Itraconazole therapy for nonmeningeal coccidioidomycosis: clinical and laboratory observations

Central Nervous System Coccidioidomycosis in Children: A Retrospective Case Series

BACKGROUND

Published literature on central nervous system (CNS) coccidioidomycosis in children is limited. Here we describe a large case series of pediatric CNS coccidioidomycosis from a tertiary care center in an endemic region.

METHOD

This is a retrospective case review of patients ≤21 years old with a diagnosis of CNS coccidioidomycosis from January 1, 2000, to December 31, 2018.

RESULTS

Thirty patients (median age 10.8 years) were identified and most (93%) were previously healthy. Fever (90%), headache (70%), vomiting (53%), and fatigue (57%) were the most common presenting clinical manifestations, with focal neurological signs/symptoms present in 14 (47%). The initial serum Coccidioides compliment fixation (CF) titer was ≤ 1:8 in 33%. Most patients had extra-axial brain involvement (83%) and seven (23%) had associated spinal cord disease. Shunt placement was required in 70% and 62% required revision. Fluconazole was the initial treatment in 22 (73%), with treatment failure occurring in 50%. Most patients (77%) stabilized and were maintained on suppressive therapy, 4 (13%) experienced relapses and/or progressive disease, and one (3%) died, while long-term neurological complications occurred in 17%.

CONCLUSIONS

CNS coccidioidomycosis is an uncommon and sometimes devastating complication of disseminated coccidioidomycosis. Many patients present with relatively low CF titers and hydrocephalus is common. Fluconazole treatment failures are common, and management remains difficult despite recent advances in therapy. Most patients do well once the disease is stabilized and require lifelong therapy. Newer therapeutic agents are needed.

Retrospective evaluation of the efficacy of fluconazole for the treatment of coccidioidomycosis in dogs: 49 cases (2015-2020)

OBJECTIVE

To characterize the clinical course and therapeutic response in dogs with coccidioidomycosis treated with fluconazole.

ANIMALS

49 client-owned dogs with coccidioidomycosis that were treated with fluconazole and had ≥ 2 follow-up examinations.

PROCEDURES

Medical records were retrospectively searched to identify dogs in which coccidioidomycosis was diagnosed between January 2015 and May 2020. Data recorded from each dog included signalment, clinical signs, diagnostic test results, and treatment.

RESULTS

Dogs were treated with fluconazole at a median initial dosage of 19.7 mg/kg/d. Median treatment duration was 298.5 days, with 26 of the 49 dogs completing treatment during the study period. Respiratory signs, lethargy, and hyporexia were the most common clinical signs. Frequency of lethargy decreased after 30 days, whereas frequency of hyporexia and respiratory signs decreased after 90 days. Median IgG titer at diagnosis was 1:32 and was significantly decreased, compared with baseline titer, at all recheck intervals after 90 days. Hyperglobulinemia, monocytosis, and neutrophilia were the most common clinicopathologic abnormalities. Hyperglobulinemia resolved within 30 days, neutrophilia resolved within 90 days, and monocytosis resolved after 180 days.

CLINICAL RELEVANCE

Improvements in clinical signs, titers, and clinicopathologic abnormalities were observed after initiation of treatment with fluconazole. Improvement began as early as the first 3 months of treatment, but some variables did not resolve until after 6 to 9 months of treatment. This information provides clinical guidance and describes expectations when prescribing fluconazole to treat coccidioidomycosis in dogs.

Variability of Hydroxy-Itraconazole in Relation to Itraconazole Bloodstream Concentrations

We analyzed the relationship between itraconazole (ITZ) and hydroxy-itraconazole (OH-ITZ) levels in 1,223 human samples. Overall, there was a statistically significant correlation between ITZ and OH-ITZ levels (Pearson's r, 0.7838), and OH-ITZ levels were generally higher than ITZ levels (median OH-ITZ:ITZ ratio, 1.73; range, 0.13 to 8.96). However, marked variability was observed throughout the range of ITZ concentrations. Thus, it is difficult to predict OH-ITZ concentrations based solely on ITZ levels.

Therapeutic drug monitoring of systemic antifungal agents: a pragmatic approach for adult and pediatric patients

Introduction: Therapeutic drug monitoring (TDM) has been shown to optimize the management of invasive fungal infections (IFIs), particularly for select antifungal agents with a well-defined exposure-response relationship and an unpredictable pharmacokinetic profile or a narrow therapeutic index. Select triazoles (itraconazole, voriconazole, and posaconazole) and flucytosine fulfill these criteria, while the echinocandins, fluconazole, isavuconazole, and amphotericin B generally do not do so. Given the morbidity and mortality associated with IFIs and the challenges surrounding the use of currently available antifungal agents, TDM plays an important role in therapy.Areas covered: This review seeks to describe the rationale for TDM of antifungal agents, summarize their pharmacokinetic and pharmacodynamic properties, identify treatment goals for efficacy and safety, and provide recommendations for optimal dosing and therapeutic monitoring strategies.Expert opinion: Several new antifungal agents are currently in development, including compounds from existing antifungal classes with enhanced pharmacokinetic or safety profiles as well as agents with novel targets for the treatment of IFIs. Given the predictable pharmacokinetics of these newly developed agents, use of routine TDM is not anticipated. However, expanded knowledge of exposure-response relationships of these compounds may yield a role for TDM to improve outcomes for adult and pediatric patients.

