A New Diagnostic Marker For Acute Pulmonary Embolism In Emergency Department: Mean Platelet Volume

Objective: To investigate the diagnostic importance of mean platelet volume (MPV) on acute pulmonary embolism (APE) in the emergency Department (ED). Methods: Subjects were selected from patients admitted to ED with clinically suspected APE. Demographic, anthropometric and serologic data were collected for each patient. Results: A total of 315 consecutive patients were analyzed, including 150 patients (53.44 ± 15.14 y ; 92 men/58 women) in APE group and 165 patients (49.80 ±13.76y; 94 men/71 women) in the control group. MPV in the APE group was significantly higher than in the control group (9.42±1.22 fl vs. 8.04±0.89 fl, p<0.0001). The best cut-off values for MPV when predicting APE in patients with clinically suspected APE presenting at the ED were 8.55 fl (sensitivity 82.2%; specificity 52.3%). Conclusions: MPV is a helpful parameter for the diagnosis of APE in ED, for the first time in the literature.


Introduction
Acute Pulmonary Embolism (APE) is one of the serious diseases in the emergency department (ED) with high mortality diseases estimates of up to 10% The mean platelet volume (MPV) is potentially one of the most important biomarkers of platelet activity and calculated by automatic blood count equipment during routine blood counts 4 .MPV is an indicator of platelet activation and there is strong evidence indicating that MPV is an important variable and that larger platelets have a higher thrombotic potential 5,6 .Elevated MPV has been recognized as an independent risk factor for different clinical conditions [7][8][9] .Recently, previous studies clearly showed that MPV was associated with acute deep venous thrombosis (DVT) and high levels of MPV might increase the specificity of D-dimer for exclusion of DVT 10,11 .APE is a common complication of DVT, 50% of APE cases arise from thrombus in the deep venous system of the lower extremities 12 .In this aspect, MPV may have association with APE 13 .In one study, MPV was found to be an independent predictor of early death in APE 14 and another study speculated that it can be used for the determination of disease severity 15 .
However, to the best of our knowledge, studies to evaluate the early time diagnostic importance of MPV in APE patient has not been reported in the literature previously.Consequently, the aim of this study was to investigate whether there is an association between MPV and APE in the ED.

Methods
This retrospective study was conducted in Abant Izzet Baysal University Education and Research Hospital.Polyclinic and admission files as well as automation system records of patients admitted to the emergency services between January 2008 and December 2012.This study was approved by the ethics committee of Abant Izzet Baysal University Medical School.
In this period, the files and records of 892 cases evaluated with the pre-diagnosis of APE were reached.Three hundred sixty-two of these cases were excluded due to missing information; two hundred fifteen cases were excluded due to the exclusion criteria.Recruitment, exclusion, and subsequent grouping of all patients are shown in the flowchart (Figure 1).A total of 315 consecutive patients who had been admitted to the Abant University Education and Research Hospital emergency clinic with clinically suspected APE (pain/sudden-onset dyspnea in the past week) were recruited to participate in the study, and who had fulfilled the inclusion criteria, were enrolled.APE was confirmed by thoracic multislice computed tomography showing complete or partial filling defect in pulmonary branches or by ventilation/perfusion pulmonary cintigraphy showing a high probability of PTE.One hundred sixty five patients who presented to the emergency unit with dyspnea and who had a previous diagnosis of APE were excluded from the APE diagnosis group and used as the control group.51 patients have been put into intensive care unit, while 99 patients have been placed in the Chest disease department service.
The exclusion criteria's were as follows: age>65, coronary artery diseases, acute coronary syndrome, congestive heart failure, significant valvular heart disease, pacemaker implantation, atrial flutter or fibrillation, peripheral vascular diseases, pulmonary or neurological disease, pericarditis, malignancy, infection, pregnancy, overt hypothyroidism or hyperthyroidism, chronic renal or hepatic disease and overt/active hematological disorders.
Age, gender, leukocyte and thrombocyte counts at the time of hospital admission, and MPV values were recorded.The MPV was determined on arrival at the ED through the brachial vein, collected into tubes containing ethylenediaminetetraacetic acid (EDTA).These blood samples were analyzed within 1 hours of venipuncture with an automatic blood counter a Sysmex XT 2000i (Roche Diagnostics, Tokyo, Japan) used for whole blood analysis.The expected values for MPV in our laboratory ranged from 7.0 to 12.0 fl.The analytic coefficient of variation for MPV ranged from 2.2 to 1.1%.In order to assess the potential independent predictors of SVT in patients with palpitation, multiple logistical regression analysis was performed and included data yielding significant differences (p<0.05) between the APE group and the control group individually.After adjusting for demographic and all hematologic factors (age, gender, smoking, D-dimer, white blood cell count, hemoglobin, hematocrit, neutrophil count, MCV, RDW, MPV, leucocyte count and platelet count), it was found that just MPV and D-dimer showed significance in a binary logistical regression model (7.497, 95% CI (6.712 to 10.325), p=0.012; 1.070, 95% CI 1.019-1.124,p=0.0069, respectively ).
The ROC curve analysis of MPV when predicting APE in patients with clinically suspected APE (pain/suddenonset dyspnea in the past week) were constructed and the areas under the curve was found to be 0.634 (95% CI 0.596 to 0.702, p=0.023; figure 3).

