Reference intervals are very important for clinical laboratory diagnosis and physiological evaluation. 1 The accuracy and applicability of such reference intervals directly affect the efficient diagnosis and treatment of the disease. Hematology is commonly used to assess health and disease states associated with blood disorders, infectious diseases, and the immune system. 2 However, suitable age-and sexspecific reference intervals of hematologic analytes of children are often lacking or incomplete. Children are not small adults, and consensus guidelines for adults may not apply to children. 3 Hematological reference intervals are affected by many factors such as the location of the population, economic background, lifestyle habits, and dietary structure. While it is inappropriate to randomly use the reference intervals established in other countries, there are no standard pediatric reference intervals for China. Therefore, it is necessary to establish a hematological reference range for Chinese children. The purpose of this study was to establish the age-and Abstract Introduction: Reference intervals for pediatric laboratory tests need to be interpreted in the context of age-and sex-dependent dynamics. However, few reference intervals for healthy ethnic Han Chinese children have previously attempted to establish using large sample sizes. As such, there are no national hematological standards in China for pediatric reference intervals.
Methods:We used a direct method to enroll a total of 2164 healthy 1-to 7-year-old children from Henan province. Hematological reference intervals were established by analyzing venous blood sample data on 17 hematologic analytes. The reference values for different ages and sexes were estimated using both parametric methods (mean ± 2 SD) and nonparametric methods (2.5-97.5th percentiles).
Results:We provided reference intervals for 17 hematologic analytes including red blood count, hemoglobin concentration, hematocrit, mean corpuscular volume, mean corpuscular hemoglobin, mean corpuscular hemoglobin concentration, and red cell distribution width, white blood count and differential count as well as platelet count and related parameters.
Conclusion:We established age-and sex-specific reference intervals that can provide more evidence-based guidance for the diagnosis and treatment for pediatric diseases. Our findings provide the basis for the next step in establishing national blood testing standards.
K E Y W O R D Schildren, hematologic analytes, reference interval, venous blood
Aims Physiological changes that occur during pregnancy can influence biochemical parameters. Therefore, using reference intervals based on specimens from non-pregnant women to interpret laboratory results during pregnancy may be inappropriate. This study aimed to establish the essential reference intervals for a range of analytes during pregnancy. Methods A cross-sectional study was performed in 13,656 healthy pregnant and 2634 non-pregnant women. Fifteen biochemical measurands relating to renal and hepatic function were analysed using an Olympus AU5400 analyzer (Olympus, Tokyo, Japan). All the laboratory results were checked for outliers using Dixon's test. Reference intervals were established using a non-parametric method. Results Alanine aminotransferase, aspartate aminotransferase, albumin, cholinesterase, creatinine, direct bilirubin, gamma-glutamyl transpeptidase, total bilirubin, total bile acid and total protein showed a decrease during the whole gestational period, while alkaline phosphatase and uric acid increased. Urea nitrogen, β-microglobulin and cystatin-C fell significantly during the first trimester and then remained relatively stable until third trimester. Reference intervals of all the measurands during normal pregnancy have been established. Conclusions The reference intervals established here can be adopted in other clinical laboratories after appropriate validation. We verified the importance, for some measurands, of partitioning by gestational age when establishing reference intervals during pregnancy.
Several studies have explored the relationship among traditional semen parameters, sperm DNA fragmentation (SDF), and unexplained recurrent miscarriage (RM); however, the findings remain controversial. Hence, we conducted a meta-analysis to explore the relationship among traditional semen parameters, SDF, and unexplained RM. Multiple databases, including PubMed, Google Scholar, MEDLINE, Embase, Cochrane Library, Web of Science, and China National Knowledge Infrastructure (CNKI), were searched to identify relevant publications. From the eligible publications, data were extracted independently by two researchers. A total of 280 publications were identified using the search strategy. According to the inclusion/exclusion criteria, 19 publications were eligible. A total of 1182 couples with unexplained RM and 1231 couples without RM were included in this meta-analysis to assess the relationship among traditional semen parameters, SDF, and unexplained RM. Our results showed that couples with unexplained RM had significantly increased levels of SDF and significantly decreased levels of total motility and progressive motility compared with couples without RM, although significant differences were not observed in the semen volume, sperm concentration, and total sperm count between couples with and without RM. The SDF assay may be considered for inclusion in evaluations of couples with unexplained RM.
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