Immature platelet fraction in children infected with dengue fever

Background: Millions are infected with dengue every year.' Early diagnosis of dengue infection is important for proper treatment of DHF and DSS to avoid fatal outcome. Thrombocytopenia is a common hematological abnormality in dengue, which demands platelet transfusion in most of the severe dengue cases. Platelet transfusion though life-saving has its own hazards. Hence, we can use some new parameter like immature platelet fraction (IPF) which is a measure of reticulated platelets that reflects the rate of thrombopoiesis. The risk of platelet transfusion may be decreased by rapid identification of immature platelet fraction. This study was performed to establish reference of IPF values for the assessment of thrombopoiesis.Methods: Blood samples from 150 children were obtained on day of illness 3, 5 and 7. The IPF is identified by sysmex XE2100 hematology analyser in the reticulocyte channel using a fluorescent dye and a carefully designed gating system and counted by a special software termed IPF master7. IPF values against platelet count were assessed separately on day 3, 5 and 7.Results: The reference intervals of IPF > 8 % and IPF < 8 % were assessed against platelet count. Increase in IPF favored increase in platelet count on day 5 which was statistically significant with the p value <0.001.Conclusions: A rapid and inexpensive automated measurement of IPF can be integrated as a standard parameter to evaluate the thrombopoietic state of the bone marrow. From the study it can be concluded that IPF is an important predictor of increase in platelet count.' Increase in IPF>8 % suggests that platelet count will be increased in next 24 to 48hrs indicating that further blood transfusion will not be required.

Relationship between immature platelet fraction and platelet count among Pediatric patients with Dengue Fever: A prospective cross-sectional study

Background and Objectives@#Immature platelet fraction (IPF) is a new hematologic parameter that reflects the rate of thrombopoiesis. It has been suggested to be a predictor of platelet recovery in patients with thrombocytopenia. This study aimed to determine the relationship between IPF and platelet count among pediatric patients with thrombocytopenia due to dengue fever.@*Methods@#This was a prospective cross-sectional study of 77 thrombocytopenic pediatric dengue fever patients. IPF was included in the daily complete blood count extraction. Baseline and daily IPF, platelet count, hematocrit, white blood cell count and presence of fever were recorded according to day of illness. The pattern of IPF in relation to the pattern of platelet count was analyzed. The proportion of patients showing platelet recovery at different time points was also determined. A receiver operating characteristic analysis was done to determine an IPF cut-off value predictive of platelet recovery within 24 hours.@*Results@#The IPF increased as the platelet count decreased. The highest increase in IPF coincided with the trough of platelet count. Eighty -seven percent of the patients showed platelet recovery after the increasing trend of IPF, 87% after the peak value and 95% after the decreasing trend. An IPF value of more than 6.6% was found to be predictive of platelet recovery within 24 hours, with a sensitivity of 45% and specificity of 70%.@*Conclusion@#There was an observed inverse relationship between IPF and platelet count but with a statistically weak correlation. The decreasing trend of IPF can be a possible good predictor of an increasing trend in platelet count. These findings suggest a possible role of IPF as an additional parameter to predict platelet recovery in pediatric dengue fever patients.

Association of the immature platelet fraction with sepsis diagnosis and severity / 中华急诊医学杂志

Objective To explore the relationship between immature platelet fraction(IPF) with severity of sepsis and prognosis in patients with septic shock.Methods A total of 40 patients admitted to intensive care units of Tianjin First Central Hospital from June 2016 to June 2017 were enrolled.Of them,10 patients contracted non-sepsis infected,13 patietns with septic shock,and 17 patients with non-complicated sepsis.Ten healthy subjects were recruited as control groups from Tianjin Medical University.IPF and immature reticulocyte fraction (IRF) were detected,and SOFA and APACHE Ⅱ scores were calculated,and clinical findings of all groups were recorded.The differences in IPF and IRF between the groups were analyzed.The relationship between the IPF and SOFA score was studied,and the role of IPF in the diagnosis of septic shock was evaluated.Statistical methods include t test,MarmWhitney test,Spearman correlation analysis,and ROC procedure,and P＜0.05 was considered significant.Results Significantly higher IPF level was observed in patients with sepsis than that in patients with nonsepsis infection.(6.25 + 2.92) vs.(2.49 ± 1.03),P＜0.01.Significantly higher IPF level was observed in patients with septic shock than that in patients with non-complicated sepsis(4.71 ± 1.79) vs.(8.25 ± 2.94),P＜0.01.IPF correlated with sepsis severity scores (7.41 ± 3.51) vs.(4.5 ± 1.7),P=0.005;r=0.58,P=0.001.This study presented the highest diagnostic accuracy for the presence of sepsis by all studied clinical and laboratory parameters (AUC=0.78,P=0.01).Conclusion IPF levels could be used as a biomarker for diagnosis and severity of sepsis.

