Microbiologic consequences of new approaches to managing hematologic malignancies.

Opportunistic infections have always been pitfalls on the road of progress in the treatment of diseases that are accompanied by compromised host defences. Because of the severe morbidity and mortality associated with these infections, they have become substantial challenges for the clinicians who offer such patients care. With medical progress, the number of immunocompromised patients is still steadily climbing and it has become evident that deficiencies in host defences mechanisms are multiple as well as changing in harmony with alterations in treatment modalities for underlying diseases. Under normal circumstances, the intact epithelial surfaces of the gastrointestinal tract will prohibit invasion by micro-organisms and the mucociliary barrier of the respiratory tract prevents aspiration of fungal cells and spores, while, in contrast, dead or damaged tissue creates a nidus for infection. It is, however, questionable whether transmigration of organisms inevitably leads to infection. With the growing use of potent immunosuppressive purine analogues, fludarabine, pentostatin and cladibrine, and anti-T and anti-B cell antibodies, such as rituximab and campath, in the management of lymphoreticular malignancies, in combination with increasing emphasis on dose intensity, the number of patients at risk has almost reached levels encountered in recipients of allogenic stem cell grafts as a consequence of long-lasting deficiencies in the cellular immunity. The spectrum of opportunistic pathogens are shifting as anti-leukemic and anti-lymphoma therapy become more intensive and bone marrow transplant practices evolve. Recent studies demonstrate, that patients treated with nonmyeloablative allogeneic transplantation (or "minitransplants") to reduce transplant-related toxicity, are at high risk of contracting a serious infections. Initially bacterial infections were most problematic. However, as strategies to control bacterial infections improved, viruses demanded more attention from the clinicians but the associated morbidity declined due to advances in rapid diagnostics and the introduction of effective antivirals such as acyclovir and ganciclovir. Next to viruses, resistant bacteria, particularly Gram-positive organisms like enterococci and methicillin-resistant staphylococci urged to vigilance. It was obvious that enhanced use of antibacterials inevitably will be accompanied by selection and induction of resistant organisms. Today, opportunistic fungi have become the most frequent and dangerous pathogens. Since the 1980's the rate of nosocomial invasive fungal diseases has doubled without any sign of slowing at the turn of the millenium. During the past decades we have even observed an increased incidence of invasive fungal infections in patients who are not in an end stage of their underlying disease. Yeasts and moulds rank amongst the most frequently isolated pathogens. The relative incidence of the various fungal infections depends on geography as well as on medical practices and local conditions. Candida Aspergillus species remain the prominent fungal pathogens but more rare species are increasingly cultured.