Inflammation Clinical Trial
Official title:
Vitamin D Deficiency Treatment Outcomes on Inflammation, Endothelial Function and Ventricular Retrieval After Non ST-Segment Elevation Myocardial Infarction: A Randomized Placebo Controlled Clinical Trial (NAVID Study)
The leading cause of death in the world is due to cardiovascular events, which originate from
coronary artery stenosis therefore it affects myocardial blood flow and finally may cause
infarction. Atherosclerosis is the most debatable hypothesis in coronary stenosis. Scientists
think body inflammation is one of the main etiologies. There are many factors affect this
inflammatory process, which Vitamin D is one of them. Vitamin D deficiency has been linked to
various inflammatory diseases. However, the mechanism by which vitamin D reduces inflammation
remains poorly understood. Vitamin D deficiency is pandemic around the world with 30-50%
prevalence in adult population and several evidences advocated its association with
immune-based disease. Additionally, there are some study suggesting patients who suffered
from myocardial infarction have lower serum vitamin D level. It has been revealed Vitamin D
deficiency has numerous major drawbacks on cardiovascular system. Its deficiency benefits
atherosclerosis progression and may cause endothelial inflammation and dysfunction in
coronary artery. There is not any evidences study vitamin D deficiency treatment on non
ST-Segment Elevation Myocardial Infarction nor there is any study demonstrating its effect on
cardiovascular health through Holick's protocol. Furthermore endothelial function, cardiac
work retrieval and inflammation after 8 weeks has not been studied with this protocol yet.
According to current data, the investigators assume by treating this vital and worldwide
deficit in our body, doctors can help decrease inflammation, decelerate the atherosclerosis
progression and enhance ventricular function after infarction.
Besides all of the recognized risk factors, vitamin D deficiency should be considered a very
important and mischievous cardiovascular alarm for the body, which should be treated and
maintained through the whole life due to lack of sufficient sunlight exposure and nutrition
intake.
In preventive medicine domain, the investigators anticipate by maintaining a high level of
this vitamin in the body, cardiovascular events decrease and its burden on society will
decline to much extend leading to a higher quality of life and health worldwide.
The leading cause of death in the world is due to cardiovascular events, which originate from
coronary artery stenosis therefore it affects myocardial blood flow and finally may cause
infarction. ST-Segment elevation is an indicator of infarction (STEMI) in electrocardiography
(ECG) besides cardiac enzymes like troponin; however, there is another type of infarction
without elevation, which called non ST-Segment Elevation myocardial infarction (NSTEMI).
The most established method of treating this condition is percutaneous coronary intervention
(PCI) and balloon angiography although in some cases coronary artery bypass grafting surgery
is more beneficial. Atherosclerosis is the most debatable hypothesis in coronary stenosis.
Scientists think body inflammation is one of the main etiologies. There are many factors
affect this inflammatory process, which Vitamin D is one of them. Vitamin D deficiency has
been linked to various inflammatory diseases. However, the mechanism by which vitamin D
reduces inflammation remains poorly understood. Vitamin D Inhibits Monocyte/Macrophages
Pro-inflammatory Cytokine Production by Targeting mitogen-activated protein kinase (MAPK)
Phosphatase-1 and nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB)
pathway therefore decrease production of IL-6 and tumor necrosis factor-alpha (TNFα) and
increasing interleukin (IL) 10 and transforming growth factor beta (TGFβ) from human
monocytes. Chronic inflammatory diseases that are vitamin D deficient (20 ng/ml) may benefit
from oral supplementation of vitamin D to get their serum vitamin D level>30 ng/ml.
Galectin-3 is emerging fibrotic biomarkers that is thought to be causally involved in the
development of heart failure. Galectin-3 is a beta-galactoside binding lectin that is
produced by macrophages during myocardial stress and activates fibroblasts. Besides its roles
in inflammation and in cellular adhesion, galectin-3 plays an important role in cardiac
fibrosis. Furthermore, galectin-3 has an established role as a modulator in tumor
progression. Galectin-3 is released in the circulation, and can be measured reliably and has
been shown to independently predict outcomes in heart failure patients and in the general
population. However, galectin-3 is not cardiac specific, but is expressed in several fibrotic
and inflammatory diseases.
Vitamin D is one of the fat-soluble micronutrients, which sunlight is the principle key to
make this vitamin in our body. Vitamin D deficiency is pandemic around the world with 30-50%
prevalence in adult population and several evidences advocated its association with
immune-based disease like asthma, multiple sclerosis (MS), Type 2 diabetes and many cancers.
Additionally, there are some study suggesting patients who suffered from myocardial
infarction have lower serum vitamin D level. It has been revealed Vitamin D deficiency has
numerous major drawbacks on cardiovascular system. Its deficiency benefits atherosclerosis
progression and may cause endothelial inflammation and dysfunction in coronary artery.
Endothelial malfunction with lipid sedimentation beneath the intima layer attract leukocytes
and make foam cells. Therefore it leads to produce active agents and make smooth muscle cells
to proliferate and lead the lumen to be narrower, which consequently decrease oxygenated
blood flow and causes ischemia and infarction. Monocyte chemoattractant protein 1 (MCP-1) and
n-terminal fragment of pro-brain natriuretic peptide (NT-pro-BNP) are two newly discovered
molecules associated independently with coronary calcification level. MCP-1 has a role in
representing the relationship between acute myocardial infarction and inflammation.