Determination of reference ranges for immature platelet and reticulocyte fractions and reticulocyte hemoglobin equivalent

ABSTRACT Introduction: The immature platelet and immature reticulocyte fractions represent the ratios of platelets and reticulocytes recently released into the circulation and thus with higher RNA content. They are considered early indicators of bone marrow recovery. Objective: The aim of this study was to determine the reference ranges for the immature platelet and reticulocyte fractions of hematologically normal individuals in a university hospital. Methods: Venous blood samples collected in ethylenediaminetetraacetic acid K3 were analyzed using a Sysmex XE-5000™ analyzer. Individuals with platelet and reticulocyte counts within the reference ranges, and a blood count within the laboratory's screening criteria were included. Individuals with clinical conditions that could affect hematological results were excluded. The immature platelet fraction, high, medium and low fluorescence reticulocyte fractions and reticulocyte hemoglobin equivalent were evaluated. The reference ranges were determined according to the recommendations of the International Federation of Clinical Chemistry. Results: One hundred and thirty-two outpatients were evaluated. The mean age was 44 years (range: 13-80 years), 72 (54.5%) were women treated in a university hospital. The mean platelet count was 250.8 × 109/L and the mean reticulocyte count was 0.052 × 109/L. The following reference ranges were obtained: immature reticulocyte fraction 1.6-12.1%, the high, medium and low fluorescence reticulocyte fractions were 0.0-1.7%, 1.6-11.0% and 87.9-98.4%, respectively, the reticulocyte hemoglobin equivalent was 30.0-37.6% and immature platelet fraction was 0.8-5.6%. There was a statistically significant difference (p-value = 0.006) between genders in respect to the immature platelet fraction with 0.8-4.7% for females and 0.7-6.1% for males. The immature reticulocyte fraction was directly correlated with the reticulocyte count. Conclusion: Determining the reference range is critical to the introduction of a new parameter. The reference ranges obtained herein corroborate those reported in previous publications and will contribute to the clinical and laboratory application of the indices.

Immature Platelet Fraction in Septic Patients: Clinical Relevance of Immature Platelet Fraction is Limited to the Sensitive and Accurate Discrimination of Septic Patients From Non-Septic Patients, Not to the Discrimination of Sepsis Severity

BACKGROUND: The immature platelet fraction (IPF) reflects the degree of reticulated platelets. We evaluated performances of IPF as a biomarker for the discrimination of septic patients from non-septic patients and sepsis severity. METHODS: Total 312 patients admitted between March and July 2013 were enrolled and samples were obtained at admission. Lactate (LA), procalcitonin (PCT), C-reactive protein (CRP), immature granulocyte fraction (IG), immature reticulocyte fraction (IRF), and IPF were analyzed as sepsis biomarkers and their performances were compared. RESULTS: The performance of IPF (area under the curve [AUC]=0.868) in the discrimination of septic patients from non-septic patients was comparable to PCT/CRP/LA/IG (AUC=0.923/0.940/0.781/0.812, P=0.233/0.106/0.186/0.353, respectively), and was significantly better than the IRF (AUC=0.658, P=0.007). Sensitivity (89.8%, 95% confidence interval [CI] 84.9-99.8%) and accuracy (83.2%, 95% CI 78.8-90.0%) of IPF were the best among all biomarkers. The performance of IPF in discriminating septic patients from non-septic patients with local infection showed similar results. However, the IPF could not efficiently discriminate sepsis severity (AUC=0.599), similar to other biomarkers (AUC=0.519-0.752). CONCLUSIONS: The IPF possessed high sensitivity/accuracy in discriminating septic patients from non-septic patients, regardless of local infection status. However, the IPF did not efficiently discriminate sepsis severity. The clinical relevance of IPF as a sepsis biomarker is, therefore, limited to sensitive and accurate discrimination of septic patients from non-septic patients, not discrimination of sepsis severity.

