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- Prognostic Accuracy of the Quick Sequential Organ Failure Assessment for Outcomes Among Patients with Trauma in the Emergency Department: A Comparison with the Modified Early Warning Score, Revised Trauma Score, and Injury Severity Score
- Min Woo Kang, Seo Young Ko, Sung Wook Song, Woo Jeong Kim, Young Joon Kang, Kyeong Won Kang, Hyun Soo Park, Chang Bae Park, Jeong Ho Kang, Ji Hwan Bu, Sung Kgun Lee
- J Trauma Inj. 2021;34(1):3-12. Published online December 17, 2020
- DOI: https://doi.org/10.20408/jti.2020.0048
- 3,930 View
- 158 Download
- 3 Citations
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Abstract
PDF Purpose To evaluate the severity of trauma, many scoring systems and predictive models have been presented. The quick Sequential Organ Failure Assessment (qSOFA) is a simple scoring system based on vital signs, and we expect it to be easier to apply to trauma patients than other trauma assessment tools.
Methods This study was a cross-sectional study of trauma patients who visited the emergency department of Jeju National University Hospital. We excluded patients under the age of 18 years and unknown outcomes. We calculated the qSOFA, the Modified Early Warning Score (mEWS), Revised Trauma Score (RTS), and Injury Severity Score (ISS) based on patients’ initial vital signs and assessments performed in the emergency department (ED). The primary outcome was mortality within 14 days of trauma. We analyzed qSOFA scores using multivariate logistic regression analysis and compared the predictive accuracy of these scoring systems using the area under the receiver operating characteristic curve (AUROC).
Results In total, 27,764 patients were analyzed. In the multivariate logistic regression analysis of the qSOFA, the adjusted odds ratios with 95% confidence interval (CI) for mortality relative to a qSOFA score of 0 were 27.82 (13.63–56.79) for a qSOFA score of 1, 373.31 (183.47–759.57) for a qSOFA score of 2, and 494.07 (143.75–1698.15) for a qSOFA score of 3. In the receiver operating characteristic (ROC) curve analysis for the qSOFA, mEWS, ISS, and RTS in predicting the outcomes, for mortality, the AUROC for the qSOFA (AUROC [95% CI]; 0.912 [0.871–0.952]) was significantly greater than those for the ISS (0.700 [0.608–0.793]) and RTS (0.160 [0.108–0.211]).
Conclusions The qSOFA was useful for predicting the prognosis of trauma patients evaluated in the ED.
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Citations
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- Clinical utility of the quick Sequential Organ Failure Assessment score in predicting life-threatening traumatic hemorrhage: An observational study
Susumu Matsushime, Akira Kuriyama
The American Journal of Surgery.2024; 229: 140. CrossRef - Multifaceted Analysis of the Environmental Factors in Severely Injured Trauma: A 30-Day Survival Analysis
Sung Woo Jang, Hae Rim Kim, Pil Young Jung, Jae Sik Chung
Healthcare.2023; 11(9): 1333. CrossRef - Predictive value of quick sequential organ failure assessment (qSOFA) score in risk assessment and outcome prediction in blunt trauma patients: A prospective observational study
Nidhisha Sadhwani, Vinaya Ambore, Girish Bakhshi
Annals of Medicine & Surgery.2022;[Epub] CrossRef
- Effect of Therapeutic Hypercapnia on Systemic Inflammatory Responses in Hemorrhagic Shock in Rats
- Kyeong Won Kang, You Hwan Jo, Kyuseok Kim, Jae Hyuk Lee, Joong Eui Rhee
- J Korean Soc Traumatol. 2012;25(1):17-24.
- 1,152 View
- 4 Download
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Abstract
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- PURPOSE
This study was performed to investigate whether therapeutic hypercapnia could attenuate systemic inflammatory responses in hemorrhagic shock in rats.
METHODS
Male Sprague-Dawley rats were mechanically ventilated and underwent pressure-controlled (mean arterial pressure: 38+/-1 mmHg) hemorrhagic shock. At 10 minutes after the induction of hemorrhagic shock, the rats were divided into the normocapnia (PaCO2=35-45 mmHg, n=10) and the hypercapnia (PaCO2=60-70 mmHg) groups. The PaCO2 concentration was adjusted by using the concentration of inhaled CO2 gas. After 90 minutes of hemorrhagic shock, rats were resuscitated with shed blood for 10 minutes and were observed for 2 hours. The mean arterial pressure (MAP) and the heart rate were monitored continuously, and the results of arterial blood gas analyses, as well as the plasma concentrations of interleukin (IL)-6, IL-10, and nitrite/nitrate were compared between the normocapnia and the hypercapnia groups.
RESULTS
The MAP and the heart rate were not different between the two groups. The plasma concentration of IL-6 was significantly lower in the hypercapnia group than in the normocapnia group (p<0.05). The IL-10 concentration was not different and the IL-6 to IL-10 ratio was significantly lower in the hypercapnia group compared to the normocapnia group. The plasma nitrite/nitrate concentration of the hypercapnia group was lower than that of the normocapnia group.
CONCLUSION
Therapeutic hypercapnia attenuates systemic inflammatory responses in hemorrhagic shock. -
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