20-1 chapter 20 lecture outline see powerpoint image slides for all figures and tables pre-inserted...
TRANSCRIPT
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20-1
Chapter 20
Lecture Outline
See PowerPoint Image Slides
for all figures and tables pre-inserted into
PowerPoint without notes.
Copyright (c) The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
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20-2
Blood Vessels and Circulation
• General anatomy of blood vessels
• Blood pressure, resistance and flow
• Capillary exchange
• Venous return and circulatory shock
• Special circulatory routes
• Anatomy of – pulmonary circuit– systemic arteries and veins
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20-3
Anatomy of Blood Vessels
• Arteries carry blood away from heart• Veins carry blood back to heart• Capillaries connect smallest arteries to veins
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20-4
Vessel Wall
• Tunica interna (intima)– smooth inner layer that repels blood cells and platelets– simple squamous endothelium overlying a basement
membrane and layer of fibrous tissue
• Tunica media – middle layer– usually thickest; smooth muscle, collagen, some
elastic– smooth muscle for vasomotion
• Tunica externa (tunica adventitia)– outermost layer– loose connective tissue with vasa vasorum
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20-5
Large Vessels
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20-6
Arteries
• Conducting (elastic) arteries - largest– pulmonary, aorta and common carotid– tunica media consists of perforated sheets of
elastic tissue, alternating with thin layers of smooth muscle, collagen and elastic fibers
– expand during systole, recoil during diastole; lessens fluctuations in BP
• Distributing (muscular) arteries– distributes blood to specific organs; femoral
and splenic– smooth muscle layers constitute 3/4 of wall
thickness
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20-7
Medium Vessels
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20-8
Arteries and Metarterioles
• Resistance (small) arteries– arterioles control amount of blood to various
organs
• Metarterioles – short vessels connect arterioles to capillaries– muscle cells form a precapillary sphincter
about entrance to capillary
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20-9
Small Vessels
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20-10
Arterial Sense Organs
• Major arteries above heart• Carotid sinuses
– in walls of internal carotid artery– monitors BP – signaling brainstem
• HR and vessels dilate
• Carotid bodies– oval bodies near carotids– monitor blood chemistry
• adjust respiratory rate to stabilize pH, CO2, and O2
• Aortic bodies– in walls of aorta– same function as carotid bodies
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20-11
Capillaries
• Thoroughfare channel - metarteriole continues through capillary bed to venule
• Precapillary sphincters control which beds are well perfused– only 1/4 of the capillaries are open at a given
time
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20-12
Control of Capillary Bed Perfusion
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20-13
Control of Capillary Bed Perfusion
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20-14
Types of Capillaries
• Continuous - occur in most tissues– endothelial cells have tight junctions with intercellular
clefts (allow passage of solutes)
• Fenestrated - kidneys, small intestine– organs that require rapid absorption or filtration – filtration pores – spanned by very thin glycoprotein
layer - allows passage of only small molecules
• Sinusoids - liver, bone marrow, spleen– irregular blood-filled spaces; some have extra large
fenestrations, allow proteins and blood cells to enter
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20-15
Fenestrated Capillary
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20-16
Sinusoid in Liver
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20-17
Veins
• Veins – lower blood pressure: 10mmHg with little fluctuation– thinner walls, less muscular and elastic tissue – expand easily, have high capacitance– valves aid skeletal muscles in upward blood flow
• Venules– postcapillary venules more porous than capillaries– muscular venules have tunica media
• Venous sinuses– veins with thin walls, large lumens, no smooth muscle
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20-18
Blood Distribution, Resting Adult
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20-19
Circulatory Routes
• Most common route– heart arteries
arterioles capillaries
venules veins
• Portal system– blood flows through
two consecutive capillary networks before returning to heart