Establishing biological reference intervals for novel platelet parameters (immature platelet fraction, high immature platelet fraction, platelet distribution width, platelet large cell ratio, platelet-X, plateletcrit, and platelet distribution width) and their correlations among each other.

Aims: This study aims to establish biological reference interval for novel platelet parameters. Settings and Design: A total of 945 healthy individuals, age ranges from 18 to 64 years (881 males and 64 females) coming for voluntary blood donation from June to August 2012 (3 months) were enrolled after exclusion of rejection criteria. Materials and Methods: The samples were assayed by running in complete blood count + reticulocyte mode on the Sysmex XE-2100 hematology analyzer and the reference interval for the population was calculated using Clinical and Laboratory Standards Institute guidelines. Statistical analysis used: Tests were performed using SPSS (Statistical Product and Service Solutions , developed by IBM corporation), version 13. Student t test and pearsons correlation analysis were also used. Results: The normal range for various parameters was platelet count: 150-520 × 103/cu mm, immature platelet fraction (IPF): 0.3-8.7%, platelet distribution width (PDW): 8.3-25.0 fL, mean platelet volume (MPV): 8.6-15.5 fL, plateletcrit (PCT): 0.15-0.62%, high immature platelet fraction (H-IPF): 0.1-2.7%, platelet large cell ratio (P-LCR): 11.9-66.9% and platelet-X (PLT-X) (ch): 11.0-22.0. Negative correlation was observed between platelet count (r = −0.468 to r = −0.531; P < 0.001) and PCT (r = −0.080 to r = −0.235; P < 0.05 to P < 0.001) with IPF, PDW, MPV, H-IPF, P-LCR, and platelet-X. IPF/H-IPF showed a positive correlation among them and also with PDW, MPV, P-LCR, platelet-X (r = +0.662 to r = +0.925; P < 0.001). Conclusions: These novel platelet parameters offer newer avenues in research and clinical use. Establishing biological reference interval for different platelet parameters would help determine true high and low values and help guide treatment decisions.

Immature Platelet Fraction: Establishment of a Reference Interval and Diagnostic Measure for Thrombocytopenia / 대한진단검사의학회지

BACKGROUND: Immature platelet fraction (IPF, %) is a measure of reticulated platelets (RPs), which represents the state of thrombopoiesis. The IPF is obtained from an automated hematology analyzer as one of the platelet parameters. This study was performed to establish reference intervals of IPF and its cut-off values for the differential diagnosis of thrombocytopenia. METHODS: Blood samples from 2,039 healthy individuals (1,161 males, 878 females) were obtained to establish reference intervals. The patient group included patients with idiopathic thrombocytopenic purpura (ITP) (N=150) and aplastic anemia (AA) (N=51) with platelet counts of less than 100x10(9)/L. We evaluated the reliability of the IPF measurements, the reference intervals, and cut-off value for the diagnosis of ITP. RESULTS: The reference intervals of IPF were 0.5-3.2% in males and 0.4-3.0% in females (95% confidence interval). The median IPF% of ITP and AA were 7.7% (range, 1.0-33.8%) and 3.5% (range, 0.6-12.9%), respectively. Statistical analysis revealed a significant difference between the IPF% of ITP and AA (P<0.0001). The cut-off value of IPF for differentiating ITP from AA was 7.3% with a sensitivity and specificity of 54.0% and 92.2%, respectively. CONCLUSIONS: A rapid and inexpensive automated measurement of IPF can be integrated as a standard parameter to evaluate the thrombopoietic state of the bone marrow. This study determined the reference intervals of IPF from a large population of healthy individuals, including children. Further studies are needed to establish the clinical utility of IPF.

