Wahab Abdul, Sanborn David, Vergidis Paschalis, Razonable Raymund, Yadav Hemang, Pennington Kelly M
Department of Medicine, Mayo Clinic Health Systems, Mankato, MN.
Divisions of Pulmonary and Critical Care Medicine, Mayo Clinic, Rochester, MN.
Chest. 2025 Feb;167(2):374-386. doi: 10.1016/j.chest.2024.08.046. Epub 2024 Sep 7.
The prevalence of invasive fungal infections (IFIs) has risen in the past 3 decades, attributed to advancements in immune-modulatory therapies used in transplantation, rheumatology, and oncology.
Organisms that cause IFI evade the host's natural defenses or at opportunities of immunologic weakness. Infections occur from inhalation of potentially pathogenic organisms, translocation of commensal organisms, or reactivation of latent infection. Organisms that cause IFI in immunocompromised populations include Candida species, Cryptococcus species, environmental molds, and endemic fungi. Diagnosis of these infections is challenging due to slow organism growth and fastidious culture requirements. Moreover, fungal biomarkers tend to be nonspecific and can be negatively impacted by prophylactic antifungals. Antibody-based tests are not sensitive in immunocompromised hosts making antigen-based testing necessary. Prevention of IFI is guided by pathogen avoidance, removal or minimization of immune-suppressing factors, and pharmacologic prophylaxis in select hosts.
Understanding the complex interplay between the immune system and opportunistic fungal pathogens plays a key role in early diagnosis and prevention.
在过去30年中,侵袭性真菌感染(IFI)的患病率有所上升,这归因于移植、风湿病学和肿瘤学中使用的免疫调节疗法的进步。
引起IFI的生物体逃避宿主的天然防御或在免疫弱点的机会下致病。感染通过吸入潜在致病生物体、共生生物体的易位或潜伏感染的重新激活而发生。在免疫功能低下人群中引起IFI的生物体包括念珠菌属、隐球菌属、环境霉菌和地方性真菌。由于生物体生长缓慢和培养要求苛刻,这些感染的诊断具有挑战性。此外,真菌生物标志物往往是非特异性的,并且可能受到预防性抗真菌药物的负面影响。基于抗体的检测在免疫功能低下的宿主中不敏感,因此需要进行基于抗原的检测。IFI的预防以避免病原体、去除或最小化免疫抑制因素以及对特定宿主进行药物预防为指导。
了解免疫系统与机会性真菌病原体之间的复杂相互作用在早期诊断和预防中起着关键作用。
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