• hypothalamus - anterior pituitary
• found in kidneys• between intestines - liver
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20-20
Anastomoses• Point where 2 blood
vessels merge• Arteriovenous shunt
– artery flows directly into vein
• Venous anastomosis– most common, blockage
less serious– alternate drainage of
organs
• Arterial anastomosis– collateral circulation
(coronary)
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20-21
Principles of Blood Flow• Blood flow: amount of blood flowing
through a tissue in a given time (ml/min)• Perfusion: rate of blood flow per given mass of tissue (ml/min/g)
• Important for delivery of nutrients and oxygen, and removal of metabolic wastes
• Hemodynamics– physical principles of blood flow based on
pressure and resistance• F P/R, (F = flow, P = difference in pressure,
R = resistance to flow)
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20-22
Blood Pressure
• Force that blood exerts against a vessel wall• Measured at brachial artery of arm• Systolic pressure: BP during ventricular systole• Diastolic pressure: BP during ventricular diastole• Normal value, young adult: 120/75 mm Hg• Pulse pressure: systolic - diastolic
– important measure of stress exerted on small arteries
• Mean arterial pressure (MAP):– measurements taken at intervals of cardiac cycle, best
estimate: diastolic pressure + (1/3 of pulse pressure)– varies with gravity: standing; 62 - head, 180 - ankle
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20-23
BP Changes With Distance
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20-24
Blood Pressure
• Importance of arterial elasticity– expansion and recoil maintains steady flow of
blood throughout cardiac cycle, smoothes out pressure fluctuations and stress on small arteries
• BP rises with age: arteries less distensible
• BP determined by cardiac output, blood volume and peripheral resistance
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20-25
Abnormalities of Blood Pressure
• Hypertension– chronic resting BP > 140/90– consequences
• can weaken small arteries and cause aneurysms
• Hypotension– chronic low resting BP– caused by blood loss, dehydration, anemia
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20-26
Peripheral Resistance
• Blood viscosity - by RBC’s and albumin viscosity with anemia, hypoproteinemia viscosity with polycythemia , dehydration
• Vessel length– pressure and flow with distance (friction)
• Vessel radius - very powerful influence over flow– most adjustable variable, controls resistance
quickly– vasomotion: change in vessel radius
• vasoconstriction, vasodilation
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20-27
Peripheral Resistance
• Vessel radius (cont.)– laminar flow - flows in layers, faster in center– blood flow (F) proportional to the fourth power
of radius (r), F r4
• arterioles can constrict to 1/3 of fully relaxed radius
– if r = 3 mm, F = (34) = 81 mm/sec; if r = 1 mm, F = 1mm/sec
– 3X in radius results in 81X in flow
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20-28
Flow at Different Points
• From aorta to capillaries, flow for 3 reasons– greater distance, more friction to flow– smaller radii of arterioles and capillaries– farther from heart, greater total cross
sectional area
• From capillaries to vena cava, flow again– large amount of blood forced into smaller
channels– never regains velocity of large arteries
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20-29
Regulation of BP and Flow
• Local control
• Neural control
• Hormonal control
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20-30
Local Control of BP and Flow
• Metabolic theory of autoregulation– tissue inadequately perfused, wastes
accumulate = vasodilation• Vasoactive chemicals
– substances that stimulate vasomotion; histamine, bradykinin
• Reactive hyperemia– blood supply cut off then restored
• Angiogenesis - growth of new vessels– regrowth of uterine lining, around
obstructions, exercise, malignant tumors– controlled by growth factors and inhibitors
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20-31
Neural Control of BP and Flow
• Vasomotor center of medulla oblongata: – sympathetic control stimulates most vessels
to constrict, but dilates vessels in skeletal and cardiac muscle
– integrates three autonomic reflexes• baroreflexes• chemoreflexes• medullary ischemic reflex
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20-32
Neural Control: Baroreflex• Changes in BP detected by stretch receptors
(baroreceptors), in large arteries above heart– aortic arch– aortic sinuses (behind aortic valve cusps)– carotid sinus (base of each internal carotid artery)
