Aspectos actuales de las enfermedades invasivas por hongos filamentosos

Invasive fungal infections have become a major cause of morbimortality in intensive care patients, persons suffering from cancer or immune deficiencies, and other diseases with impaired immunity. Candida albicans remains the most frequent fungal pathogen, but advances in the diagnosis, prevention and treatment of invasive candidiasis are leading to important etiological changes. Among the emerging invasive mycoses, are those caused by filamentous fungi, such as Aspergillus, Lomentospora/Scedosporium, Fusarium or the Mucorales. Invasive aspergillosis is difficult to diagnose, and although there are diagnostic tools available, their use is not widespread, and their effectiveness vary depending on the group of patients. Clinical suspicion in high-risk patients, radiological diagnosis and the use of biomarkers, such as 1,3-β-D-glucan and galactomannan, can be of great help. However, diagnostic resources are limited in other mycoses, but radiology, pathological studies and the microbiological diagnosis can be useful. The high mortality of these mycoses requires early empirical antifungal treatment in many cases. Voriconazole is the first choice for treatment of the majority of aspergillosis, scedosporiasis, fusariosis and other hyalohyphomycoses. The treatment of mucormycoses, Lomentospora prolificans infections or mycoses by dematiaceous fungi are more complicated. Amphotericin B is active against many mucoralean fungi, but the combination of two or more antifungal agents could be a therapeutic alternative in many amphotericin B-refractory mycoses. Current clinical challenges include improving the diagnosis and the treatment of these mycoses, along with improving the adequate prevention in patients at high risk of suffering from them.     

Papel futuro de la micafungina en el tratamiento de las micosis invasoras por hongos filamentosos

BackgroundMicafungin is a echinocandin. It inhibits β-1,3-D-glucan synthesis, thus achieving fungicidal activity against virtually all Candida spp., including those resistant to fluconazole, and fungistatic activity against Aspergillus spp., as well as several but not all pathogenic molds. Results from in vitro studies, animal models, small clinical trials, hint at possible future indications such as invasive aspergillosis and empirical viantifungal therapy, although currently there is little information published.AimsTo describe published data of micafungin as treatment against invasive mold infections, specially analysing its role in the inmunodepressed host and critical care setting.MethodsA sistematic review of literature using the principal medical search engines was performed. Terms such as micafungin, aspergillosis, zygomycosis, invasive fungal infections, emerging fungal infections, antifungal treatment or therapy, antifungal prophylaxis, empiric or pre-emptive therapy were crossed. Febrile neutropenia patients were excluded.ResultsSeveral studies in these setting were identified and were described in this review. Although there were no blinded randomized clinical trials published, treatment or prophylaxis of invasive aspergillosis and other invasive mould infections with micafungin described in open clinical studies were analyzed.ConclusionsMicafungin could play a future important role as a primary or rescue therapy, alone or in combination, in the treatment or prophylaxis of invasive fungal infections caused by moulds. New randomized clinical trials are needed to confirm their efficacy.     

Particularidades clínicas del paciente crítico con infección fúngica invasora

BackgroundInvasive fungal infection (IFI) is an entity that encompasses different types of infections caused by different types of those fungi pathogenic for humans. In the setting of critically ill patients with multiple and oftenconcurrent risk factors and comorbidities the most common are those caused by the Candida and Aspergillus species. Among the characteristics of IFI in critically ill patients, three aspects can be highlighted: those related to the host (e.g.: risk factors, clinical severity), those related with the pathogen (sensitivity, virulence), or those concerning antifungal treatment (spectrum, features PK / PD, safety, interactions). The fungus that most often causes an IFI in critically ill patients is Candida; the most common type infections are candidemia, Candida peritonitis and catheter-related infections. In recent years new antifungal treatments have expanded the therapeutic options, with echinocandins as a clear choice, often the first in the latest guidelines in critically ill patients with IFI.Case reportWe report the case of a critically ill patient having the most common risk factors, multiple organ dysfunction and development of an IFI. The complexity of establishing an antifungal treatment from the moment of its inception, its setting, and the considerations of the different therapeutic possibilities according to organ dysfunction of the patient are discussed. The antifungal treatment options mentioned in the current guidelines and recommendations are also evaluated.ConclusionsThe most common fungal infection in critically ill patients is invasive candidiasis, with candidemia or candida peritonitis being the most frequent clinical presentations. Candins have brought new possibilities for treating these complex patients due to their good safety profile and clinical efficacy.     