Trough concentration of itraconazole and its relationship with efficacy and safety: a systematic review and meta-analysis

Objectives

The optimum trough concentration of itraconazole for clinical response and safty is controversial. The objective of this systematic review and meta-analysis was to determine the optimum trough concentration of itraconazole and evaluate its relationship with efficacy and safety.

Methods

We searched PubMed, EMBASE, Web of Science, the Cochrane Library, Clinical-Trials.gov, and three Chinese literature databases (CNKI, WanFang, and CBM). We included observational studies that compared clinical outcomes below or above the trough concentration cut-off value which we set as 0.25, 0.5, and 1.0 mg/L. The efficacy outcomes were rate of successful treatment, rate of prophylaxis failure and invasive fungal infection (IFI)-related mortality. The safety outcomes included incidents of hepatotoxicity and other adverse events.

Results

The study included a total of 29 studies involving 2,346 patients. Our meta-analysis showed that compared with itraconazole trough concentrations (C_trough) of ≥0.25 mg/L, levels of <0.25 mg/L significantly increased the incidence of IFI for prophylaxis (RR =3.279, 95% confidence interval [CI] 1.73–6.206). Moreover, the success rate of treatment decreased significantly at a cut-off level of 0.5 mg/L (RR =0.396, 95% CI 0.176–0.889). An itraconazole trough level of 1.0 mg/L was associated with hepatotoxicity and other adverse events in a review of many studies.

Conclusion

An itraconazole trough concentration of 0.25 mg/L should be considered as the lower threshold for prophylaxis, and a target concentration of 0.5 mg/L should be the lower limit for effective treatment. A trough level of 1.0 mg/L is associated with increased hepatotoxicity and other adverse events (using High Performance Liquid Chromatography [HPLC]).

2016 Infectious Diseases Society of America (IDSA) Clinical Practice Guideline for the Treatment of Coccidioidomycosis

It is important to realize that guidelines cannot always account for individual variation among patients. They are not intended to supplant physician judgment with respect to particular patients or special clinical situations. Infectious Diseases Society of America considers adherence to these guidelines to be voluntary, with the ultimate determination regarding their application to be made by the physician in the light of each patient's individual circumstances.Coccidioidomycosis, also known as San Joaquin Valley fever, is a systemic infection endemic to parts of the southwestern United States and elsewhere in the Western Hemisphere. Residence in and recent travel to these areas are critical elements for the accurate recognition of patients who develop this infection. In this practice guideline, we have organized our recommendations to address actionable questions concerning the entire spectrum of clinical syndromes. These can range from initial pulmonary infection, which eventually resolves whether or not antifungal therapy is administered, to a variety of pulmonary and extrapulmonary complications. Additional recommendations address management of coccidioidomycosis occurring for special at-risk populations. Finally, preemptive management strategies are outlined in certain at-risk populations and after unintentional laboratory exposure.

Pharmacokinetics and pharmacodynamics of antifungals in children and their clinical implications

Invasive fungal infections are a significant cause of morbidity and mortality in children. Successful management of these systemic infections requires identification of the causative pathogen, appropriate antifungal selection, and optimisation of its pharmacokinetic and pharmacodynamic properties to maximise its antifungal activity and minimise toxicity and the emergence of resistance. This review highlights salient scientific advancements in paediatric antifungal pharmacotherapies and focuses on pharmacokinetic and pharmacodynamic studies that underpin current clinical decision making. Four classes of drugs are widely used in the treatment of invasive fungal infections in children, including the polyenes, triazoles, pyrimidine analogues and echinocandins. Several lipidic formulations of the polyene amphotericin B have substantially reduced the toxicity associated with the traditional amphotericin B formulation. Monotherapy with the pyrimidine analogue flucytosine rapidly promotes the emergence of resistance and cannot be recommended. However, when used in combination with other antifungal agents, therapeutic drug monitoring of flucytosine has been shown to reduce high peak flucytosine concentrations, which are strongly associated with toxicity. The triazoles feature large inter-individual pharmacokinetic variability, although this pattern is less pronounced with fluconazole. In clinical trials, posaconazole was associated with fewer adverse effects than other members of the triazole family, though both posaconazole and itraconazole display erratic absorption that is influenced by gastric pH and the gastric emptying rate. Limited data suggest that the clinical response to therapy may be improved with higher plasma posaconazole and itraconazole concentrations. For voriconazole, pharmacokinetic studies among children have revealed that children require twice the recommended adult dose to achieve comparable blood concentrations. Voriconazole clearance is also affected by the cytochrome P450 (CYP) 2C19 genotype and hepatic impairment. Therapeutic drug monitoring is recommended as voriconazole pharmacokinetics are highly variable and small dose increases can result in marked changes in plasma concentrations. For the echinocandins, the primary source of pharmacokinetic variability stems from an age-dependent decrease in clearance with increasing age. Consequently, young children require larger doses per kilogram of body weight than older children and adults. Routine therapeutic drug monitoring for the echinocandins is not recommended. The effectiveness of many systemic antifungal agents has been correlated with pharmacodynamic targets in in vitro and in murine models of invasive candidiasis and aspergillosis. Further study is needed to translate these findings into optimal dosing regimens for children and to understand how these agents interact when multiple antifungal agents are used in combination.

