11 research outputs found
Unadjusted and Adjusted Association Between 25-Hydroxyvitamin D (per 10 nmol/L increase) and Non-Fasting Serum Lipids (mg/dL) Among Children 1 to 5 Years of Age in TARGet Kids!, 2008–2011.
<p><sup>a</sup>Adjusted for age, sex, season, vitamin D supplementation, daily volume of cow’s milk intake, daily minutes of outdoor play, daily minutes of screen time, zBMI, and skin pigmentation.</p><p><sup>b</sup>P-values for secondary objectives adjusted for multiple testing using a false discovery rate controlling procedure correction. Statistical significance is defined as an adjusted P-value <0.05.</p><p><sup>c</sup>Triglyceride values were log transformed for analysis and back transformed results are presented.</p><p>Unadjusted and Adjusted Association Between 25-Hydroxyvitamin D (per 10 nmol/L increase) and Non-Fasting Serum Lipids (mg/dL) Among Children 1 to 5 Years of Age in TARGet Kids!, 2008–2011.</p
Adjusted Association Between 25-Hydroxyvitamin D (per 10 nmol/L increase) and Non-HDL (mg/dL) Among Children 1 to 5 Years of Age in TARGet Kids!, 2008–2011.
<p><sup>a</sup>To convert from mg/dL to SI units divide the results for non-HDL, Total Cholesterol, LDL and HDL by 38.6, and divide by 88.6 for triglycerides.</p><p>Adjusted Association Between 25-Hydroxyvitamin D (per 10 nmol/L increase) and Non-HDL (mg/dL) Among Children 1 to 5 Years of Age in TARGet Kids!, 2008–2011.</p
Composite analysis of wind patterns for months with high and low Kawasaki disease (KD) occurrences.
<p>Time series of standardized monthly number of KD cases, with months (May-October in grey) and anomalously high and low occurrences of new KD cases highlighted in red and blue, respectively (A). Wind speed (color, units [m/s]) and direction (arrows) during months with high KD occurrences (B), low KD occurrences (D) and difference between months with high and low KD occurrences (C) centered over the Pacific Ocean.</p
Habitual environmental exposures in children with Kawasaki disease (KD).
<p>Habitual environmental exposures in children with Kawasaki disease (KD).</p
Composite analysis of wind patterns for months with high and low Kawasaki disease (KD) occurrences.
<p>Time series of standardized monthly number of KD cases, with months (May-October in grey) and anomalously high and low occurrences of new KD cases highlighted in red and blue, respectively (A). Wind speed (color, units [m/s]) and direction (arrows) during months with high KD occurrences (B), low KD occurrences (D) and difference between months with high and low KD occurrences (C) centered over the Pacific Ocean.</p
Distribution of ethnicity/origin across controls and patients with Kawasaki disease (KD).
<p>Distribution of ethnicity/origin across controls and patients with Kawasaki disease (KD).</p
Conceptual framework for individual risk of developing Kawasaki disease (KD) linking disease etiology, pathogenesis and global distribution.
<p>Conceptual framework for individual risk of developing Kawasaki disease (KD) linking disease etiology, pathogenesis and global distribution.</p
Time series (5-day moving averages) and cross-correlation of new cases of Kawasaki disease (KD) vs. count of biological atmospheric particles for lag-times of 0 to 25 days for spores and fungi (ascomycetes, basidiomycetes and fungi imperfecti separately).
<p>Upward triangles indicate maximum and downward triangles minimum cross-correlations. The difference between lowest and peak correlation was statistically significant only for ascomycetes but the overall patterns was conserved for all types.</p
Questionnaire elements for case-control study.
<p>Questionnaire elements for case-control study.</p
Factors associated with global distribution of Kawasaki disease (KD) (model R<sup>2</sup>: 0.84, p<0.001).
<p>Factors associated with global distribution of Kawasaki disease (KD) (model R<sup>2</sup>: 0.84, p<0.001).</p