Author
Listed:
- Cheng-Shyuan Rau
(Department of Neurosurgery, Kaohsiung Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Kaohsiung City 833, Taiwan
These authors contributed equally to this work.)
- Shao-Chun Wu
(Department of Anesthesiology, Kaohsiung Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Kaohsiung City 833, Taiwan
These authors contributed equally to this work.)
- Yi-Chun Chen
(Department of Plastic Surgery, Kaohsiung Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Kaohsiung City 833, Taiwan)
- Peng-Chen Chien
(Department of Plastic Surgery, Kaohsiung Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Kaohsiung City 833, Taiwan)
- Hsiao-Yun Hsieh
(Department of Plastic Surgery, Kaohsiung Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Kaohsiung City 833, Taiwan)
- Pao-Jen Kuo
(Department of Plastic Surgery, Kaohsiung Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Kaohsiung City 833, Taiwan)
- Ching-Hua Hsieh
(Department of Plastic Surgery, Kaohsiung Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Kaohsiung City 833, Taiwan)
Abstract
Background: Stress-induced hyperglycemia (SIH) is a form of hyperglycemia secondary to stress and commonly occurs in patients with trauma. Trauma patients with SIH have been reported to have an increased risk of mortality. However, information regarding whether these trauma patients with SIH represent a distinct group with differential outcomes when compared to those with diabetic hyperglycemia (DH) remains limited. Methods: Diabetes mellitus (DM) was determined by patient history and/or admission glycated hemoglobin (HbA1c) ≥6.5%. Non-diabetic normoglycemia (NDN) was determined by a serum glucose level <200 mg/dL in the patients without DM. Diabetic normoglycemia (DN) was determined by a serum glucose level <200 mg/dL in the patients with DM. DH and SIH was diagnosed by a serum glucose level ≥200 mg/dL in the patients with and without DM, respectively. Detailed data of these four groups of hospitalized patients, which included NDN ( n = 7806), DN ( n = 950), SIH ( n = 493), and DH ( n = 897), were retrieved from the Trauma Registry System at a level I trauma center between 1 January 2009 and 31 December 2015. Patients with incomplete registered data were excluded. Categorical data were compared with Pearson chi-square tests or two-sided Fisher exact tests. The unpaired Student’s t -test and the Mann–Whitney U -test were used to analyze normally distributed continuous data and non-normally distributed data, respectively. Propensity-score-matched cohorts in a 1:1 ratio were allocated using NCSS software with logistic regression to evaluate the effect of SIH and DH on the outcomes of patients. Results: The SIH (median [interquartile range: Q1–Q3], 13 [9–24]) demonstrated a significantly higher Injury Severity Score (ISS) than NDN (9 [4–10]), DN (9 [4–9]), and DH (9 [5–13]). SIH and DH had a 12.3-fold (95% confidence interval [CI] 9.31–16.14; p < 0.001) and 2.4-fold (95% CI 1.71–3.45; p < 0.001) higher odds of mortality, respectively, when compared to NDN. However, in the selected propensity-score-matched patient population, SIH had a 3.0-fold higher odd ratio of mortality (95% CI 1.96–4.49; p < 0.001) than NDN, but DH did not have a significantly higher mortality (odds ratio 1.2, 95% CI 0.99–1.38; p = 0.065). In addition, SIH had 2.4-fold higher odds of mortality (95% CI 1.46–4.04; p = 0.001) than DH. These results suggest that the characteristics and injury severity of the trauma patients contributed to the higher mortality of these patients with hyperglycemia upon admission, and that the pathophysiological effect of SIH was different from that of DH. Conclusions: Although there were worse mortality outcomes among trauma patients presenting with hyperglycemia, this effect was only seen in patients with SIH, but not DH when controlling for age, sex, pre-existed co-morbidities, and ISS.
Suggested Citation
Cheng-Shyuan Rau & Shao-Chun Wu & Yi-Chun Chen & Peng-Chen Chien & Hsiao-Yun Hsieh & Pao-Jen Kuo & Ching-Hua Hsieh, 2017.
"Higher Mortality in Trauma Patients Is Associated with Stress-Induced Hyperglycemia, but Not Diabetic Hyperglycemia: A Cross-Sectional Analysis Based on a Propensity-Score Matching Approach,"
IJERPH, MDPI, vol. 14(10), pages 1-10, September.
Handle:
RePEc:gam:jijerp:v:14:y:2017:i:10:p:1161-:d:113831
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Cited by:
- Yu-Chin Tsai & Shao-Chun Wu & Ting-Min Hsieh & Hang-Tsung Liu & Chun-Ying Huang & Sheng-En Chou & Wei-Ti Su & Shiun-Yuan Hsu & Ching-Hua Hsieh, 2021.
"Reply to Comment on Tsai, Y.-C., et al. Association of Stress-Induced Hyperglycemia and Diabetic Hyperglycemia with Mortality in Patients with Traumatic Brain Injury: Analysis of a Propensity Score-Ma,"
IJERPH, MDPI, vol. 18(5), pages 1-2, March.
- Meng-Wei Chang & Chun-Ying Huang & Hang-Tsung Liu & Yi-Chun Chen & Ching-Hua Hsieh, 2018.
"Stress-Induced and Diabetic Hyperglycemia Associated with Higher Mortality among Intensive Care Unit Trauma Patients: Cross-Sectional Analysis of the Propensity Score-Matched Population,"
IJERPH, MDPI, vol. 15(5), pages 1-10, May.
- Cheng-Shyuan Rau & Shao-Chun Wu & Yi-Chun Chen & Peng-Chen Chien & Hsiao-Yun Hsieh & Pao-Jen Kuo & Ching-Hua Hsieh, 2017.
"Stress-Induced Hyperglycemia, but Not Diabetic Hyperglycemia, Is Associated with Higher Mortality in Patients with Isolated Moderate and Severe Traumatic Brain Injury: Analysis of a Propensity Score-M,"
IJERPH, MDPI, vol. 14(11), pages 1-10, November.
- Cheng-Shyuan Rau & Shao-Chun Wu & Yi-Chun Chen & Peng-Chen Chien & Hsiao-Yun Hsieh & Pao-Jen Kuo & Ching-Hua Hsieh, 2017.
"Stress-Induced Hyperglycemia in Diabetes: A Cross-Sectional Analysis to Explore the Definition Based on the Trauma Registry Data,"
IJERPH, MDPI, vol. 14(12), pages 1-11, December.
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