blood vessels
Post on 23-Feb-2016
65 Views
Preview:
DESCRIPTION
TRANSCRIPT
BLOOD VESSELS
1 – lumen 2 –
vasoconstriction 3 – vasodilation 4 – veins 5 – arteries 6 – arterioles 7 – venules
The central cavity of a blood vessel is called the _______. Reduction of the diameter of this cavity is called __________, and enlargement of the vessel diameter is called ____________. Blood is carried to the heart by _________ and away from the heart by ___________. Capillary beds are supplied by ___________ and drained by __________.
Q 13
Arteries are high-pressure vessels
Veins are low-pressure vessels
Blood flows from high pressure to low pressure
Venous valves are to prevent backflow of blood
Q 14
Q 15- events that aid in venous return of blood Skeletal muscle
activity Breathing
A ◦ Artery◦ Thick tunica media◦ Small round lumen
B◦ Vein◦ Thin tunica media◦ Valve◦ Collapsed lumen
C◦ Capillary◦ Single layer
Q 16
1 – A 2 – B 3 – A 4 – A 5 – C 6 – B 7 - C
Single thin layer of endothelium
Bulky middle coat Provides a smooth
surface to decrease resistance to blood flow
Only tunic in capillaries
Also called adventitia
Only tunic that pays role in BP reg
Supporting coat
Vertebral Brachiocephalic Superior vena cava Brachial Inferior vena cava Renal Radial Common iliac Internal iliac Greater saphenous Posterior tibial
Internal jugular Subclavian Axillary Cephalic Hepatic Median cubital Ulnar Femoral Popliteal Small saphenous Anterior Tibial
VEINS
External carotid Vertebral Brachiocephalic Brachial Renal Aorta Radial Common iliac Internal iliac Popliteal Anterior tibial
Internal carotid Common carotid Subclavian Axillary Celiac trunk Superior
mesenteric Ulnar Inferior mesenteric Exterior iliac Femoral Posterior tibial
ARTERIES
Deep veins, draining the forearm◦ Radial, Ulnar
Vein that receives blood from the arm via axillary v.◦ Subclavian
Veins drain venous blood from myocardium into coronary sinus◦ Cardiac
Vein drains kidney◦ Renal
Vein drains dural sinuses of brain◦ Internal jugular
Two veins, join to be superior vena cava◦ Brachiocephalic
Veins drain leg and foot◦ Anterior tibial, Posterior
tibial
Q 18
Vein carries nutrient-rich blood from digestive organs to liver◦ Hepatic portal
Superficial vein drains lateral aspect of arm◦ Cephalic
Vein drains ovaries or testes◦ Gonadal
Vein drains thorax, empties into sup vc◦ Azygos
Largest vein below thorax◦ Inferior vena cava
Vein drains liver◦ Hepatic
Three veins form/empty into hepatic portal vein◦ Gastric, inf & sup
mesenteric Longest superficial vein
of body, in leg◦ Greater saphenous
Vein formed by union of ext and int iliac veins◦ Common iliac
Deep vein of thigh ◦ Femoral
Q 19
Two arteries formed by division of brachiocephalic trunk◦ Common carotid,
Subclavian First artery branches
off aorta – serves heart◦ Coronary
Two paired arteries, serving brain◦ Internal carotid,
Vertebral Largest artery of body
◦ Aorta
Arterial network on dorsum of foot◦ Dorsalis pedis
Artery serves posterior thigh◦ Deep femoral
Artery supplies diaphragm◦ Phrenic
Artery splits to form radial and ulnar a◦ Brachial
Artery generally auscultated for BP in arm◦ Brachial
Q 20
Artery supplies last half of large intestine◦ Inferior mesenteric
Artery serves the pelvis◦ Internal iliac
External iliac becomes this entering thigh◦ Femoral
Major artery serving arm◦ Brachial
Artery supplies most of small intestine◦ Superior Mesenteric
Terminal branches of descending aorta◦ Common Iliac
Arterial trunk has 3 major branches, serve liver, spleen, stomach◦ Celiac trunk
Major artery, serving tissues external to skull◦ External Carotid
Three arteries serving leg inferior to knee◦ Anterior Tibial,
Peroneal, Posterior Tibial
Artery used to feel pulse at wrist◦ Radial
Damage to left semilunar would interfere with blood flow into this vessel◦ Aorta
Q 21
Q 22
An anastomosis that allows communication between posterior and anterior blood supplies of brain◦ Circle of Willis
Vessel carrying O2 & nutrient-rich blood to fetus across placenta◦ Umbilical vein
Shunt that allows most fetal blood to bypass liver◦ Ductus Venosus
Two pairs of arteries from internal carotid artery◦ Anterior Cerebral, Middle
Cerebral Posterior cerebral arteries
serving brain arise from here◦ Basilar artery
Fetal shunt between aorta and pulmonary trunk allows lungs to be bypassed by the blood◦ Ductus Arteriosus
Opening in interatrial septum shunts fetal blood from rt to left atrium, bypassing lungs◦ Foramen Ovale
Q 23
Why are the lungs bypassed by the circulating blood in the fetus?