Antifungals discovery: an insight into new strategies to combat antifungal resistance

Undeniably, new antifungal treatments are necessary against pathogenic fungi. Fungal infections have significantly increased in recent decades, being highlighted as important causes of morbidity and mortality, particularly in immunocompromised patients. Five main antifungal classes are used: (i) azoles, (ii) echinocandins, (iii) polyenes, (iv) allylamines and (v) pyrimidine analogues. Moreover, the treatment of mycoses has several limitations, such as undesirable side effects, narrow activity spectrum, a small number of targets and fungal resistance, which are still of major concern in clinical practice. The discovery of new antifungals is mostly achieved by the screening of natural or synthetic/semisynthetic chemical compounds. The most recent discoveries in drug resistance mechanism and their avoidance were explored in a review, focusing on different antifungal targets, as well as new agents or strategies, such as combination therapy, that could improve antifungal therapy.

Significance and Impact of the Study

The failure to respond to antifungal therapy is complex and is associated with microbiological resistance and increased expression of virulence in fungal pathogens. Thus, this review offers an overview of current challenges in the treatment of fungal infections associated with increased antifungal drug resistance and the formation of biofilms in these opportunistic pathogens. Furthermore, the most recent and potential strategies to combat fungal pathogens are explored here, focusing on new agents as well as innovative approaches, such as combination therapy between antifungal drugs or with natural compounds.     

AmBisome,tres retos: infección por Candida auris,infección del sistema nervioso central e infección asociada a biopelículas

The treatment of invasive fungal infections remains a challenge, both for the diagnosis and for the need of providing the appropriate antifungal therapy. Candida auris is a pathogenic yeast that is responsible for hospital outbreaks, especially in intensive care units; it is characterized by a high resistance to the antifungal agents and can become multidrug-resistant. At present, the recommended antifungal agents for the invasive infections with this pathogen are echinocandins, always after carrying out an antifungal susceptibility testing. In case of no clinical response or persistent candidemia, the addition of liposomal amphotericin B or isavuconazole may be considered. Both fungal infection of the central nervous system and that associated with biomedical devices remain rare entities affecting mainly immunocompromised patients. However, an increase in their incidence in recent years, along with high morbidity and mortality, has been shown. The treatment of these infections is conditioned by the limited knowledge of the pharmacokinetic properties of antifungals. A better understanding of the pharmacokinetic and pharmacodynamic parameters of the different antifungals is essential to determine the efficacy of the antifungal agents in the treatment of these infections.     

The fungal cell wall as a target for the development of new antifungal therapies

In the past three decades invasive mycoses have globally emerged as a persistent source of healthcare-associated infections. The cell wall surrounding the fungal cell opposes the turgor pressure that otherwise could produce cell lysis. Thus, the cell wall is essential for maintaining fungal cell shape and integrity. Given that this structure is absent in host mammalian cells, it stands as an important target when developing selective compounds for the treatment of fungal infections. Consequently, treatment with echinocandins, a family of antifungal agents that specifically inhibits the biosynthesis of cell wall (1-3)β-D-glucan, has been established as an alternative and effective antifungal therapy. However, the existence of many pathogenic fungi resistant to single or multiple antifungal families, together with the limited arsenal of available antifungal compounds, critically affects the effectiveness of treatments against these life-threatening infections. Thus, new antifungal therapies are required. Here we review the fungal cell wall and its relevance in biotechnology as a target for the development of new antifungal compounds, disclosing the most promising cell wall inhibitors that are currently in experimental or clinical development for the treatment of some invasive mycoses.     

