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      紅細胞分布寬度對急性胰腺炎嚴重程度和預(yù)后評估的價值

      2017-12-08 06:03:22薛力瑋
      關(guān)鍵詞:胰腺炎紅細胞入院

      薛力瑋, 劉 穎

      1.桂林醫(yī)學(xué)院,廣西 桂林 541001; 2.桂林醫(yī)學(xué)院第二附屬醫(yī)院消化科

      紅細胞分布寬度對急性胰腺炎嚴重程度和預(yù)后評估的價值

      薛力瑋1, 劉 穎2

      1.桂林醫(yī)學(xué)院,廣西 桂林 541001; 2.桂林醫(yī)學(xué)院第二附屬醫(yī)院消化科

      目的探討紅細胞分布寬度(red blood cell distribution width, RDW)水平及入院后其動態(tài)變化對急性胰腺炎(acutepancreatitis, AP)病情預(yù)后的評估價值。方法選擇2010年1月至2017年6月在桂林醫(yī)學(xué)院附屬醫(yī)院收治的AP患者120例,設(shè)輕癥組(MAP,43例)、中-重癥組(MSAP,32例)及重癥組(SAP,45例);根據(jù)是否診斷為SAP組,分為非SAP組(75例)和SAP組(45例);再將SAP組分為生存組(25例)、死亡組(20例);對照組為健康體檢者(30名)。收集患者入院時RDW、入院48 h后RDW、對照組RDW及其他相關(guān)臨床資料,比較各組間RDW的差異、RDW的動態(tài)變化、RDW與APACHEⅡ評分、Ranson評分的相關(guān)性,利用受試者工作特征曲線(ROC)并確定曲線下面積(AUC)來分析RDW對AP的嚴重程度和預(yù)后的價值。結(jié)果SAP組入院時RDW及入院48 h后RDW均明顯高于其他三組(P<0.001);SAP組及MSAP組中,入院48 h后RDW與入院時RDW變化不大(P>0.05);在多因素 Logistic 回歸分析中,入院時RDW、APACHEⅡ評分、Ranson評分等指標均為SAP診斷及院內(nèi)死亡的獨立危險因素(P<0.05);入院時RDW對診斷SAP的預(yù)測價值ROC曲線分析顯示,RDWAUC為0.953(95%CI:0.899~0.983,P<0.001);根據(jù)約登指數(shù)計算出入院時RDW最佳臨界值為13.9%,敏感度為95.56%,特異度為81.33%;入院時RDW對SAP院內(nèi)死亡的預(yù)測價值ROC曲線分析顯示,RDWAUC為0.849(95%CI: 0.711~0.938,P<0.001);根據(jù)約登指數(shù)計算出入院時RDW最佳臨界值為16.2%,敏感度為70.00%,特異度為92.00%。結(jié)論RDW可預(yù)測AP的嚴重程度和預(yù)后,同時RDW的動態(tài)變化對AP的病情可能具有較好的預(yù)測價值。

      紅細胞分布寬度;急性胰腺炎;預(yù)后評估

      急性胰腺炎(acute pancreatitis,AP)按病情嚴重程度,可分為輕癥胰腺炎(mild acute pancreatitis, MAP)、中-重癥胰腺炎(moderately severe acute pancreatitis, MSAP)、重癥胰腺炎(severe acute pancreatitis, SAP)[1]。大多數(shù)AP常呈自限性,預(yù)后良好,但在SAP中,由于胰腺酶進入血液和隨后造成對各個器官的損傷,在器官損傷后,會釋放大量炎癥介質(zhì)和細胞因子,疾病早期即可引起系統(tǒng)性并發(fā)癥,如全身炎癥反應(yīng)綜合征(systemic inflammatory response syndrome, SIRS)和多器官功能障礙綜合征(multiple organ dysfunction syndrome, MODS),嚴重AP的死亡率為36%~50%[2]。因此, 在入院后24~48 h內(nèi)評估AP患者嚴重程度和預(yù)后對AP的早期治療非常重要。

      紅細胞分布寬度(red blood cell distribution width, RDW)可反映紅細胞的異質(zhì)性。目前許多研究[3-7]已證實,RDW在各種疾病中可作為一個獨立、強大的預(yù)后及并發(fā)癥的預(yù)測指標,如心血管疾病、腦卒中、呼吸系統(tǒng)疾病及2型糖尿病。enol等[8]第一次證明了RDW是AP死亡的獨立危險因素之一,但其機制尚不明確。本研究通過分析AP患者早期RDW 水平與RDW 動態(tài)變化,評估RDW對AP嚴重程度和預(yù)后評估的價值,并探討其機制。

