1. Blood Vessels
Blood is carried in a closed system of vessels that begins and ends at the heart
The three major types of vessels are arteries, capillaries, and veins
Arteries carry blood away from the heart, veins carry blood toward the heart
Capillaries contact tissue cells and directly serve cellular needs

2. Generalized Structure of Blood Vessels
Arteries and veins are composed of three tunics – tunica interna, tunica media, and tunica externa
Lumen – central blood-containing space surrounded by tunics
Capillaries are composed of endothelium with sparse basal lamina

3. Generalized Structure of Blood Vessels
Figure 19.1b

4. Blood Vessel Anatomy
Table 19.1

5. Elastic (Conducting) Arteries
Thick-walled arteries near the heart; the aorta and its major branches
Large lumen allow low-resistance conduction of blood
Contain elastin in all three tunics
Withstand and smooth out large blood pressure fluctuations
Serve as pressure reservoirs

6. Muscular (Distributing) Arteries and Arterioles
Muscular arteries – distal to elastic arteries; deliver blood to body organs
Have thick tunica media with more smooth muscle
Active in vasoconstriction
Arterioles – smallest arteries; lead to capillary beds
Control flow into capillary beds via vasodilation and constriction

7. Capillaries are the smallest blood vessels
Walls consisting of a thin tunica interna, one cell thick
Allow only a single RBC to pass at a time
Pericytes on the outer surface stabilize their walls
There are three structural types of capillaries: continuous, fenestrated, and sinusoids

8. Vascular Components
Figure 19.2a, b

9. Continuous Capillaries
Continuous capillaries are abundant in the skin and muscles
Endothelial cells provide an uninterrupted lining
Adjacent cells are connected with tight junctions
Intercellular clefts allow the passage of fluids

10. Continuous Capillaries
Continuous capillaries of the brain:
Have tight junctions completely around the endothelium
Constitute the blood-brain barrier

11. Continuous Capillaries
Figure 19.3a

12. Fenestrated Capillaries
Found wherever active capillary absorption or filtrate formation occurs (e.g., small intestines, endocrine glands, and kidneys)
Characterized by:
An endothelium riddled with pores (fenestrations)
Greater permeability than other capillaries

13. Fenestrated Capillaries
Figure 19.3b

14. Sinusoids
Highly modified, leaky, fenestrated capillaries with large lumens
Found in the liver, bone marrow, lymphoid tissue, and in some endocrine organs
Allow large molecules (proteins and blood cells) to pass between the blood and surrounding tissues
Blood flows sluggishly, allowing for modification in various ways

15. Sinusoids
Figure 19.3c

16. Capillary Beds
A microcirculation of interwoven networks of capillaries, consisting of:
Vascular shunts – metarteriole–thoroughfare channel connecting an arteriole directly with a postcapillary venule
True capillaries – 10 to 100 per capillary bed, capillaries branch off the metarteriole and return to the thoroughfare channel at the distal end of the bed

17. Capillary Beds
Figure 19.4a

18. Capillary Beds
Figure 19.4b

19. Blood Flow Through Capillary Beds
Precapillary sphincter
Cuff of smooth muscle that surrounds each true capillary
Regulates blood flow into the capillary
Blood flow is regulated by vasomotor nerves and local chemical conditions

20. Venous System: Venules
Venules are formed when capillary beds unite
Allow fluids and WBCs to pass from the bloodstream to tissues
Postcapillary venules – smallest venules, composed of endothelium and a few pericytes
Large venules have one or two layers of smooth muscle (tunica media)

21. Venous System: Veins Veins are: Formed when venules converge
Composed of three tunics, with a thin tunica media and a thick tunica externa consisting of collagen fibers and elastic networks
Capacitance vessels (blood reservoirs) that contain 65% of the blood supply