The effects of fluconazole and cytokines on human mononuclear cells

Candida infections are common infections and fluconazole is one of the most frequently administered antifungal agents in their treatment. The resistance developed against antifungal agents has necessitated the improvement of new treatments. This study focuses on the investigation of the effect of fluconazole and cytokines such as interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha), granulocyte-macrophage colony-stimulating factor (GM-CSF) on chemokine production and anticandidal activity of human monocytes. In the study it was observed that GM-CSF caused an increase in candidacidal activity of monocytes. Anticandidal activity of GM-CSF + IFN-gamma combination was not found to be more effective than GM-CSF or IFN-gamma alone. The presence of cytokine and fluconazole caused an increase in the levels of CCL3 and CCL4 chemokines. Accordingly, it was considered that chemokines could contribute to the efficacy of fluconazole in C. albicans infections. Besides, in order to strengthen the immune system some cytokines might be used in addition to antifungal agents for the treatment.     

El tratamiento de la mucormicosis (cigomicosis) en el siglo xxi

Infections due to zygomycetes, caused by mucorales and entomophthorales, are characterized by angioinvasion and invasion of neighboring organs or structures. Mucorales most commonly cause rhinocerebral, pulmonary, cutaneous or disseminated infection and its spread is favored by several diseases (such as diabetes or chronic kidney disease) and risk factors (neutropenia, immunosuppression, iron overload). They have a high mortality rate, and the key to success in their treatment are early diagnosis, prompt administration of antifungal treatment, and extensive surgical debridement. Currently, isavuconazole constitutes an option for the treatment of those mucormycosis refractory to liposomal amphotericin B. Due to its pharmacokinetic and pharmacodynamic characteristics and its low toxicity, it is also the best choice for maintenance therapy.     

Synergy between ajoene and ketoconazole in isolates of Microsporum canis. A preliminary study using fractional inhibitory concentration technique (FIC)

Fungal infections are probably the most frequent infectious diseases affecting human being. Resistance to different anti-fungal drugs, and their bioavailability in the infection site, represent a problem for treatment. Looking for effective solutions, combination of two or more antifungal drugs to obtain an additive effect or synergic effect that potent antifungal activity has been investigated. In this study, the effect (additive, antagonist or synergistic) of ajoene and ketoconazole combination was evaluated in the growth and proliferation of filamentous fungi. Interactions in vitro were investigated in three isolates of Microsporum canis through a preliminary study using micro dilution, according to recommendations of NCCLS M-38A, with several modifications. Results obtained for CIF of each isolates studied (CIF = 0.18 0.36 microM), demonstrate that exists a very potent synergistic effect, when they are combined, and it represents a hope for future clinic trials to treat resilient fungal infections caused by M. canis.     

Antifúngicos disponibles para el tratamiento de las micosis ungueales

Nail fungal infections are considered one of the major dermatological problems due to their high rate of therapeutic failure, management and treatment difficulties. Long-term treatments, inadequate therapies, mycological misdiagnosis and follow-up, secondary alterations of the nail, and resistant microorganisms, are some of the causes of these complications. Although the discovery of new antifungal agents has provided some effective molecules, none of the current available drugs are totally effective. It is important to continue researching in this field to provide new antifungal agents and combined therapies.     

An update on the pharmacoeconomics of antifungal pharmacotherapy

The incidence and severity of invasive fungal infections are on the rise and they pose a risk of significant morbidity and mortality. The cost burden of fungal infections in the United States is high. There are many newer, less toxic antifungal agents to manage these challenging infections; however, these agents also carry a high cost of their own. When considering an antifungal agent for a specific patient, it is important to consider safety, efficacy, and cost, thus making it essential to continually evaluate the antifungal pharmacoeconomic literature to assist in the therapeutic decision-making process for patients with invasive fungal infections. Unfortunately, there is a lack of pharmacoeconomic studies addressing the costs associated with the treatment and prevention of fungal infections. Future large-scale clinical studies should include pharmacoeconomic analyses and end points that encompass all costs associated with antifungal drug use, not solely drug acquisition costs.     