Itraconazole (Sporanox®) in superficial and systemic fungal infections

Itraconazole (Sporanox) is a triazole antifungal agent with a broad activity spectrum and favorable pharmacokinetic and safety profiles. Numerous clinical trials have established the efficacy and safety of itraconazole in the treatment of superficial fungal infections. In this field, full exploitation of its pharmacokinetics in keratinized tissues has led to the development of intermittent (pulse) treatment regimens that allow similar efficacy with lower overall drug exposure as well as a reduction in treatment costs. The additional anti-inflammatory action of itraconazole also makes it suitable for application in difficult-to-treat inflammatory skin disorders, such as seborrheic dermatitis. Recently, a new oral liquid formulation and an intravenous formulation have been developed, extending the therapeutic application of itraconazole to systemic fungal infections. Due to its broad activity spectrum and excellent tolerability, itraconazole is a valuable addition to the antifungal armamentarium used for prophylactic and empiric treatment in immunocompromised hosts.

What is the role of therapeutic drug monitoring in antifungal therapy?

Despite an expanding number of therapeutic options for treating invasive fungal infection (IFI), the mortality rate from these infections remains high. Many risk factors for poor outcome from IFI (eg, the compromised immune status of the host) are not modifiable by the treating clinician. Thus, elevated interest exists in any modifiable factor that might improve outcome. Many of the new antifungal agents have marked variability in drug concentration based on either inconsistent absorption or elimination, leading to very wide interpatient variability. Many agents also have a narrow therapeutic index, meaning a small range between drug levels too low to achieve the desired clinical benefit and high enough to produce unwanted or toxic effects. Therefore, therapeutic drug monitoring is useful to maximize efficacy while minimizing drug toxicity of some antifungal agents.

Defining responses to therapy and study outcomes in clinical trials of invasive fungal diseases: Mycoses Study Group and European Organization for Research and Treatment of Cancer consensus criteria

Invasive fungal diseases (IFDs) have become major causes of morbidity and mortality among highly immunocompromised patients. Authoritative consensus criteria to diagnose IFD have been useful in establishing eligibility criteria for antifungal trials. There is an important need for generation of consensus definitions of outcomes of IFD that will form a standard for evaluating treatment success and failure in clinical trials. Therefore, an expert international panel consisting of the Mycoses Study Group and the European Organization for Research and Treatment of Cancer was convened to propose guidelines for assessing treatment responses in clinical trials of IFDs and for defining study outcomes. Major fungal diseases that are discussed include invasive disease due to Candida species, Aspergillus species and other molds, Cryptococcus neoformans, Histoplasma capsulatum, and Coccidioides immitis. We also discuss potential pitfalls in assessing outcome, such as conflicting clinical, radiological, and/or mycological data and gaps in knowledge.

Therapeutic drug monitoring of antifungals: pharmacokinetic and pharmacodynamic considerations

Therapeutic drug monitoring of any pharmacologic agent should be considered when there is both significant pharmacokinetic variability and strong, clinically relevant, exposure-effect relationships. Many antifungal drugs exhibit marked variability in drug concentration as a result of inconsistent absorption, metabolism, elimination, or interaction with concomitant medications. For each of the available antifungal drugs, both preclinical and clinical trials have exhibited a relationship between serum concentrations and treatment efficacy. For a smaller subset of compounds, a similar relationship has been identified for the toxicity. The kinetic variability among patients falls outside the therapeutic window for a group of four antifungal compounds. This review summarizes the current literature on therapeutic drug monitoring for these antifungal agents.

