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Melioidosis, an infectious disease caused by the Gram-negative bacillus Burkholderia pseudomallei, is difficult to cure. Antimicrobial treatment comprises intravenous drugs for at least 10 days, followed by oral drugs for at least 12 weeks. The standard oral regimen based on trial evidence is trimethoprim-sulfamethoxaxole (TMP-SMX) plus doxycycline. This regimen is used in Thailand but is associated with side-effects and poor adherence by patients, and TMP-SMX alone is recommended in Australia. We compared the efficacy and side-effects of TMP-SMX with TMP-SMX plus doxycycline for the oral phase of melioidosis treatment. For this multi-centre, double-blind, non-inferiority, randomised placebo-controlled trial, we enrolled patients (aged ≥15 years) from five centres in northeast Thailand with culture-confirmed melioidosis who had received a course of parenteral antimicrobial drugs. Using a computer-generated sequence, we randomly assigned patients to receive TMP-SMX plus placebo or TMP-SMX plus doxycycline for 20 weeks (1:1; block size of ten, stratified by study site). We followed patients up every 4 months for 1 year and annually thereafter to the end of the study. The primary endpoint was culture-confirmed recurrent melioidosis, and the non-inferiority margin was a hazard ratio (HR) of 1·7. This study is registered with www.controlled-trials.com, number ISRCTN86140460. We enrolled and randomly assigned 626 patients: 311 to TMP-SMX plus placebo and 315 to TMP-SMX plus doxycycline. 16 patients (5%) in the TMP-SMX plus placebo group and 21 patients (7%) in the TMP-SMX plus doxycycline group developed culture-confirmed recurrent melioidosis (HR 0·81; 95% CI 0·42–1·55). The criterion for non-inferiority was met (p=0.01). Adverse drug reactions were less common in the TMP-SMX plus placebo group than in the TMP-SMX plus doxycycline group (122 [39%] vs 167 [53%]). Our findings suggest that TMP-SMX is not inferior to TMP-SMX plus doxycycline for the oral phase of melioidosis treatment, and is preferable on the basis of safety and tolerance by patients. Thailand Research Fund, the Melioidosis Research Center, the Center of Excellence in Specific Health Problems in Greater Mekong Sub-region cluster, and the Wellcome Trust.

Background. Melioidosis is a tropical infectious disease associated with significant mortality. Most deaths occur early and are caused by fulminant sepsis. Methods. In this randomized, placebo-controlled trial, we assessed the efficacy of lenograstim (granulocyte colony-stimulating factor [G-CSF], 263 µg per day administered intravenously) in ceftazidime-treated patients with severe sepsis caused by suspected melioidosis in Thailand. Results. Over a 27-month period, 60 patients were enrolled to receive either G-CSF (30 patients, 18 of whom had culture-confirmed melioidosis) or placebo (30 patients, 23 of whom had culture-confirmed melioidosis). Mortality rates were similar in both groups (G-CSF group, 70%; placebo group, 87%; risk ratio, 0.81; 95% confidence interval, 0.61–1.06; P = .2), including among patients with confirmed melioidosis (83% vs. 96%; P = .3). The duration of survival was longer for patients who received G-CSF than for patients who received placebo (33 h vs. 18.6 h; hazard ratio, 0.56; 95% confidence interval, 0.31–1.00; P = .05). Conclusions. Receipt of G-CSF is associated with a longer duration of survival but is not associated with a mortality benefit in patients with severe sepsis who are suspected of having melioidosis in Thailand. We hypothesize that G-CSF may “buy time” for severely septic patients, but survival is more likely to be improved by management of associated metabolic abnormalities and organ dysfunction associated with severe sepsis.

