A dose–response meta-analysis between serum concentration of 25-hydroxy vitamin D and risk of type 1 diabetes mellitus
Yilin Hou, An Song, Yuxin Jin, Qiuyang Xia, Guangyao Song & Xiaoping Xing
European Journal of Clinical Nutrition (2020)
Items in both categories Children & Diabetes (proxy for T1):
- FDA drug to TREAT child Type 2 diabetes (based on 1 trial of only 50) – June 2023
- Vitamin D2 not help – again ( T1 diabetes– which has been helped by D3) – Jan 2022
- Somewhat less Type 1 Diabetes in Wales recently – perhaps more sun or more vitamin D – March 2021
- Type 1 Diabetes (Autoimmune) and Vitamin D, Vitamin D Receptor and Cathelicidin - Dec 2020
- T1 Diabetes 3X lower risk if high vitamin D (over 40 ng) – Meta-analysis Nov 2020
- Poor CYP2R1 gene results in lower vitamin D and 2X increase in T1 Diabetes – Sept 2019
- Milk Consumption Is strongly linked to Type 1 Diabetes – Dr. Greger Nov 2019
- T1 Diabetes treated by Vitamin D and Omega-3 (many other studies agree) Jan 2018
- Children in India – 1 in 7 extremely low Vitamin D, 1 in 10 prediabetic – Sept 2019
- Type 1 diabetes trial having problems getting participants – too many taking Vitamin D or Omega-3 – Aug 2019
- Type 1 Diabetes is prevented and treated by Vitamin D – review of 16 studies – Sept 2019
- T1 Diabetes reduction by high Omega-3 and Vitamin D – GRH ongoing observation
- Type 1 Diabetes prevention with Vitamin D and Omega-3 – Symposium April 2019
- Type 1 Diabetes risk increased if high postpartum Vitamin D binding protein – Jan 2019
- T1 Diabetes – how it may be prevented and treated by Vitamin D – Dec 2018
- Vitamin D and Omega-3 may treat Type 1 Diabetes – RCT 2024
- Type 1 Diabetes is increasing – decreased vitamin D is one of the many possible reasons – Sept 2018
- Early Type 1 Diabetes May Shorten Women’s Lives by 18 Years - Aug 2018
- Type 1 Diabetes (T1DM) 1.6 X more likely if low vitamin D – meta-analysis Jan 2018
- Type 1 Diabetes 14 percent more likely with 2 Vitamin D Receptor mutations – Oct 2017
- T1 Diabetes associated with many other autoimmune diseases (all related to low vitamin D) – May 2017
- Vitamin D deficiency is associated with prediabetes in obese Swedish children – Oct 2016
- Type 1 diabetes 1.6 times more likely if a Vitamin D Receptor problem – Feb 2017
- Type II Diabetes in children in India increased 4 X in 20 years – Nov 2016
- Type 1 diabetes risk not decreased if add 400 IU vitamin D while pregnant (no surprise) – Dec 2016
- T1 Diabetes in child not prevented by a tiny amount of vitamin D during pregnancy – Nov 2015
- Diabetes (Type 1) increasing 4 percent per year, now 30,000 in the UK - May 2015
- T1 diabetes in children helped with two doses of 150,000 IU of vitamin D and Calcium – March 2015
- Type I diabetes in dark skin children associated with low vitamin D if far from equator – Jan 2015
- Type 1 diabetes helped with 50,000 IU of vitamin D every two weeks – Nov 2014
- T1 Diabetes associated with low vitamin D - Nov 2014
- Type I Diabetes stopped increasing in Finland after Vitamin D levels were raised – July 2014
- Diabetic children often need more than 7,000 IU of vitamin D – June 2014
- T1 Diabetes 35 percent more likely if 10 degrees further from equator (less vitamin D) – June 2014
- Higher vitamin D at birth associated with less diabetes and obesity 35 years later – Jan 2014
- Type 1 diabetes 3.5X more frequent if low vitamin D - Medscape CME Dec 2012
- Metabolic Syndrome in children is associated with low vitamin D – review Jan 2013
- Like their diabetic mothers, infants had low vitamin D and were slightly diabetic – May 2012
- Type I diabetes 2X more likely if mother had low vitamin D – Jan 2012
Items in categories Children & Diabetes (proxy for T1) & Meta-analysis:
 Download the PDF from Vitamin D Life
It remains debatable whether vitamin D plays any role as a risk factor for type 1 diabetes mellitus (T1DM). We have summarized the effect of circulating 25-hydroxy vitamin D [25(OH)D] concentration on the risk of developing T1DM via a dose–response meta-analysis. We undertook a database search on PubMed, Embase, and Cochrane Library from inception to January 2020. A meta-analysis based on random-effects model was applied. Subgroup analysis and meta-regression were performed to inspect the source of heterogeneity. Dose–response data were examined using the generalized least squares trend estimation method. This study was registered with the PROSPERO (ID: CRD42020166174). In total, 16 studies including 10,605 participants (3913 case patients) were included. The pooled odds ratios (OR) and 95% confidence intervals (95% CI) for the highest versus the lowest 25(OH)D concentration was 0.39 (0.27, 0.57), with a high heterogeneity (I2 = 76.7%, P < 0.001). Meta-regression analysis identified latitude (P = 0.02), adjustment for gender (P = 0.001), and 25(OH)D stratification (P < 0.001) as sources of heterogeneity. Furthermore, the nonlinear dose–response analysis determined the OR (95% CI) of T1DM to be 0.91 (0.90, 0.93) per 10 nmol/L increase in the 25(OH)D concentration. A ‘U’-shaped association was found between serum 25(OH)D concentration and risk of T1DM. The present study highlights the significant inverse association between the circulating 25(OH)D concentration and the risk of T1DM.