• Autonomic negative feedback response– baroreceptors send constant signals to brainstem BP causes rate of signals to rise, inhibits vasomotor
center, sympathetic tone, vasodilation causes BP BP causes rate of signals to drop, excites vasomotor
center, sympathetic tone, vasoconstriction and BP
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20-33
BaroreflexNegative Feedback Response
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20-34
Neural Control: Chemoreflex
• Chemoreceptors in aortic bodies and carotid bodies– located in aortic arch, subclavian arteries, external
carotid arteries
• Autonomic response to changes in blood chemistry– pH, O2, CO2
– primary role: adjust respiration– secondary role: vasomotion
• hypoxemia, hypercapnia and acidosis stimulate chemoreceptors, instruct vasomotor center to cause vasoconstriction, BP, lung perfusion and gas exchange
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20-35
Other Inputs to Vasomotor Center
• Medullary ischemic reflex – inadequate perfusion of brainstem
• cardiac and vasomotor centers send sympathetic signals to heart and blood vessels
cardiac output and causes widespread vasoconstriction
BP
• Other brain centers– stress, anger, arousal can also BP
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20-36
• Angiotensinogen (prohormone produced by liver)
Renin (kidney enzyme released by low BP)
• Angiotensin I
ACE (angiotensin-converting enzyme in
lungs)
ACE inhibitors block this enzyme lowering BP
• Angiotensin II– very potent vasoconstrictor
Hormonal Control of BP and Flow
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20-37
Hormonal Control of BP and Flow
• Aldosterone– promotes Na+ and water retention by kidneys– increases blood volume and pressure
• Atrial natriuretic factor ( urinary sodium excretion)
– generalized vasodilation• ADH (water retention)
– pathologically high concentrations, vasoconstriction
• Epinephrine and norepinephrine effects– most blood vessels
• binds to -adrenergic receptors, vasoconstriction
– skeletal and cardiac muscle blood vessels• binds to -adrenergic receptors, vasodilation
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20-38
Routing of Blood Flow
• Localized vasoconstriction– pressure downstream drops, pressure
upstream rises– enables routing blood to different organs as
needed
• Arterioles - most control over peripheral resistance– located on proximal side of capillary beds– most numerous – more muscular by diameter
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20-39
Blood Flow in Response to Needs
• Arterioles shift blood flow with changing priorities
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20-40
Blood Flow Comparison
• During exercise perfusion of lungs, myocardium and skeletal
muscles perfusion of kidneys and digestive tract
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20-41
Capillary Exchange
• Only occurs across capillary walls between blood and surrounding tissues
• 3 routes across endothelial cells– intercellular clefts– fenestrations– through cytoplasm
• Mechanisms involved– diffusion, transcytosis, filtration and
reabsorption
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20-42
Capillary Exchange - Diffusion
• Most important mechanism
• Lipid soluble substances– steroid hormones, O2 and CO2 diffuse easily
• Insoluble substances– glucose and electrolytes must pass through
channels, fenestrations or intercellular clefts
• Large particles - proteins, held back
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20-43
Capillary Exchange - Transcytosis
• Pinocytosis - transport vesicles across cell - exocytosis
• Important for fatty acids, albumin and some hormones (insulin)
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20-44
Capillary Exchange - Filtration and Reabsorption
• Opposing forces– blood (hydrostatic) pressure drives fluid out of
capillary• high on arterial end of capillary, low on venous end
– colloid osmotic pressure (COP) draws fluid into capillary
• results from plasma proteins (albumin)- more in blood
• oncotic pressure = net COP (blood COP - tissue COP)
• Hydrostatic pressure– physical force exerted against a surface by a
liquid, (BP is an example)
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20-45
Capillary Filtration and Reabsorption
• Capillary filtration at arterial end
• Capillary reabsorption at venous end
• Variations– location
(glomeruli- devoted to filtrationalveolar cap.- devoted to absorption)
– activity or trauma ( filtration)
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20-46
Causes of Edema
Capillary filtration ( capillary BP or permeability)
– poor venous return• congestive heart failure - pulmonary edema• insufficient muscular activity
