泊沙康唑药动学-药效学及其治疗药物监测研究进展

泊沙康唑为新一代三唑类广谱抗真菌药,临床主要用于侵袭性曲霉菌病、念珠菌病的预防和难治性口咽念珠菌病的治疗,具有抗菌 活性高、耐受性好、不良反应少等特点,但其口服后生物利用度具有较大的个体差异。综述泊沙康唑混悬液的药动学影响因素、不同患者 人群的药动学特征以及群体药动学特征、药动学 / 药效学特性、治疗药物监测对临床疗效和不良反应的重要影响,以指导临床个体化用药, 提高用药的有效性和安全性。     

泊沙康唑预防侵袭性真菌感染的Meta分析

目的评价泊沙康唑预防侵袭性真菌感染的疗效及安全性。方法采用系统评价方法,通过检索数据库PUBMED、Medline、Embase、Cochrane Library、中国生物医学文献数据库、中国知网、中国维普以及会议论文集等截止至2014年12月所有关于泊沙康唑预防侵袭性真菌感染的随机对照临床试验,同时追查相关参考文献。并逐个进行质量评价和资料提取,运用Review Manager 5.2及Stata 12.0软件进行Meta分析。结果共纳入4项研究,共1 487例患者。Meta分析结果提示,泊沙康唑与对照组药物相比,能有效降低侵袭性真菌感染(invasive fungal infection,IFI)发生率[RR=0.41,95%CI(0.27,0.63),P0.000 01],尤其在预防侵袭性曲霉菌感染方面,其疗效优于氟康唑(P0.000 1);预防IFI相关死亡的疗效优于对照组[RR=0.32,95%CI(0.15,0.67),P=0.0020.05]。而不良反应发生率、因不良反应中止治疗发生率、全因死亡率两组间并无统计学差异(P0.05)。亚组分析显示,泊沙康唑与氟康唑相比,两组间不良反应发生率及侵袭性念珠菌感染发生率均无统计学差异(P0.05)。结论泊沙康唑可作为两性霉素B脂复合物、氟康唑、伊曲康唑等预防侵袭性真菌感染的良好替代药物,能更有效地预防真菌感染,减少IFI相关死亡率,而且不增加不良反应发生的风险。     

伏立康唑治疗深部真菌感染的观察及护理

近年来由于肿瘤化疗、器官移植等免疫缺陷患者增多,以及广谱抗生素、肾上腺皮质激素、免疫抑制剂等药物的广泛应用,深部真菌感染呈持续增多趋势.伏立康唑作为新的第二代三唑类广谱抗真菌药,在体内、外的抗真菌活性强,已广泛应用于临床,并取得了一定疗效.我科于2009年5月～2011年5月应用伏立康唑对33例确诊为深部真菌感染的患者进行治疗,效果较好,现将护理体会报道如下.     

几种新型抗真菌药物简介

脂质型二性霉素B,新型唑类药物如伏立康唑,以及作用于真菌细胞壁的药物如卡泊芬净和米卡芬净的问世,反映了抗真菌药物研究向高效、广谱、低毒的方向发展的一个特点,无疑为各种类型真菌感染的药物治疗提供了新型的有力的手段;与传统的抗真菌药物如脱氧胆酸二性霉素B和氟康唑等相比,这些药物临床疗效好,毒副作用低,对于系统性真菌感染的防治具有重大意义,文中就这方面的信息做了简介。     

国产伏立康唑治疗侵袭性真菌感染6例临床观察

目的观察国产伏立康唑治疗恶性血液病患者侵袭性真菌感染（IFI）的临床疗效和安全性。方法以国产伏立康唑治疗6例发生于恶性血液病患者的侵袭性真菌感染,观察疗效及不良反应。结果6例患者中,有效4例,其中完全反应3例,部分反应1例。1例用药第6天出现低钾血症。结论国产伏立康唑是治疗恶性血液病患者侵袭性真菌感染的安全有效的药物,     

