Blood flow in the leg begins at the femoral artery. From there, it runs to the popliteal artery, anterior tibial artery, dorsalis pedis artery, and finally, the dorsal metatarsal arteries.
when was the trace the development of computers invented?
Germany.
It started in Tennessee.
Compass
you can trace the lineage of the nco back to ...
Right Femoral Artery -> Right External Iliac Artery -> Right Common Iliac Artery -> Abdominal Aorta -> Aorta -> Right Coronary Artery I think below is a better answer: R Femoral A. > R Ext. Iliac > R Common Iliac > Abdominal Aorta> Thoracic Aorta > Aortic Arch
I believe you would use a tracer chemical and an MRI or CT scanner.
Why would you want to do that. You would have to cut open the heart and watch the blood move from the pulmonary artery through the heart and into the right radial artery.
A person can trace the blood flow from the left coronary artery to the apex of the heart and to the right atrium, by following inter ventricular artery. Blood also will move through the pulmonary semi lunar valve.
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
Blood flows from the heart to the arteries and then from the arteries to the
From the aortic arch, blood flows through the left subclavian artery, then into the axillary artery, followed by the brachial artery. From the brachial artery, blood then reaches the radial artery in the forearm, supplying the distal part of the arm and hand with oxygenated blood.
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.
Here we go! [First, the pulmonary circuit.] R atrium; R ventricle; pulmonary artery (L or R); arteriole; capillary adjacent to an alveolus of lung; venule; pulmonary vein [Now the blood returns to the heart for the systemic (body) circuit.] L atrium; L ventricle; aorta; R iliac artery; arteriole; capillary in a toe of the R foot; venule; R femoral vein; vena cava; back to the R atrium
Wow! What a question: From the right femoral vein up to the inferior vena cava, then into the heart's right atrium, past the tricuspid valve, into the right ventricle, then up past the pulmonary semilunar valve, out of the heart and into the pulmonary trunk, into the pulmonary arteries, to the lungs, then the pulmonary veins bring the blood back to the heart's left atrium, past the mitral valve, into the left ventricle, past the aortic semilunar valve, then out of the heart into the Aortic arch, down the dorsal Aorta, into the inferior mesenteric artery, and then into the colon, or large intestine. That was one heck of a trip!
Generally speaking, the Left Coronary Artery flows to the Anterior Inter-ventricular Artery, which is located at the Apex of the heart. It then De-oxygenates in the capillary beds where it flows to the Great Cardiac Vein.Finally blood flows to the Coronary sinus which immediately enters the Right Atrium.
From the Femoral vein, you would go to the inferior vena cava, which then leads to the right atrium of the heart. From there, you'd go tothe right AV valve to the right ventricle and then to the pulmonary SL valve. Then, you'd go to the pulmonary artery and then the lungs. Once in the lungs, go to the lower lobe of the right lung. There are three lobes within the rght lung, unlike the left lung, wich has two. The three lobes are the Superior lobe, at the top, the Middle lobe, in the middle, and lastly, the Inferior lobe at the bottom