Clinical Usefulness of the Simple Technique to Diagnose Thrombocytopenia Using Immature Platelet Fraction / 대한진단검사의학회지

BACKGROUND: Immature platelet fraction (IPF) is the percentage of reticulated platelet (RP) of total platelet count. We measured an IPF reference range using XE-2100 blood cell counter with upgraded software (Sysmex, Japan) and evaluated the clinical utility of this parameter for the laboratory diagnosis of thrombocytopenia due to an increase in peripheral platelet destruction. METHODS: Peripheral blood samples collected into K2 EDTA (Beckton Dickinson, USA) were analyzed at Chonbuk National University Hospital. One hundred forty-two samples from apparently healthy adults (all routine full blood count parameters including platelets within the healthy reference range) were used to establish a normal reference range for IPF. The patients were classified into 3 groups including hypoplastic (consisted of 22 patients undergoing chemotherapy with falling platelet counts and 14 with aplastic anemia), cirrhotic (40 with cirrhosis of liver), and idiopathic thrombocytopenic purpura (ITP) (14 with ITP) groups. RESULTS: An IPF reference range in healthy individuals was established as 0.4-5.4%, with a mean of 1.7%. A significant increase in IPF values was found in the ITP patient group. The cut-off value of IPF was 6.1% and its sensitivity and specificity were 92.9%, and 82.9% respectively. Reproducibility was good. CONCLUSIONS: A rapid, inexpensive automated method for measuring IPF is feasible and should become a standard parameter in evaluating thrombocytopenic patients.

Comparison of an Immature Platelet Fraction and Reticulated Platelet in Liver Cirrhosis / 대한진단검사의학회지

BACKGROUND: The main causes of thrombocytopenia in cirrhosis are thought to be platelet destruction and the reduction of thrombopoietin (TPO) expression in the liver. Immature platelet fraction (IPF) has been measured by a fully automated analyzer (Sysmex XE-2100, Japan) as reticulated platelet (RP), which is reflected with thrombopoiesis in bone marrow. In this study, we tried to compare the percentage of IPF (IPF) with that of RP (RP) in patients with liver cirrhosis (LC) and controls. METHODS: We compared IPF to RP in 72 liver cirrhosis patients and 30 healthy normal controls. RP was stained with acridine orange, followed by FC500 (Beckman Coulter, USA) analysis and the IPF was identified by flow cytometry with the use of a nucleic acid specific dye in the reticulocyte channel on the Sysmex XE-2100 (TOA Medical Electronics Co., Ltd., Japan). RESULTS: IPF value in the healthy control was 2.2% (1.7-5.2). RP and IPF were significantly higher in the patients with liver cirrhosis (P<0.05). IPF appeared to be correlated with RP (y=0.19x+3.35, r=0.34, P<0.05). In ROC for diagnosis of LC, IPF was significantly more useful than RP. CONCLUSIONS: This results show that a rapid, inexpensive automated method for measuring the IPF is feasible and should become a standard parameter in evaluating reticulated platelets.

Evaluation of Immature Platelet Fraction as a Marker of Platelet Recovery in Prophylactic Platelet Transfusion / 대한수혈학회지

BACKGROUND: It has been known that the increase of reticulated platelets indicates the increase of thrombopoiesis in platelet consumptive diseases or the impending platelet recovery in patients with thrombocytopenic conditions. A new rapid automated method to assess reticulated platelets, the immature platelet fraction (IPF), was recently introduced. We evaluated the usefulness of the IPF for the prediction of platelet recovery in patients after hematopoietic stem cell transplantation (HSCT) and cytotoxic chemotherapy. METHODS: Thirty one healthy volunteers and 59 patients formed 3 groups: the allogenic HSCT group (n=23, an ABO major-mismatch 6 of 23), the autologous HSCT group (n=8) and the cytotoxic chemotherapy group (n=28). The platelet count, % of IPF and the % of reticulocytes were checked every day by using a Sysmex XE-2100. RESULTS: The IPF in the healthy volunteers was a mean of 2.2+/-1.6% (range: 0.3~6.7%), and the maximum level of the IPF in the patient group was 6.1+/-1.7% (range: 3.3~13.5%). The ideal cut-off value of the IPF increase to discriminate the platelet recovery group was 5.1%. When this cut-off value is used, the positive predictive value is 90.9% in the HSCT groups and 87.5% for the total patients. The 4 patients who showed an IPF higher than 5.1% without platelet recovery were in platelet consumptive conditions. It took 8.0+/-8.3 days to show platelet recovery after elevation of the IPF over 5.1% and an ABO major mismatch HSCT doesnt affect platelet recovery. CONCLUSION: The IPF is thought to be a useful parameter for the prediction of platelet recovery after HSCT and cytotoxic chemotherapy, but the problem of the patient' conditions affects the accuracy of the IPF, and the variable intervals between the increase of the IPF and platelet recovery is thought to be improved.