Posaconazole Therapy for Chronic Refractory Coccidioidomycosis

BACKGROUND

Coccidioides infections often result in chronic relapsing disease that presents a challenge to the currently available therapy. Posaconazole, an oral extended-spectrum triazole agent, has been shown in vitro and in vivo to have potent activity against this fungus.

METHODS

An open-label multinational study of posaconazole, 800 mg/d, administered in divided doses for the treatment of invasive fungal infection that has been refractory to previous therapy was conducted. The data were reviewed by an independent data review committee (DRC). Fifteen patients met the criteria for proven coccidioidal infection and disease refractory to previous therapy. Success was a complete or partial response; nonsuccess was stable disease, lack of response to therapy, or undetermined response.

RESULTS

The sites of coccidioidal infection were pulmonary (seven patients) and disseminated (eight patients). Patients were refractory to previous therapy (including amphotericin B with or without an azole) for a median duration of 306 days. At the end of treatment (posaconazole treatment duration, 34 to 365 days), therapy for 11 of 15 patients (73%) was considered to be successful by the DRC. Four responses were complete and seven were partial; these included five patients with pulmonary sites and six patients with disseminated sites. In responders, improvement was seen within months of the initiation of therapy. Five patients received therapy for >or= 12 months. The side effects were minimal.

CONCLUSIONS

Therapy for coccidioidomycosis remains a clinical challenge, especially when patients have not responded to therapy with drugs that were recommended in treatment guidelines. The success rate (73%) achieved in this case series suggests that oral posaconazole should be considered as an important agent for the treatment of refractory coccidioidomycosis.

Safety, Tolerance, and Efficacy of Posaconazole Therapy in Patients with Nonmeningeal Disseminated or Chronic Pulmonary Coccidioidomycosis

BACKGROUND

Coccidioidomycosis can be difficult to treat with available therapies, particularly in patients with progressive or disseminated disease. Posaconazole is a new azole antifungal with potent activity against Coccidioides species, the causative agent of coccidioidomycosis.

METHODS

Twenty patients with chronic pulmonary or nonmeningeal disseminated coccidioidomycosis were enrolled in a multicenter trial to study the safety and tolerability of posaconazole therapy, with efficacy as a secondary end point. Patients received posaconazole (400 mg/day) in capsule formulation for up to 6 months. Safety was evaluated on the basis of the occurrence of adverse events. A satisfactory efficacy response was defined as a >or=50% reduction in the Mycoses Study Group score from baseline.

RESULTS

Seventeen (85%) of 20 patients had a satisfactory response to treatment. The median duration of treatment was 173 days. Paired baseline and end-of-treatment culture results for Coccidioides species were available for 4 patients, all of whom converted from being positive to being negative for Coccidioides species. Relapse was experienced by 3 of 9 patients who did not receive antifungal therapy during the follow-up period. In general, posaconazole therapy was well tolerated, with 12 of 20 patients reporting adverse events that were possibly or probably related to treatment. The most common adverse events were dry mouth (in 5 patients [25%]) and headache (in 3 patients [15%]).

CONCLUSIONS

Courses of posaconazole therapy that were up to 6 months in duration were well tolerated in patients with coccidioidomycosis. Although this study was limited by the number of patients enrolled, it clearly demonstrates that posaconazole shows promise in the treatment of patients with coccidioidomycosis and warrants additional investigation in a full-scale clinical trial.

Coccidioidomycosis: changing perceptions and creating opportunities for its control

The perceptions of coccidioidomycosis as a medical problem has undergone sequential and dramatic metamorphoses since its first description more than a century ago. First thought to be rare and lethal, coccidioidomycosis was subsequently found to be common and often mild. During World War II, its overall impact upon large populations came sharply into focus and the consequences for public health became clearer. Early treatments had significant limitations and toxicities, and therefore treatment of coccidioidomycosis was reserved for only the sickest patients. Since then, safer oral therapies have become commonplace. Despite their availability, there has been no investigation of their use in the less severe and much more common early infections. Even newer drugs such as nikkomycin Z, which might actually cure infections, until very recently have had trouble finding a sponsor to move it through clinical trials. Perceptions once formed by the understanding of coccidioidomycosis as a medical problem now appear to hinder the future study of newer therapeutic opportunities. It is suggested in this review that it is time to revisit and possibly change these perceptions if we are to improve our care of patients.

Azole Therapy of Clinical and Experimental Coccidioidomycosis

The therapy of coccidioidomycosis has been an early target, both experimentally and clinically, for study of new members of the azole class of drugs, because of the recognition that coccidioidomycosis is one of the most difficult mycoses to treat, and because our research group and our collaborators have been eager to pioneer new therapies for this problem pathogen. There have been steady advances in the pharmacologic and antimicrobial properties of this class since the initial introduction of miconazole, and many patients with coccidioidomycosis have benefited. Perhaps the greatest contribution has been the development of well-tolerated oral drugs that make possible prolonged courses of a conveniently administered agent, and perhaps the most impressive advance has been the utility of the agents in coccidioidal meningitis, at least as an adjunct to the polyenes. More potent agents are still required, so that complete biological cure can be attained in meningeal and nonmeningeal coccidioidomycosis.

