Leukogram

Leukograms are often used as an alternative to automated cancer treatment as an effective treatment for infections caused by bacteria, yeast, and fungi that are not susceptible to antibiotics. Currently, there are more than 600 species of microorganisms that are resistant to most antimicrobial drugs. Therefore, research into the development of an alternative, environmentally friendly and inexpensive method of treating complicated infections is increasingly recognized throughout the world. One such method is a leukogram.

Leukogram is a treatment that uses acidic solutions in combination with a bacterial cell that has the ability to destroy certain types of bacteria in the extracellular environment of the body, including strains resistant to known antibiotics and aminoglycosides. The leukogram was able to reduce the number of antibiotics the patient took and improve the effectiveness of treatment.

At the beginning of the research, it was discovered that in some cases the susceptibility of bacteria and some fungi to certain acidic solutions increases so much that in order to destroy them the body must independently take part in the process of suppressing infections. This has happened with a number of fungal pathogens among people with HIV infection. A new species of fungus was discovered: Aspergillus niger, which is resistant to many antibiotics, and after it was introduced to the leucine domain toxin (or Leukotoxin) from Escherichia coli, which previously existed only within the bacterial environment, the resistance decreased and the fungus became sensitive to low-concentrated antibiotics. This occurred due to a shift in the flow of microbial enzymes towards the direction in which the oxidation reaction occurs to produce the energy necessary for cell growth. Thus, the finding that bacteria are affected by acid by changing their metabolism supported the possibility of using an acid solution to expand the spectrum of action of certain antibiotics in the treatment of tuberculosis, sepsis and bacterial vaginitis.