproteins, phospholipids, cholesterol, and proteins.
- Its main function is to remove excess cholesterol from peripheral tissues and transport it back to the liver.
- This process is called reverse cholesterol transport.
- In the liver, cholesterol is converted into bile acids and excreted through intestine.
- HDL therefore protects blood vessels against cholesterol deposition.
- Serum HDL estimation is very important in cardiovascular risk assessment.
- Low HDL level increases risk of coronary heart disease.
Principle
- HDL cholesterol estimation is based on direct enzymatic selective method.
- PVS and PEGME block LDL, VLDL, and chylomicrons, so only HDL reacts.
- HDL cholesterol is hydrolyzed by cholesterol esterase to free cholesterol.
Reaction 1
HDL Cholesterol Ester + H₂O → Cholesterol + Fatty acids
- Free cholesterol is oxidized by cholesterol oxidase to produce hydrogen peroxide.
Reaction 2
Cholesterol + O₂ → H₂O₂ + Cholestenone
- Hydrogen peroxide reacts with 4-aminoantipyrine + TODB in presence of peroxidase to form colored quinoneimine dye.
Reaction 3
2H₂O₂ + 4-AA + TODB → Quinoneimine dye + 5H₂O
- Color intensity is directly proportional to HDL concentration.
- Absorbance is measured at 600 / 700 nm.
Specimen
Sample Type
- Serum is preferred specimen
- Heparin plasma can also be used
Precautions
- Use fresh non-hemolyzed sample
- Avoid contaminated sample
Stability
- 24 hours at 20–25°C
- 7 days at 4–8°C
- 12 weeks at −20°C
Reagents
Reagent 1 (R1)
- MES buffer (pH 6.5)
- N,N-Bis(4-sulfobutyl)-3-methylaniline
- Polyvinyl sulfonic acid
- Polyethylene glycol methyl ester
- Magnesium chloride
Reagent 2 (R2)
- MES buffer
- Cholesterol esterase
- Cholesterol oxidase
- Peroxidase
- 4-aminoantipyrine
- Detergent
Reagent Preparation
- Both reagents are liquid and ready to use
Materials Required
- Test tubes
- Micropipette
- Pipette tips
- Colorimeter / semi-auto analyzer
- Cuvette
- Timer
- HDL reagent kit
Procedure
| Components | Reagent Blank | Sample / Calibrator |
|---|---|---|
| Reagent 1 | 375 µL | 375 µL |
| Distilled water | 5 µL | — |
| Sample / Calibrator | — | 5 µL |
First Incubation
- Mix properly
- Incubate at 37°C for 5 minutes
Then Add
| Components | Reagent Blank | Sample / Calibrator |
|---|---|---|
| Reagent 2 | 125 µL | 125 µL |
Second Incubation
- Mix properly
- Incubate at 37°C for 5 minutes
Reading
- Read final absorbance against reagent blank
- Measure at 600 / 700 nm
Calculation
Formula
HDL-C = (Absorbance of Sample / Absorbance of Calibrator) × Concentration of Calibrator
Normal Reference Values
| Group | Normal Value |
|---|---|
| Adult Male | 35.3 – 79.5 mg/dL |
| Adult Female | 42.0 – 88.0 mg/dL |
Clinical Significance
Decreased HDL
- Coronary heart disease risk
- Atherosclerosis
- Diabetes mellitus
- Obesity
- Smoking
Increased HDL
- Protective against cardiovascular disease
- Good lipid metabolism
Diagnostic Importance
- Assesses cardiovascular protection
- Evaluates lipid profile
- Helps estimate cardiac risk