State-of-the-Art Treatment of Coccidioidomycosis Skeletal Infections

Coccidioidomycosis is a fungal infection endemic to the southwestern United States. Typically a respiratory illness, coccidioidomycosis can rarely present as extrapulmonary infection. Skeletal coccidioidomycosis occurs in 20% to 50% of disseminated infections. Skeletal coccidioidomycosis is a chronic and progressive infection that eventually results in bone destruction and loss of function and often involves adjacent structures, such as joints, muscles, and tendons and other soft tissues. Sinus tract formation may occur. This infection may be multifocal. Although radiographs, white blood cell count scans, and other imaging methods identify and define relevant abnormalities, histopathologic examination with culture of the involved bone is the only means to confirm the diagnosis. Serologic testing is adjunctive, and complement fixation titers can be evaluated serially to assess response to treatment. A number of studies addressing the efficacy of various antifungal agents have been performed, and the results of these studies as they pertain to skeletal coccidioidomycosis are summarized herein. Among the various studies, response rates ranged from 23% to 100%, but relapse was common. A combination of medical therapy-often, itraconazole or fluconazole-and surgical débridement is often needed to control skeletal coccidioidomycosis. Early diagnosis and treatment are critical to avoid long-term problems with chronically infected bones and joints. Anatomical issues, diagnostic studies, and data related to treatment of this form of extrapulmonary coccidioidomycosis are reviewed in this article.

State-of-the-art treatment of coccidioidomycosis: skin and soft-tissue infections

Coccidioidomycosis is a fungal infection common in the southwestern United States that is caused by the endemic Coccidioides species of fungus. Coccidioidal infections are generally manifested as self-limited respiratory illnesses, but affected patients rarely present with coccidioidomycosis in extrapulmonary locations. Skin and soft-tissue coccidioidomycosis may occur in 15% to 67% of patients with disseminated infection. Skin manifestations of coccidioidomycosis can either be reactive rashes, such as erythema multiforme or erythema nodosum associated with primary pulmonary infection, or they can be the result of extrapulmonary dissemination of the infection to the skin. As many as 90% of persons with disseminated infection to the skin have other extrapulmonary sites of infection, and the presence of coccidioidal skin lesions should prompt an investigation for other extrapulmonary foci of infection. Lymph nodes are a common site of extrapulmonary infection. Nearly every organ system and soft-tissue have been described as infected with Coccididioides species, but subcutaneous abscesses, phlegmon, and sinus tracts are not uncommon and often are themselves the result of coccidioidal infection in neighboring lymph nodes, bones, or joints. A biopsy of the abnormal area is the most direct way to diagnose skin and soft-tissue lesions. Fluconazole and itraconazole are preferred therapeutic agents, and surgical intervention may be required as an adjunctive measure. This article reviews the types and locations of disseminated infections, as well as diagnostic studies and treatment of this difficult-to-treat manifestation of coccidioidomycosis.

Comparison of itraconazole and fluconazole treatments in a murine model of coccidioidal meningitis

Coccidioidal meningitis (CM) is a devastating disease that requires long-term therapy and for which there is little hope of a cure. A model was used to compare the efficacies of itraconazole and fluconazole. CD-1 mice were infected intrathecally with 30 to 36 viable arthroconidia of Coccidioides. Oral therapy with cyclodextrin (control) or itraconazole or fluconazole at 10, 25, or 50 mg/kg of body weight twice daily (BID) was given for 12 days, from day 3 of infection. Treatment with both antifungals at all doses prolonged survival compared with that of the control treatment (P < 0.01 to 0.0001). At 50 mg/kg, itraconazole and fluconazole were equivalent, whereas itraconazole at 10 or 25 mg/kg prolonged survival compared to that achieved with fluconazole at these dosages (P < 0.05 and 0.01, respectively). Early histologic analysis (10 days of treatment) with 50 mg/kg BID itraconazole or fluconazole showed suppression of CM in all five animals per group; in quantitative cultures, three of three animals from each group had no detectable infection in the brain, spinal cord, or a site of secondary infection, the lungs. In contrast, four of seven controls showed mild to severe meningitis, with arteritis detected in three animals. In a short-term organ clearance study, 5 days of treatment with 10 or 50 mg/kg BID itraconazole or fluconazole reduced the tissue burdens in the brain and spinal cord compared to the tissue burdens in the controls (P < 0.02 to 0.0003). Fluconazole at 10 mg/kg did not reduce the fungal burden in secondary sites, the lungs and kidneys, whereas this itraconazole dose was more effective in clearing the fungi from both organs (P < 0.05 and P < 0.001, respectively). At 50 mg/kg, itraconazole and fluconazole were equivalent in clearing the fungi from the brain and kidney, but itraconazole was superior to fluconazole in clearing the fungi from the spinal cord and lungs (P < 0.05). Thus, both itraconazole and fluconazole were effective at controlling CM, but neither eliminated Coccidioides from tissues. Overall, itraconazole was more efficacious on an mg/kg basis; at high doses they were similarly effective.