Rare Fungal Infections in Children: An Updated Review of the Literature

An increasing trend of reports of rare fungal diseases has been observed to be mainly associated with the substantial increase of high-risk immunocompromised children, as well as with the selective pressure of antifungal drugs. On the other hand, recent reports have shown that several species of these rare fungi may also cause infections in immunocompetent children without obvious underlying conditions. The clinical spectrum of these infections, and most importantly their outcome, varies greatly, implying for a rather heterogenic group of pediatric infections. Various types of superficial and subcutaneous fungal infections, as well as systemic and disseminated life-threatening infections, have been reported. Prompt diagnosis and appropriate treatment of rare fungal diseases in children remains a great challenge. Several treatment options have been used, ranging from localized to combination treatment with extensive surgical excision and long-term antifungal therapy. We review contemporary data of rare fungal infections in pediatric patients focusing on epidemiology, mycology, management and outcome, published during the last three years.     

Treatment of Invasive Candida Infections in the Neonatal Intensive Care Unit

Invasive Candida infections are a leading cause of morbidity and mortality in the neonatal intensive care unit (NICU). Extremely preterm and very low birth weight infants are at the highest risk of infection. There are currently no antifungal agents that have FDA-labeling for the treatment of invasive candidiasis in the neonatal population. Based on the current IDSA guidelines, amphotericin and fluconazole are considered first-line options for neonatal candidiasis. The newer antifungal agents (i.e., echinocandins and voriconazole) are currently considered second-line or salvage therapy; however, evidence supporting their use is emerging. This review focuses on the supporting evidence for the selection of antifungal agents for treatment of invasive Candida infections in the NICU.     

Combination Therapy for Invasive Fungal Infections

The purpose of this review is to summarize and evaluate relevant literature on combination antifungal therapy for invasive fungal infections (IFIs). Cryptococcal meningitis has the largest body and highest quality in support of combination therapy with amphotericin B and flucytosine. More recent data in treatment of invasive aspergillosis suggest combination therapy with voriconazole and echinocandins may be effective in select patients. Quality studies are needed to define combination therapy in rare mold infections. Multiple strategies have been employed to optimize treatment of the growing incidence of IFIs. With exceptions as noted above, justification for the use of combination antifungal therapy is most often based on uncontrolled and/or underpowered studies, in vitro data, and case reports.     

Treatment options in emerging mold infections

Although Zygomycetes, Fusarium spp, and Scedosporium spp are far less frequent causes of invasive fungal disease than Aspergillus and Candida, they are emerging. These types of infections in severely immunocompromised patients have a common feature: a poor clinical response to antifungal therapy. Infection is usually airborne, although local infections in cases of skin trauma are also possible. These fungi are resistant to some common antifungal agents; therefore, surgical debridement of the necrotic tissue, when possible, should be combined with specific systemic antifungal treatment in immunocompromised patients. In the absence of randomized clinical trials, most experience in the treatment of these infections is with amphotericin B. Experience with new antifungal agents is still limited, and recovery from neutropenia remains the main predictor of a favorable outcome.     

