They become the larger veins to return to heart. If one where to trace the toeÊthrough the heart and back to theÊtoeÊby naming in order the major vessels and structures through whichÊblood flows.
Blood travels from the heart through the capillaries that links the blood to a vein and artery. The blood travels from the heart to the inferior vena cava which leads to the femoral vein, to the vein in the foot to the capillaries into the toe.
starting in the left atrium
it goes throught the bicuspid valve (left atrioventricular valve)
into the left ventricle
through the aortic semilunar valve
into the aorta
down the descending thoracic aorta
out the inferior mesenteric artery
into the capaliary loops of the sigmoid colon
info the inferior mesenteric vein
into the splenic vein
into the hepatic portal vein
into the capaliary loops of the liver (liver sinusoids)
into the hepatic vein
into the inferior vena cava
into the right atrium
down the tricuspid valve (right atrioventricular valve)
into the right ventricle
up the pulmonary semilunar valve
into the pulmonary trunk
out the pulmonary artieries
into the capilary loops of the lungs
into the pulmonary veins
back into the left atrium
bicuspid valve-->
left ventricle of heart-->
aortic valve-->
ascending aorta-->
aortic arch-->
thoracic aorta-->
abdominal aorta-->
right common iliac artery and /or left common iliac artery (abdominal aorta splits to form right and left common iliac arteries, adjust for which Trace_blood_flow_from_bicuspid_valve_to_the_tricuspid_valve_by_way_of_the_toeyou follow) -->
right external iliac artery -->
right femoral artery -->
right popliteal artery-->
right anterior tibial artery-->
right dorsal pedis artery-->
right arcuate artery-->
right dorsal metatarsal artery-->
right dorsal digital artery-->
arteriole-->
capillary-->
venule-->
right dorsal digital vein-->
right dorsal metatarsal vein-->
right dorsal venous arch-->
right great saphenous vein-->
right femoral vein-->
right external iliac vein-->
right common iliac vein-->
Inferior vena cava-->
right atrium of the heart-->
tricuspid valve
normal or highest normal blood pressure for 76years old male
use a magical vampire
Note: Mitral valve = bicuspid valve = aortic valve. And tricuspid valve = right atrioventricular valve. Blood flows through the aortic valve --> aorta --> arteries --> arterioles --> capillaries in the great toe --> venules --> veins --> superior and inferior venacavae --> right atrium --> tricuspid valve. This above is incorrect. The Mitral valve is the bicuspid valve but it is NOT the aortic valve. So blood flows from the Mitral valve to the left ventricle to the aortic valve to the aorta. The rest appears correct.
From mitral valve the blood will go to left ventricle. From there, the blood will go to ascending aorta. Then arch of aorta. Then descending aorta. Then abdominal aorta. Then to common iliac artery. then to external iliac artery. Which continue as the femoral artery. Then popliteal artery. Then posterior tibial artery. Then medial and lateral planter arteries. Then the branches will go to your great toe.
Rheumatic heart disease is caused as a sequel of beta haemolytic streptococcal infection. It affects the mitral valve most commonly. All the four heart valves originate from the same embryonic cell rest. The golden question is why the mitral valve in involved most commonly and not others. The reason is very simple. You have to look at the hydrodynamics of the blood flow through the cardiovascular system. Blood flows in similar fashion through right and left side of the heart. But the pressure in left side is much more than in the right side. It is about 120 mm of mercury in the left and about 25 mm of mercury in the right side in the heart. So when the left ventricle contracts, blood strike on the mitral valve with much greater force than it strikes the tricuspid valve as the valve closes down. So the antibody/ antibodies in the blood also strike with great force on the mitral valve. So it is most commonly involved. The second most common valve is valve in aortic valve. Here again the pressure is high. About 120 mm of mercury. But there is way out for the blood to flow away. So the pressure is not maintained in sustained way. The strike of the blood against the valve is not as consistent. The third valve to get affected is tricuspid valve. Here the pressure is less as compared to the left side of the heart. The forth valve is pulmonary valve. Here the cavity is not tightly closed. Blood can flow away. So it is least affected.
Deoxygenated blood from the body enters the right atrium. It flows through the tricuspid valve into the right ventricle. Contraction of the ventricle then closes the tricuspid valve and forces open the pulmonary valve. Blood flows into the pulmonary artery. This branches immediately, carrying blood to the right and left lungs. Here the blood gives up carbon dioxide and takes on a fresh supply of oxygen. The capillary beds of the lungs are drained by venules that are the tributaries of the pulmonary veins. Four pulmonary veins, two draining each lung, carry oxygenated blood to the left atrium of the heartFrom the left atrium, Blood flows through the mitral valve into the left ventricle. Contraction of the ventricle closes the mitral valve and opens the aortic valveat the entrance to the aorta. The first branches from the aorta occur just beyond the aortic valve still within the heart. Two openings lead to the right and left coronary arteries, which supply blood to the heart itself.
The short answer is, with great difficulty. Theoretically you would collect a blood sample and have it analyzed at a reference laboratory for levels of trace minerals in the blood. In reality, drawing blood from a buffalo is extremely difficult and can be quite dangerous. Also, to the best of my knowledge there is little or no information on normal levels of trace minerals in buffalo, and no reference lab that can run the sample and tell you if the levels are high, normal or low.
Great Drives - 1996 Natchez Trace was released on: USA: 5 July 2006
the valve at the entrance to the pulmonary trunk from the right ventricle; it consists of semilunar cusps (valvules), which are usually arranged in the adult in right anterior, left anterior, and posterior positions; however, they are named in accordance with their embryonic derivation; thus the posteriorly located cusp is designated as the left cusp, the right anteriorly located cusp is designated the right cusp, and the left anteriorly positioned cusp is called the anterior cusp whereas a tricuspid valve is the valve closing the orifice between the right atrium and right ventricle of the heart; its three cusps are called anterior, posterior, and septal.
The atrium and ventricles don't DO anything, they're just chambers in the heart. The heart is made up of four chambers - the right atria, the right ventricle, the left atria, and the left ventricle. Blood passes through these four chambers and then is pumped out to wherever it needs to go. Atrium: is the chamber in the heart designed to receive the blood from the body tissues. Ventricle: where the atrium empties into; Muscular chamber designed to pump the blood forward through the arteries.
The Buffalo Trace Distillery can be found in Kentucky at 113 Great Buffalo Trace Frankfort, KY 40601. They can also be reached by calling (502) 696-5926.
Abraham
Yes, genes can be inherited from even great-great-great-great grandparents!
Great saphenous --> External iliac --> Common iliac --> Inferior vena cava --> Heart --> Pulmonary arteries --> Lungs --> Pulmonary veins --> Heart --> Aorta --> Common carotid --> Internal carotid