      1 資料與方法

      1.1一般資料選擇2010年1月至2017年6月在桂林醫(yī)學(xué)院附屬醫(yī)院收治AP患者120例,研究對象符合中華醫(yī)學(xué)會外科學(xué)分會胰腺外科學(xué)組《急性胰腺炎診治指南》(2014年)的診斷標準[1];按病情嚴重程度分為MAP組(43例)、MSAP組(32例)、SAP 組(45例);根據(jù)是否診斷為SAP組,分為非SAP組(75例)和SAP組(45例);再將SAP組分為生存組(25例)、死亡組(20例);120例患者中,男82例、女38例,年齡(53.83±16.95)歲(21~89歲);對照組為健康體檢者30名,男19名、女11名,年齡(46.70±16.43)歲(22~74歲)。

      1.2方法收集患者入院時RDW、入院48 h后RDW、對照組RDW及其他相關(guān)臨床資料,統(tǒng)計SAP患者住院期間病死率。

      2 結(jié)果

      2.1入院時RDW比較120例AP患者入院時RDW明顯高于對照組;MSAP組入院時RDW明顯高于MAP組;SAP組入院時RDW明顯高于MSAP組;但MAP組入院時RDW值與對照組的RDW值比較,差異無統(tǒng)計學(xué)意義(P>0.05,見表1)。

      2.2入院48h后RDW動態(tài)變化情況MAP組中入院48 h后RDW明顯低于入院時RDW(P<0.001);MSAP、SAP組中入院48 h后RDW與入院時RDW比較,差異無統(tǒng)計學(xué)意義(P>0.05,見表1)。

      表1 入院時與入院48 h后各組RDW值比較Tab 1 Comparison of RDW values at the time of admission and 48 hours after admission (±s)

      注:與SAP組相比,*P<0.05;與MSAP組相比,#P<0.05。

      2.3不同性別、病因AP患者RDW比較MAP組、MSAP組和SAP組內(nèi)不同性別、病因入院時RDW比較,差異無統(tǒng)計學(xué)意義(P>0.05);MAP組、MSAP組和SAP組內(nèi)不同性別、病因入院48 h后RDW比較,差異無統(tǒng)計學(xué)意義(P>0.05,見表2)。

      2.4RDW與APACHEⅡ評分、Ranson評分的相關(guān)性入院時RDW與APACHE Ⅱ評分、Ranson評分均存在良好的相關(guān)性,相關(guān)系數(shù)r值分別為0.778、0.678;入院48 h后RDW與APACHE Ⅱ評分、Ranson評分均存在良好相關(guān)性,相關(guān)系數(shù)r值分別為0.794、0.716。

      2.5SAP組和非SAP組中臨床資料比較年齡、入院時RDW、APACHE Ⅱ評分、Ranson評分在兩組間比較,差異均有統(tǒng)計學(xué)意義(P<0.001,見表3)。Logistic 回歸多因素分析顯示:入院時RDW、APACHE Ⅱ評分、Ranson評分均為診斷SAP的獨立危險因素(P<0.05);在對診斷SAP預(yù)測價值ROC曲線分析顯示,RDWAUC為0.953(95%CI: 0.899~0.983,P<0.001);根據(jù)約登指數(shù)計算出入院時RDW最佳臨界值為13.9%,靈敏度為95.56%,特異度為81.33%(見圖1);APACHE Ⅱ評分AUC為0.932 (95%CI: 0.871~0.970,P<0.001);Ranson評分AUC為0.898 (95%CI: 0.830~0.946,P<0.001)。

      2.6生存組和死亡組中臨床資料比較入院時RDW、APACHE Ⅱ評分、Ranson評分在兩組間比較,差異均有統(tǒng)計學(xué)意義(P<0.001,見表4)。Logistic回歸多因素分析顯示:入院時RDW、APACHE Ⅱ評分、Ranson評分均為SAP院內(nèi)死亡的獨立危險因素(P<0.05);在對SAP院內(nèi)死亡預(yù)測價值ROC曲線分析顯示,RDWAUC為0.849(95%CI: 0.711~0.938,P<0.001);根據(jù)約登指數(shù)計算出入院時RDW最佳臨界值為16.2%,靈敏度為70.00%,特異度為92.00%(見圖2);APACHE Ⅱ評分AUC為0.945(95%CI: 0.833~0.991,P<0.001);Ranson評分AUC為0.888(95%CI: 0.758~0.962,P<0.001)。