泊沙康唑在预防恶性血液病患者侵袭性真菌病中的应用研究

摘要 目的：研究泊沙康唑在预防恶性血液病患者侵袭性真菌病中的应用效果。方法：选取我院2018年1月~2019年9月收治的50例恶性血液病患者,按照随机数余数分组法分为采取泊沙康唑预防的泊沙康唑组以及采取伊曲康唑预防的伊曲康唑组各25例,对两组预防效果进行对比。结果：泊沙康唑组预防治疗成功率为84.00 % (21/25),显著高于伊曲康唑组的68.00 % ( 17/25),侵袭性真菌病发生率为4.00 % (1/25),显著低于伊曲康唑组的16.00 % (4/25)（P＜0.05）;给药前两组炎性细胞因子差异无统计学意义（P＞0.05）,给药结束后均较本组给药前降低（P＜0.05）,组间比较泊沙康唑组均低于伊曲康唑组（P＜0.05）;泊沙康唑组治疗期间不良反应发生率为8.00 % (2/25),伊曲康唑组治疗期间不良反应发生率为20.00 % (5/25),两组不良反应发生率对比无统计学意义（P＞0.05）。结论：在预防恶性血液病患者侵袭性真菌病中泊沙康唑效果更佳且安全性高,可作为优选用药方案推广使用。     

不同唑类药物体外诱导热带念珠菌耐药特征及其耐药机制研究

目的比较体外不同唑类药物诱导热带念珠菌耐药性产生的特点以及耐药机制的不同。方法选取1株临床分离的唑类敏感菌,分别在含16μg/mL氟康唑,2μg/mL伏立康唑,1μg/mL泊沙康唑的液体培养基中进行传代培养。显色微量肉汤稀释法检测每一代菌的抗真菌药物敏感性。对第50代传代菌的唑类作用靶位点基因ERG11进行扩增测序,并对ERG11基因、泵蛋白基因MDR1、CDR1以及线粒体细胞色素b基因CYTb进行荧光定量检测。结果体外氟康唑、伏立康唑暴露的情况下,菌株很快出现耐药性;相比,泊沙康唑并未诱导出耐药菌;氟康唑、伏立康唑诱导耐药性产生的方式呈现不同特征。氟康唑诱导下菌株MIC值逐渐上升,但伏立康唑诱导菌出现了明显的跳跃式升高。耐药机制研究发现,伏立康唑诱导菌ERG11基因出现了与耐药密切相关的G/G1390G/A碱基杂合突变。荧光定量PCR结果显示,仅伏立康唑诱导耐药菌CDR1基因的相对表达量显著升高。结论热带念珠菌在体外氟康唑、伏立康唑暴露情况下会很快出现耐药性,但其出现的特征以及耐药机制有所差别。     

伊曲康唑序贯疗法治疗老年MODS患者侵袭性肺部真菌感染14例

目的 观察伊曲康唑序贯疗法治疗老年多脏器功能障碍综合征（MODS）患者侵袭性肺部真菌感染的疗效。方法 回顾分析重症监护病房（ICU）中,老年MODS患者侵袭性真菌感染14例,最初应用伊曲康唑注射液7～14d,第1～2d,200mg,1次／12h,第3～14d,200mg,1次／d;然后,采用伊曲康唑胶囊或口服液序贯治疗,400mg／d剂量水平,疗程2—4周。结果 临床有效率85．7％,真菌清除率为92．9％,真菌清除平均天数为6．1d;患者28d生存率85．7％,不良反应发生率为42．9％。结论 对老年MODS合并侵袭性真菌感染患者在综合治疗的基础上,应用广谱抗真菌药物——伊曲康唑序贯疗法,是巩固疗效,防止复发值得推广的给药方式。临床应用伊曲康唑时,应注意适应证、药物不良反应及药物的相互作用。     