Renin-Angiotensin-Aldosterone system has a principle role in blood pressure maintenance. It
has been shown this vitamin can regulate this system too.
Hypocalcemia in vitamin D deficiency activate parathyroid gland to produce parathormone
(PTH), which makes bones to release calcium and kidneys to reabsorb calcium from urine more.
PTH activates the α1-hydroxylase of the Kidney to produce activated vitamin D (calcitriol or
1,25(OH)2 VitD) from stored-form (cholecalciferol or 25(OH) VitD). Calcium is the leading
cation in the cardiac myocyte which contributes in contraction, contractility and voltage
conduction. Also phosphorous excrete more due to PTH effect on distal convoluted tubule.
Alkaline phosphatase is an indicator of bone metabolism in resorbing the hydroxyapatite
crystals. Body regulate the level of phosphorous by fibroblasts growth factor (FGF) 23 and
PTH accurately. FGF-23 is secreted by osteocytes in response to elevated calcitriol. FGF-23
decreases the reabsorption and increases excretion of phosphate in Kidneys. FGF-23 may also
suppress α1-hydroxylase, reducing its ability to activate vitamin D and subsequently
impairing calcium absorption. It has been shown in some studies that FGF-23 level was
independently associated with endothelial function, arterial stiffness, vascular
calcification, ventricular hypertrophy, renal failure progression, and cardiovascular related
mortality. Similarly, PTH level has the same relationship. In conclusion, these studies
proposed vitamin D deficiency has a major role in endothelial dysfunction, inflammation,
myocardial infarction and stroke.
FGF21 has lately emerged as a potent metabolic regulator with multiple effects that
ultimately improve the lipoprotein profile. Early studies show that FGF21 is associated with
the presence of atherosclerosis and may play a protective role against plaque formation by
improving endothelial function.
High level of Homocysteine which is one of the amino acids metabolism end products, make the
patient to be more susceptible to endothelial cell injury which therefore make inflammation
and atherosclerosis and finally ischemia. Hyperhomocysteinemia is therefore a risk factor for
coronary artery disease. In one randomized controlled trial (RCT) involving 3096 patients who
referred for PCI treated with a combination of Vitamin B 6, 9 and 12 and suggested although
these vitamins has a lot of major effects in biochemical metabolism and antioxidant action,
hospital readmission and re-infarction was not decreased. This study was just the beginning
of the new era in managing cardiovascular events by controlling its biological risk factors.
PRIMO trial of 196 participants who had renal failure and left ventricular hypertrophy
consumed an analog of activated vitamin D called paricalcitol and assessed left atrial volume
index after 24 and 48 weeks. This trial had come to an end and had a lot of problems
including they study population, type of drug they chose, co-founder variables and lack of
sufficient follow up. To follow this field, VITDAMI trial ameliorate the PRIMO problems and
investigate the effects of consuming 0.266 milligrams calcifediol each 2 weeks in 144 acute
anterior STEMI patients on left ventricular remodeling using cardiac magnetic resonance
imaging (MRI) and assessing its left ventricular end diastolic volume (LV-EDV) after 1 year.
Its result has not been published yet. To power up their study, they will evaluate
endothelial function, calcium metabolism products and aspects of inflammation. Calcifediol is
produced by the liver enzyme 25-hydroxylase from its pro-hormone cholecalciferol (Vitamin
D3), and its blood concentration is considered the best indicator of vitamin D status.
Although there are several vitamin D deficiency treatment protocol, using calcifediol is not
prevalent worldwide. Holick et al. demonstrated a type of protocol in which the patient with
hypovitaminosis D (25(OH) Vitamin D less than 20 ng/ml) received 50,000 international units
(IU) of Vitamin D3 or D2 (Cholecalciferol or Ergocalciferol respectively) once a week for 8
weeks to achieve calcifediol levels higher than 30 ng/ml then continue on maintenance dose
(50,000 IU every month or 1,500-2,000 IU/day) for the rest of the life. This procedure has
been tolerated well by patients and has high acceptance rate. One study compared Holick's
method with another common protocol and established there were no difference in increasing
the serum level of vitamin D nor patients' preference.
In the CANTHOS study, the anti-IL-1β antibody prescribed in three different doses for
patients with established atherosclerosis and high level of C-reactive protein (CRP) and
follow them up to 48 months and evaluated nonfatal myocardial infarction, nonfatal stroke, or
cardiovascular death. They suggested the anti-inflammatory effects of canakinumab led to a
significantly lower rate of recurrent cardiovascular events at a dose of 150 mg every 3
months. For the first time, in this RCT, which the most valuable methodology in medical
investigations and causality evaluations, the investigators will evaluate one of the most
prevalent management protocols of vitamin D deficiency (Holick's) on one of the most dramatic
human disease which obtained the higher burden of disease worldwide, myocardial infarction.
There is currently only one evidence studying the effects of consuming calcifediol on
anterior ST-Segment Elevation Myocardial Infraction. the investigators decided to choose a
different drug (cholecalciferol) with different approach and different MI (NSTEMI). In this
study the investigators will use no invasive instruments and assessing controversial
variables outcomes to open a big door to cardiovascular disease management and preventive
medicine to much extend.
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