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 leg you 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
system is highly interconnected and alternative routes can be followed within the arteries and veins of the lower limbs
left atrium -> left ventricle-> ascending aorta > aortic arch > thoracic(descending) aorta > abdominal aorta > right common iliac artery > right external iliac artery > femoral artery > popliteal artery > tibial artery> which splits into the anterior and posterior tibial artery
the anterior tibial artery > dorsalis pedis(which supplies the big toe) and several other arteries that supply the dorsal surface of the toes
the posterior tibial artery gives rise to the medial and lateral and deep plantar arteries which supply the plantar(bottom) surface of the toes
Starting from blood in the Left Ventricle ;
blood then flows through the Aorta ;
then to the Femoral artery ;
then to smaller ( thinner ) Arteries ;
the through the smaller Arterioles that leads to the left big toe ;
then through the smallest Capillaries that surround the cells in the left big toe .
trace the path taken by blood from the heart to all parts of the body and back to the heart.
The heart is approximately the size of your fist and is located in the middle/left part of your chest.
duhgfy4r
If the left ventricle is weak, it causes the volume to back up. The increase volume, over time, will result in ventricular dilation.
yes, it does pass because when the de oxygenated blood comes through the left atrium the through the valves then into the left ventricle and goes to the lungs the it gets oxygenated but the de oxygenated blood goes through the veins and the oxygenated blood goes through the arteries and the capillaries join the both back to the process when it goes to the lung it gets oxygenated and the it goes back into the right atrium after that through the other valves the into the right ventricle then it goes through a big pipe called the AYOTA that is the process of the heart.
true big boi
Left Atrial Abnormality is a finding on electrocardiograms (EKG). It is suggestive but not diagnostic of an enlarged left atrium, the chamber receiving blood from the lungs. The most common cause of a big left atrium is high blood pressure but it is by far not the only cause. Other causes include mitral valve disease (valve separating left atrium and left ventricle) and left heart failure (cardiomyopathies).
You have aorta or systemic aorta that arise from your heart. This very big artery arise from the left ventricle. You have a big pulmonary aorta, that arise from your right ventricle. The systemic aorta is the bigger than pulmonary aorta. Although both of them carry the same amount of blood.
The heart is approximately the size of your fist and is located in the middle/left part of your chest.
The ventricles of the heart are most commonly known; there are ventricles in the brain, however.
as big as your little finger
duhgfy4r
It's a big blood vessel close to the heart.
With a big and powerful heart.
If the left ventricle is weak, it causes the volume to back up. The increase volume, over time, will result in ventricular dilation.
Yes, the heart is a two part pump. The right side of the heart receives deoxygenated blood from the body and pumps it to the lungs. The left side of the heart receives oxygenated blood from the lungs and pumps it to the body.
In the heart, the left ventricle contracts, pushing red blood cells into the aorta, the body's largest artery. From here, blood moves through a series of increasingly smaller arteries, until it reaches a capillary, the junction between arteries and veins. Here oxygen molecules detach from the red blood cells and slip across the capillary wall into body tissue. Now de-oxygenated, blood begins its return to the heart. It passes through increasingly larger veins to eventually reach the right atrium. It enters the right ventricle, which pumps it through the pulmonary arteries into the lungs, to pick up more oxygen. Oxygenated, blood reenters the left atrium, moves into the left ventricle, and the blood's journey begins again.
only if the blood is from the big toe on your left foot.