The high values of IR appear when the combination of drugs caused total growth inhibition at a certain concentration, but the compounds alone had no inhibitory effect at that concentration. Some experiments were carried out to acquire preliminary information concerning the variability of the sensitivities within species to these drugs and their combinations. A summary of these results is presented in Table 5. www.selleckchem.com/products/AZD6244.html Two of the promising synergistic combinations, FLU–FLV and FLU–LOV, were tested against 12 C. albicans isolates. All investigated strains proved to be sensitive
to the FLU–FLV combination; moreover, some clinical strains were more sensitive than normal. Synergism was observed in the case of five isolates; otherwise, additive effects were noted. At the same time, C. albicans strains were diversely sensitive to the FLU–LOV combination, which derived from
their different CP-690550 concentration sensitivities to LOV. Some clinical strains were also more sensitive than average, so synergistic interactions could be achieved with low concentrations. FLU was efficient against all isolates, and the interaction between the two drugs was always positive (synergistic or additive effect). KET–FLV interactions were synergistic against almost every A. flavus isolate, but their sensitivities to FLV differed by one or two dilution steps. The effects of MCZ–SIM combination against C. glabrata and the KET–SIM and ITR–ATO combination against A. fumigatus were also similar to those observed previously, but the sensitivities to the given azole compound differed by one or two dilution steps between the isolates. In general, these drugs proved to be more effective against all tested strains in combination than alone; however, the sensitivities to the statin or the azole compound sometimes varied in a narrow range among the isolates of a species. The treatment of Candida infections is generally
based on azole therapy, whereas azoles and amphotericin B are primarily used against filamentous fungi. Azoles SB-3CT inhibit the fungal growth even at low concentrations; however, their endpoint determination is of major importance, especially for isolates exhibiting trailing growth. Azoles do not cause cessation of growth soon after the exposure to the drug; fungal growth begins to slow down after one doubling time and is fully arrested only some time later (Rex et al., 1993). Some turbidity may persist for all drug concentrations tested and only partial inhibition of growth can be achieved, which results in the phenomenon of the trailing endpoint. So the endpoint for azoles has been defined as the point at which there is prominent reduction in growth.