Antifungal Therapy for Invasive Fungal Diseases in Allogeneic Stem Cell Transplant Recipients: An Update

Invasive fungal diseases (IFDs) remain a major cause of morbidity and mortality in allogeneic stem cell transplant (SCT) recipients. While the most common pathogens are Candida spp. and Aspergillus spp., the incidence of infections caused by non-albicans Candida species as well as molds such as Zygomycetes has increased. For many years, amphotericin B deoxycholate (AMB-D) was the only available antifungal for the treatment of IFDs. Within the past decade, there has been a surge of new antifungal agents developed and added to the therapeutic armamentarium. Lipid-based formulations of amphotericin B provide an effective and less nephrotoxic alternative to AMB-D. Voriconazole has now replaced AMB-D as first choice for primary therapy of invasive aspergillosis (IA). Another extended-spectrum triazole, posaconazole, also appears to be a promising agent in the management of zygomycosis, refractory aspergillosis, and for prophylaxis. Members of the newest antifungal class, the echinocandins, are attractive agents in select infections due to their safety profile, and are a more attractive option compared to AMB-D as initial treatment for invasive candidiasis and (based on one study) challenge fluconazole for superiority in management with this mycoses. However, challenges do exist among these newer agents in very high-risk individuals like allogeneic SCT recipients, which may include adverse drug events, drug–drug interactions, variability in oral absorption, and availability of alternative formulations. The addition of newer agents has also stimulated interest in the potential application of combination therapy in serious, life-threatening infections. However, adequate studies are not available for most IFDs; thus, the clinical use of combination therapy is not evidenced based on most cases and preciseness in its use is uncertain. Finally, therapeutic drug monitoring of select antifungals (notably posaconazole and voriconazole) may play an increasing role due to significant interpatient variability in serum concentrations after standard doses.     

Is There Still a Place for Conventional Amphotericin B in the Treatment of Neonatal Fungal Infections?

Neonatal invasive fungal infections (IFIs) remain an increasing problem associated with high rates of morbidity and mortality, as well as late-onset neurodevelopmental implications. Invasive candidiasis remains the leading neonatal IFI. Candida albicans is the fungal species most often affecting this population, although a changing epidemiologic incidence to non-albicans Candida species is reported in some neonatal intensive care units. Many treatment recommendations are extrapolated from adult populations, emphasizing the need to establish the optimal antifungal agent, dosage, and duration of therapy in neonates. Historically, conventional amphotericin B has been considered an efficient and safe treatment approach for most neonatal IFIs. More recently, lipid formulations of amphotericin B have been studied, used alone or in combination with other antifungal agents such as azoles or echinocandins. The aim of this article is to review the published experience in the use of amphotericin B formulations to treat neonatal IFIs.     

Novel antifungal beta-amino acids: synthesis and activity against Candida albicans

A series of novel beta-amino acids has been synthesized and tested for their in vitro antifungal activity against Candida albicans. A steep SAR was observed. beta-Amino acid 21 (BAY 10-8888/PLD-118) revealed the most favourable activity-tolerability profile and was selected for clinical studies as a novel antifungal for the oral treatment of yeast infections.     

Relevancia de la anfotericina B liposomal en el tratamiento de las infecciones fúngicas invasoras en pacientes oncohematológicos

Liposomal amphotericin B (L-AmB) has been a key cornerstone for the management of invasive fungal infections (IFI) caused by a wide array of molds and yeasts during the last three decades. Multiple studies performed over this period have generated a large body of evidence on its efficacy and safety, becoming the main antifungal agent in the management of IFI in patients with hematologic malignancies in several not mutually exclusive clinical settings. First, L-AmB is the most commonly used antifungal agent in patients undergoing intensive chemotherapy for acute leukemia and high-risk myelodysplastic syndrome, as well as in hematopoietic stem cell transplant recipients. Additionally, due to the administration of newer targeted therapies (such as monoclonal antibodies or small molecule inhibitors), opportunistic mold infections are increasingly being reported in patients with hematologic malignancies usually considered low-risk for IFI. These agents usually have a high drug-drug interaction potential, being triazoles, commonly used for antifungal prophylaxis, included. Finally, patients developing breakthrough IFI because of either subtherapeutic concentrations of antifungal prophylactic drugs in blood or selection of resistant strains, require broad spectrum antifungal therapy, usually with an antifungal of a different class. In both situations, L-AmB remains as the best option for early antifungal therapy.