– kidney failure (water retention, hypertension)– histamine makes capillaries more permeable
Capillary reabsorption– hypoproteinemia (oncotic pressure blood albumin)
cirrhosis, famine, burns, kidney disease
• Obstructed lymphatic drainage
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20-47
Consequences of Edema
• Tissue necrosis– oxygen delivery and waste removal impaired
• Pulmonary edema– suffocation
• Cerebral edema– headaches, nausea, seizures and coma
• Circulatory shock– excess fluid in tissue spaces causes low
blood volume and low BP
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20-48
Mechanisms of Venous Return
• Pressure gradient – 7-13 mm Hg venous pressure towards heart
• venules (12-18 mm Hg) to central venous pressure (~5 mm Hg)
• Gravity drains blood from head and neck• Skeletal muscle pump in the limbs• Thoracic pump
– inhalation - thoracic cavity expands (pressure ) abdominal pressure , forcing blood upward
– central venous pressure fluctuates• 2mmHg- inhalation, 6mmHg-exhalation• blood flows faster with inhalation
• Cardiac suction of expanding atrial space
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20-49
Skeletal Muscle Pump
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20-50
Venous Return and Physical Activity
• Exercise venous return in many ways– heart beats faster, harder - CO and BP– vessels of skeletal muscles, lungs and heart dilate
flow respiratory rate action of thoracic pump skeletal muscle pump
• Venous pooling occurs with inactivity– venous pressure not enough force blood upward– with prolonged standing, CO may be low enough to
cause dizziness or syncope• prevented by tensing leg muscles, activate skeletal m. pump
– jet pilots wear pressure suits
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Circulatory Shock
• Any state where cardiac output insufficient to meet metabolic needs
– cardiogenic shock - inadequate pumping of heart (MI)
– low venous return (LVR) shock - 3 principle forms1. hypovolemic shock - most common
– loss of blood volume: trauma, burns, dehydration
2. obstructed venous return shock – tumor or aneurysm
3. venous pooling (vascular) shock – next slide
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LVR Shock
• Venous pooling (vascular) shock– long periods of standing, sitting or widespread
vasodilation– neurogenic shock - loss of vasomotor tone,
vasodilation• causes from emotional shock to brainstem injury
• Septic shock– bacterial toxins trigger vasodilation and capillary
permeability
• Anaphylactic shock– severe immune reaction to antigen, histamine release,
generalized vasodilation, capillary permeability
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Responses to Circulatory Shock
• Compensated shock
• Decompensated shock
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Compensated shock
• Homeostatic mechanisms bring about recovery
BP triggers baroreflex and production of angiotensin II, both stimulate vasoconstriction
• If person faints and falls to horizontal position, gravity restores blood flow to brain; quicker if feet are raised
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Decompensated shock
• Life threatening positive feedback loops occur CO myocardial ischemia and infarction
CO– slow circulation disseminated intravascular
coagulation slow circulation– ischemia and acidosis of brainstem
vasomotor tone, vasodilation CO ischemia and acidosis of brainstem
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Special Circulatory Routes- Brain
• Total perfusion kept constant– seconds of deprivation causes loss of consciousness – 4-5 minutes causes irreversible brain damage– flow can be shifted from one active region to another
• Responds to changes in BP and chemistry– cerebral arteries: dilate as BP , constrict as BP rises– main chemical stimulus: pH
• CO2 + H2O H2 CO3 H+ + (HCO3)-
• hypercapnia (CO2 ) in brain, pH , triggers vasodilation
• hypocapnia, pH, vasoconstriction– occurs with hyperventilation, may lead to ischemia,
dizziness and sometimes syncope
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TIA’s and CVA’s
• TIA’s - transient ischemic attacks– dizziness, loss of vision, weakness, paralysis,
headache or aphasia; lasts from a moment to a few hours, often early warning of impending stroke
• CVA - cerebral vascular accident (stroke)– brain infarction caused by ischemia
• atherosclerosis, thrombosis, ruptured aneurysm
– effects range from unnoticeable to fatal• blindness, paralysis, loss of sensation, loss of speech
common
– recovery depends on surrounding neurons, collateral circulation
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Special Circulatory Routes -Skeletal Muscle
• Highly variable flow• At rest