22. Veins have much lower blood pressure and thinner walls than arteries
Venous System: Veins
Veins have much lower blood pressure and thinner walls than arteries
To return blood to the heart, veins have special adaptations
Large-diameter lumens, which offer little resistance to flow
Valves (resembling semilunar heart valves), which prevent backflow of blood
Venous sinuses – specialized, flattened veins with extremely thin walls (e.g., coronary sinus of the heart and dural sinuses of the brain)

23. Merging blood vessels, more common in veins than arteries
Vascular Anastomoses
Merging blood vessels, more common in veins than arteries
Arterial anastomoses provide alternate pathways (collateral channels) for blood to reach a given body region
If one branch is blocked, the collateral channel can supply the area with adequate blood supply
Thoroughfare channels are examples of arteriovenous anastomoses

24. Blood Flow
Actual volume of blood flowing through a vessel, an organ, or the entire circulation in a given period:
Is measured in ml per min.
Is equivalent to cardiac output (CO), considering the entire vascular system
Is relatively constant when at rest
Varies widely through individual organs

25. Blood Pressure (BP)
Force per unit area exerted on the wall of a blood vessel by its contained blood
Expressed in millimeters of mercury (mm Hg)
Measured in reference to systemic arterial BP in large arteries near the heart
The differences in BP within the vascular system provide the driving force that keeps blood moving from higher to lower pressure areas

26. Resistance – opposition to flow
Measure of the amount of friction blood encounters
Generally encountered in the systemic circulation
Referred to as peripheral resistance (PR)
The three important sources of resistance are blood viscosity, total blood vessel length, and blood vessel diameter

27. Factors Aiding Venous Return
Venous BP alone is too low to promote adequate blood return and is aided by the:
Respiratory “pump” – pressure changes created during breathing suck blood toward the heart by squeezing local veins
Muscular “pump” – contraction of skeletal muscles “milk” blood toward the heart
Valves prevent backflow during venous return
PLAY
InterActive Physiology ®: Anatomy Review:
Blood Vessel Structure and Function, pages 3–27

28. Factors Aiding Venous Return
Figure 19.6

29. Maintaining Blood Pressure
Maintaining blood pressure requires:
Cooperation of the heart, blood vessels, and kidneys
Supervision of the brain

30. Maintaining Blood Pressure
The main factors influencing blood pressure are:
Cardiac output (CO)
Peripheral resistance (PR)
Blood volume
Blood pressure = CO x PR
Blood pressure varies directly with CO, PR, and blood volume

31. Temperature Regulation
As temperature rises (e.g., heat exposure, fever, vigorous exercise):
Hypothalamic signals reduce vasomotor stimulation of the skin vessels
Heat radiates from the skin
Sweat also causes vasodilation via bradykinin in perspiration
Bradykinin stimulates the release of NO
As temperature decreases, blood is shunted to deeper, more vital organs

32. The vascular system has two distinct circulations
Circulatory Pathways
The vascular system has two distinct circulations
Pulmonary circulation – short loop that runs from the heart to the lungs and back to the heart
Systemic circulation – routes blood through a long loop to all parts of the body and returns to the heart

33. Differences Between Arteries and Veins
Delivery
Blood pumped into single systemic artery – the aorta
Blood returns via superior and interior venae cavae and the coronary sinus
Location
Deep, and protected by tissue
Both deep and superficial
Pathways
Fair, clear, and defined
Convergent interconnections
Supply/drainage
Predictable supply
Dural sinuses and hepatic portal circulation

34. Pulmonary Circulation
Figure 19.18b

35. Systemic Circulation
Figure 19.19

36. (b)
Common carotid arteries
Subclavian artery
Aortic arch
Coronary artery
Thoracic aorta
Branches of celiac trunk:
Renal artery
Superficial palmar arch
Radial artery
Ulnar artery
Internal iliac artery
Deep palmar arch •
Left gastric artery
Splenic artery
Common hepatic artery
Internal carotid artery
Vertebral artery
Brachiocephalic trunk
Axillary artery
Brachial artery
Abdominal aorta
Superior mesenteric artery
Gonadal artery
Common iliac artery
External iliac artery
Digital arteries
Femoral artery
Popliteal artery
Inferior mesenteric
artery
Ascending aorta
External carotid artery
Anterior tibial artery
Posterior tibial artery
Arcuate artery
Figure 19.20b

