Dexamethasone Downregulates Cryptococcus neoformans???Induced Vascular Endothelial Growth Factor Production: A Role for Corticosteroids in Cryptococcal Meningitis?

Visual loss in HIV-associated cryptococcal meningitis: A case series and review of the mechanisms involved

Permanent visual loss is a devastating yet preventable complication of cryptococcal meningitis. Early and aggressive management of cerebrospinal fluid pressure in conjunction with antifungal therapy is required. Historically, the mechanisms of visual loss in cryptococcal meningitis have included optic neuritis and papilloedema. Hence, the basis of visual loss therapy has been steroid therapy and intracranial pressure lowering without clear guidelines. With the use of high-resolution magnetic resonance imaging of the optic nerve, an additional mechanism has emerged, namely an optic nerve sheath compartment syndrome (ONSCS) caused by severely elevated intracranial pressure and fungal loading in the peri-optic space. An improved understanding of these mechanisms and recognition of the important role played by raised intracranial pressure allows for more targeted treatment measures and better outcomes. In the present case series of 90 HIV co-infected patients with cryptococcal meningitis, we present the clinical and electrophysiological manifestations of Cryptococcus-induced visual loss and review the mechanisms involved.

CryptoDex: a randomised, double-blind, placebo-controlled phase III trial of adjunctive dexamethasone in HIV-infected adults with cryptococcal meningitis: study protocol for a randomised control trial

BACKGROUND

Cryptococcal meningitis (CM) is a severe AIDS-defining illness with 90-day case mortality as high as 70% in sub-Saharan Africa, despite treatment. It is the leading cause of death in HIV patients in Asia and Africa.No major advance has been made in the treatment of CM since the 1970s. The mainstays of induction therapy are amphotericin B and flucytosine, but these are often poorly available where the disease burden is highest. Adjunctive treatments, such as dexamethasone, have had dramatic effects on mortality in other neurologic infections, but are untested in CM. Given the high death rates in patients receiving current optimal treatment, and the lack of new agents on the horizon, adjuvant treatments, which offer the potential to reduce mortality in CM, should be tested.The principal research question posed by this study is as follows: does adding dexamethasone to standard antifungal therapy for CM reduce mortality? Dexamethasone is a cheap, readily available, and practicable intervention.

METHOD

A double-blind placebo-controlled trial with parallel arms in which patients are randomised to receive either dexamethasone or placebo, in addition to local standard of care. The study recruits patients in both Asia and Africa to ensure the relevance of its results to the populations in which the disease burden is highest. The 10-week mortality risk in the control group is expected to be between 30% and 50%, depending on location, and the target hazard ratio of 0.7 corresponds to absolute risk reductions in mortality from 30% to 22%, or from 50% to 38%. Assuming an overall 10-week mortality of at least 30% in our study population, recruitment of 824 patients will be sufficient to observe the expected number of deaths. Allowing for some loss to follow-up, the total sample size for this study is 880 patients. To generate robust evidence across both continents, we aim to recruit roughly similar numbers of patients from each continent. The primary end point is 10-week mortality. Ethical approval has been obtained from Oxford University's Tropical Research Ethics Committee (OxTREC), and as locally mandated at each site.

TRIAL REGISTRATION

International Standard Randomised Controlled Trial Number: ISRCTN59144167 26-July-2012.

The impact of early and brief corticosteroids on the clinical course of primary pulmonary coccidioidomycosis

OBJECTIVE

Primary pulmonary coccidioidomycosis can often be associated with hypersensitivity symptoms treatable with a short course of palliative corticosteroids. Long-term use of corticosteroids is a known risk factor for severe or disseminated infection but the effects of short-term use are not known.

METHODS

A retrospective review was conducted of immunocompetent patients with acute pulmonary coccidioidomycosis who received systemic corticosteroids for relief of coccidioidal-related symptoms. Age- and sex-matched controls were also reviewed. Predetermined end-points were assessed.

RESULTS

Seventy-four patients met inclusion criteria for the corticosteroid-treated group, and 74 controls were identified. Cumulative corticosteroid (prednisone-equivalent) doses were 10 mg → 3,600 mg (mean = 206 mg; median = 120 mg). Corticosteroids were prescribed most commonly for rash 43/74 [58%] or asthma/wheezing/cough 30/74 [41%]. Coccidioidal-related hospitalization occurred in 19 patients in the corticosteroid group vs. 22 in the control group (P = .58). Coccidioidal-related symptoms resolved within a mean of 19 weeks (median = 8 weeks [range = 2-208 weeks]) vs. 32.3 weeks (median = 8 weeks [range = 1-1040 weeks]) in the corticosteroid and control groups (P = .38). Relapse of symptoms occurred in 12% of both groups (P > .99). Extrapulmonary dissemination occurred in 3% vs. 4.0% (P > .99) in the corticosteroid and control groups, respectively.

CONCLUSION

This study found no adverse effects of short-term corticosteroid therapy for early symptomatic treatment in acute pulmonary coccidioidomycosis.