Kokzidioidomykose

Coccidioidomycosis is a systemic mycosis that is acquired by inhalation. It is endemic in desert-like areas of the southwest USA and neighboring regions, but is becoming increasingly prevalent in other regions of the world as a result of widespread travel. The clinical spectrum is broad, ranging from inapparent infections or symptoms of acute respiratory infection with spontaneous recovery to various manifestations of disseminated coccidioidomycosis. Since the majority of patients with disseminated coccidioidomycosis present with cutaneous manifestations, early diagnosis of this potentially life-threatening disease by dermatologists is important. Atypical skin changes, pulmonary infiltrates and a history of travel to areas where the disease is endemic are indicative of coccidioidomycosis. For conclusive diagnosis, identification of the fungus by histopathologic examination or culture is desirable. Serological tests can be helpful for establishing the diagnosis and monitoring the course of the disease. The treatment of choice for cutaneous coccidioidomycosis is currently oral azole antifungal agents, such as itraconazole 400 mg daily, continued for 6 months after clinical response. Since relapses are frequent after discontinuation of the treatment, close clinical, serological and radiological follow-up is required for years.

Coccidioidomycosis

Coccidioides, a fungus, is endemic to specific parts of the Western Hemisphere. This article examines the prevalence, pathogenesis and host defense, clinical manifestations, diagnosis, and treatment of coccidioidomycosis.

Coccidioidomycosis: case report and update on diagnosis and management

Coccidioidomycosis is a disease known for its endemicity to the Southwest United States. However, given the current trends of more frequent tourist and business travel, an increasing number of coccidioidomycosis infections are being seen in patients in other areas of the United States. Because the majority of patients with disseminated disease experience cutaneous manifestations, dermatologists can be of primary importance in the diagnosis of this disease. We report a case of coccidioidomycosis manifesting as granulomatous cutaneous nodules on the face of an otherwise healthy white man. We attempt to provide an update on the diagnosis, management, and treatment of patients who present with cutaneous lesions caused by coccidioidomycosis infection.

Clinical experience with itraconazole in systemic fungal infections

The broad spectrum antifungal itraconazole is an effective and well tolerated agent for the prophylaxis and treatment of systemic fungal infections. The recent development of an itraconazole oral solution and an intravenous itraconazole solution has increased the options for the use of this drug and increased the oral bioavailability in a variety of at-risk patients. Reliable absorption of the itraconazole oral solution has been demonstrated in patients with HIV infection, neutropenic patients with haematological malignancy, bone marrow transplant recipients and neutropenic children. In clinical trials, itraconazole oral solution (5 mg/kg/day) was more effective at preventing systemic fungal infection in patients with haematological malignancy than placebo, fluconazole suspension (100 mg/day) or oral amphotericin-B (2 g/kg/day) and was highly effective at preventing fungal infections in liver transplant recipients. There were no unexpected adverse events with the itraconazole oral solution in any of these trials. In addition, intravenous itraconazole solution is at least as effective as intravenous amphotericin-B in the empirical treatment of neutropenic patients with systemic fungal infections, and drug-related adverse events are more frequent in patients treated with amphotericin-B. A large proportion of patients with confirmed aspergillosis also respond to treatment with intravenous itraconazole followed by oral itraconazole. The new formulations of itraconazole are therefore effective agents for prophylaxis and treatment of most systemic fungal infections in patients with haematological malignancy.

Current management of fungal infections

The management of superficial fungal infections differs significantly from the management of systemic fungal infections. Most superficial infections are treated with topical antifungal agents, the choice of agent being determined by the site and extent of the infection and by the causative organism, which is usually readily identifiable. One exception is onychomycosis, which usually requires treatment with systemically available antifungals; the accumulation of terbinafine and itraconazole in keratinous tissues makes them ideal agents for the treatment of onychomycosis. Oral candidiasis in immunocompromised patients also requires systemic treatment; oral fluconazole and itraconazole oral solution are highly effective in this setting. Systemic fungal infections are difficult to diagnose and are usually managed with prophylaxis or empirical therapy. Fluconazole and itraconazole are widely used in chemoprophylaxis because of their favourable oral bioavailability and safety profiles. In empirical therapy, lipid-associated formulations of amphotericin-B and intravenous itraconazole are safer than, and at least as effective as, conventional amphotericin-B (the former gold standard). The high acquisition costs of the lipid-associated formulations of amphotericin-B have limited their use.