We conducted a prospective randomized, double-blind, controlled study of cefoperazone-sulbactam (ratio, 1 : 1; cefoperazone 25 mg/kg/day) plus cotrimoxazole (trimethoprim-sulfamethoxazole [TMP-SMZ] at a ratio of 80 : 400; TMP, 8 mg/kg/day) versus ceftazidime (100 mg/kg/day) plus cotrimoxazole (TMP, 8 mg/kg/day) for the treatment of severe melioidosis. Of 219 patients enrolled in the study, 102 (47%) had culture-proven melioidosis. These patients were assigned randomly to 2 treatment groups, each with 50 patients (2 patients were excluded). Mortality rates were not significantly different between the 2 groups: 18% in the cefoperazone-sulbactam group versus 14% in the ceftazidime group. The crude difference in the mortality rate was 4%, but when adjusted for type of infection the difference was 0.9% (95% confidence interval, −3.6% to 5.4%; P = .696). The duration of defervescence and the bacteriological response of successfully treated patients were similar in both groups, and both treatment regimens were well tolerated. Cefoperazone-sulbactam plus cotrimoxazole might be used as an alternative to ceftazidime plus cotrimoxazole as treatment for severe melioidosis.

Background. Two antibiotic regimens are used commonly in Thailand for the initial treatment of severe melioidosis: ceftazidime in combination with trimethoprim-sulfamethoxazole (TMP-SMX) and ceftazidime monotherapy. It is not known whether TMP-SMX provides an additional benefit. Methods. Two prospective, randomized trials that compared these regimens for patients presenting with acute severe melioidosis were started independently at tertiary care hospitals in Ubon Ratchathani and Khon Kaen (in northeastern Thailand), and the results were analyzed together as a prospective, individual-patient data meta-analysis. The primary end point was in-hospital mortality rate. Results. The in-hospital mortality rate among all enrolled patients (n = 449) was not significantly different between those randomized to ceftazidime alone (25.1%; 56 of 223 subjects) and those randomized to ceftazidime with TMP-SMX (26.6%; 60 of 226 subjects; odds ratio [OR], 1.08; 95% confidence interval [CI], 0.7–1.7; stratified P = .73). Of the 241 patients with culture-confirmed melioidosis, 51 (21.2%) died. Of these 241 patients, 31 (12.9%) died ⩾48 h after the time of study entry. Among patients with melioidosis, there was no difference in death rate between the 2 treatment groups for either all deaths (OR, 0.88; 95% CI, 0.48–1.6; stratified P = .70) or for deaths that occurred ⩾48 h after hospital admission (OR, 0.88; 95% CI, 0.41–1.9; stratified P = .73). Conditional logistic regression analysis revealed that bacteremia, respiratory failure, and renal failure were independently associated with death and treatment failure. Drug regimens were not associated with death or treatment failure in this model. Conclusion. We conclude that the addition of TMP-SMX to ceftazidime therapy during initial treatment of severe melioidosis does not reduce the acute mortality rate.

An open, prospective, randomized, comparative treatment trial was conducted to compare the therapeutic efficacy of high-dose intravenous imipenem and ceftazidime for acute severe melioidosis. Adult Thai patients with suspected acute, severe melioidosis were randomized to receive either imipenem, at a dosage of 50 mg/(kg z d), or ceftazidime, at a dosage of 120 mg/(kg z d), for a minimum of 10 days. The main outcome measures were death or treatment failure. Of the 296 patients enrolled, 214 had culture-confirmed melioidosis, and 132 (61.7%) of them had positive blood cultures. Mortality among patients with melioidosis was 36.9% overall. There were no differences in survival overall (P = .96) or after 48 hours (P = .3). Treatment failure after 48 hours was more common among patients treated with ceftazidime (P = .011). Both treatments were well tolerated. Imipenem is a safe and effective treatment for acute severe melioidosis and may be considered an alternative to ceftazidime.

Infection with Burkholderia pseudomallei, the causative agent of melioidosis, occurs by exposure to the organism in soil or water. There is concern for B. pseudomallei use as a potential bioweapon and as an exposure hazard in diagnostic laboratories processing samples or cultures containing the bacterium. The optimal strategies for treatment and postexposure prophylaxis are inadequately developed. This study used goats to evaluate 3 antimicrobial drug treatment regimens for postexposure therapy because they are a species naturally susceptible to B. pseudomallei infection. Goats were infected by percutaneous inoculation, and antimicrobial drug therapies were initiated 48 hours later. Widespread infection with abscess formation in multiple organs developed in untreated goats and goats treated with either amoxicillin/clavulanate or sulfamethoxazole/trimethoprim. In contrast, treatment with the combination of all 4 antimicrobial drugs might have eradicated the infection. Our findings suggest combination therapy with those 4 antimicrobial drugs may be useful for postexposure prophylaxis in humans.