      表2 不同性別、病因AP患者RDW比較Tab 2 Comparison of RDW of AP patients between different gender and pathogenesis (±s)

      表3 SAP組與非SAP組中一般臨床資料比較Tab 3 Comparison of clinical characteristics between SAP group and non-SAP group (±s)

      表4 生存組與死亡組中一般臨床資料比較Tab 4 Comparison of clinical characteristics between survival group and death group (±s)

      圖1 RDW對SAP診斷預(yù)測價值的ROC曲線;圖2 RDW對SAP院內(nèi)死亡預(yù)測價值的ROC曲線Fig 1 ROC curve of RDW to predict the diagnosis of SAP; Fig 2 ROC curve of RDW to predict the hospital death of SAP

      3 討論

      AP既包括胰腺局部炎癥病變,也包括全身病理損傷。約20%的患者為SAP,常并發(fā) MODS或感染而死亡[2]。目前Ranson評分仍然是評估AP病情嚴重程度的最常用的評分系統(tǒng),但這個評分系統(tǒng)需要在入院后48 h來完成評估,其余的如APACHEⅡ評分、BISAP評分、MCTSI評分涉及許多測試,而且操作復(fù)雜,所以對臨床實踐并不方便;而在實驗室檢查中,肌酐、尿素氮特異性和靈敏性都有一定的局限性[9];C反應(yīng)蛋白(CRP)水平具有較高的靈敏性和陽性預(yù)測值,但CRP水平無法預(yù)測AP病情嚴重程度[10-11];降鈣素原(PCT)聯(lián)合其他炎癥指標,如白細胞介素-6(IL-6),可預(yù)測AP炎癥嚴重程度[12],乙酰膽堿酯酶(AChE)對評估AP病情嚴重程度也具有較強的靈敏性和特異性[13],但都不在臨床常規(guī)檢測范圍內(nèi);白細胞介素-8(IL-8)、尿胰蛋白酶原激活肽(uTAP)、腫瘤壞死因子(TNF-α)目前還沒有在臨床上應(yīng)用[9]。而RDW可反映全身系統(tǒng)的炎癥反應(yīng),多項研究[8-9]證明,高水平RDW是對SAP患者死亡率的獨立預(yù)測因子。

      本研究發(fā)現(xiàn),SAP組入院時RDW及入院48 h后RDW均明顯高于MAP及MSAP組,在多因素 Logistic回歸分析中RDW、APACHEⅡ評分、Ranson評分等指標均為SAP診斷及院內(nèi)死亡的獨立危險因素,通過ROC曲線分析,RDW對AP嚴重程度及預(yù)后的靈敏性及特異性均較強。而在SAP組及SMAP組中,入院48 h后RDW與入院時RDW變化不大,考慮與AP局部或全身并發(fā)癥及器官功能衰竭有關(guān),這也提示了RDW的動態(tài)變化可能對AP嚴重程度及預(yù)后有預(yù)測價值。

      據(jù)報道[8],RDW的變化與疾病的炎癥狀態(tài)有關(guān),這也許可以解釋為什么更高水平RDW值的AP患者病情更重、死亡率更高。炎性因子和氧化應(yīng)激在AP的發(fā)病和進展中起至關(guān)重要的作用。胰腺腺泡細胞的損傷在AP早期導(dǎo)致局部炎癥反應(yīng),之后腺泡細胞凋亡或壞死可導(dǎo)致SIRS及MODS[14]。若紅細胞生成時缺乏鐵、維生素B12、葉酸等造血原料時,相應(yīng)的RDW就會升高[15]。炎癥影響骨髓中紅細胞前體和鐵代謝,同時炎性細胞因子可破壞紅細胞細胞膜,抑制其成熟,讓更新、更大的網(wǎng)織紅細胞進入循環(huán), 從而使RDW升高[16]。炎癥可改變紅細胞膜糖蛋白和膜離子通道,使得紅細胞形態(tài)發(fā)生變化,導(dǎo)致紅細胞大小異質(zhì)性增加[17-18]。而氧化應(yīng)激可通過破壞核酸、蛋白及脂質(zhì)從而降低紅細胞存活率并讓更多未成熟紅細胞進入血液循環(huán)[19]。此外,SAP常因全身血容量下降導(dǎo)致腎前性的急性腎損傷,同時長時間腸外營養(yǎng)及應(yīng)激狀態(tài)可導(dǎo)致貧血,從而使RDW升高[20]。因此,RDW值反映了AP的炎癥狀態(tài),可用于預(yù)測AP的嚴重程度和預(yù)后。