37. Ophthalmic artery Superficial temporal artery Basilar artery
Maxillary artery
Occipital artery
Facial artery
Vertebral artery
Internal
carotid artery
Lingual artery
External
carotid artery
Superior thyroid
artery
Common
carotid artery
Larynx
Thyrocervical
trunk
Thyroid gland
(overlying trachea)
Costocervical
trunk
Clavicle (cut)
Subclavian
artery
Brachiocephalic
trunk
Axillary
artery
Internal thoracic
artery
(b)
Figure 19.21b

38. Arteries of the Brain Anterior Cerebral arterial circle
(circle of Willis)
Frontal lobe
• Anterior
communicating
artery
Optic chiasma
Middle
cerebral
artery
• Anterior
cerebral artery
Internal
carotid
artery
• Posterior
communicating
artery
Pituitary
gland
• Posterior
cerebral artery
Temporal
lobe
Basilar artery
Pons
Occipital
lobe
Vertebral artery
Cerebellum
Posterior
(c)
(d)
Figure 19.21c,d

39. Common carotid
arteries
Vertebral artery
Thyrocervical trunk
Right subclavian
artery
Costocervical trunk
Suprascapular artery
Left subclavian
artery
Thoracoacromial artery
Axillary artery
Left axillary
artery
Subscapular artery
Brachiocephalic
trunk
Posterior circumflex
humeral artery
Posterior
intercostal
arteries
Anterior circumflex
humeral artery
Brachial artery
Anterior
intercostal
artery
Deep artery
of arm
Internal
thoracic
artery
Common
interosseous
artery
Descending
aorta
Radial
artery
Lateral
thoracic
artery
Ulnar
artery
Deep palmar arch
Superficial palmar arch
Digitals
(b)
Figure 19.22b

40. Arteries of the Abdomen
Liver (cut)
Diaphragm
Inferior vena cava
Esophagus
Celiac trunk
Left gastric
artery
Hepatic artery
proper
Left gastroepiploic
artery
Common hepatic
artery
Splenic artery
Right gastric artery
Spleen
Gallbladder
Stomach
Gastroduodenal
artery
Pancreas
(major portion
lies posterior
to stomach)
Right gastroepiploic
artery
Superior
mesenteric
artery
Duodenum
Abdominal aorta
(b)
Figure 19.23b

41. Arteries of the Abdomen
Opening
for inferior
vena cava
Diaphragm
Inferior phrenic
artery
Hiatus (opening)
for esophagus
Middle suprarenal
artery
Celiac trunk
Renal artery
Kidney
Superior
mesenteric artery
Lumbar arteries
Gonadal (testicular
or ovarian) artery
Abdominal aorta
Inferior
mesenteric artery
Median sacral
artery
Common iliac artery
Ureter
(c)
Figure 19.23c

42. Arteries of the Abdomen
Transverse colon
Celiac trunk
Superior
mesenteric artery
Middle colic artery
Intestinal arteries
Left colic artery
Right colic artery
Inferior
mesenteric artery
Ileocolic artery
Aorta
Ascending colon
Sigmoidal arteries
Descending colon
Ileum
Left common
iliac artery
Superior rectal
artery
Sigmoid colon
Cecum
Rectum
Appendix
(d)
Figure 19.23d

