Tratamiento combinado de la aspergilosis invasora. ¿Una oportunidad para micafungina?

Efficacy and safety of echinocandin monotherapy and combination therapy for immunocompromised patients with systemic candidiasis: A systematic review and meta-analysis

BACKGROUND

Systemic candidiasis is caused by Candida invading the bloodstream. The efficacy and safety of echinocandins in monotherapy and combination therapy regimes have not been adequately compared in immunocompromised patients with Candidiasis, and thus this systematic review aims to do so.

METHODS

A protocol was prepared a priori. PubMed, Embase and Cochrane Library databases were searched systematically (from inception of each database to September 2022) to identify randomized controlled trials. Two reviewers performed screening, quality assessment of trials, and extracted data independently. Pairwise meta-analysis was performed using random-effects model to compare echinocandin monotherapy versus other antifungals. The primary outcomes of interest were treatment success and treatment-related adverse events.

RESULTS

547 records (PubMed=310, EMBASE=210 and Cochrane Library=27) were reviewed. Following our screening criteria, six trials involving 177 patients were included. Risk of bias of four included studies had some concerns due to lack of a pre-specified analysis plan. Meta-analysis shows that echinocandin monotherapy does not have significantly higher rates of "treatment success" compared to other classes of antifungals (RR 1.12, 95%CI 0.80-1.56). However, echinocandins appeared to be significantly safer than other forms of antifungal therapy (RR 0.79, 95%CI 0.73-0.86).

CONCLUSION

Our findings have shown that echinocandin monotherapy (micafungin, caspofungin) given intravenously are just as effective as other antifungals (amphotericin B, itraconazole) in the treatment of systemic candidiasis in immunocompromised patients. There appears to be similar benefits when using echinocandins compared to amphotericin B which has also been used as a broad-spectrum antifungal, while avoiding the severe adverse effects that amphotericin B causes, such as nephrotoxicity.

Allicin reduces inflammation by regulating ROS/NLRP3 and autophagy in the context of A. fumigatus infection in mice

OBJECTIVES

Inhibitory effect of allicin with broad-spectrum antimicrobial activity on A. fumigatus and the regulation mechanism of inflammation and autophagy in vitro and in vivo.

METHODS

The corresponding concentration of allicin was prepared according to the needs of the experiment. In vitro, 2 ml 5 × 10⁴ of fungal spores suspension was added to the 6-well plate per hole, and different final concentrations of allicin (1 μl/ml, 2.5 μl/ml, 5 μl/ml, 10 μl/ml, 20 μl/ml, 30 μl/ml) were added. The fungal spores were stained by fluorescent dye SYTO 9 (green) every day, and the spore germination inhibition was detected by flow cytometry in different PH. RAW264.7 cells were cultured and stimulated by A. fumigatus spores for 3 h, then allicin solution was added. Then some cells were stained with ROS probe (green) and hochest33342 (blue). The effect of allicin on ROS was observed by fluorescence microscope. The other part of cells extracted protein from cell lysate and detected the effect of allicin on inflammatory factors and autophagy by Western-blotting. The green and red spots of RAW264.7 cells stably transfected with GFP-RFP-LC3 were observed by fluorescence microscopy. In vivo, A. fumigatus spore was injected intratracheally into mice, then allicin was injected intravenously at a concentration of 5 mg/kg/day for 7 consecutive days. The survival status, pulmonary fungal load and weight of mice was recorded continuously for 30 days and detected the changes of lung by pathological examination and immunohistochemistry.

RESULTS

In vitro, allicin significantly inhibited the spore germination of A. fumigatus within 24 h in a dose-dependent manner and it had a stable inhibition on the spore germination of A. fumigatus in acidic environment. Cell experiments showed that allicin inhibited intracellular spore germination by inhibiting ROS production, inflammation and autophagy. In the animal experiment, the survival rate and body weight of allicin injection group were higher than that of non injection group, while the spore load of lung was lower than that of non injection group (P < 0.05).

CONCLUSIONS

These results support that allicin reduces inflammation and autophagy resistance to A. fumigatus infection, It also provides a possible treatment for Aspergillus infectious diseases, i.e. early anti-inflammation, antibiotics or drugs that inhibit excessive autophagy.

[Adequacy of antifungal agents in a teaching hospital: too many inappropriate prescriptions despite training]

OBJECTIVES

The aim of this study was to assess adequacy and conformity of systemic antifungal drugs prescriptions in comparison with local, French, European and international recent guidelines in the Grenoble Teaching Hospital.

METHODS

Each prescription of itraconazole, liposomal amphotericin B, voriconazole, caspofungin, micafungin, posaconazole and anidulafungin made between February and October 2010 were reviewed by an infectious diseases specialist. Fluconazole prescriptions' were reviewed only for 15 days.

RESULTS

Two hundred and eight patients received 295 systemic antifungal prescriptions. Most of them had at least one risk factor and immunodeficiency was one of the most common. Antifungal treatment starting, molecules choice, administrations conformity (dosage, administration way) were appropriate in 126 cases on 208 (60.5 %) at the treatment beginning evaluation and in 171 cases on 295 (58 %) at the treatment ending evaluation. Antifungal combinations (9.4 %) were less frequent than in the study carried out in Grenoble teaching hospital in 2007 (16.3 %). Most common non-conformities encountered were use of caspofungin instead of fluconazole, antifungal combinations prescription, administration modalities misguiding. The economy that could have been generated by appropriate prescriptions represented 18 % of the antifungal budget of 2010 in the Grenoble Teaching Hospital.

CONCLUSION

An improvement was highlighted in the antifungal prescriptions in comparison to the previous study led in 2007 in the Universitary Grenoble Hospital. However, the antifungal use was not optimal and further training is planned.

Antifungal drug discovery: the process and outcomes

New data suggest that the global incidence of several types of fungal diseases have traditionally been under-documented. Of these, mortality caused by invasive fungal infections remains disturbingly high, equal to or exceeding deaths caused by drug-resistant tuberculosis and malaria. It is clear that basic research on new antifungal drugs, vaccines and diagnostic tools is needed. In this review, we focus upon antifungal drug discovery including in vitro assays, compound libraries and approaches to target identification. Genome mining has made it possible to identify fungal-specific targets; however, new compounds to these targets are apparently not in the antimicrobial pipeline. We suggest that 'repurposing' compounds (off patent) might be a more immediate starting point. Furthermore, we examine the dogma on antifungal discovery and suggest that a major thrust in technologies such as structural biology, homology modeling and virtual imaging is needed to drive discovery.