– arterioles constrict, total flow about 1L/min
• During exercise– arterioles dilate in response to epinephrine and
sympathetic nerves– precapillary sphincters dilate due to lactic acid, CO2– blood flow can increase 20 fold
• Muscular contraction impedes flow– isometric contraction causes fatigue faster than
isotonic
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Special Circulatory Routes - Lungs
• Low pulmonary blood pressure– flow slower, more time for gas exchange– capillary fluid absorption
• oncotic pressure overrides hydrostatic pressure
• Unique response to hypoxia– pulmonary arteries constrict, redirects flow to
better ventilated region
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Pulmonary Circulation
• Pulmonary trunk to pulmonary arteries to lungs– lobar branches for each lobe (3 right, 2 left)
• Pulmonary veins return to left atrium– increased O2 and reduced CO2 levels
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Pulmonary Capillaries Near Alveoli
• Basketlike capillary beds surround alveoli
• Exchange of gases with air at alveoli
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Major Systemic Arteries• Supplies oxygen and nutrients to all organs
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Major Branches of Aorta
• Ascending aorta– right and left coronary arteries supply heart
• Aortic arch– brachiocephalic
• right common carotid supplying right side of head• right subclavian supplying right shoulder and upper limb
– left common carotid supplying left side of head– left subclavian supplying shoulder and upper limb
• Descending aorta– thoracic aorta above diaphragm – abdominal aorta below diaphragm
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Major Branches of the Aorta
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Arteries of the Head and Neck
• Common carotid to internal and external carotids– external carotid supplies most external head structures
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Arterial Supply of Brain• Paired vertebral aa. combine to form basilar artery on pons• Circle of Willis on base of brain formed from anastomosis of
basilar and internal carotid aa• Supplies brain, internal ear and orbital structures
– anterior, middle and posterior cerebral– superior, anterior and posterior cerebellar
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Arteries of the Upper Limb• Subclavian
passes between clavicle and 1st rib
• Vessel changes names as passes to different regions– subclavian to
axillary to brachial to radial and ulnar
– brachial used for BP and radial artery for pulse
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Arteries of the Thorax
• Thoracic aorta supplies viscera and body wall– bronchial, esophageal and mediastinal branches– posterior intercostal and phrenic arteries
• Internal thoracic, anterior intercostal and pericardiophrenic arise from subclavian artery
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Major Branches of Abdominal Aorta
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Celiac Trunk Branches
• Branches of celiac trunk supply upper abdominal viscera -- stomach, spleen, liver and pancreas
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Mesenteric Arteries
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Arteries of the Lower Limb
• Branches to the lower limb arise from external iliac branch of the common iliac artery
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Arterial Pressure Points
• Some major arteries close to surface -- allows palpation for pulse and serve as pressure points to reduce arterial bleeding
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Major Systemic Veins
• Deep veins run parallel to arteries while superficial veins have many anastomoses
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Deep Veins of Head and Neck
• Large, thin-walled dural sinuses form in between layers of dura mater (drain brain to internal jugular vein)
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Superficial Veins of Head and Neck
• Branches of internal and external jugular veins drain the external structures of the head
• Upper limb is drained by subclavian vein
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Superficial and Deep Veins of Upper Limb
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Inferior Vena Cava and Branches
• Notice absence of veins draining the viscera --- stomach, spleen, pancreas and intestines
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Veins of Hepatic Portal System
• Drains blood from viscera (stomach, spleen and intestines) to liver so that nutrients are absorbed
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Superficial and Deep Veins of Lower Limb