Analysis of Blood Trace Elements and Biochemical Indexes Levels in Severe Craniocerebral Trauma Adults with Glasgow Coma Scale and Injury Severity Score
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- 作者:Guangtao Xu (1) (2)
Bo Hu (3)
Guiqian Chen (2)
Xiaojun Yu (1)
Jianming Luo (1)
Junyao Lv (1)
Jiang Gu (1)
1. National Key Disciplines ; Department of Forensic and Pathology ; Shantou University Medical College ; 515041 ; Shantou ; Guangdong Province ; People鈥檚 Republic of China
2. Department of Forensic and Pathology ; Jiaxing University Medical College ; 314001 ; Jiaxing ; Zhejiang Province ; People鈥檚 Republic of China
3. Department of Pathology ; Jiaxing Hospital of Traditional Chinese Medicine ; 314001 ; Jiaxing ; Zhejiang Province ; People鈥檚 Republic of China - 关键词:Trace element ; Trauma ; Craniocerebral injury ; Injury severity score
- 刊名:Biological Trace Element Research
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:164
- 期:2
- 页码:192-197
- 全文大小:1,000 KB
- 参考文献:1. Wang, G, Feng, X, Yu, X (2013) Prognostic value of blood zinc, iron, and copper levels in critically ill children with pediatric risk of mortality score III. Biol Trace Elem Res 152: pp. 300-304 CrossRef
2. Wang, G, Lai, X, Yu, X (2012) Altered levels of trace elements in acute lung injury after severe trauma. Biol Trace Elem Res 147: pp. 28-35 CrossRef
3. Wang, BH, Yu, XJ, Wang, D (2007) Alterations of trace elements (Zn, Se, Cu, Fe) and related metalloenzymes in rabbit blood after severe trauma. J Trace Elem Med Biol 21: pp. 102-107 CrossRef
4. Yuan, WA, Yu, XJ, Liu, FQ (2010) Effects of trace element supplementation on the inflammatory response in a rabbit model of major trauma. J Trace Elem Med Biol 24: pp. 36-41 CrossRef
5. Kalkan Ucar, S, Coker, M, S枚zmen, E (2010) An association among iron, copper, zinc, and selenium, and antioxidative status in dyslipidemic pediatric patients with glycogen storage disease types IA and III. J Trace Elem Med Biol 24: pp. 42-45 CrossRef
6. Agay, D, Anderson, RA, Sandre, C (2005) Alterations of antioxidant trace elements (Zn, Se, Cu) and related metallo-enzymes in plasma and tissues following burn injury in rats. Burns 31: pp. 366-371 CrossRef
7. Kennedy, AB, Vowles, JV, d鈥橢spaux, L (2014) Protein-responsive ribozyme switches in eukaryotic cells. Nucleic Acids Res 42: pp. 12306-12321 CrossRef
8. Decker, H, Terwilliger, N (2000) Cops and robbers: putative evolution of copper oxygen-binding proteins. J Exp Biol 203: pp. 1777-1782
9. Saaka, M, Oosthuizen, J, Beatty, S (2009) Effect of joint iron and zinc supplementation on malarial infection and anaemia. East Afr J Public Health 6: pp. 55-62
10. Liu, Q, Lu, JY, Wang, XH (2014) Changes in the PD-1 and PD-L1 expressions of splenic dendritic cells in multiple-organ dysfunction syndrome mice and their significance. Genet Mol Res 13: pp. 7666-7672 CrossRef
11. Wang, D, Yu, XJ, Qi, XM (2006) Study of correlation between the acute changes of trace element and occurrence of multiple organ dysfunction syndrom and death after severe trauma. J Surgery Concepts Practice 11: pp. 239-243
12. Georgetti, FC, Eug锚nio Gde, R (2006) Activated C protein in the treatment of a newborn with sepsis, shock and multiple organ dysfunction systems: case report and literature review. Rev Bras Ter Intensiva 18: pp. 418-422 CrossRef
13. Baker, SP, O鈥橬eill, B, Haddon, W (1974) The injury severity score: a method for describing patients with multiple injuries and evaluating emergency care. J Trauma 14: pp. 187-196 CrossRef
20聽years of trauma documentation in Germany鈥攁ctual trends and developments. Injury 45: pp. S14-S19
14. Palmer, CS, Lang, J, Russell, G (2013) Mapping abbreviated injury scale data from 1990 to 1998 versions: a stepping-stone in the contemporary evaluation of trauma. Injury 44: pp. 1437-1442 CrossRef
15. Smith, ZA, Dahdaleh, NS (2014) Validating the thoracolumbar injury classification and severity score. J Neurosurg Spine 21: pp. 495-496 CrossRef
16. Iankova, A (2006) The Glasgow Coma Scale: clinical application in emergency departments. Emerg Nurse 14: pp. 30-35 CrossRef
17. Kehoe A, Rennie S, Smith JE (2014) Glasgow Coma Scale is unreliable for the prediction of severe head injury in elderly trauma patients. Emerg Med J
18. Bonham, M, O鈥機onnor, JM, Hannigan, BM (2002) The immune system as a physiological indicator of marginal copper status?. Br J Nutr 87: pp. 393-403 CrossRef
19. Strachan, S (2010) Trace elements. Curr Anaesth Crit Care 21: pp. 44-48 CrossRef
20. Dlouhy, AC, Outten, CE (2013) The iron metallome in eukaryotic organisms. Met Ions Life Sci 12: pp. 241-278 CrossRef