Lymphocutaneous syndrome. A review of non-sporothrix causes

The lymphocutaneous syndrome can be caused by a number of diverse microorganisms requiring very different antimicrobial therapy for resolution. The epidemiology and geographic occurrence of the infection often can provide important first clues to the microbiologic etiology. Accurate diagnosis can be accomplished usually by punch or wedge biopsy of a primary lesion or proximal subcutaneous nodule submitted for histopathologic examination and culture. The microbiology laboratory staff should be alerted to the diagnostic possibilities so that appropriate cultural and incubation techniques, procedures, and precautions can be initiated. Provision of a correct microbiologic diagnosis and institution of appropriate antimicrobial therapy will result in a complete cure in almost all instances. Adjunctive surgical debridement may be required for certain organisms such as Nocardia or Mycobacterium chelonae.

Successful treatment of disseminated coccidioidomycosis with amphotericin B lipid complex

Coccidioidomycosis is endemic in regions of the Americas, but this infection may be encountered in travellers who return from an endemic region. A case is reported of a disseminated infection in a Hong Kong Chinese man, who was successfully treated with amphotericin B lipid complex (ABLC) after intolerance and toxicity precluded the use of other antifungal agents. Lipid-based formulations of amphotericin B merit further evaluation in the treatment of coccidioidomycosis and other systemic mycoses.

Drug treatment of HIV-related opportunistic infections

The AIDS epidemic has led to the emergence of several disease entities which in the pre-AIDS era were rare or seemingly innocuous. Experience of treating these diseases varies. In some instances, such as Pneumocystis carinii pneumonia, there is an abundance of published literature to direct our course of action. However, for many of these newly recognised diseases our treatment experience is limited. Furthermore, in many instances, well controlled trials evaluating treatment modalities in the AIDS population are lacking. We have identified 13 disease entities (P. carinii pneumonia, toxoplasmosis, cryptococcosis, histoplasmosis, Mycobacterium tuberculosis, Mycobacterium avium complex, cytomegalovirus, coccidioidomycosis, isosporiasis, candidosis, Kaposi's sarcoma, herpes simplex virus, and varicella zoster virus) and have reviewed the current literature with regard to their treatment.

Activities of the triazole SCH 51048 against Coccidioides immitis in vitro and in vivo

The activity of the novel triazole SCH 51048 was tested against Coccidioides immitis. SCH 51048 inhibited C. immitis in vitro; MICs for 13 isolates ranged from < or = 0.39 to 0.78 micrograms/ml, and minimum fungicidal concentrations ranged from < or = 0.39 to 1.6 micrograms/ml. In vivo, no mice treated with SCH 51048 at 2 to 50 mg/kg of body weight or 100 mg of fluconazole or itraconazole per kg died of systemic coccidioidomycosis, whereas 60 to 100% of the control mice died. SCH 51048 given at 25 or 50 mg/kg was curative, whereas fluconazole or itraconazole given at 100 mg/kg was not curative. Pharmacokinetic studies showed peak levels in serum of > 14 micrograms/ml, with an estimated half-life of > 12 h. SCH 51048 was 5- to 50-fold or more superior to fluconazole or itraconazole.

Fluconazole in the treatment of chronic pulmonary and nonmeningeal disseminated coccidioidomycosis. NIAID Mycoses Study Group

PURPOSE

To determine the efficacy and safety of fluconazole as treatment for coccidioidomycosis.

PATIENTS AND METHODS

This was a multicenter, open-label, single-arm study. Of 78 patients enrolled, 22 had soft-tissue, 42 had chronic pulmonary, and 14 had skeletal coccidioidomycosis. Forty-nine had at least one concomitant disease, 7 of whom had HIV infection. Patients were given oral fluconazole 200 mg/d. Nonresponders were increased to 400 mg/d. Treatment courses were long: a mean of 323 +/- 230 days at 200 mg and 433 +/- 178 days at 400 mg. Predefined assessment of disease-related abnormalities was performed at the time of enrollment and repeated at least every 4 months. A satisfactory response was defined as any reduction of baseline abnormality by month 4 and at least 51% reduction by month 8.

RESULTS

Among 75 evaluable patients, a satisfactory response was observed in 12 (86%) of the 14 patients with skeletal, 22 (55%) of the 40 patients with chronic pulmonary, and 16 (76%) of the 21 patients with soft-tissue disease. Five patients (7%) required modification of treatment due to toxicity. Forty-one patients who responded were followed off drug. Fifteen (37%) of them experienced reactivation of infection.

