BACKGROUND: Determination of pediatric reference intervals (RIs) for laboratory quantities, including hematological quantities, is complex. The measured quantities vary by age, and obtaining samples from healthy children is difficult. Many widely used RIs are derived from small sample numbers and are split into arbitrary discrete age intervals. Use of intra-laboratory RIs specific to the examined population and analytical device used is not yet fully established. Indirect methods address these issues by deriving RIs from clinical laboratory databases which contain large datasets of both healthy and pathological samples. METHODS: A refined indirect approach was used to create continuous age-dependent RIs for blood count quantities and sodium from birth to adulthood. The dataset for each quantity consisted of 60,000 individual samples from our clinical laboratory. Patient samples were separated according to age, and a density function of the proportion of healthy samples was estimated for each age group. The resulting RIs were merged to obtain continuous RIs from birth to adulthood. RESULTS: The obtained RIs were compared to RIs generated by identical laboratory instruments, and to population-specific RIs created using conventional methods. This comparison showed a high concordance of reference limits and their age-dependent dynamics. CONCLUSIONS: The indirect approach reported here is well-suited to create continuous, intra-laboratory RIs from clinical laboratory databases and showed that the RIs generated are comparable to those created using established methods. The procedure can be transferred to other laboratory quantities and can be used as an alternative method for RI determination where conventional approaches are limited.
BACKGROUND: Determination of pediatric reference intervals (RIs) for laboratory quantities, including hematological quantities, is complex. The measured quantities vary by age, and obtaining samples from healthy children is difficult. Many widely used RIs are derived from small sample numbers and are split into arbitrary discrete age intervals. Use of intra-laboratory RIs specific to the examined population and analytical device used is not yet fully established. Indirect methods address these issues by deriving RIs from clinical laboratory databases which contain large datasets of both healthy and pathological samples. METHODS: A refined indirect approach was used to create continuous age-dependent RIs for blood count quantities and sodium from birth to adulthood. The dataset for each quantity consisted of 60,000 individual samples from our clinical laboratory. Patient samples were separated according to age, and a density function of the proportion of healthy samples was estimated for each age group. The resulting RIs were merged to obtain continuous RIs from birth to adulthood. RESULTS: The obtained RIs were compared to RIs generated by identical laboratory instruments, and to population-specific RIs created using conventional methods. This comparison showed a high concordance of reference limits and their age-dependent dynamics. CONCLUSIONS: The indirect approach reported here is well-suited to create continuous, intra-laboratory RIs from clinical laboratory databases and showed that the RIs generated are comparable to those created using established methods. The procedure can be transferred to other laboratory quantities and can be used as an alternative method for RI determination where conventional approaches are limited.
Authors: Vincent J Schmithorst; Jennifer Vannest; Gregory Lee; Luis Hernandez-Garcia; Elena Plante; Akila Rajagopal; Scott K Holland Journal: Hum Brain Mapp Date: 2014-08-19 Impact factor: 5.038
Authors: Christoph Königs; Stephan Schultze-Strasser; Andrea Quaiser; Konrad Bochennek; Dirk Schwabe; Thomas E Klingebiel; Ulrike Koehl; Claudia Cappel; Udo Rolle; Peter Bader; Melanie Bremm; Sabine Huenecke; Shahrzad Bakhtiar Journal: Front Pediatr Date: 2018-05-04 Impact factor: 3.418
Authors: Ruohua Yan; Kun Li; Yaqi Lv; Yaguang Peng; Nicholas Van Halm-Lutterodt; Wenqi Song; Xiaoxia Peng; Xin Ni Journal: BMC Med Res Methodol Date: 2022-04-10 Impact factor: 4.615