Mortality in patients receiving prolonged invasive mechanical ventilation time in the emergency department: A retrospective cohort study.

Background: Patients waiting for intensive care unit (ICU) admission cause emergency department (ED) crowding and have an increased risk of mortality and length of stay (LOS) in hospital, which increase the hospitalization cost. This study aimed to investigate the correlation between mortality and invasive mechanical ventilation (IMV) time in patients in the ED. Methods: A retrospective cohort study was conducted in patients who received IMV in the ED of Ramathibodi Hospital. The correlation between mortality at 28 days after intubation and IMV time in the ED was analyzed. The cutoff time was analyzed to determine prolonged and nonprolonged IMV times. ICU ventilation time, length of ICU stay, and LOS in the hospital were also analyzed to determine their correlations between IMV time in the ED. Results: In this study, 302 patients were enrolled, 71 died, and 231 survived 28 days after receiving IMV in the ED. We found that the duration of >12 h of IMV in the ED increased the 28-day mortality rate by 1.98 times (P = 0.036). No correlations were found between IMV time in the ED and ventilation time in the ICU, length of ICU stay, and LOS in the hospital. Conclusion: More than 12 h of IMV time in the ED correlated with mortality at 28 days after initiation of IMV. No associations were found between prolonged IMV time in the ED with ventilation time in the ICU, length of ICU stay, and LOS in the hospital.

Diagnostic properties of a portable near-infrared spectroscopy to detect intracranial hematoma in traumatic brain injury patients.

Traumatic brain injury (TBI) is a major public health issue worldwide. A portable near-infrared spectroscopy (NIRS) is a non-invasive device to detect intracranial hematoma. The advantages of the NIRS include real time results and non-radiation exposure. However, sensitivity and specificity of the NIRS for intracranial hematoma are varied. This study aimed to evaluate the diagnostic properties of the NIRS in TBI patients to detect intracranial hematoma. This study was a diagnostic and prospective study conducted at the Emergency Department. The inclusion criteria were adult patients (age of 18 years or over) with moderate to high risk of all degrees of traumatic brain injury within 24 h after the injury. The primary endpoint of the study was a description of diagnostic properties of the NIRS compared with the CT brain. There were 47 patients enrolled in the study. Most of patients had Glasgow Coma Scale of 15 (44 patients; 93.62 %). Of those, 11 patients (23.40 %) had intracranial hematoma: subdural hematoma (n = 9), epidural hematoma (n = 1), intracerebral hematoma (n = 1), and subarachnoid hemorrhage (n = 3). One patient had subdural hematoma, epidural hematoma, intracerebral hematoma and subarachnoid hemorrhage. There were 31 patients had abnormal findings by the NIRS but only 11 patients had bleeding detected by the CT brain. There were 16 patients had negative results on both the NIRS and the CT brain. The sensitivity and specificity of the NIRS compared with the CT brain was 100 % and 44.4 %, respectively. The area under the ROC curve of the NIRS was 0.722. The median time to complete the NIRS examination was 3 min. In conclusion, the NIRS has high sensitivity and negative predictive value for intracranial hematoma detection in mild TBI patients with extra-axial hematomas.