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Introduction of Lowenstein-Jensen (LJ) Medium

Lowenstein-Jensen (LJ) Medium is named after the surnames of  Austrian pathologist Ernst Lowenstein (1878–1950) and the Danish chemist Kai Arne Jensen (1908–1992). The causative agent of tuberculosis is Mycobacterium tuberculosis. M. tuberculosis requires aerobic conditions and a protein-enriched medium for culture. The brief name of Lowenstein–Jensen medium is LJ medium. LJ  medium slopes are the main solid media used to culture Mycobacterium species( especially Mycobacterium tuberculosis) that contains inspissated eggs, malachite green, and glycerol. LJ medium containing glycerol favors the growth of M. tuberculosis while LJ medium with pyruvate ( in place of glycerol) encourages the growth of M. bovis. The bacterium, M. tuberculosis grows slowly (generation time of 16 to 24 hours) and it takes 3-6 weeks or longer to give visible colonies. It produces granular, raised, dry, cream (buff) colored colonies in Lowenstein–Jensen medium as shown above image. LJ medium uses for diagnosis of mycobacterial infections, testing antimicrobial susceptibility of isolates, and differentiating different Mycobacterium species by colony morphology, growth rate, biochemical characteristics, and microscopic findings.

Principle of Lowenstein-Jensen (LJ) Medium

L-asparagine and potato flour supply nitrogen and vitamins. Monopotassium phosphate and magnesium sulfate enhance bacterial growth and they also act as buffers. Malachite green, prevent the growth of the majority of contaminants surviving decontamination of the specimen while encouraging the growth of Mycobacteria and it also serves as a pH indicator. Egg suspension provides fatty acids and protein required for the metabolism of mycobacterium species. Heating the egg albumin coagulates providing a solid surface for inoculation. Glycerol serves as a carbon source and is favorable to the growth of the human-type tubercle bacillus ( M. tuberculosis)  while being unfavorable to the bovine type (M. bovis).

Composition and Preparation of L- J Medium

Lowenstein Jensen Medium is Recommended for the isolation and cultivation of Mycobacterium species ( especially M tuberculosis). This medium can be prepared in the laboratory as follows-

Ingredients

Homogenized whole eggs*: 275 ml (6-8 fresh hen’s  eggs are used)

Hydrochloric acid (1N): 8 ml

Salt glycerol solution** : 153 ml

Malachite green 2% solution***: 2.75 ml

*Clean the outside of the eggshell and wipe with the spirit swab. Break the eggs and collect them in the sterile breaker. Homogenise using the sterile homogenizer. Separately prepare the other ingredients.

**To  make salt glycerol solution

Potassium dihydrogen phosphate: 6.3 gm

Magnesium sulpahte: 0.3 gm

Glycerol: 12 ml

Distilled water: 600 ml

Mix all the ingredients with water and dissolve properly.

***Malachite green( 2%): 1gm

Distilled water:  50 ml

Dissolve and autoclave and keep ready for use.

Mix all the above solutions aseptically and dispense in 4 ml ( depending on the container) amounts in sterile screw-capped bottles. Arrange them in the slant in a special tray provided for inspissation and then inspissate at 80 C° for 1 hour. This will sterilize the medium. Note: The slope of the medium should end about 1 cm away from the neck of the bottle. This LJ slope will become solid, light green in color. Label and store in the refrigerator with tight lids. The LJ slopes can be stored for 8 weeks.

Test Requirements for LJ  Medium

• Test sample
• Biological safety cabinet
• Centrifuge
• Inoculating loop/ dropper
• Plastic tubes
• LJ slope
• Waste bin
• Control strain (Mycobacterium smegmatis ATCC 14468)
• BOD Incubator

Test Procedure of Lowenstein Jensen Medium

• Remove the condensed moisture before inoculation putting the LJ slope in the BOD incubator for half an hour.
• Inoculate slope with 0.2-0.4 ml or 2-4 drops or 2-4 loopful of the centrifuged sediment, distributed over the surface.
• Incubate LJ slope at 35-37°C  until growth is observed or discarded as negative after 8  weeks.
• Examine culture weekly if possible otherwise on at least three occasions. After a week to detect rapidly growing Mycobacterium species which may be mistaken for M. tuberculosis. After 3-4 weeks to detect positive cultures of M. tuberculosis as well as other slow-growing mycobacteria which may be either harmless saprophytes or potential pathogens. After 8 weeks to detect very slow-growing mycobacteria, including M. tuberculosis, before judging the culture to be negative.

Result Interpretation of Lowenstein-Jensen (LJ) Medium

• No growth after 8 weeks: Negative
• Growth: Positive (a typical colony of rough, buff, and tough)
• Control strain (Mycobacterium smegmatis ATCC 14468): wrinkled, creamy white colonies

Limitations of LJ Medium

1. For confirmation biochemical and/or serological tests are recommended from the pure colonies of the culture.
2. LJ Medium requires a capnophilic environment i.e. incubation in a 5-10% CO2 atmosphere in order to recover mycobacteria. Mycobacteria, for unknown reasons, are not recovered well from candle jars.
3. Negative culture results may not rule out active infection by mycobacteria.
4. Because of nutritional variation, some strains may be encountered that grow poorly or fail to grow on LJ medium. Further investigations are necessary for confirmation of Mycobacterium species.

Keynotes on Lowenstein-Jensen (LJ) Medium

1. Cultures are usually made in bottles or test tubes rather than in Petri plates because of the long incubation time required. The use of bottles or test tubes limits both chances of contamination and drying of the culture media (if the caps are tightly closed).
2. Two slopes of LJ medium are preferred per specimen while an additional one slope with pyruvate in M. bovis endemic areas should be included.
3. With doubtful cultures or lacking trained staff read cultures, the acid fastness of the isolate should be confirmed by Ziehl-Neelsen staining.
4. Sterility check: After inspissation, the whole media batch of the media bottles should be incubated at 35°C-37°C for 24 hours as a check for bacterial sterility. After 24 hours 5% of the slopes should be picked up randomly and continued for incubation for 14 days to check for fungal sterility. In both cases, the contamination rate should not be > 10 %.
5. Niacin, nitrate reduction, and catalase tests help to identify Tuberculosis.
6. Since the organism, M. tuberculosis is risk group III and therefore contaminated materials must be sterilized by autoclaving before discarding.
7. Culture activity and biochemical or serological tests from the culture should only be performed in the biological safety cabinet (BSC II).

Further Readings

1. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5045330/
2. https://en.wikipedia.org/wiki/L%C3%B6wenstein%E2%80%93Jensen_medium
3. http://legacy.bd.com/ds/technicalCenter/inserts/L007464(11).pdf
4. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3552209/
5. http://apps.who.int/iris/bitstream/handle/10665/65942/WHO_TB_98.258_(part3).pdf;jsessionid=6AB07F40A95AF0B1EE5589E577F8659C?sequence=3
6. https://himedialabs.com/td/m162.pdf
7.  Manual of Clinical Microbiology. Editors: P.R. Murray, E. J. Baron, M. A. Pfaller, F. C. Tenover, and R. H. Yolken, 7th ed 2005, Publisher ASM, USA
8.  Textbook of Diagnostic Microbiology. Editors: Connie R. Mahon, Donald G. Lehman & George Manuselis, 3rd edition2007, Publisher Elsevier.