Effect of vitamin D supplementation on endothelial function – An updated systematic review with meta-analysis and meta-regression
Nutrition, Metabolism and Cardiovascular Diseases, Vol 29, Issue 12, Dec 2019, Pages 1261-1272, https://doi.org/10.1016/j.numecd.2019.08.005
Cardiovascular category starts with the following
- Overview Cardiovascular and vitamin D
- Hypertension and vitamin D
- Overview Metabolic Syndrome and vitamin D
- Overview Stroke and vitamin D
- Peripheral arterial disease risk is 1.5X higher if low vitamin D – meta-analysis March 2018
- Peripheral Arterial Disease 3.7 X more likely in diabetics with low vitamin D – June 2019
- Heart attack ICU costs cut in half by Vitamin D – Oct 2018
- Heart Failure and Vitamin D meta-analyses - 2016, 2019
- Cardiovascular death 1.5X more likely if less than 20 ng of Vitamin D – 22nd meta-analysis Nov 2019
- Vitamin D supplementation reduces many Cardiovascular Disease markers– meta-analysis July 2018
- Cardiovascular Prevention with Omega-3 (finally using high doses) – Sept 2019
- Higher Omega-3 index (4 to 8 percent) associated with 30 percent less risk of coronary disease (10 studies) July 2017
A poor Vitamin D Receptor can block Vitamin D in blood from getting to tissues
- Heart Failure 15X more likely if poor VDR, even if good level of vitamin D (China) – March 2019
- Coronary Artery Disease without diabetes 5 times more likely if VDR gene problems – meta-analysis May 2016
- Cholesterol is needed to produce both Vitamin D and Cortisol
- Overview Cholesterol and vitamin D
- Statins and vitamin D statins often reduce levels of vitamin D
- Statin side-effects are reduced by Vitamin D – US patent Application – April 2019
Note: Unfortunately most meta-analyses ignore dose sizes
Note: The founder of VitaminDWiki owns a pulse wave velocity meter which uses his iPad for analysis and display
His arteries have Pulse Wave Velocities of a person 20 years younger.
Background and aims
Atherogenesis and endothelial dysfunction contribute to cardiovascular risk and vitamin D has been implemented in endothelial repair. This systematic review, meta-analysis and meta-regression aims to establish the effect of vitamin D supplementation on endothelial function.
Methods and Results
To conduct the systematic review we searched the Cochrane Library of Controlled Trials, PubMed, ProQuest and EMBASE for randomized controlled trials that investigated the effects of vitamin D supplementation on flow-mediated dilation (FMD%), pulse wave velocity (PWV), and central augmentation index (AIx). Meta-analysis was based on a random effects model and inverse-variance methods to calculate either mean difference (MD) or standardized mean difference (SMD) as effects sizes. This was followed by meta-regression investigating the effect of baseline vitamin D concentrations, vitamin D dosing and study duration. Risk of bias was assessed using the JADAD scale and funnel plots.
We identified 1056 studies of which 26 studies met inclusion criteria for quantitative analysis. Forty-two percent of the 2808 participants had either deficient or insufficient levels of vitamin D. FMD% (MD 1.17% (95% CI −0.20, 2.54), p = 0.095), PWV (SMD −0.09 m/s (95% CI −0.24, 0.07), p = 0.275) and AIx (SMD 0.05% (95% CI −0.1, 0.19), p = 0.52) showed no improvement with vitamin D supplementation. Sub-analysis and meta-regression revealed a tendency for AIx and FMD% to increase as weekly vitamin doses increased; no other significant relationships were identified.
Vitamin D supplementation showed no improvement in endothelial function. More evidence is required before recommendations for management of endothelial dysfunction can be made.
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