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Vitamin D levels should often be adjusted for season (Cosinor) – Nov 2015

There are THREE studies on this page

Cosinor modelling of seasonal variation in 25-hydroxyvitamin D concentrations in cardiovascular patients in Norway

European Journal of Clinical Nutrition advance online publication 25 November 2015; doi: 10.1038/ejcn.2015.200
E Degerud1, R Hoff2, O Nygård3,4, E Strand3, D W Nilsen3,5, J E Nordrehaug3,4, Ø Midttun6, P M Ueland3,7, S de Vogel8 and J Dierkes1
1Department of Clinical Medicine, University of Bergen, Bergen, Norway
2The Institute of Basic Medical Sciences, University of Oslo, Oslo, Norway
3Department of Clinical Science, University of Bergen, Bergen, Norway
4Department of Heart Disease, Haukeland University Hospital, Bergen, Norway
5Department of Cardiology, Stavanger University Hospital, Stavanger, Norway
6Bevital AS, Bergen, Norway
7Laboratory of Clinical Biochemistry, Haukeland University Hospital, Bergen, Norway
8Department of Global Public Health and Primary Care, University of Bergen, Bergen, Norway
Correspondence: E Degerud, Department of Clinical Medicine, University of Bergen, PO Box 7804, Bergen 5020, Norway. E-mail: eirikdegerud at gmail.com
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Background/objectives: Seasonal variation may reduce the validity of 25-hydroxyvitamin D (25OHD) as a biomarker of vitamin D status. Here we aimed to identify potential determinants of seasonal variation in 25OHD concentrations and to evaluate cosinor modelling as a method to adjust single 25OHD measurements for seasonal variation.

Subjects/methods: In Caucasian cardiovascular patients (1999–2004), we measured 25OHD by liquid chromatography tandem mass spectrometry in 4116 baseline and 528 follow-up samples. To baseline values, we fitted a cosinor model for monthly concentrations of 25OHD. Using the model, we estimated each patient’s adjusted annual 25OHD value. Further, we studied how covariates affected the annual mean 25OHD concentration and seasonal variation of the study cohort. To evaluate the model, we predicted follow-up measurements with and without covariates and compared accuracy with carrying forward baseline values and linear regression adjusting for season, common approaches in research and clinical practice, respectively.

Results: The annual mean (59.6 nmol/l) was associated with participants’ age, gender, smoking status, body mass, physical activity level, diabetes diagnosis, vitamin D supplement use and study site (adjusted models, P<0.05). Seasonal 25OHD variation was 15.8 nmol/l, and older age (>62 years) was associated with less variation (adjusted model, P=0.025). Prediction of follow-up measurements was more accurate with the cosinor model compared with the other approaches (P<0.05). Adding covariates to cosinor models did not improve prediction (P>0.05).

Conclusions: We find cosinor models suitable and flexible for analysing and adjusting for seasonal variation in 25OHD concentrations, which is influenced by age.


"Cosinor analysis uses the least squares method to fit a sine wave to a time series"

Reasons to be careful about "adjusting Vitamin D levels for season" include:

  1. Less seasonal variation if dark skin
  2. Less seasonal variation if elderly
  3. Less seasonal variation if female
  4. Less seasonal variation if Crohn's
  5. More seasonal variation if smoke, . . .

It is likely that most studies which "adjust" for season do not have separate adjustments for each of the above groups. Applying the same "adjustment" to those individuals which do not vary with season will result in levels being "adjusted" to be too high half fo the year and too low the other half of the year.

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12 studies referenced the study on this page as of Feb 2020


Seasonal Variation of 25-Hydroxyvitamin D among non-Hispanic Black and White Pregnant Women from Three US Pregnancy Cohorts

M. A. Luque-Fernandez, B. Gelaye, Tyler VanderWeele, Cynthia Ferre, A.m Siega-Riz, C Holzman, D. Enquobahrie, Dole N and M.A. Williams
date unknown

Abstract: Background: Vitamin D deficiency during pregnancy has been associated with increased risk of complications and adverse perinatal outcomes. We evaluated seasonal variation of 25-hydroxyvitamin D [25(OH)D] among pregnant women, focusing on patterns and determinants of variation.
Methods: Data came from three cohort studies in the US that included 2583 non-Hispanic Black and White women having prenatal 25(OH)D concentrations determined. Fourier time series and generalised linear models were used to estimate the magnitude of 25(OH)D seasonality. We modelled seasonal variability using a stationary cosinor model to estimate the phase shift, peak?trough difference, and annual mean of 25(OH)D.
Results: We observed a peak for 25(OH)D in summer, a nadir in winter, and a phase of 8 months, which resulted from fluctuations in 25(OH)D3 rather than 25(OH)D2. After adjustment for covariates, the annual mean concentrations and estimated peak?trough difference of 25(OH)D among Black women were 19.8 ng/mL [95% confidence interval (CI) 18.9, 20.5] and 5.8 ng/mL [95% CI 4.7, 6.7], and for non-Hispanic White women were 33.0 ng/mL [95% CI 32.6, 33.4] and 7.4 ng/mL [95% CI 6.0, 8.9].
Conclusions: Non-Hispanic Black women had lower average 25(OH)D concentrations throughout the year and smaller seasonal variation levels than non-Hispanic White women. This study?s confirmation of 25(OH)D seasonality over a calendar year has the potential to enhance public health interventions targeted to improve maternal and perinatal outcomes.

http://scholar.harvard.edu/malf/node/136951


Seasonal changes in plasma 25-hydroxyvitamin D concentrations of young American black and white women - 1998

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Attached files

ID Name Comment Uploaded Size Downloads
13929 Seasonal change.jpg admin 17 Jun, 2020 42.11 Kb 576
13928 Seasonal changes B and W.pdf admin 17 Jun, 2020 69.42 Kb 380
6191 Cosinor F1.jpg admin 26 Nov, 2015 34.54 Kb 2854
6190 Cosinor.pdf admin 26 Nov, 2015 323.07 Kb 1006