      綜上所述,RDW可預(yù)測AP的嚴重程度和預(yù)后,初步解釋了其存在的機制,同時RDW的動態(tài)變化對AP的病情也可能具有較好的預(yù)測價值,但本研究屬于回顧性分析, 存在樣本相對偏少,且未對AP患者出院后進行隨訪,無法了解出院后RDW動態(tài)變化情況的問題,對研究結(jié)果難免造成偏差。此外,還需進一步探究AP中RDW升高的具體機制。

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      Pancreatic Surgery Group of Surgery Branch of China. Guidelines for the diagnosis and treatment of acute pancreatitis (2014 edition) [J]. Chin J Hepatobiliary Surg, 2015, 21(1): 1-4.

      [2] Vege SS, Gardner TB, Chari ST, et al. Low mortality and high morbidity in severe acute pancreatitis without organ failure: a case for revising the Atlanta classification to include “moderately severe acute pancreatitis” [J]. Am J Gastroenterol, 2009, 104(3): 710-715.

      [3] Sun XP, Chen WM, Sun ZJ, et al. Impact of red blood cell distribution width on long-term mortality in patients with ST-elevation myocardial infarction [J]. Cardiology, 2014, 128(4): 343-348.

      [4] Cauthen CA, Tong W, Jain A, et al. Progressive rise in red cell distribution width is associated with disease progression in ambulatory patients with chronic heart failure [J]. J Card Fail, 2012, 18(2): 146-152.

      [5] S?derholm M, Borné Y, Hedblad B, et al. Red cell distribution width in relation to incidence of stroke and carotid atherosclerosis: a population-based cohort study [J]. PLoS One, 2015, 10(5): e0124957.

      [6] Seyhan EC, ?zgül MA, Tutar N, et al. Red blood cell distribution and survival in patients with chronic obstructive pulmonary disease [J]. COPD, 2013, 10(4): 416-424.

      [7] Malandrino N, Wu WC, Taveira TH, et al. Association between red blood cell distribution width and macrovascular and microvascular complications in diabetes [J]. Diabetologia, 2012, 55(1): 226-235.

      [9] Klll? M?, ?elik C, Yüksel C, et al. Correlation between Ranson score and red cell distribution width in acute pancreatitis [J]. Ulus Travma Acil Cerrahi Derg, 2017, 23(2): 112-116.

      [10] Taylor SL, Morgan DL, Denson KD, et al. A comparison of the Ranson, Glasgow, and APACHE Ⅱ scoring systems to a multiple organ system score in predicting patient outcome in pancreatitis [J]. Am J Surg, 2005, 189(2): 219-222.

      [11] Imamura T, Tanaka S, Yoshida H, et al. Significance of measurement of high-sensitivity C-reactive protein in acute pancreatitis [J]. J Gastroenterol, 2002, 37(11): 935-938.

      [12] 楊榮萍, 廖旭, 胡元佳, 等. 新亞特蘭大分類下生化指標預(yù)測急性胰腺炎嚴重度的價值[J]. 胃腸病學(xué)和肝病學(xué)雜志, 2016, 25(8): 899-902.

      Yang RP, Liao X,Hu YJ, et al. Biochemical factors in evaluating the severity of acute pancreatitis based on revised Atlanta classification [J]. Chin J Gastroenterol Hepatol, 2016, 25(8): 899-902.

      [13] 王俊, 馮志松, 凌穎, 等. 血清AChE活性在急性胰腺炎病情及預(yù)后評估中的意義[J]. 胃腸病學(xué)和肝病學(xué)雜志, 2017, 26(4): 449-453.

      Wang J, Feng ZS, Ling Y, et al. The significance of serum acetylcholinesterase activity in patients with acute pancreatitis and its relationship with disease severity and prognosis [J]. Chin J Gastroenterol Hepatol, 2017, 26(4): 449-453.