43. Arteries of the Lower Limbs
Common iliac artery
Internal iliac artery
Superior gluteal artery
External iliac artery
Deep artery of thigh
Popliteal
artery
Lateral circumflex
femoral artery
Medial circumflex
femoral artery
Anterior
tibial
artery
Obturator artery
Femoral artery
Fibular
artery
Posterior
tibial
artery
Adductor hiatus
Popliteal artery
Dorsalis
pedis artery
(from top
of foot)
Lateral
plantar
artery
Anterior tibial artery
Medial
plantar
artery
Plantar
arch
Posterior tibial artery
Fibular artery
(c)
Dorsalis pedis artery
Arcuate artery
Metatarsal arteries
(b)
Figure 19.24b, c

44. brachiocephalic veins Vertebral vein Internal jugular vein
Dural sinuses
Subclavian vein
External jugular vein
Right and left
brachiocephalic veins
Vertebral vein
Internal jugular vein
Cephalic vein
Superior vena cava
Brachial vein
Axillary vein
Basilic vein
Great cardiac vein
Splenic vein
Hepatic veins
Median cubital vein
Hepatic portal vein
Renal vein
Superior mesenteric
vein
Inferior mesenteric vein
Inferior vena cava
Ulnar vein
Radial vein
Digital veins
Internal iliac vein
Common iliac vein
External iliac vein
Femoral vein
Great saphenous vein
Popliteal vein
Posterior tibial vein
Anterior tibial vein
Fibular vein
Dorsal venous arch
Dorsal digital
veins
(b)
Figure 19.25b

45. Veins of the Head and Neck
Ophthalmic vein
Superficial
temporal vein
Facial vein
Occipital vein
Posterior
auricular vein
External
jugular vein
Vertebral vein
Internal
jugular vein
Superior and middle
thyroid veins
Brachiocephalic
vein
Subclavian
vein
Superior
vena cava
(b)
Figure 19.26b

46. Veins of the Brain Superior sagittal sinus Falx cerebri
Inferior sagittal
sinus
Straight sinus
Cavernous sinus
Junction of sinuses
Transverse sinuses
Sigmoid sinus
Jugular foramen
Right internal
jugular vein
(c)
Figure 19.26c

47. Veins of the Upper Limbs and Thorax
Internal jugular vein
External jugular vein
Brachiocephalic veins
Left subclavian vein
Right subclavian vein
Superior vena cava
Axillary vein
Azygos vein
Accessory hemiazygos vein
Brachial vein
Cephalic vein
Hemiazygos vein
Basilic vein
Posterior
intercostals
Inferior
Median
cubital vein
vena cava
Ascending
lumbar vein
Median
antebrachial
vein
Basilic vein
Ulnar vein
Cephalic
vein
Deep palmar
venous arch
Radial
vein
Superficial palmar
venous arch
Digital veins
(b)
Figure 19.27b

48. Veins of the Abdomen Inferior phrenic vein Hepatic veins
Inferior vena cava
Left
suprarenal vein
Right
suprarenal vein
Renal veins
Left ascending
lumbar vein
Right
gonadal vein
Lumbar veins
Left
gonadal vein
Common iliac vein
External iliac vein
Internal iliac vein
(b)
Figure 19.28b

49. Veins of the Abdomen Hepatic veins Gastric veins Liver Spleen
Inferior vena cava
Hepatic portal vein
Splenic vein
Right
gastroepiploic vein
Inferior
mesenteric vein
Superior
mesenteric vein
Small intestine
Large intestine
Rectum
(c)
Figure 19.28c

50. Fibular (peroneal) vein
Common iliac vein
Internal iliac vein
External iliac vein
Inguinal ligament
Femoral vein
Great saphenous
vein (superficial)
Great saphenous vein
Popliteal vein
Popliteal vein
Anterior tibial vein
Fibular (peroneal) vein
Fibular (peroneal) vein
Small saphenous vein
(superficial)
Anterior tibial vein
Posterior tibial vein
Dorsalis pedis vein
Plantar veins
Dorsal venous arch
Plantar arch
Metatarsal veins
Digital veins
(c)
(b)
Figure 19.29b, c