广西地区隐球菌感染的临床特征、菌种鉴定及体外抗真菌药物敏感性CSCD

目的分析广西地区隐球菌感染的临床特征、致病菌种鉴定及其体外药物敏感性。方法收集86例确诊隐球菌病患者(14例为HIV阳性,72例为HIV阴性)中分离出103株隐球菌及其患者资料并对其临床特征进行分析,使用MALDI-TOF MS和ITS区测序分子鉴定方法,92株被鉴定为新生隐球菌grubii变种,11株被鉴定为格特隐球菌。使用CLSI M27-A4方法对菌株进行常用抗真菌药物氟康唑、两性霉素B、5-氟胞嘧啶、伊曲康唑、伏立康唑、泊沙康唑和艾沙康唑体外药物敏感性测试。结果①86例患者(男性59名,女性27名),年龄为21~84岁,其中55人无基础疾病,31人有基础疾病。②由于目前对于隐球菌尚无泊沙康唑、艾沙康唑和两性霉素B的折点,因此参考了念珠菌属的数据,所有菌株对大多数抗真菌药物敏感。抗真菌药物对新生隐球菌grubii变种最低抑菌浓度范围为:氟康唑0.05~4μg/mL,两性霉素B 0.25~1μg/mL,5-氟胞嘧啶0.0625~2μg/mL,伊曲康唑0.0625~0.25μg/mL,伏立康唑0.0078~0.25μg/mL,泊沙康唑0.0313~0.5μg/mL,艾沙康唑0.0020~0.125μg/mL。抗真菌药物对格特隐球菌最低抑菌浓度范围为:氟康唑1~16μg/mL,5-氟胞嘧啶0.125~1μg/mL,两性霉素B 0.25~1μg/mL,伊曲康唑0.0625~0.25μg/mL,伏立康唑0.0156~0.125μg/mL,泊沙康唑0.0156~0.25μg/mL,艾沙康唑0.0078~0.125μg/mL。结论MALDI-TOF MS是一种快速可靠的鉴定隐球菌的方法。广西地区分离隐球菌对临床抗真菌药物敏感,抗真菌药敏试验有助于早期发现耐药菌株,对有效地治疗隐球菌病具有重要意义。     

应用大扶康和伏立康唑治疗肝移植术后肺部真菌感染

目的通过对大连医科大学第二临床学院器官移植中心肝移植术后肺部真菌感染病例的分析,应用合适的抗真菌药物,以达到良好的治疗目的。方法总结该院39例次肝移植术后肺部真菌感染患者,应用大扶康和伏立康唑进行治疗,对其疗效作一评价。结果经大扶康和伏立康唑治疗的肝移植术后肺部真菌患者除1例死亡外,其余均康复。结论对于肝移植术后肺部真菌感菌感染者,大扶康和伏立康唑可以起到满意疗效。     

In vitro antifungal activity of voriconazole: New data after the first years of clinical experience

Voriconazole has been developed to meet the increasing need for new and useful antifungal agents for the treatment of invasive mycoses. This review describes the spectrum of voriconazole antifungal activity based on data from in vitro studies published during the last three years. This survey demonstrates that voriconazole has a broad antifungal spectrum against the most common fungal pathogens being its action fungistatic for Candida and fungicidal for Aspergillus and other filamentous fungi. Overall, more than 95% of all Candida isolates tested are susceptible to voriconazole and less than 3% are resistant. Similar or even better activity rates have been described for Aspergillus, Cryptococcus and most of yeasts and moulds of medical importance. We also discuss the limitations related to the azole cross-resistance observed in some Candida glabrata isolates, the poor activity of voriconazole against Scedosporium prolificans, its activity against fungal biofilms and the great potential usefulness of combination of voriconazole with other antifungal drugs.     

The role of second-generation triazole antifungal agents voriconazole and posaconazole in patients with hematologic malignancies

The second-generation triazoles, voriconazole and posaconazole, have found important roles in the management of invasive fungal infections in high-risk patients. Both agents are more active against Candida albicans and the non-albicans Candida species than the first-generation triazoles. They are active against Aspergillus species, including those species less susceptible to polyenes, and against a variety of non-Aspergillus molds. In contrast to posaconazole, voriconazole has no activity against the zygomycetes, and breakthrough infections have been observed. Both are well absorbed, but considerable intra- and interpatient pharmacokinetic variability has raised the question of therapeutic drug monitoring. Both inhibit hepatic cytochrome P450 isoenzymes, which are important in the metabolism of various drugs coadministered in the management of high-risk patients. Clinical trials have demonstrated the safety and efficacy of both agents for antifungal prophylaxis and treatment in invasive candidiasis, invasive aspergillosis, and in invasive fungal infections caused by a variety of non-Aspergillus molds. Posaconazole is the only triazole approved for use in the treatment of invasive zygomycosis. Voriconazole is the accepted standard first-line therapy for invasive aspergillosis.     