      [14] Nagao S, Taguchi K, Sakai H, et al. Carbon monoxide-bound hemoglobin vesicles ameliorate multiorgan injuries induced by severe acute pancreatitis in mice by their anti-inflammatory and antioxidant properties [J]. Int J Nanomedicine, 2016, 11: 5611-5620.

      [16] Abd Ellah MR. Studying the correlations among hematological and serum biochemical constituents in cattle theileriosis [J]. J Parasit Dis, 2015, 39(2): 134-139.

      [17] Ghaffari S. Oxidative stress in the regulation of normal and neoplastic hematopoiesis [J]. Antioxid Redox Signal, 2008, 10(11): 1923-1940.

      [18] Song CS, Park DI, Yoon MY, et al. Association between red cell distribution width and disease activity in patients with inflammatory bowel disease [J]. Dig Dis Sci, 2012, 57(4): 1033-1038.

      [19] Zhao Z, Liu T, Li J, et al. Elevated red cell distribution width level is associated with oxidative stress and inflammation in a canine model of rapid atrial pacing [J]. Int J Cardiol, 2014, 174(1): 174-176.

      [20] Gou S, Yang C, Yin T, et al. Percutaneous catheter drainage of pancreatitis-associated ascitic fluid in early-stage severe acute pancreatitis [J]. Pancreas, 2015, 44(7): 1161-1162.

      (責(zé)任編輯:李 健)

      Valueofredbloodcelldistributionwidthinassessingtheseverityandprognosticevaluationofacutepancreatitis

      XUE Liwei1, LIU Ying2

      1.Guilin Medical University, Guilin 541001; 2.Department of Gastroenterology, the Second Affiliated Hospital of Guilin Medical University, China

      ObjectiveTo explore the value of red blood cell distribution width (RDW) and its dynamic changes after admission in assessing the severity and prognostic evaluation of acute pancreatitis (AP).MethodsOne hundred and twenty cases of AP patients including 43 cases of mild acute pancreatitis (MAP), 32 cases of moderate severe acute pancreatitis (MSAP) and 45 cases of severe acute pancreatitis (SAP) from Jan. 2010 to Jun. 2017 in the Affiliated Hospital of Guilin Medical University were selected. According to the diagnostis of SAP or not, patients were divided into non-SAP group (75 cases) and SAP group (45 cases). Patients in SAP group were divided into survival group (25 cases) and death group (20 cases), 30 healthy volunteers were selected as the control group. RDW of patients was collected at the time of admission and 48 hours after admission to hospital, as well as the RDW of the control group and other relevant clinical data were collected. The difference value of RDW in each group, the dynamic changes of the RDW and the correlation of RDW with APACHE Ⅱ score, Ranson score were compared. The value of RDW to the severity and prognosis of AP were analyzed by theROCcurve and area under curve (AUC).ResultsThe RDW of SAP group at the time of admission and 48 hours after admission to hospital were significantly higher than those in the other three groups (P<0.001). In the SAP group and MSAP group, the RDW at the time of admission was not significantly changed after 48 hours in hospital (P>0.05). In a multiariable Logistic regression analysis, RDW, APACHE Ⅱ score and Ranson score indexes at the time of admission were all independent risk factors for SAP diagnosis and hospital death (P<0.05). TheROCcurve analysis of the prediction value of SAP in admission showed that the RDWAUCwas 0.953 (95%CI: 0.899-0.983,P<0.001). According to the Youden index, the optimal critical value of RDW when admission was 13.9 % and the sensitivity was 95.56 % and the specificity was 81.33 %. RDW on admission to hospital to prognosis of death in the hospital in SAP group ofROCcurve analysis showed that RDWAUCwas 0.849 (95%CI: 0.711-0.938,P<0.001). According to the Youden index, the optimal critical value of RDW when admission was 16.2% and the sensitivity was 70.00% and the specificity was 92.00%.ConclusionRDW can predict the severity and prognosis of AP, and the dynamic change of RDW may have important value to predict the condition of it.

      Red blood cell distribution width; Acute pancreatitis; Prognostic evaluation

      10.3969/j.issn.1006-5709.2017.11.026

      國家自然科學(xué)基金(81660097)

      薛力瑋,在讀碩士研究生,研究方向:消化系統(tǒng)疾病。E-mail: xueliwei0528@126.com

      劉穎,博士,副主任醫(yī)師,副教授,研究方向:胃腸動力。E-mail: liuy1009@sina.com

      R576

      A

      1006-5709(2017)11-1301-04

      2017-07-13

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