Diagnosing tuberculosis from urine samples

#GS3 #SCIENCE

Diagnosing TB usually involves using a sputum sample or a biopsy in the detection tests. 

  • This is not just time-consuming or expensive, there are also cases where getting a sputum sample is not easy or even possible, such as with small children or in the case of extrapulmonary TB
  • Now, IIT Madras researchers are developing a point-of-care platform for early-stage TB screening and detection using urine samples. 
  • The glycolipid lipoarabinomannan (LAM), an integral component of the cell wall and cell membrane of Mycobacterium tuberculosis (Mtb), the disease-causing bacterium, has been explored as a biomarker for TB diagnosis
  • Since it is known that LAM is released into the blood stream during active infection and passed out in urine, it can be viewed as a potential biomarker for even cases other than pulmonary TB. 
  • In the test conducted by the group, the sample containing Mtb-LAM is mixed with gold nanoparticles and incubated for five minutes. 
  • Then a U-shaped fibre-optic sensor device with an LED and a photodetector attached to its two ends is dipped into the mixture. The results are generated in the next ten minutes, and the amount of Mtb-LAM present in the mixture can be read out.

 

Antibody sandwich

  • To describe the above process in detail, the sample for analysis is mixed with the reagent containing detector antibody (anti-MTB-LAM IgG) conjugated with plasmonic gold nanoparticles. 
  • The gold nanoparticle labels capture the analyte (LAM) molecules from the sample solution through the detector antibody. 
  • Then the pre-mixed solution is given to the sensor probes immobilized with capture antibody (anti-MTB-LAM IgM).
  • Thus on the sensor surface, a sandwich-like immunocomplex of the three is formed. This comprises capture antibody-analyte-detector antibody with a plasmonic label.
  • Likewise, a large number of immunocomplexes are formed on the sensor surface that are proportional to the LAM concentration. 
  • Each of the plasmonic labels absorb light passing through the fibre, leading to a drop in light intensity at the detector. The drop in the light intensity is a measure of LAM concentration.
  • The pregnancy test kit, for example, simply works on a naked eye–based detection of coloured nanoparticles. On the other hand, the colour detection and quantification in this method can be done ten thousand times more efficiently with the help of optical waveguides such as an optical fibre. If the plasmonic labels are on the fibre core surface, much lower concentrations of LAM can be detected.
  • In the buffer solution, for every 10 femtogram/millilitre rise in LAM concentration the change in absorbance could be 0.078 absorbance units. 
  • Similarly, in synthetic urine, for every 10 femtogram/millilitre rise in concentration, the rise in absorbance would be 0.043 absorbance units.
Print Friendly and PDF
blog comments powered by Disqus