Discussion
This study clearly demonstrated that MPV was significantly higher in patients with APE in ED than in control subject.In addition, we showed that MPV was an independent predictor of APE.To the best of our knowledge, this the first study that evaluate the relationship between MPV and APE in ED.
Previous studies have shown that MPV is a marker of platelet function and is positively associated with indicators of platelet activity [5][6][7]9 . Reently, clearly known that increased MPV is shown more reactive platelets.We also known that increased in MPV is closely correlated with thrombosis and to reflect thrombosis burden in different condition and increase in MPV has been identified as an independent risk factor of recurrent vascular events [9][10][11]16 .Previous studies showed that there is the hypercoagulable/prothrombotic state in APE, which is also important in development of thrombosis 17 .Together with this, APE is a frequent and sometimes mortal complication of deep venous thrombosis, 50% of APE cases arise from thrombi in the deep venous system of the lower extremities 12 .With this aspect, the pathophysiologic relationship with APE and MPV is to be expected.

Limitation
The main limitation of our study was the small sample size.A small sample size can result in low statistical power for equivalency testing, leading to false-negative results.However, establishing a study group without comorbidities is difficult.Second, our study had a cross-sectional design.Future prospective much larger multicenter studies are required to confirm our results.
Because of the retrospective nature of data collection, echocardiographic parameters were not obtained concomitantly with blood sampling.Also, we were unable to evaluate some factors, such as hormone replacement therapy and some drugs, which have been effected to the MPV, because data on these variables were not collected.We had no exact information about the time of blood sampling in the ED.The heart rhythm and rate at the time of baseline blood sampling was not fully known.Together with it, we cannot apply our results for general population due to the broad exclusion criteria.

Conclusion
The present report is the first study evaluating the relationship between MPV and APE in ED.Consequently, the present study described that MPV is a helpful parameter for the diagnosis of APE in the emergency department, for the first time in literature.
African Health sciences Vol 14 No. 1 March 2014

Table 1 .
The results are presented as mean ± SD or frequency (percentage) as appropriate.A χ 2 tests or Fisher exact African Health sciences Vol 14 No. 1 March 2014 test, as appropriate, was used for the statistical analysis of categorical variables.Continuous variables were compared using by using the Student t test or Wilcoxon rank sum test as appropriate.One-way analysis of variance (ANOVA) with Fisher LSD comparisons was used to compare more than two parametric variables.The variables with univariate comparisons of p<0.05 between APE and control group were eligible for inclusion in an entry selection multiple logistic regression model, which identified the clinical factors in the ED that were potential predictors of APE.To determine the accuracy and respective best cut-off values of MPV for predicting APE, the receiver operating characteristic (ROC) curves and their corresponding areas under the curve were used.A p value of <0.05 was considered statistically significant.A common statistical package (SPSS 17.0 for Windows; SPSS, Chicago, Illinois, USA) was used to perform all statistical tests.The baseline characteristics of the patients.

Table 1 .
The demographic and clinical characteristics of the study patients

Table 2 .
The measured hematological parameters of both groups African Health sciences Vol 14 No. 1 March 2014In terms of the focus of the study, hemoglobin, neutrophil count, mean corpuscular volume (MCV), red cell distribution width (RDW), platelet, white blood cell (WBC), and lymphocyte counts were similar in both groups.MPV in the APE group was significantly higher than in the control group (9.42±1.22fl vs. 8.04±0.89fl,p<0.0001;figure2).The D-dimer levels of the patients were as follows: 4.98±9.6(median; 2.74 minimum; 1.01 maximum; 78.00) in APE group, 0.62±0.18(median; 0.29.minimum; 0.00 maximum; 0.96) in control group.Statistically significant difference has been observed between the groups (p<0.05).
20d magnetic resonance are used for the diagnosis of acute pulmonary embolism in emergency units20.These examination methods may not be performed in every center and they are expensive and time-consuming methods.The ideal diagnostic test should be accurate, safe, readily available, and costeffective and should have wide spread acceptance.MPV is a parameter easily calculated by automatic blood count equipment during routine blood counts in all ED services.However, most of time MPV is not generally taken into consideration by physicians.Here, we observed that MPV was significantly higher in patients with APE in ED than in control subject.Also, this study concluded that MPV was an independent predictor of APE.We hypothesis that all of these relation can be helpful in ED for the diagnosis of SVT.MPV may be used at higher levels for PE diagnosis algorithms.