Daily Archives: December 24, 2024
RCT: Levofloxacin for the Prevention of Multidrug-Resistant Tuberculosis in Vietnam
24 Dec, 2024 | 12:53h | UTCBackground:
Multidrug-resistant (MDR) and rifampin-resistant tuberculosis pose significant global health challenges. Preventing active disease among contacts exposed to resistant strains is critical, yet limited evidence exists on targeted chemopreventive interventions. This study investigated whether a six-month course of daily levofloxacin could reduce the incidence of bacteriologically confirmed tuberculosis among household contacts of individuals with confirmed MDR or rifampin-resistant tuberculosis in Vietnam.
Objective:
To assess if levofloxacin prophylaxis decreases the 30-month incidence of active tuberculosis among high-risk contacts. Primary endpoints included bacteriologically confirmed disease, and secondary outcomes encompassed adverse events, mortality, and development of fluoroquinolone-resistant Mycobacterium tuberculosis.
Methods:
Researchers conducted a double-blind, placebo-controlled, randomized trial. Eligible participants were household contacts of persons who had started MDR tuberculosis treatment within the previous three months, had a positive tuberculin skin test or immunosuppressive condition, and showed no clinical or radiographic signs of active disease. Enrolled individuals received weight-based oral levofloxacin (up to 750 mg/day) or an identical placebo for 180 days. Monthly visits supported adherence and monitored adverse events. Participants underwent follow-up visits every six months until 30 months for tuberculosis screening, chest radiography, and sputum testing where indicated.
Results:
Of 2041 randomized contacts, 1995 (97.7%) completed 30 months of follow-up or reached a primary endpoint. Confirmed tuberculosis was diagnosed in 6 participants (0.6%) in the levofloxacin group and 11 (1.1%) in the placebo group (incidence rate ratio, 0.55; 95% CI, 0.19–1.62), a difference that did not achieve statistical significance. Severe (grade 3 or 4) adverse events were infrequent in both groups, while mild adverse events were more common with levofloxacin (31.9% vs. 13.0%). Acquired fluoroquinolone resistance was not detected.
Conclusions:
Daily levofloxacin for six months showed a numerically lower incidence of tuberculosis than placebo, but the difference was not statistically significant due to lower-than-expected case counts. Treatment was generally well tolerated; however, higher discontinuation rates occurred among levofloxacin recipients, often due to mild musculoskeletal complaints. Further studies may clarify the role of fluoroquinolone-based regimens in preventing MDR tuberculosis across diverse epidemiologic contexts.
Implications for Practice:
These findings suggest that levofloxacin prophylaxis could benefit contacts at high risk of MDR tuberculosis, albeit with caution regarding adherence challenges and low-grade side effects. Broader implementation would require diligent screening, consideration of background fluoroquinolone resistance, and strategies to manage mild adverse events that could undermine treatment completion.
Study Strengths and Limitations:
Strengths include a rigorous double-blind, placebo-controlled design, nearly complete follow-up, and thorough exclusion of prevalent tuberculosis at baseline. Limitations involve an unexpectedly low incidence of confirmed disease, limiting statistical power, and a study population with low HIV prevalence, which may reduce generalizability.
Future Research:
Further research is necessary to confirm these findings in diverse settings, explore alternative or shorter regimens (including newer agents like delamanid), and investigate optimal approaches for patients with fluoroquinolone-resistant strains. The long-term impact on transmission dynamics and microbiome shifts also warrants additional investigation.
Management of Adult Sepsis in Resource-Limited Settings: A Global Delphi-Based Consensus
24 Dec, 2024 | 13:35h | UTCIntroduction: This summary presents key points from a recent expert consensus on managing adult sepsis under limited-resource conditions, where patients may lack access to an ICU bed, advanced monitoring technologies, or sufficient staffing. The statements were developed through a Delphi process involving an international panel of clinicians, aiming to complement existing sepsis guidelines by focusing on pragmatic approaches and context-specific adaptations. These consensus statements address unique challenges such as limited diagnostic tests, alternative strategies for hemodynamic monitoring, and management of sepsis in areas with tropical infections.
Key Recommendations:
- Location of Care and Transfer
- When an ICU bed is unavailable, care can be provided in a non-ICU setting if minimum monitoring (neurological status, blood pressure, peripheral perfusion) is ensured.
- Before transferring a patient, ensure airway patency, initiate intravenous fluids and antimicrobials, and maintain safe transport conditions.
- Incorporate telemedicine or phone consultation with critical care specialists whenever feasible.
- Diagnostic Considerations
- Employ screening tools (e.g., qSOFA) in areas with limited resources, acknowledging its diagnostic constraints.
- Use clinical parameters like altered mental state, capillary refill time (CRT), and urine output to gauge tissue perfusion when lactate measurement is unavailable.
- Insert an indwelling urinary catheter in septic shock to monitor urine output accurately, balancing infection risks against close monitoring needs.
- Hemodynamic Management
- Rely on clinical indicators (CRT, urine output) to guide fluid resuscitation when serum lactate is not accessible.
- Use fluid responsiveness tests (e.g., passive leg raising, pulse pressure variation) if advanced hemodynamic monitoring is impractical.
- Consider balanced solutions such as Ringer’s lactate or Hartmann’s solution for fluid resuscitation.
- Recognize that patients with tropical infections (e.g., malaria, dengue) may require cautious fluid volumes to avoid overload.
- Initiate epinephrine if norepinephrine or vasopressin is unavailable, and use vasopressors through peripheral lines if central access cannot be established.
- Antimicrobial Therapy
- Administer antibiotics without delay (ideally within one hour) in suspected sepsis or septic shock.
- In severe infections of parasitic origin (e.g., malaria), start antiparasitic agents promptly.
- In settings where laboratory investigations are limited, begin broad-spectrum antimicrobial coverage when infection cannot be ruled out.
- De-escalate or discontinue therapy based on clinical improvement, declining white blood cell counts, and adequate source control.
- Respiratory Support
- For acute hypoxemic respiratory failure in septic patients, noninvasive ventilation (NIV) can be used if high-flow nasal oxygen is not available, provided close monitoring for potential failure is ensured.
Conclusion: These consensus-based statements offer practical guidance for clinicians treating sepsis in resource-limited environments. By adapting globally accepted recommendations and incorporating alternative strategies—such as clinical markers of perfusion, use of peripheral vasopressors, and prioritizing immediate antimicrobial therapy—these principles aim to improve patient outcomes where healthcare resources are scarce. Further research and context-specific adaptations will be essential to address remaining uncertainties and refine these expert recommendations.
Reference:
Thwaites, L., Nasa, P., Abbenbroek, B. et al. Management of adult sepsis in resource-limited settings: global expert consensus statements using a Delphi method. Intensive Care Medicine (2024). https://doi.org/10.1007/s00134-024-07735-7