创伤性失血病人输血前后血细胞比容和酸碱度变化及其与凝血功能的关系分析

    Changes of hematocrit and pH before and after blood transfusion in patients with traumatic hemorrhage and their relationship with coagulation function

    • 摘要:
      目的探讨创伤性失血病人输血前后血细胞比容(HCT)和酸碱度(pH)变化及其与凝血功能的关系。
      方法选取创伤性失血病人102例进行前瞻性研究临床实验,采用血凝仪检测各组HCT、pH指标,采用血栓弹力图仪检测凝血反应时间(R)、凝固角(a-Angle)和血栓最大幅度(MA);采用Pearson回归分析检验输血前后的HCT、pH与R、a-Angle、MA值与凝血功能的相关性。
      结果输血前,A、B、C组HCT、pH、纤维蛋白原(Fib)、a-Angle值、MA值比较,A组 < B组 < C组(P < 0.05);凝血酶原时间(PT)、凝血酶时间(TT)、活化部分凝血活酶时间(APTT)、R值比较,A组>B组>C组(P < 0.05);输血后, A、B、C组各凝血指标差异均无统计学意义(P>0.05),且较输血前均有所改善(P < 0.05)。输血前,pH、a-Angle值、MA值: D组 < E组 < F组(P < 0.05);PT、TT、APTT、R值: D组>E组>F组;pH值F组<G组,R值F组>G组(P < 0.05~P < 0.01),F组和G组的a-Angle值、MA值、PT、TT、APTT、R值差异无统计学意义(P>0.05), D、E、F组的Fib值差异均无统计学意义(P>0.01),且均小于G组(P < 0.05~P < 0.01);输血后D、E、F、G组的pH、Fib、PT、TT、APTT、R值、a-Angle值、MA值差异无统计学意义(P>0.05),且较输血前显著改善,组内比较差异有统计学意义(P < 0.05)。HCT、pH水平越高,创伤性失血病人的ICU住院时间、出血时间越短(P < 0.05~P < 0.01)。Pearson相关分析发现,HCT和pH(< 7.45)同PT、TT、APTT、R值、住院时间、出血时间等凝血指标呈负相关关系(P < 0.01),同Fib、a-Angle值、MA值等凝血指标呈正相关关系,且HCT、pH在创伤性失血的凝血指标同样呈正相关关系(P < 0.01)。
      结论创伤性失血病人的凝血功能障碍的严重程度与HCT、pH下降有关,且HCT水平越低, 酸中毒的发生率越高、预后越差,故做好输血前后的HCT、pH检测对创伤性失血的临床诊治十分必要,二者也是影响其凝血功能的重要指标。

       

      Abstract:
      ObjectiveTo investigate the changes of hematocrit (HCT) and pH before and after blood transfusion in patients with traumatic hemorrhage and their relationship with coagulation function.
      MethodsA total of 102 patients wilh traumatic blood loss were enrolled for the prospective clinical trial.The HCT and pH indexes of each group were detected using coagulometer; the coagulation reaction time (R), coagulation angle (a-Angle), and maximum magnitude of thrombus (MA) were detected using the thromboelastography; the logistic regression analysis was used to analyze the correlation of coagulation function before and after blood transfusion with HCT, pH, R, a-Angle, and MA values.
      ResultsBefore blood transfusion, HCT, pH, fibrinogen (Fib), a-Angle value, and MA value of group A, B and C were compared, and the corresponding result was group A < group B < group C(P < 0.05);prothrombin time(PT), thrombin time(TT), activated partial thrombopaltin time(APTT), R value were compared, and the result was group A >group B>group C(P < 0.05); after blood transfusion, there was no significant difference in coagulation indexes among groups A, B and C (P>0.05), and all indexes were improved compared with those before blood transfusion(P < 0.05).Before blood transfusion, pH, a-Angle value, MA value of group D, E and F were compared, and the corresponding result was group D < group E < group F (P < 0.05).PT, TT, APTT, R value of group D, E and F were compared, and the corresponding result was group D>group E>group F.pH value of group F and G were compared, and the corresponding result was group F < Group G.R value of group F and G were compared, and the corresponding result was group F>group G (P < 0.05 to P < 0.01).There was no significant difference in a-Angle value, MA value, PT.TT.APTT, and R value between group F and group G(P>0.05);there was no significant difference in the Fib value among group D, E, F(P>0.01) and the Fib values among group D, E, F were smaller than those in group G(P < 0.05 to P < 0.01).There was no significant difference in TT, APTT, R values, a-Angle values, and MA values of group D, E, F and group G after transfusion (P>0.05), and all indexes were significanlly improved compared wilh those before blood transfusion, and the difference within the group was statistically significant (P < 0.05).The higher the levels of HCT and pH, the shorter the ICU stay and bleeding time of traumatic blood loss patients(P < 0.05 to P < 0.01).Pearson correlation analysis found that HCT and pH(< 7.45) were negatively correlated PT, TT, APTT, R value, hospitalization time, bleeding time and other coagulation indexes (P < 0.01).There was a positive correlation between HCT and coagulation indexes such as Fib, a-Angle value, and MA value (P < 0.01).HCT and pH were also positively correlated with the coagulation indexes of traumatic hemorrhage(P < 0.01).
      ConclusionsThe severity of coagulation dysfunction in patients with traumatic blood loss is associated with the decreases of HCT and pH.The lower the HCT level, the higher the incidence of acidosis and the worse the prognosis.Thus, the detection of HCT and pH before and after blood transfusion is inevitable for the clinical diagnosis and treatment of traumatic hemorrhage, which are also important indicators affecting the coagulation function.

       

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