What is endothelium?(Part 3)

Ways of preventing injury to the endothelium

Correcting yourhigh level of LDL-cholesterol

It has been reported that if the level of your LDL-cholesterol is very much above the normal ranges, the production of nitric oxide (NO) by your endotheliumwill be reduced[1]. When this takes place, the following complications will follow {other complications were discussed in Powertec (148)}:

Leukocyte adhesion[1]

As mentioned inPowertec (148), there are three types of cells in the blood. One type of these cells is called the white blood cells (WBCs). The WBCs are also called the leukocytes.When the production of NO is depressed, the adhesion of leukocytes to each other and to other substances is very much increased, conducive to the formation of clots and plugs that will obstruct the passageway of blood. In fact, this change in the property of the leukocytes will further accelerate the formation of the so-called plaques which attach themselves in the endothelium, leading to the narrowing of the tubular blood vessels.

Oxidative stress[1]

When the LDL-cholesterol is oxidized, the formation of the substance called caveolin-1 leads to decrease in the concentration of NO. This biochemical mechanism has been considered as the initial and primary cause of atherosclerosis. Since NO is known to prevent the oxidation of LDL-cholesterol, its availability in your blood should always be high. If its level is low and the level of yourLDL-cholesterol is high, the probability that the lipoprotein will be oxidized is high. Thus, the level of yourLDL-cholesterol should always be checked and controlled.

Drug of choice to correct your elevated LDL-cholesterol

To correct your high level of LDL-cholesterol, your medical doctor will prescribe you with a class of drug known as statins. Generic names belonging to this class of drug are rosuvastatin, atorvastatin, and fluvastatin—to mention some. Your medical doctor needs to prescribe you with this class of drug because statins have been found to not only lower your LDL-cholesterol but it has other beneficial effects for the improvement of your endothelial function[1].

 

Correcting your blood sugar

The other disease which could be injurious to your endothelium is diabetes mellitus (DM)[3]. If you have DM, your blood sugar is very much increased—also called hyperglycemia in medical parlance. As much as possible, when you have detected for the first time—with the help of your medical doctor—that your blood sugar is increased, that you have immediately taken action to correct it. If your medical doctor prescribed you with a certain drug, or set of drugs, you should have taken them regularly and religiously.If your blood sugar is left unchecked for a considerable number of years, it will enhance the attachment of plaques in your endothelium, leading to the development of atherosclerosis, hypertension, and other cardiovascular complications of diabetes. However, up to the present time, a detailed explanation, in terms of biochemical and cellular connections, between high blood glucose levels and complications in the cardiovascular structures remains incompletely understood [2].

While there has been no clear and detailed explanation on the link between hyperglycemia and endothelial dysfunction, it is known that in diabetic state there is an increased tendency for oxidative stress and oxidation of lipoproteins, especially the LDL-cholesterol[2]. As mentioned in the preceding, these two factors have been established as possible causes ofNO depletion. Hence, hyperglycemia has a big role in the destruction of endothelium, and there is a need to control it.

The simplest way to find out if your diabetes has more or less adversely affected the competence of your endothelium is to request for urinalysis. If protein, specifically albumin, is detected in your urine, it is possible that endothelial dysfunction has started[2], and you really need to control your blood sugar.

(To be continued)

References:

  1. Davigon J, Ganz, Peter. Atherosclerosis: evolving vascular biology and clinical implications, role of endothelial dysfunction in atherosclerosis. Circulation. 2004;109: III-27-III-32. doi: 10.1161/01.CIR. 0000131515.03336.f8.
  2. Hadi H, and Suwaidi J. Endothelial dysfunction in diabetes mellitus. Dovepress, Vascular Health and Risk Management. 2007;Dec; 3 (6):853-876.

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2350146/

  1. Preston RA, WencheJy, Jimenez, JJ, Mauro, LM, Horstman, LL, Valle, M, Aime, G, and Ahn, YS. Effects of severe hypertension on endothelial and platelet microparticles. Hypertension. 2003;41:211-217. doi: 10.1161/01.HYP.0000049760.15764.2D.
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