21. Hoppe, M, Hulth茅n, L, Hallberg, L (2006) The relative bioavailability in humans of elemental iron powders for use in food fortification. Eur J Nutr 45: pp. 37-44 CrossRef
22. Pineda, O, Ashmead, HD (2001) Effectiveness of treatment of iron-deficiency anemia in infants and young children with ferrous bis-glycinate chelate. Nutrition 17: pp. 381-384 CrossRef
23. Eide, DJ (2011) The oxidative stress of zinc deficiency. Metallomics 3: pp. 1124-1129 CrossRef
24. Cortese-Krott, MM, Kulakov, L, Opl盲nder, C (2014) Zinc regulates iNOS-derived nitric oxide formation in endothelial cells. Redox Biol 2: pp. 945-954 CrossRef
25. Jang, JY, Shim, H, Lee, SH (2014) Serum selenium and zinc levels in critically ill surgical patients. J Crit Care 29: pp. e5-e8
26. Blass, SC, Goost, H, Burger, C (2013) Extracellular micronutrient levels and pro-/antioxidant status in trauma patients with wound healing disorders: results of a cross-sectional study. Nutr J 12: pp. 157 CrossRef
27. Thurnham, DI (2014) Interactions between nutrition and immune function: using inflammation biomarkers to interpret micronutrient status. Proc Nutr Soc 73: pp. 1-8 CrossRef
28. Morris, DR, Levenson, CW (2013) Zinc in traumatic brain injury: from neuroprotection to neurotoxicity. Curr Opin Clin Nutr Metab Care 16: pp. 708-711 CrossRef
29. Romani, AM (2013) Magnesium in health and disease. Met Ions Life Sci 13: pp. 49-79 CrossRef
30. Guerrero-Romero, F, Rodr铆guez-Mor谩n, M (2002) Low serum magnesium levels and metabolic syndrome. Acta Diabetol 39: pp. 209-213 CrossRef
31. Ghasemi, A, Zahediasl, S, Syedmoradi, L (2010) Low serum magnesium levels in elderly subjects with metabolic syndrome. Biol Trace Elem Res 136: pp. 18-25 CrossRef
32. Geiger, H, Wanner, C (2012) Magnesium in disease. Clin Kidney J 5: pp. i25-i38 CrossRef
33. Panhwar, AH, Kazi, TG, Afridi, HI (2014) Distribution of potassium, calcium, magnesium, and sodium levels in biological samples of Pakistani hypertensive patients and control subjects. Clin Lab 60: pp. 463-474
34. Ge, K, McNutt, K (2000) How the Chinese link dietary advice to their national plan of action for nutrition. J Am Diet Assoc 100: pp. 885-886 CrossRef
35. Morgan, DB, Carver, ME, Payne, RB (1977) Plasma creatinine and urea: creatinine ratio in patients with raised plasma urea. Br Med J 2: pp. 929-932 CrossRef
36. Huang, X, Li, S, Yang, X (2014) Establishing reference values for blood urea nitrogen and serum creatinine in Chinese Han ethnic adult men. Clin Lab 60: pp. 1123-1128
37. Riccardi, A, Chiarbonello, B, Minuto, P (2013) Identification of the hydration state in emergency patients: correlation between caval index and BUN/creatinine ratio. Eur Rev Med Pharmacol Sci 17: pp. 1800-1803
38. Liu, X, Zhang, H, Liang, J (2013) Blood urea nitrogen is elevated in patients with non-alcoholic fatty liver disease. Hepatogastroenterology 60: pp. 343-345
39. Brisco, MA, Coca, SG, Chen, J (2013) Blood urea nitrogen/creatinine ratio identifies a high-risk but potentially reversible form of renal dysfunction in patients with decompensated heart failure. Circ Heart Fail 6: pp. 233-239 CrossRef
40. Schrock, JW, Glasenapp, M, Drogell, K (2012) Elevated blood urea nitrogen/creatinine ratio is associated with poor outcome in patients with ischemic stroke. Clin Neurol Neurosurg 114: pp. 881-884 CrossRef
41. Wang, BH, Yu, XJ, Liu, MY (2005) Analysis of cause of death for the severe trauma: 66 cases report and review of the literature. J Forensic Med 21: pp. 42-44 - 刊物主题:Biochemistry, general; Biotechnology; Nutrition; Oncology;
- 出版者:Springer US
- ISSN:1559-0720
文摘
We aimed to investigate the correlation between the Glasgow Coma Scale (GCS), the injury severity score (ISS) and serum levels of trace elements (TE) in severe trauma patients to analyze alteration of the levels of trace elements and serum biochemical indexes in the period of admission from 126 adult cases of severe brain trauma with traffic accidents. Multi-trace elements for patients in the trauma-TE groups were used. The results indicated that all patients presented an acute trace elements deficiency syndrome (ATEDs) after severe trauma, and the correlation between ISS and serum levels of Fe, Zn, and Mg was significant. Compared to the normal control group, levels of the trace elements in serum were significantly decreased after trauma, suggesting that enhancement of immunity to infection and multiple organ failure (MOF) via the monitoring and supplement of trace elements will be a good strategy to severe traumatic patients in clinics.