Background. Melioidosis is less common in children than adults. The clinical spectrum of disease varies greatly between the 2 groups. Treatment guidelines are currently based on adult studies, and revision of existing guidelines is necessary to instruct specific pediatric management. Methods. Culture-confirmed cases of melioidosis in the Northern Territory between 1989 and 2013 were identified from the Prospective Melioidosis Study. The epidemiology and clinical spectrum of disease for children aged ≤16 years were analyzed and compared with the adult data. Results. Forty-five pediatric patients were identified, representing 5% of the total 820 melioidosis cases over 24 years. Most children (84%) had no recognized risk factors for melioidosis, and 80% presented during the wet season. Primary cutaneous melioidosis was the commonest presentation in children (60% vs 13%; P < .001), whereas pneumonia predominated in adults (54% vs 20%; P < .001). Bacteremia was less common in children than in adults (16% vs 59%; P < .001). Brainstem encephalitis occurred in 3 children without risk factors. Children were more likely to report an inoculating event (42%; P < .001). There was no difference in mortality between the groups (P = .178), with 3 children dying (7%); all had identifiable risk factors. Four children with cutaneous melioidosis were successfully treated with oral therapy alone, while 2 had skin lesions that resolved spontaneously. Conclusions. Pediatric melioidosis commonly manifests as localized cutaneous disease in immunocompetent hosts. The disease can be fatal, especially in individuals with risk factors for disease. Melioidosis with encephalomyelitis can result in severe residual disability. Prompt diagnosis requires a high index of clinical suspicion in endemic areas.

Melioidosis, caused by the environmental gram-negative bacterium Burkholderia pseudomallei, usually develops in adults with predisposing conditions and in Australia more commonly occurs during the monsoonal wet season. We report an outbreak of 7 cases of melioidosis in immunocompetent children in Australia. All the children had participated in a single-day sporting event during the dry season in a tropical region of Australia, and all had limited cutaneous disease. All case-patients had an adverse reaction to oral trimethoprim/sulfamethoxazole treatment, necessitating its discontinuation. We describe the clinical features, environmental sampling, genomic epidemiologic investigation, and public health response to the outbreak. Management of this outbreak shows the potential benefits of making melioidosis a notifiable disease. The approach used could also be used as a framework for similar outbreaks in the future.

Burkholderia pseudomallei , the cause of melioidosis, forms biofilms that facilitate survival, alter antimicrobial susceptibility and promote disease recurrence. Neutrophils contribute to bacterial eradication through phagocytosis, degranulation and neutrophil extracellular traps (NETs). However, NETs are demonstrably insufficient to eradicate B. pseudomallei. This study has revealed the ability of NET fragments containing DNA to elevate B. pseudomallei biofilm formation, as evidenced by crystal-violet staining and confocal microscopy. Further investigation demonstrated that 15 mM N -acetylcysteine (NAC), efficiently suppressed NETs stimulated by B. pseudomallei and effectively prevented B. pseudomallei from forming NET-associated biofilm in the presence of polymorphonuclear leukocytes. Remarkably, we demonstrated that NAC has antibacterial properties against five clinical B. pseudomallei isolates through kinetic growth monitoring for 24 h. Interestingly, 15 mM NAC inhibits NET production and improves neutrophil-mediated killing through phagocytosis and degranulation, considerably diminishing survival of B. pseudomallei . Our findings suggest that NAC, a multifaceted therapeutic agent, holds significant potential as an adjunctive treatment against B. pseudomallei infection. NAC not only inhibits NETs but also enhances neutrophil functionality and exhibits remarkable antibacterial activity against B. pseudomallei. These properties may contribute to more effective eradication of B. pseudomallei by reducing biofilm formation associated with NETs and improving overall neutrophil-mediated immune responses.