Blood Flow - PowerPoint PPT Presentation

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Blood Flow

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Blood cells and most proteins are too big to get through. Bulk flow: ... Hydrostatic pressure: lateral pressure component that pushes fluid through capillary pores ... – PowerPoint PPT presentation

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Title: Blood Flow


1
Lecture 18
  • Blood Flow
  • Control of BP

2
Factors Affecting Blood Flow
  • Flow rate
  • F a DP/R
  • Resistance to flow
  • R 8Ln/(pr4)
  • Velocity of flow
  • v F/cross sectional area
  • Terms
  • F flow rate volume of blood passing point in
    system per unit time (L/min)
  • DP pressure gradient
  • R resistance to flow vasoconstriction/dilation
  • n fluid viscosity
  • r vessel radius
  • v velocity of flow

3
Outline
  • Blood Flow
  • Blood Vessels
  • Blood Pressure
  • Factors Affecting BP
  • Capillary Exchange
  • Lymphatics
  • Regulation of BP

4
Outline
  • Blood Flow
  • Blood Vessels
  • Blood Pressure
  • Factors Affecting BP
  • Capillary Exchange
  • Lymphatics
  • Regulation of BP

5
Blood Flow
  • Blood Vessels
  • Circulatory system
  • Structure of blood vessels
  • Made of layers of smooth muscle connective
    tissue
  • Allows vasoconstriction and vasodilation
  • Inner lining endothelium, permeability barrier

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7
Types of Blood Vessels
  • Arteries
  • Thick smooth muscle layers
  • Large amounts of elastic and fibrous tissue
  • Allows them to distend as they fill with blood
  • As they become smaller? less elastic, more
    muscular
  • Capillaries
  • Smallest vessels
  • 1 layer of endothelial cells on a basement
    membrane
  • Usually have leaky junctions between cells
  • Veins
  • More numerous than arteries
  • Large diameter
  • Thinner walls than arteries with less elastic
    tissue

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9
Blood Pressure
  • Pressure created by ventricles
  • Driving force for blood flow
  • As blood leaves ventricles
  • Aorta and arteries expand to accommodate
  • After SL valve closes, elastic recoil in arteries
    propels blood forward
  • Flow in arterial side is pulsatile
  • Flow in veins is continuous
  • Blood pressure values
  • Highest in arteries
  • Falls continuously as blood flows
  • Decrease in pressure occurs due to resistance of
    vessels to flow

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11
Blood Pressure
  • Pulse pressure
  • Highest pressure occurs in aorta
  • Systole 120 mm Hg
  • Diastole 80 mm Hg
  • Difference is pulse pressure PPDP - SP
  • Mean arterial pressure
  • MAP (2DPSP)/3 DP (2/3)PP
  • Diastole lasts twice as long as systole
  • Mean pressure and pulse pressure fall throughout
    circulatory system
  • Veins
  • Have one way valves to prevent backflow
  • Venous return is aided by muscle and respiratory
    pumps

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14
Factors Affecting Blood Pressure
  • Mean arterial pressure
  • Main determinant of flow
  • MAP a CO x Rarterioles
  • Arterioles are the main site of variable
    resistance
  • More than 60 of total circulatory resistance
  • Main determinant of hypertension
  • Changes in blood volume
  • Increase BV ? Increase MAP

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16
Capillary Exchange
  • Capillary Structure
  • Once blood reaches capillaries, plasma cells
    exchange material
  • Most cells in body are within 100 microns of
    capillary
  • Two types of capillaries
  • Continuous capillary
  • Endothelial cells are closely joined
  • Some small molecules pass thru cell junctions
  • Bigger molecules (eg proteins) are transported in
    vesicles by transcytosis
  • Fenestrated capillary
  • Have large pores that allow high volume of fluid
    to pass rapidly
  • Found primarily in intestines and kidney

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18
Capillary Exchange
  • Flow in capillaries
  • Blood velocity is lowest in capillaries
  • Flow is proportional to cross sectional area

