Mycobacteria Mycobacterium are slow-growing rod-shaped
bacilli that are slightly curved or straight, and are considered to be
Gram positive. Some mycobacteria are free-living
saprophytes, but many are
pathogens that cause disease in animals and humans.
Mycobacterium bovis causes tuberculosis in cattle. Since tuberculosis can be spread to humans, milk is pasteurized to kill any of the bacteria.
Mycobacterium tuberculosis that causes
tuberculosis (TB) in humans is an
airborne bacterium that typically infects the human lungs. Testing for TB includes blood testing, skin tests, and chest X-rays. When looking at the smears for TB, it is stained using an acid-fast stain. These acid-fast organisms like
Mycobacterium contain large amounts of lipid substances within their cell walls called mycolic acids. These acids resist staining by ordinary methods such as a
Gram stain. It can also be used to stain a few other bacteria, such as
Nocardia (which also belongs in
Mycobacteriales). Studies have shown that an AFB stain without a culture has a poor negative predictive value. An AFB culture should be performed along with an AFB stain; this has a much higher negative predictive value. In anatomic pathology specimens,
immunohistochemistry and modifications of Ziehl–Neelsen staining (such as
Fite-Faraco staining) have comparable diagnostic utility in identifying
Mycobacterium. Both of them are superior to traditional Ziehl–Neelsen stain. Recent evidence suggests that the low sensitivity of acid-fast stains in histologic sections may be partly due to tissue processing rather than bacterial scarcity. Standard xylene deparaffinization, routinely used in histopathology, damages the lipid-rich envelope of mycobacteria and markedly reduces fluorescence and detectability with both Ziehl–Neelsen and fluorescent stains. A solvent-free, heat-based projected hot-air deparaffinization method significantly increased the yield and fluorescence intensity of mycobacteria in formalin-fixed, paraffin-embedded tissues, without compromising tissue morphology. These results indicate that the integrity of the mycobacterial cell wall is essential for acid-fastness and that xylene treatment should be avoided when possible. Fluorescent Auramine O staining, which targets intracellular nucleic acids, performed better than carbol fuchsin and may represent a superior option for histologic diagnosis of paucibacillary tuberculosis.
Coccidia Auramine O and Ziehl–Neelsen stains are also useful for detecting intestinal coccidia, particularly
Cryptosporidium,
Cystoisospora, and
Cyclospora species. These organisms exhibit partial or full acid-fastness, with oocysts appearing as bright yellow-green (auramine) or pink-red (Ziehl–Neelsen) structures against a contrasting background. Screening of auramine-stained smears of fecal samples has been shown to markedly improve detection rates of coccidial infections in routine diagnostics, providing a rapid and inexpensive method suitable for large-scale screening programs. These findings are consistent with the broader interpretation that acid-fast stains act primarily as nucleic-acid stains whose retention depends on the integrity of the oocyst wall rather than lipid composition. The results of Ziehl–Neelsen staining are variable because many fungal cell walls are not acid-fast. An example of a common type of acid-fast fungus that is usually stained with Ziehl–Neelsen staining is
Histoplasma.
Histoplasma is found in soil and the feces of birds and bats. Humans can contract
histoplasmosis by inhalation of the fungal spores. The yeast forms reach the bloodstream and may affect lymph nodes and other organs.
Schistosoma More recently, acid-fast and fluorescent stains have been shown to highlight structures in the eggs of
Schistosoma species. Both Ziehl–Neelsen and auramine O staining demonstrate characteristic fluorescence or chromatic enhancement along the eggshell and within internal structures. This has diagnostic relevance, as it may assist in the recognition of eggs in stool and urine samples, particularly in low-intensity infections or after partial degradation. Fluorescent staining with auramine O has been proposed as a rapid adjunct technique for screening schistosomiasis in endemic regions and differentiating species based on distinct staining patterns. Earlier work had also demonstrated that Ziehl–Neelsen staining can highlight both the shell and species-specific internal features of schistosome eggs, supporting its diagnostic and taxonomic value. These findings, together with fluorescence studies on other acid-fast organisms, further support the interpretation that acid-fast stains primarily target nucleic acids and can reveal diagnostically relevant structures beyond bacteria. ==History==