Antifungal agents: mechanisms of action

Clinical needs for novel antifungal agents have altered steadily with the rise and fall of AIDS-related mycoses, and the change in spectrum of fatal disseminated fungal infections that has accompanied changes in therapeutic immunosuppressive therapies. The search for new molecular targets for antifungals has generated considerable research using modern genomic approaches, so far without generating new agents for clinical use. Meanwhile, six new antifungal agents have just reached, or are approaching, the clinic. Three are new triazoles, with extremely broad antifungal spectra, and three are echinocandins, which inhibit synthesis of fungal cell wall polysaccharides--a new mode of action. In addition, the sordarins represent a novel class of agents that inhibit fungal protein synthesis. This review describes the targets and mechanisms of action of all classes of antifungal agents in clinical use or with clinical potential.     

Clinical efficacy of new antifungal agents

Several new options are now available for treating serious fungal infections. All three echinocandin agents currently available have been shown in randomized, blinded clinical trials to be efficacious in treating candidemia and invasive candidiasis. By contrast, the demonstrated efficacy of the echinocandins for the treatment of invasive aspergillosis has been based on historically controlled salvage treatment trials in patients failing or intolerant of other therapies. The new triazole agents, voriconazole and posaconazole, have a broad spectrum of antifungal activity. Voriconazole has become the agent of choice for invasive aspergillosis. On the basis of compassionate treatment data, posaconazole appears to be effective for treatment of zygomycosis. These agents have also been shown to be effective in the treatment of non-Aspergillus mould infections, several of the endemic mycoses and serious Candida infections.     

Novel fluconazole derivatives with promising antifungal activity

The fungistatic nature and toxicity concern associated with the azole drugs currently on the market have resulted in an increased demand for new azole antifungal agents for which these problematic characteristics do not exist. The extensive use of azoles has resulted in fungal strains capable of resisting the action of these drugs. Herein, we report the synthesis and antifungal activity of novel fluconazole (FLC) analogues with alkyl-, aryl-, cycloalkyl-, and dialkyl-amino substituents. We evaluated their antifungal activity by MIC determination and time-kill assay as well as their safety profile by hemolytic activity against murine erythrocytes as well as cytotoxicity against mammalian cells. The best compounds from our study exhibited broad-spectrum activity against most of the fungal strains tested, with excellent MIC values against a number of clinical isolates. The most promising compounds were found to be less hemolytic than the least hemolytic FDA-approved azole antifungal agent voriconazole (VOR). Finally, we demonstrated that the synthetic alkyl-amino FLC analogues displayed chain-dependent fungal membrane disruption as well as inhibition of ergosterol biosynthesis as possible mechanisms of action.     

Systemic antifungals. Pharmacodynamics and pharmacokinetics

Invasive fungal infections are important causes of morbidity and mortality in critically ill non neutropenic patients. For many years, amphotericin B and flucytosine have been the only available antifungal agents for invasive fungal infections. Fortunately, the antifungal armamentarium has increased during the past two decades with the addition of several new agents. In addition to itraconazole and fluconazole, lipid formulations of amphotericin B, voriconazole, and caspofungin have been recently licensed. These various antifungal agents differ in their pharmacokinetic and pharmacodynamic profile.     