CONCLUSION

Fluconazole 200 or 400 mg/d is well tolerated and a moderately effective treatment for chronic pulmonary or nonmeningeal disseminated coccidioidomycosis. The relapse rate following therapy is high. Treatment trials with higher doses appear warranted. The relative efficacy of fluconazole versus other azoles or amphotericin B remains unknown.

Coccidioidomycosis iridocyclitis

BACKGROUND

Coccidioidomycosis has reached epidemic proportions in the southwest region of the United States. Despite the greater numbers of cases, isolated anterior segment ocular coccidioidomycosis in the absence of systemic infection continues to be rare, although its incidence may be increasing.

METHODS

Two patients without clinical evidence of systemic disease and one patient with previously treated pulmonary coccidioidomycosis had granulomatous iridocyclitis and iris nodules that were unresponsive to corticosteroid therapy. All three patients underwent iris biopsy, anterior chamber tap, and washout for histopathologic diagnosis of anterior segment disease, and all subsequently received systemic antifungal therapy. Two patients also received multiple intraocular injections of amphotericin B.

RESULTS

Papanicolaou and hematoxylin-eosin-stained preparations of anterior chamber tap and biopsies of the iris in each of these patients showed fibrinopurulent or granulomatous inflammatory exudate with intact and disrupted Coccidioides spherules. Despite aggressive systemic and intraocular therapy, one patient required enucleation for a blind, painful eye. The other two patients continue to have limited visual acuity but with at least partial resolution of the intraocular lesions.

CONCLUSIONS

Ocular coccidioidomycosis without clinical evidence of systemic involvement is rare. Isolated anterior segment disease is also uncommon; however, because of the current epidemic in the southwest region of the United States, ocular coccidioidomycosis should be considered in any patient who traveled through or lived in endemic areas and who has a granulomatous iridocyclitis associated with iris mass that is unresponsive to corticosteroid therapy.

Efficacy of AmBisome in murine coccidioidomycosis

ICR mice were infected intranasally with arthroconidia of Coccicioides immitis. Mice were treated intravenously with amphotericin B deoxycholate (Fungizone) or an amphotericin B-lipid vehicle (AmBisome). Doses ranged from 0.05 to 1.0 mg kg-1. Lung weight, which parallels disease severity and fungal burden in this infection, was used as the index of protection. Both Fungizone and AmBisome were significantly and equally protective at 0.3 and 1.0 mg kg-1 body weight.

Antifungal agents: an overview. Part II

The recent introduction of a new generation of antifungal drugs promises to alter significantly therapy for both systemic and superficial mycoses, in particular, onychomycosis. This article presents an in-depth review of the azoles (the triazoles itraconazole and fluconazole), the allylamines (naftifine and terbinafine), and the morpholine derivative amorolfine.

Treatment of mycotic rhinitis with itraconazole in three horses

Itraconazole, a third-generation azole, was evaluated for treatment of resistant nasal mycotic infections in horses. Two horses with Aspergillus spp nasal granulomas and 1 horse with Conidiobolus coronatus nasal infection were treated with itraconazole (3 mg/kg PO bid). One of the horses with nasal aspergillosis was also treated by surgical resection of the nasal septum. The treatment time for the horses ranged from 3 to 4.5 months. No adverse effects were noted in any of the horses during the treatment period. Peak and trough serum itraconazole concentrations were < 0.5 micrograms/mL in all 3 horses. Itraconazole (3 mg/kg PO bid) appears to be effective in the treatment of nasal Aspergillus spp infections in horses because the fungal infection was eliminated in both horses. One horse still had excessive nasal sounds during exercise and was retired from training, whereas the other horse returned to normal. The nasal C. coronatus infection appeared resistant to itraconazole treatment in the affected horse because the granulomas were still present after 4.5 months of treatment.

Is there a correlation between serum antifungal drug concentration and clinical outcome?

Effective broad spectrum antifungal therapy has been available since the introduction of amphotericin B three decades ago. Amphotericin B must be given intravenously, and thus access to the bloodstream is assured. Because of the great toxicity of this agent, initial studies were directed at determining a dose which was tolerable and clinically effective. In part because of few data and in part because of major concerns with toxicity, there is at present no established relationship with amphotericin B serum concentrations and clinical outcome, and there is no clear indication for measurement of serum concentrations of this drug. More recently there has appeared a variety of orally administered antifungal azole derivatives. Oral absorption is affected by a variety of factors, and drug access to the blood stream is not readily predictable for some of these drugs. Serum concentrations have not been consistently assessed in clinical studies. Where they have been measured, there does appear to be a loose correlation of clinical response with the detection of some amount of drug in the bloodstream. However, beyond this 'threshold' concentration, there is no compelling evidence for a correlation of serum concentration and clinical outcome. While serum concentration of azoles may be useful in determining absorption of drug, at present there is no impetus for achieving a given concentration in the blood to improve chances of a good outcome.