Fioriti Simona, Brescini Lucia, Pallotta Francesco, Canovari Benedetta, Morroni Gianluca, Barchiesi Francesco
Department of Biomedical Sciences and Public Health, Polytechnic University of Marche, 60126 Ancona, Italy.
Infectious Disease Clinic, Azienda Ospedaliero Universitaria "Ospedali Riuniti", 60126 Ancona, Italy.
J Fungi (Basel). 2022 Oct 13;8(10):1077. doi: 10.3390/jof8101077.
Candida spp. is the major causative agent of fungal infections in hospitalized patients and the fourth most common cause of nosocomial bloodstream infection (BSI). The availability of standardized methods for testing the in vitro activity of antifungals along with the expanding of antifungal armamentarium, the rising of drug-resistance and the persistence of a high mortality rate in systemic candidiasis have led to an increased interest in combination therapy. Therefore, we aimed to review the scientific literature concerning the antifungal combinations against Candida. A literature search performed in PubMed yielded 92 studies published from 2000 to 2021: 29 articles referring to in vitro studies, six articles referring to either in vitro and in vivo (i.e., animal models) studies and 57 clinical articles. Pre-clinical studies involved 735 isolates of Candida species and 12 unique types of antifungal combination approaches including azoles plus echinocandins (19%), polyenes plus echinocandins (16%), polyenes plus azoles (13%), polyenes plus 5-flucytosine ([5-FC], 13%), azoles plus 5-FC (11%) and other types of combinations (28%). Results varied greatly, often being species-, drug- and methodology-dependent. Some combinatorial regimens exerted a synergistic effect against difficult-to-treat Candida species (i.e., azoles plus echinocandins; polyenes plus 5-FC) or they were more effective than monotherapy in prevent or reducing biofilm formation and in speeding the clearance of infected tissues (i.e., polyenes plus echinocandins). In 283 patients with documented Candida infections (>90% systemic candidiasis/BSI), an antifungal combination approach could be evaluated. Combinations included: azoles plus echinocandins (36%), 5-FC-combination therapies (24%), polyenes plus azoles (18%), polyenes plus echinocandins (16%) and other types of combination therapy (6%). Case reports describing combination therapies yielded favorable response in most cases, including difficult-to-treat fungal infections (i.e., endocarditis, osteoarticular infections, CNS infections) or difficult-to-treat fungal pathogens. The only randomized trial comparing amphotericin-B deoxycholate (AMB) plus FLU vs. AMB alone for treatment of BSI in nonneutropenic patients showed that the combination trended toward improved success and more-rapid clearance from the bloodstream. In summary, antifungal combinations against Candida have produced great interest in the past two decades. To establish whether this approach can become a reliable treatment option, additional in vitro and clinical data are warranted.
念珠菌属是住院患者真菌感染的主要病原体,也是医院血流感染(BSI)的第四大常见病因。随着抗真菌药物体外活性检测标准化方法的出现,以及抗真菌药物种类的不断增加、耐药性的上升和系统性念珠菌病高死亡率的持续存在,联合治疗越来越受到关注。因此,我们旨在综述有关抗念珠菌联合治疗的科学文献。在PubMed上进行的文献检索共得到2000年至2021年发表的92项研究:29篇涉及体外研究,6篇涉及体外和体内(即动物模型)研究,57篇临床研究。临床前研究涉及735株念珠菌属菌株和12种独特的抗真菌联合治疗方法,包括唑类加棘白菌素(19%)、多烯类加棘白菌素(16%)、多烯类加唑类(13%)、多烯类加5-氟胞嘧啶([5-FC],13%)、唑类加5-FC(11%)以及其他类型的联合治疗(28%)。结果差异很大,通常取决于菌种、药物和方法。一些联合用药方案对难治性念珠菌属菌株具有协同作用(即唑类加棘白菌素;多烯类加5-FC),或者在预防或减少生物膜形成以及加速感染组织清除方面比单一疗法更有效(即多烯类加棘白菌素)。在283例有记录的念珠菌感染患者(>90%为系统性念珠菌病/BSI)中,可以评估抗真菌联合治疗方法。联合治疗包括:唑类加棘白菌素(36%)、5-FC联合治疗(24%)、多烯类加唑类(18%)、多烯类加棘白菌素(16%)以及其他类型的联合治疗(6%)。描述联合治疗的病例报告在大多数情况下都产生了良好的反应,包括难治性真菌感染(即心内膜炎、骨关节炎感染、中枢神经系统感染)或难治性真菌病原体。唯一一项比较两性霉素B脱氧胆酸盐(AMB)加氟康唑(FLU)与单用AMB治疗非中性粒细胞减少患者BSI的随机试验表明,联合治疗在提高成功率和加快血液中清除速度方面有一定趋势。总之,在过去二十年中,抗念珠菌联合治疗引起了极大关注。为确定这种方法是否能成为一种可靠的治疗选择,还需要更多的体外和临床数据。
