Differences in the Haematological Profile of Healthy 70 Year Old Men and Women: Normal Ranges with Confirmatory Factor Analysis

Overview

Journal BMC Blood Disord

Publisher Biomed Central

Specialty Hematology

Date 2010 Jun 15

PMID 20540715

Citations 5

Authors

Rowan McIlhagger

Alan J Gow

Caroline E Brett

Janie Corley

Michelle Taylor

Ian J Deary

John M Starr

Affiliations

Soon will be listed here.

Abstract

Background: Reference ranges are available for different blood cell counts. These ranges treat each cell type independently and do not consider possible correlations between cell types.

Methods: Participants were identified from the Community Health Index as survivors of the 1947 Scottish Mental Survey, all born in 1936, who were resident in Lothian (potential n = 3,810) and invited to participate in the study. Those who consented were invited to attend a Clinical Research Facility where, amongst other assessments, blood was taken for full blood count. First we described cell count data and bivariate correlations. Next we performed principal components analysis to identify common factors. Finally we performed confirmatory factor analysis to evaluate suitable models explaining relationships between cell counts in men and women.

Results: We examined blood cell counts in 1027 community-resident people with mean age 69.5 (range 67.6-71.3) years. We determined normal ranges for each cell type using Q-Q plots which showed that these ranges were significantly different between men and women for all cell types except basophils. We identified three principal components explaining around 60% of total variance of cell counts. Varimax rotation indicated that these could be considered as erythropoietic, leukopoietic and thrombopoietic factors. We showed that these factors were distinct for men and women by confirmatory factor analysis: in men neutrophil count was part of a 'thrombopoietic' trait whereas for women it was part of a 'leukopoietic' trait.

Conclusions: First, normal ranges for haematological indices should be sex-specific; at present this only pertains to those associated with erythrocytes. Second, differences between individuals across a range of blood cell counts can be explained to a considerable extent by three major components, but these components are not the same in men and women.

Citing Articles

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DNA methylation and the epigenetic clock in relation to physical frailty in older people: the Lothian Birth Cohort 1936.

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The epigenetic clock is correlated with physical and cognitive fitness in the Lothian Birth Cohort 1936.

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