Vitamin D levels and vitamin D receptor variants are associated with chronic heart failure in Chinese patients.
Clin Lab Anal. 2019 Feb 4:e22847. doi: 10.1002/jcla.22847.
Hao Y1, Chen Y1.
Items in both categories Cardiovascular and Vitamin D Receptor are listed here:
- Cardiovascular disease 2.3 X more-likely if poor Vitamin D Receptor – Aug 2022
- Resveratrol and Cardiovascular Diseases – May 2016
- 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
- Potential for vitamin D receptor agonists in the treatment of cardiovascular disease
The risk of 43 diseases at least double with poor Vitamin D Receptor as of Oct 2019
Vitamin D Receptor table shows what might compensate for low VDR activation
Compensate for poor VDR by increasing one or more:
|1) Vitamin D supplement Sun|
| Vitamin D in the blood |
and thus in the cells
|2) Magnesium||Vitamin D in the blood |
AND in the cells
|3) Omega-3||Vitamin D in the cells|
|4) Resveratrol||Vitamin D Receptor|
|5) Intense exercise||Vitamin D Receptor|
|6) Get prescription for VDR activator|
|Vitamin D Receptor|
|7) Quercetin (flavonoid)||Vitamin D Receptor|
|8) Zinc is in the VDR||Vitamin D Receptor|
|9) Boron||Vitamin D Receptor ?, |
|10) Essential oils e.g. ginger, curcumin||Vitamin D Receptor|
|11) Progesterone||Vitamin D Receptor|
|12) Infrequent high concentration Vitamin D|
Increases the concentration gradient
|Vitamin D Receptor|
|13) Sulfroaphane and perhaps sulfur||Vitamin D Receptor|
|14)Butyrate especially gut||Vitamin D Receptor|
Note: If you are not feeling enough benefit from Vitamin D, you might try increasing VDR activation. You might feel the benefit within days of adding one or more of the above
Download the PDF from VitaminDWiki
Good level of Vitamin D but Ft or Tt gene mutation: every person had Chronic Heart Failure
Vitamin D is an indispensable molecule for human health. Wide ranges of diseases are linked with vitamin D deficiencies. Role of vitamin D in chronic heart failure has been demonstrated in different populations; however, reports are limited in Chinese population. Vitamin D exerts its effect through vitamin D receptor and variants in vitamin D receptor (VDR) gene are shown to affect vitamin D signaling. In the present study, we hypothesized that both vitamin D levels and VDR variants could be associated with the development of chronic heart failure.
MATERIALS AND METHODS:
We enrolled 145, chronic heart failure patients those admitted to Department of Cardiothoracic Surgery, Beijing Luhe Hospital of Capital Medical University and fulfilled NYHA inclusions criteria. In addition, ninety healthy subjects from similar geographical location were enrolled as healthy controls. Plasma levels of vitamin D were quantified by ELISA. VDR variants (BsmI, ApaI, TaqI, and FokI) were genotyped by PCR-RFLP.
Plasma levels of vitamin D were significantly lower in chronic heart patients compared to healthy controls. Heterozygous and minor allele for FokI and TaqI polymorphisms were significantly higher in heart failure patients when compared to healthy controls. In addition, combined analysis of vitamin D levels and VDR mutants revealed association of vitamin D deficiencies and VDR mutants with chronic heart failure.
CONCLUSIONS: The results of the present investigation showed an important role of vitamin D and VDR variants with chronic heart failure.