ABSTRACT
OBJECTIVE: Our purpose is to determine the optimal cutoff value for the TDx-FLM assay for predicting fetal lung maturity and its clinical efficiency. METHODS: We reviewed records of 81 pregnant women (117 fetuses), who had TDx-FLM assay performed from 1996 through 2000 at Ajou University Hospital. All were delivered between 28 and 37 weeks' gestation. Women treated with steroids after fetal lung maturity test were excluded in this study. In neonatal respiratory outcomes, result of fetal lung maturity was defined as neonates who were not affected by respiratory distress syndrome (RDS). All neonates were divided into mature and immature group according to their respiratory outcomes and clinical characteristics of both groups were evaluated. The predictive values for maturity and immaturity were calculated as previously defined. RESULTS: Among 117 newborns, RDS developed in 8 cases (immature group), and 109 cases were unaffected (mature group). In mature and immature group, mean gestational age was 35.0 weeks and 33.1 weeks (p=0.038), mean fetal birth weight 2313.4 gm and 2036.3 gm respectively (p=0.279). Preterm deliveries were due to preterm labor (32.1% vs 25.0%, p=0.676), premature rupture of membranes (11.9% vs 12.5% p=0.962), preeclamsia (17.4% vs 37.5%, p=0.384), intrauterine growth restriction (11.0% vs 0%, p=0.211), discordant twin (16.5% vs 0%, p=0.212) and other maternal complications (35.8% vs 37.5%, p=0.922) And also, frequencies of twin were 0% vs 64.2% (por=24.7 mg/g which gave a sensitivity 93.6%, specificity 87.5%, positive predictive value (PPV) 99.0%, negative predictive value (NPV) 50.0% and efficiency 93.1. CONCLUSION: The best cutoff value of TDx-FLM levels for assessment of fetal lung maturation was 24.7 mg/g in our study group.
Subject(s)
Female , Humans , Infant, Newborn , Pregnancy , Birth Weight , Diabetes, Gestational , Gestational Age , Lung , Membranes , Obstetric Labor, Premature , Pregnant Women , Rupture , Sensitivity and Specificity , SteroidsABSTRACT
OBJECTIVE: Our purpose is to determine the optimal cutoff value for the TDx-FLM assay for predicting fetal lung maturity and its clinical efficiency. METHODS: We reviewed records of 81 pregnant women (117 fetuses), who had TDx-FLM assay performed from 1996 through 2000 at Ajou University Hospital. All were delivered between 28 and 37 weeks' gestation. Women treated with steroids after fetal lung maturity test were excluded in this study. In neonatal respiratory outcomes, result of fetal lung maturity was defined as neonates who were not affected by respiratory distress syndrome (RDS). All neonates were divided into mature and immature group according to their respiratory outcomes and clinical characteristics of both groups were evaluated. The predictive values for maturity and immaturity were calculated as previously defined. RESULTS: Among 117 newborns, RDS developed in 8 cases (immature group), and 109 cases were unaffected (mature group). In mature and immature group, mean gestational age was 35.0 weeks and 33.1 weeks (p=0.038), mean fetal birth weight 2313.4 gm and 2036.3 gm respectively (p=0.279). Preterm deliveries were due to preterm labor (32.1% vs 25.0%, p=0.676), premature rupture of membranes (11.9% vs 12.5% p=0.962), preeclamsia (17.4% vs 37.5%, p=0.384), intrauterine growth restriction (11.0% vs 0%, p=0.211), discordant twin (16.5% vs 0%, p=0.212) and other maternal complications (35.8% vs 37.5%, p=0.922) And also, frequencies of twin were 0% vs 64.2% (por=24.7 mg/g which gave a sensitivity 93.6%, specificity 87.5%, positive predictive value (PPV) 99.0%, negative predictive value (NPV) 50.0% and efficiency 93.1. CONCLUSION: The best cutoff value of TDx-FLM levels for assessment of fetal lung maturation was 24.7 mg/g in our study group.
Subject(s)
Female , Humans , Infant, Newborn , Pregnancy , Birth Weight , Diabetes, Gestational , Gestational Age , Lung , Membranes , Obstetric Labor, Premature , Pregnant Women , Rupture , Sensitivity and Specificity , SteroidsABSTRACT
OBJECTIVE: The TDX analyzer, an automated fluorescence polarimeter, has been utilized to assess surfactant content in amniotic fluid. Amniostat-FLM is an immunologic semiquantitative agglutination test for determining the presence of phosphatidylglycerol in human amniotic fluid at concentration indicative of fetal lung maturity. We evaluated the usefulness of the recently introduced TDx-FLM assay in determining fetal lung maturity. METHODS: Seventy-three samples of amniotic fluid were analyzed. Among them, 18 samples were compared with Amniostat-FLM assay. RESULTS: Surfactant/albumin ratio using TDx-FLM assay increased with longer gestational age. And the concordance rate between Amniostat-FLM assay and TDx-FLM assay was 66.9%. CONCLUSION: The TDx-FLM assay appears to be a useful test in the field of fetal lung maturity testing.
Subject(s)
Female , Humans , Agglutination Tests , Amniotic Fluid , Fluorescence , Gestational Age , LungABSTRACT
OBJECTIVE: The TDX analyzer, an automated fluorescence polarimeter, has been utilized to assess surfactant content in amniotic fluid. Amniostat-FLM is an immunologic semiquantitative agglutination test for determining the presence of phosphatidylglycerol in human amniotic fluid at concentration indicative of fetal lung maturity. We evaluated the usefulness of the recently introduced TDx-FLM assay in determining fetal lung maturity. METHODS: Seventy-three samples of amniotic fluid were analyzed. Among them, 18 samples were compared with Amniostat-FLM assay. RESULTS: Surfactant/albumin ratio using TDx-FLM assay increased with longer gestational age. And the concordance rate between Amniostat-FLM assay and TDx-FLM assay was 66.9%. CONCLUSION: The TDx-FLM assay appears to be a useful test in the field of fetal lung maturity testing.
Subject(s)
Female , Humans , Agglutination Tests , Amniotic Fluid , Fluorescence , Gestational Age , LungABSTRACT
OBJECTIVE: We studied to determine the effect of blood or meconium contamination on the TDx-FLM assay for the assessment of fetal lung maturity. We also studied to evaluate the degree of diluted contaminants that affect the results. METHODS: Nineteen samples of amnotic fluid-14 cases GA 37weeks-were collected and assayed for assessment of fetal lung maturity using tbe TDx-FLM assay. Among the above 19 samples, we used 12 samples-7 cases GA37 weeks-to contaminate with blood or meconium. Maternal blood was added to the amniotic fluid at increasing concentrations fro 1:10 to 1:1280. Diluted meconium (0.5g meconium/10ml amniotic fluid) was added at increasing concentration fiom 1:1 to 1:128. Each samples were assessed by TDx assay. RESULTS: TDx values in the cases of gestational age 37 weeks or more were matured level or borderline level(TDx value > 50mg/g), but below 37 weeks, TDx values wae immature level(TDx value < 50mg/g) except one case. In preterm cases, blood or meconium contamination did not affect the TDx values significantly, although the thick meamium contamination (diluted meconium: amniotic fluid 1:1 - 1:4) increased the TDx values. In term cases, they did not affect the TDx values. CONCLUSION: TDx test was suitable for the evaluation of fetal lung maturity regardless of blood or meconium contamination.