Chest
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Mycobacterium abscessus is the second most common nontuberculous mycobacterial lung disease pathogen and comprises three subspecies: abscessus, massiliense, and bolletii. Subspecies identification is critical for disease management, as subspecies abscessus and bolletii have an inducible macrolide resistance gene [erm(41)] that results in clinical macrolide resistance. In contrast, subspecies massiliense does not have an active erm(41) gene and is therefore susceptible in vitro and clinically to macrolide-containing regimens. ⋯ This approach is successful with macrolide-susceptible M abscessus but not with macrolide-resistant M abscessus, in which even more aggressive therapy is not predictably successful. Newer drugs have become available, with encouraging in vitro activity against M abscessus, but in vivo validation of their superiority to current agents is not yet available. In the absence of unequivocally effective regimens, we offer suggestions for managing this treatment-refractory organism.
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Meta Analysis
Racial Differences in Adherence to Lung Cancer Screening Follow-Up: A Systematic Review and Meta-Analysis.
In 2013, the United States Preventive Services Taskforce instituted recommendations for annual lung cancer screening (LCS) with low-dose chest CT imaging for high-risk individuals. LCS reduces lung cancer mortality, with greater reduction observed in Black participants in clinical trials. Although racial disparities in lung cancer mortality have been well documented, less is known about disparities in LCS participation and adherence to follow-up in clinical practice. ⋯ Lower adherence to LCS follow-up in Black compared with White patients occurs despite the higher potential lung cancer mortality benefit. Literature specifically addressing race-related barriers to LCS adherence remains limited. To ensure equity in LCS benefits, greater outreach to eligible Black patients should be implemented through increased physician education and use of screening program coordinators to focus on this patient population.
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Meta Analysis
The Utility of the Rapid Shallow Breathing Index in Predicting Successful Extubation: A Systematic Review and Meta-analysis.
Clinicians use several measures to ascertain whether individual patients will tolerate liberation from mechanical ventilation, including the rapid shallow breathing index (RSBI). ⋯ As a stand-alone test, the RSBI has moderate sensitivity and poor specificity for predicting extubation success. Future research should evaluate its role as a permissive criterion to undergo a spontaneous breathing trial (SBT) for patients who are at intermediate pretest probability of passing an SBT.
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Time-limited trials (TLTs) are used in the management of critical care patients undergoing potentially nonbeneficial interventions to improve prognostication and build trust and consensus between family and intensivists. When these trials are not well defined and executed, discordant views of the patient's prognosis, conflict, and continuation of nonbeneficial care can arise. ⋯ This framework allows physicians and families to deal more effectively with the inherent uncertainty and required flexibility needed in caring for complex critical care patients. This can lead to patient-centered decision-making that improves patient-physician relationships and goal-concordant care and also potentially reduces nonbeneficial treatments at the end of life.
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Considering the COVID-19 pandemic where concomitant occurrence of ARDS and severe acute brain injury (sABI) has increasingly coemerged, we synthesize existing data regarding the simultaneous management of both conditions. Our aim is to provide readers with fundamental principles and concepts for the management of sABI and ARDS, and highlight challenges and conflicts encountered while managing concurrent disease. Up to 40% of patients with sABI can develop ARDS. ⋯ In this narrative review, we discuss the physiological basis and risks involved during simultaneous management of ARDS and sABI, summarize evidence for treatment decisions, and demonstrate these principles using hypothetical case scenarios. Use of invasive or noninvasive monitoring to assess brain and lung physiology may facilitate goal-directed treatment strategies with the potential to improve outcome. Understanding the pathophysiology and key treatment concepts for comanagement of these conditions is critical to optimizing care in this high-acuity patient population.