作用于细胞壁的抗真菌药物研究进展

与人类细胞相比,细胞壁为真菌的特有结构,因此作用于细胞壁的抗真菌药物相较于其他类型抗真菌药物而言具有高效、低毒的特点,是迄今为止安全性最高的一类抗真菌药物。本文对作用于细胞壁的抗真菌药物进行综述,根据作用机制及靶点的不同分别介绍葡聚糖合成酶抑制剂、几丁质合成酶抑制剂及糖基磷脂酰肌(glycosylphosphatidylinositol,GPI)锚定蛋白抑制剂,对其进行总结和归纳,为相关药物的研发及将来的临床应用前景提供参考。     

Modern antifungals in therapy of nosocomial mycosis in oncologic patients

Rational position of voriconazole in the treatment of oncologic inpatients was shown and the criteria of its use in the algorithms of the therapy and prophylaxis of nosocomial fungal infections were developed. The clinical trial enrolled 50 patients with oncologic pathologies. The patients were divided into two groups of possible invasive candidiasis risk. The patients of one group were treated with fluconazole (Diflucan) and those of the other group were treated with voriconazole (Vifend). The spectrum of the hospital fungal flora was determined and susceptibility of 310 clinically important opportunistic fungi was investigated. All the isolates of Candida albicans and C.tropicalis were susceptible to amphotericin B, fluconazole and voriconazole and 79 and 50% of the isolates were susceptible to intraconazole respectively. As for the C.krusei isolates, 67% was susceptible to amphotericin B, 50% was susceptible to fluconazole, 100% was susceptible to voriconazole and none of the strains was susceptible to intraconazole. By the clinical efficacy voriconazole was superior to fluconazole and comparable with amphotericin B, while superior to it by the number of the side effects and by the cost of the treatment course. It was concluded that voriconazole should be considered as the main agent in the antifungal therapy of oncologic patients.     

Applying Pharmacogenomics to Antifungal Selection and Dosing: Are We There Yet?

This review summarizes recent literature for applying pharmacogenomics to antifungal selection and dosing, providing an approach to implementing antifungal pharmacogenomics in clinical practice. The Clinical Pharmacogenetics Implementation Consortium published guidelines on CYP2C19 and voriconazole, with recommendations to use alternative antifungals or adjust voriconazole dose with close therapeutic drug monitoring (TDM). Recent studies demonstrate an association between CYP2C19 phenotype and voriconazole levels, clinical outcomes, and adverse events. Additionally, CYP2C19-guided preemptive dose adjustment demonstrated benefit in two prospective studies for prophylaxis. Pharmacokinetic–pharmacodynamic modeling studies have generated proposed voriconazole treatment doses based on CYP2C19 phenotypes, with further validation studies needed. Sufficient evidence is available for implementing CYP2C19-guided voriconazole selection and dosing among select patients at risk for invasive fungal infections. The institution needs appropriate infrastructure for pharmacogenomic testing, integration of results in the clinical decision process, with TDM confirmation of goal trough achievement, to integrate antifungal pharmacogenomics into routine clinical care.     

新的抗真菌药物靶点研究进展

近30年来,侵袭性真菌感染发病率持续上升,病死率居高不下,而治疗药物十分有限是造成其高致死率的重要因素之一。因此,发现新的抗真菌靶点和药物,已成为迫切需要。正在研究的新的抗真菌靶点如下：一是信号通路介导的抗真菌靶点,包括钙调神经磷酸酶及其分子伴侣Hsp90、3-磷酸肌醇依赖性蛋白激酶（PKH）以及参与Ras蛋白修饰的相关酶等,其拮抗剂包括传统免疫抑制剂的类似物以及Hsp90抗体、KP-372-1和PS77以及手霉素A等;二是GPI锚定蛋白合成通路的催化酶,其抑制剂有E1210和M720等化合物;三是分泌型天冬氨酸蛋白酶,肽类、逆转录病毒抑制剂,以及砜类的衍生物等均可以抑制这一靶点;四是海藻糖的合成的两个关键酶Tps1和Tps2。鉴于侵袭性真菌感染严重影响人类公共健康安全,而新型抗真菌药物的研发又依赖于新靶点的探索,因此,本文靶向这一核心真菌临床问题,系统介绍了当前新的抗真菌药物靶点发展概况,并在靶点选择可行性以及针对靶点的药物研发策略上提出见解。