A Single Hospital-Wide Antibiogram is Insufficient to Account for Differences in Antibiotic Resistance Patterns Across Multiple ICUs.

BACKGROUND: Infection is a common cause of mortality within intensive care units (ICUs). Antibiotic resistance patterns and culture data are used to create antibiograms. Knowledge of antibiograms facilitates guiding empiric therapies and reduces mortality. Most major hospitals utilize data collection to create hospital-wide antibiograms. Previous studies have shown significant differences in susceptibility patterns between hospital wards and ICUs. We hypothesize that institutional or combined ICU antibiograms are inadequate to account for differences in susceptibility for patients in individual ICUs. METHODS: Culture and susceptibility data were reviewed over a 1-year period for 13 bacteria in the following ICUs: Surgical/Trauma, Medical, Neuroscience, Burn, and Emergency department. Antibiotic management decisions are made by individual teams. RESULTS: Nine species had sufficient data for inclusion into an All-ICU antibiogram. E coli and S aureus were the most common isolates. Seven species had significant differences in susceptibility patterns between ICUs. E cloacae showed higher rates of resistance to multiple antibiotics in the STICU than other ICUs. P aeruginosa susceptibility rates in the NSICU and BICU were 88% and 92%, respectively, compared to 60% and 55% in the STICU and MICU. Cephalosporins and Aztreonam had reduced efficacy against E coli in the NSICU, however remain effective in other ICUs. CONCLUSIONS: The results of this study show that different ICUs do have variability in antibiotic susceptibility patterns within a single hospital. While this only represents a single institution, it shows that the use of hospital-wide antibiograms is inadequate for creating empiric antibiotic protocols within individual ICUs.

Deleterious effects of plasma-derived cellular debris in a porcine model of hemorrhagic shock.

BACKGROUND: Recent studies identify large quantities of inflammatory cellular debris within Fresh Frozen Plasma (FFP). As FFP is a mainstay of hemorrhagic shock resuscitation, we used a porcine model of hemorrhagic shock and ischemia/reperfusion to investigate the inflammatory potential of plasma-derived cellular debris administered during resuscitation. METHODS: The porcine model of hemorrhagic shock included laparotomy with 35 % hemorrhage (Hem), 45 min of ischemia from supraceliac aortic occlusion with subsequent clamp release (IR), followed by protocolized resuscitation for 6 h. Cellular debris (Debris) was added to the resuscitation phase in three groups. The four groups consisted of Hem + IR (n = 4), Hem + IR + Debris (n = 3), Hem + Debris (n = 3), and IR + Debris (n = 3). A battery of laboratory, physiologic, cytokine, and outcome data were compared between groups. RESULTS: As expected, the Hem + IR group showed severe time dependent decrements in organ function and physiologic parameters. All animals that included both IR and Debris (Hem + IR + Debris or IR + Debris) died prior to the six-hour end point, while all animals in the Hem + IR and Hem + Debris survived. Cytokines measured at 30-60 min after initiation of resuscitation revealed significant differences in IL-18 and IL-1ß between all groups. CONCLUSIONS: Ischemia and reperfusion appear to prime the immune system to the deleterious effects of plasma-derived cellular debris. In the presence of ischemia and reperfusion, this model showed the equivalency of 100 % lethality when resuscitation included quantities of cellular debris at levels routinely administered to trauma patients during transfusion of FFP. A deeper understanding of the immunobiology of FFP-derived cellular debris is critical to optimize resuscitation for hemorrhagic shock.

Cryoablation for Chest Wall Trauma: A Brief Report.

Respiratory failure secondary to rib fractures is a major source of morbidity and mortality in trauma patients, particularly in older populations. Management of pain in these patients is complex due to the nature of the injuries. We present 3 patients who underwent a video-assisted thoracoscopic cryoablation of intercostal nerves for pain control after chest trauma. None of the patients developed post-operative complications related to poor respiratory status such as pneumonia or atelectasis. At one-month clinic follow-up, all patients reported no chest pain and were not using opiate analgesics. In patients for whom there is a contraindication to rib fixation in the setting of unstable rib fractures, cryoablation may be a method by which to improve respiratory status and decrease ventilator dependency due to pain. Cryoablation of intercostal nerves may provide a more durable and clinically feasible solution to aid in the healing process of these patients.

The Treatment of Rib Fractures : A Single-Center Comparison.

BACKGROUND: Rib fractures are a major problem characterized by pain, increased length of stay, and respiratory complications. Treatments include fixation, management with opiates, paraspinous local anesthetic pumps, and intercostal nerve blocks. The aim of this study was to evaluate the use of treatment options and compare clinically relevant outcomes. METHODS: Patients admitted to a Level 1 trauma center with multiple rib fractures between 2015 and 2019 were screened. We included all participants treated with surgical fixation and/or intercostal nerve block or local anesthetic pump. Patients were case-matched 1:2 by Injury Severity Score (ISS), Abbreviated Injury Scale (AIS) Chest and Head, age, and number of rib fractures. Outcomes assessed were hospital length of stay (LOS), intensive care unit (ICU) LOS, ventilator days, pneumonia, and tracheostomy rates. RESULTS: We identified 25 patients who received rib fixation and intercostal analgesia. Of these, 14 cases were treated with liposomal bupivaicaine nerve block and 11 by paraspinous catheter block. Fifty control cases treated with opiates were identified. All patients survived to discharge. Cases and controls were approximately equivalent in age, ISS, number of fractured ribs, chest AIS, and head AIS. Rib-plated patients had a lower rate of pneumonia (OR 0.2029, 95% CI 0.0242, 0.09718), decreased average ICU LOS (10.62 vs 6.64, P = .018), and decreased average ventilator days (5.44 vs 1.68, P = .003). DISCUSSION: Findings suggest more aggressive treatment of rib fractures may decrease ICU LOS, ventilator days, and pneumonia in patients with multiple rib fractures. These findings are in line with current literature; however, more research is needed in this area.