TREATMENT FROM WATER

VASCULAR ARTERY DISEASE  

CAROTID ARTERY DISEASE  

PERIPHERAL ARTERY DISEASE 

CORONARY ARTERIES DISEASES 

 (New medical branch of treatment in mathematical machine of Sikander Aqeel) 

Daily population is increasing of earth, where your need is easy faster and cheap medical science for treatment own body, 

First you should understand about treatment, (That what is the treatment) 

actually treatment is an appetite of sick cells, such as you gathers all things (milk, sugar, coffee, tea pack, bread, **er) before cook breakfast, if you will not gather this all things, then you cannot get breakfast, so the here breakfast is an appetite of stomach cells, 

If you take medicines from one hole of mouth, here I am introducing fifteen thousand billion holes to take medicines, and this process will work like super-sonic speed for health, and bath-tub yoga treat is better than Surgery, because surgery cannot repair any part of body,     

Water and occipital lobe 

Water and temporal lobe 

Water and frontal lobe 

Water and Cerebellum lobe 

VASCULAR ARTERY DISEASE   

A system of flexible tubes -- some big, some very tiny -- move fluids throughout your body. If they were stretched end-to-end, there would be enough to circle the Earth multiple times.

Some of them move blood. As your heart beats, it pumps blood with oxygen and nutrients to feed your tissues and carry off waste. Arteries move blood away from the heart. Veins return it.

Lymph vessels and lymph nodes are part of a cleaning system that removes damaged cells from your body. They also help protect your body from infections and cancer. The vessels pick up fluid from tissues throughout your body. That fluid eventually drains back into veins under your collarbones.

This whole network of vessels is known as your vascular or circulatory system. "Vascular" comes from a Latin word for hollow container. Any condition that affects this system is considered vascular disease. The diseases range from problems with your arteries, veins, and vessels that carry lymph to disorders that affect how blood flows. A disease can lead to your tissues not getting enough blood, a condition called ischemia, as well as other serious even life-threatening problems.

Atherosclerosis and Peripheral Artery Disease

Coronary arteries supply blood to your heart muscle. Peripheral arteries carry blood to other tissues and organs throughout your body. Both can have deposits of fat,cholesterol, and other substances on their inside walls. These deposits are known as plaque. Over time, plaque can build up, narrowing the vessel and making it hard for blood to flow.

Eventually, the artery will be so narrow that your body's tissues don't get enough blood. Depending on where it happens, you can have different symptoms and problems. For example:

• Blockage in coronary arteries can cause chest pain (angina) or a heart attack.

• If it's in the carotid arteries that supply your brain, it can lead to a stroke or mini stroke, which is called a transient ischemic attack or TIA.

• Blockage in the kidneys can lead to trouble with how they work, uncontrolled high blood pressure, and heart failure. 

•

• A blockage in a leg can lead to leg pain or cramps when you're active -- a condition called claudication -- skin color change, sores or ulcers, and your legs feeling tired.

When you don't have any blood flow to a part of your body, the tissues could die. If that happens, you may lose a limb or an organ.

DEFINITION OF VASCULAR PLAQUE 

It is fourth diseases of sweet-plaque in arteries, which makes clots of blood from stickiness of extra sugar in blood,   

1 = stickiness of extra sugar in blood = sweet-plaque  

2 = stickiness of extra sugar in blood = blood clots 

Atherosclerosis and Peripheral Artery Disease for Vascular Disease (7/29/2016)

Coronary arteries supply blood to your heart muscle. Peripheral arteries carry blood to other tissues and organs throughout your body. Both can have deposits of fat, cholesterol, and other substances on their inside walls. These deposits are known as plaque. Over time, plaque can build up, narrowing the vessel and making it hard for blood to flow. 

We are doing mathematical study of (Peripheral Artery) to understand the Vascular Disease, 

The plaque build up from less insulin into the blood or too much glycolipids at outer side, the glycolipids and sphingolipids both contain on sugar and sphinosine, they are especially abundant in the membranes of brain and nerve cells, particularly in the myelin sheath the **liosides are carbohydrate-rich complex lipids with negatively charged heads of extremely large size and complexity, they are usually found on the outer surface of cell membranes, especially of nerve cells, 