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20
Capillary Exchange
  • Diffusion
  • Source of most exchange between plasma
    interstitial fluid
  • Blood cells and most proteins are too big to get
    through
  • Bulk flow
  • Mass movement of water and solutes as a result of
    hydrostatic or colloid osmotic pressure
  • Out of capillary filtration
  • Into capillary absorption
  • Most capillaries show transition
  • net filtration to net absorption
  • as you move from arterial to venous side
  • Regulated by two forces
  • Hydrostatic pressure lateral pressure component
    that pushes fluid through capillary pores
  • Colloid osmotic pressure Determined by solute
    concentration differences between two
    compartments (PROTEINS)

21
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22
Capillary Exchange
  • Net pressure
  • NP Hydrostatic press. grad. Colloid osmotic
    press. grad.
  • NP (Pcap PIF) - (Pcap-PIF)
  • Pcap decreases along length of caps
  • PIF very low
  • Pcap 25 mm Hg
  • PIF 0
  • Arterial side
  • NP 32 25 7 mm Hg ? Filtration
  • Venous side
  • NP 15 25 -10 mm Hg ? Absorption
  • Filtration gt Absorption
  • Bulk flow 3 L/day
  • How do we get this fluid back?

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24
Lymphatics
  • Three main functions
  • Return fluid and proteins filtered out of
    capillaries
  • Pick up fat absorbed by small intestine
  • Serve as filter to capture and destroy foreign
    pathogens
  • Designed for one way movement of IF from tissues
    to circulation
  • Structure
  • Closed end lymph capillaries lie close to all
    blood capillaries
  • Single layer of flattened endothelial cells
  • Walls anchored to surrounding connective tissue
    by fibers that hold them open
  • Large gaps between cells allow fluid, protein,
    bacteria, to be swept in by bulk flow

25
Lymphatics
  • Lymphatic system
  • Lymph caps join to form larger collecting vessels
  • Does not have a single pump like circulatory
    system
  • Depends on SMC contraction in larger lymph
    vessels
  • Skeletal muscle pump

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27
Edema
  • Edema
  • Accumulation of fluid in interstitial space
  • Two causes
  • Inadequate drainage of lymph
  • Capillary filtrationgtgtcapillary absorption
  • Increase in capillary hydrostatic pressure
  • e.g. heart failure ? increased venous pressure
  • Decrease in plasma protein concentration
  • e.g. liver failure, malnutrition
  • Increase in interstitial protein concentration
  • e.g. inflammation ? histamine makes capillary
    walls leaky, allows proteins to escape

28
Outline
  • Blood Flow
  • Blood Vessels
  • Blood Pressure
  • Factors Affecting BP
  • Capillary Exchange
  • Lymphatics
  • Regulation of BP

29
Regulation of Blood Pressure
  • Overview
  • CNS coordinates reflex control of BP
  • Occurs in medulla oblongata
  • Little is known about medullary CV control center
  • Primary goal is to maintain adequate blood flow
    to brain and heart

30
Regulation of Blood Pressure
  • Baroreceptor reflex
  • Baroreceptors
  • Stretch sensitive receptors
  • Located in wall of carotid artery, aorta
  • Monitor pressure of blood to brain and body
  • Fire APs continuously at normal BP
  • Reflex
  • When BP increases? Firing rate increases
  • When BP decreases? Firing rate decreases
  • APs travel to brain via sensory neurons
  • CNS determines appropriate response
  • change CO or peripheral resistance

31
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32
Outline
  • Blood Flow
  • Blood Vessels
  • Blood Pressure
  • Factors Affecting BP
  • Capillary Exchange
  • Lymphatics
  • Regulation of BP

33
Poem of the Day
34
Due Dates
  • Tuesday, November 9th
  • Homework 9
  • Project Memo (Hard copy)
  • Tuesday, November 16th
  • Homework 10 (LAST ONE!)
  • First draft of website due (e-mail url)
  • Tuesday, November 23rd
  • Exam Three
  • Wednesday, November 24th
  • Project Due (e-mail url)
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