In contrast, the triple-antibiotics individuals showed a significant increase of new strains that persisted as long as six months after treatment, as compared to the single antibiotic and the control individuals. Furthermore, the fraction of transient strains was also significantly higher in the multiple antibiotics individuals. This suggested a long-term change to an alternative stable microbiome state, Morrow says. These changes were not due to a difference in growth rates. “Given the importance of the microbiome in human health, we think our results with these data sets can be used to help evaluate microbiome stability under different conditions,” Morrow said. “For example, we can now provide guidance to clinical investigators to judge the impact of certain treatments for diseases, such as cancer or diabetes, on the gut microbial community that could be significant for evaluation of outcomes. Furthermore, this approach could be applied to a patient’s pre- and post-hospitalization to identify individuals who may need further management of their microbiomes.” - scienceblog.com