If 10 % insulin is in blood, then plaque cannot build up in arteries     

NEW BORNE 

New borne heartbeat = 120 beat per minute 

Glycolipids = CH10O6 = 120.5 as polar head 

Glycolipids = C2O2 + O2 C3H5 = 118.25 as neck   

Two Glycolipids = 30(CH2) = 435 as tail 

Total Glycolipids = 673.75     

    = a2 + b2 = c2 

    = a2 (new borne beat) + b2 Glycolipids = c2 

    = a2 (120 beat) + b2 673.75 = c2 

    = a2 (14400) + b2 453939.0625 = c2 

    = a + b = 468339.0625 = c2 

    = a + b = 468339.0625 = c2 

    = a + b = 468339.0625 / 684.35 = 684.35

    = a + b = 684.35 – 673.75 (Glycolipids) = 10.6

    = a + b = 10.6 % Insulin 

    = a + b = 10.6 % blood in tissues 

    = a + b = -0.6 % sugar

** 

** heartbeat = 75 beat per minute 

Glycolipids = CH10O6 = 120.5 as polar head 

Glycolipids = C2O2 + O2 C3H5 = 118.25 as neck   

Two Glycolipids = 30(CH2) = 435 as tail 

Total Glycolipids = 673.75  

    = a2 + b2 = c2 

    = a2 (** heartbeat) + b2 Glycolipids = c2 

    = a2 (75) + b2 673.75 m/g = c2 

    = a2 (5625) + b2 453939.0625 = c2 

    = a + b = 459564.0625 = c2 

    = a + b = 459564.0625 = c2 

    = a + b = 459564.0625 / 677.91 = 677.91

    = a + b = 677.91 – 673.75 (Glycolipids) = 4.16

    = a + b = 4.16 % Insulin 

    = a + b = 4.16 % blood in tissues   

    = a + b = 5.84 % sugar

OVER AGE LIKE 55 TO 75 YEAR 

Over age heartbeat = 45 beat per minute 

Glycolipids = CH10O6 = 120.5 as polar head 

Glycolipids = C2O2 + O2 C3H5 = 118.25 as neck   

Two Glycolipids = 30(CH2) = 435 as tail 

Total Glycolipids = 673.75  

    = a2 + b2 = c2 

    = a2 (Over age heartbeat) + b2 Glycolipids = c2 

    = a2 (45) + b2 673.75 m/g = c2 

    = a2 (2025) + b2 453939.0625 = c2 

    = a + b = 455964.0625 = c2 

    = a + b = 455964.0625 = c2 

    = a + b = 455964.0625 / 675.25 = 675.25

    = a + b = 675.25 – 673.75 (Glycolipids) = 1.5

    = a + b = 1.5 % Insulin 

    = a + b = 1.5 % blood in tissues  

    = a + b = 8.5 % sugar 

New borne = -0.6 % sugar in tissues

** data = 5.84 % sugar in tissues  

Over age data = 8.5 % sugar in tissues 

New borne = -0.6 % plaque in cells of artery

** data = 5.84 % plaque in cells of artery  

Over age data = 8.5 % plaque in cells of artery 

So the plaque becomes settle in arteries to stop the blood flow, and plaque + sugar becomes settle into the tissues of arterial ulcer, peripheral, in shape of Vascular Disease, the arterial ulcer like arterial wounds mostly in lower side of legs, because the sugar occurs heavy, they sit down side into the feet slowly, because you would have not hear about arterial wound at the shoulder or face, so the sugar occurs heavy than the plaque mass, 

SWOLLEN ARTERY (8/2/2016) 

• A blockage in a leg can lead to leg pain or cramps when you're active -- a condition called claudication -- skin color change, sores or ulcers, and your legs feeling tired.

When you don't have any blood flow to a part of your body, the tissues could die. If that happens, you may lose a limb or an organ. 

SWOLLEN ARTERY

Cramps of the leg artery lead to leg pain from reason of plaque + sugar or sweet-plaque in artery, which block to blood flow for tissues, 

If artery swollen then blood is perfect flowing in artery for tissues, and no pain in the legs, 

New borne = -0.6 % sugar in tissues

** data = 5.84 % sugar in tissues  

Over age data = 8.5 % sugar in tissues 

New borne = -0.6 % plaque in cells of artery

** data = 5.84 % plaque in cells of artery  

Over age data = 8.5 % plaque in cells of artery 

OVER AGE DATA = 8.5 % SUGAR IN TISSUES 

Normal cell membrane = 100 (40 % lipids + 55 % proteins + 5 % carbohydrate) 

Over age = 95 % water of cell 

Over age = 8.5 % sugar in tissues  

Over age = 97.9 = H2PO4 = Phosphate of tissues +

   Total = 201.4

    = a2 + b2 = c2  

    = a2 ((Over age) + b2 Cell membrane = c2 

    = a2 201.4 + b2 100 = c2 

    = a2 40561.96 + b2 10000 = c2         

    = a + b = 50561.96 = c2 

    = a + b = 50561.96 / 224.85 = 224.86

    = a + b = 224.86 / 2.5 (H2= A//T DNA) = 89.944

    = a + b = 89.944 / 1.987 H = 45.25

    = a + b = 45.25 = COOH = carboxylic acid, 

CONDITION OF DNA  

    = a / b = 224.86 / 2.5 (H2= A//T DNA) = 89.944

    = a / b = 89.944 / 3.75 (H3= C///G DNA) = 23.98

    = a / b = 23.98 * 50 ratio = 1199

    = a / b = 1199 / 34.62A = 34.63A

    = a / b = 35A = distance of one helix  

    = over age = 35A / 10 mononucleotide = 3.5

    =          = 3.5A distance between two base pair, 

So here artery is swollen and DNA helix is also swollen 3.5A distance between two base pair, and it is origin of sugar + plaque into the over age, 

Here are same data of ** and over age, and its meant that process is contineu of sugar + plaque in arteries, for example the sugar + plaque speed was started from ** age 5.84 % per year, and today is 8.5 % per year, and the 10 % per year speed is end or heigh level of sugar + plaque in arteries, which will rise up pain and blocking to blood flow into the tissues,