Fetal lungs are collapsed because the fetus does not breathe
Q 24
Term that does not belong 1. vein 2. carotid artery 3. vasodilation 4. high blood pressure 5. vasodilation
Q 25
BLOOD PRESSURE
Expansion and recoil of an artery during heart activity◦ Pulse
Pressure exerted by the blood against the blood vessel walls◦ Blood pressure
Factors related to blood pressure◦ Cardiac output, peripheral
resistance Event primarily
responsible for peripheral resistance◦ Constriction of arterioles
Blood pressure during heart contraction◦ Systolic BP
Blood pressure during heart relaxation◦ Diastolic BP
Site where blood pressure determinations are usually made◦ Over arteries
Points at the body surface where the pulse may be felt◦ Pressure points
Sounds heard over a blood vessel when vessel is partially compressed◦ Sounds of Korotkoff
Q 26
All exchanges to and from the blood and tissue cells occur through the interstitial fluid.
Generally speaking, substances tend to move according to their concentration gradients by the process of diffusion.
Substances that are fat soluble pass directly through the plasma membranes of the capillary endothelial cells; other substances pass by via capillary clefts, fenestrations, or vesicles.
The most permeable capillaries are those exhibiting fenestrations.
Q 27
Capillaries that have capillary clefts and fenestrations tend to be leaky and two forces acting at capillary beds cause fluid flows.
The pressure that forces fluid out of the capillaries is hydrostatic pressure . . .
. . . and the force that causes fluid to reenter the blood is osmotic pressure.
Hence fluid is forced into the interstitial fluid at the arteriole end of the bed and into the blood at the venule end of the capillary bed.
Q 28
D I
Increased diameter of arterioles
Increased urine output Sudden change in
position from reclining to standing
Physical training Alcohol Hemorrhage
Increased blood viscosity
Increased cardiac output
Increased pulse rate Anxiety, fear Physical exercise Nicotine Arteriosclerosis
Thigh – femoral artery
Forearm – brachial artery
Calf – popliteal artery
Lower jaw – facial artery
Thumb – radial artery
Q 29
1. Renin, released by the kidney, causes a decrease in blood pressure.
2. The decreasing efficiency of the sympathetic nervous system vasoconstrictor functioning, due to aging, leads to a type of hypotension called sympathetic hypotension.
1. increase
2. orthostatic
Q 30
3. Brain
4. Stethoscope
5. Low
3. Two body organs in which vasoconstriction rarely occurs are the heart and the kidneys.
4. A sphygmomanometer is used to take the apical pulse.
5. The pulmonary circulation is a high-pressure circulation.
6. true
7.vasoconstricting
8. hypertension
6. The fetal equivalent of functional lungs and liver is the placenta.
7. Cold has a vasodilating effect.
8.Thrombophlebitis is called a silent killer.
1. 4th 2. lungs 3. ductus
venosus 4. umbilical vein 5. placenta 6. fetal liver 7. umbilical
artery 8. occluded
9. deaths 10. atherosclerosis 11. menopause
12. aerobic exercise
13. atherosclerosis 14. varicose veins 15. feet 16. legs
Q 31
top related