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Dietary patterns and cardiovascular risk factors in adolescents and young adults: the Northern Ireland Young Hearts Project – CORRIGENDUM

Published online by Cambridge University Press:  18 January 2016

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Abstract

Type
Corrigendum
Copyright
Copyright © The Authors 2016 

doi:10.1017/S0007114514002682, Published by Cambridge University Press, September 2014.

The blood pressure data that was reported was incorrect. Revised tables of data are below.

In the abstract, the fifth sentence describing the results (page 1685) should be: In the a posteriori DP analysis, YH3 participants adhering most closely to the ‘healthy’ DP were found to have lower pulse wave velocity (PWV) and homocysteine concentrations, the ‘sweet tooth’ DP were found to have increased LDL concentrations and decreased HDL concentrations, the ‘drinker/social’ DP were found to have lower LDL and homocysteine concentrations, but exhibited a trend towards a higher TAG concentration, and finally the ‘Western’ DP were found to have elevated homocysteine and HDL concentrations.

In the first paragraph of the Results section (page 1688), sentence 5 should be: SBP and DBP increased significantly from YH1 to YH3 (P<0·001) for males, but decreased significantly from YH1 to YH3 (P<0·05 and P<0·001 respectively) for females.

In the fourth paragraph of the Results section (page 1691), sentences 5 and 6 should be: A high Western dietary pattern score was positively associated with HDL-cholesterol concentrations and homocysteine concentrations in fully adjusted analyses. The fourth and final PCA-derived dietary pattern, sweet tooth, was positively associated with LDL concentrations and inversely associated with HDL concentrations.

The authors apologise for this error.

Table 1 General health and lifestyle characteristics and dietary intake in males and females who participated in Young Hearts (YH)1 and YH3 (Mean values and standard deviations)

SBP, systolic blood pressure; DBP, diastolic blood pressure; MDS, Mediterranean Diet Score.

* For each sex, differences between variables measure at YH1 and YH3 were assessed using paired sample t-tests and categorical data were assessed by McNemar’s test.

Table 3 CVD risk factors for the five groups of four food patterns determined by a posteriori principal component analysis related to men and women participating in the Young Hearts (YH) 3 (Mean values and standard deviations; adjusted mean values and 95 % confidence intervals)

SBP, systolic blood pressure; DBP, diastolic blood pressure; PWV, pulse wave velocity; HOMA, homeostatic model assessment.

* Data analysed using linear regression (unadjusted, adjusted and further adjusted as described with CVD risk factors as the outcome and dietary patterns in quintiles as a continuous variable.)

Fully adjusted for age (years), sex, BMI (kg/m2), social status, physical activity, smoking status and energy (kJ).

Table 4 CVD risk factors for the three groups using the Mediterranean Diet Score (MDS) in men and women participating in Young Hearts YH 3 (Mean values and standard deviations; adjusted mean values and 95 % confidence intervals)

SBP, systolic blood pressure; DBP, diastolic blood pressure; PWV, pulse wave velocity; HOMA, homeostatic model assessment.

* Data were analysed using linear regression (unadjusted, adjusted and further adjusted as described with CVD risk factors as the outcome and dietary patterns in tertiles as a continuous variable).

Fully adjusted for age (years), sex, BMI (kg/m2), social status, physical activity, smoking status and energy (kJ).

Table 5 Change in Mediterranean Diet Score (MDS) from Young Hearts (YH) 1 to YH3 and CVD risk biomarkers at young adulthood (YH3) (Mean values and standard deviations; adjusted mean values and 95 % confidence intervals)

SBP, systolic blood pressure; DBP, diastolic blood pressure; PWV, pulse wave velocity; HOMA, homeostatic model assessment.

* Data analysed using multivariable regression analysis (unadjusted, adjusted and further adjusted as described.

Fully adjusted for age (years), sex, BMI (kg/m2), social status, physical activity, smoking status and energy (kJ).

Table 6 Change in the Mediterranean Diet Score (MDS) from Young Hearts (YH) 1 to YH3 and changes in CVD risk biomarkers from YH1 to YH3 (Mean values and standard deviations)

SBP, systolic blood pressure; DBP, diastolic blood pressure.

* Data analysed using multivariable regression analysis (unadjusted, adjusted and further adjusted as described).

Change calculated as YH3 values minus YH1 values.

References

1. Hannah J., McCourt, Claire R., Draffin, Jayne V., Woodside, et al. (2014) Dietary patterns and cardiovascular risk factors in adolescents and young adults: the Northern Ireland Young Hearts Project. Br J Nutr 112, 16851698.Google Scholar
Figure 0

Table 1 General health and lifestyle characteristics and dietary intake in males and females who participated in Young Hearts (YH)1 and YH3 (Mean values and standard deviations)

Figure 1

Table 3 CVD risk factors for the five groups of four food patterns determined by a posteriori principal component analysis related to men and women participating in the Young Hearts (YH) 3 (Mean values and standard deviations; adjusted mean values and 95 % confidence intervals)

Figure 2

Table 4 CVD risk factors for the three groups using the Mediterranean Diet Score (MDS) in men and women participating in Young Hearts YH 3 (Mean values and standard deviations; adjusted mean values and 95 % confidence intervals)

Figure 3

Table 5 Change in Mediterranean Diet Score (MDS) from Young Hearts (YH) 1 to YH3 and CVD risk biomarkers at young adulthood (YH3) (Mean values and standard deviations; adjusted mean values and 95 % confidence intervals)

Figure 4

Table 6 Change in the Mediterranean Diet Score (MDS) from Young Hearts (YH) 1 to YH3 and changes in CVD risk biomarkers from YH1 to YH3 (Mean values and standard deviations)