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Презентация на тему Билингвальный урок в презентации Сердечно-сосудистая система

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The Cardiovascular SystemA closed system of the heart and blood vesselsThe heart pumps bloodBlood vessels allow blood to circulate to all parts of the bodyThe function of the cardiovascular system is to deliver oxygen and nutrients
The Cardiovascular System The Cardiovascular SystemA closed system of the heart and blood vesselsThe heart The HeartLocationThorax between the lungsPointed apex directed toward left hipAbout the size of your fist The Heart: CoveringsPericardium – a double serous membraneVisceral pericardium - Next to The Heart Wall: 3 layersEpicardiumOutside layerThis layer is the parietal pericardiumConnective tissue External Heart AnatomyFigure 11.2a The Heart: ChambersRight and left side act as Blood  CirculationFigure 11.3 The Heart: ValvesAllow blood to flow in only one directionFour valvesAtrioventricular valves The Heart: ValvesValves open as blood is pumped throughHeld in place by Operation of Heart ValvesFigure 11.4 The Heart:  Associated Great VesselsAorta - leaves left ventriclePulmonary arteries - Coronary CirculationBlood in the heart chambers does not nourish the myocardiumThe heart The Heart: Conduction SystemIntrinsic conduction system  (nodal system)Heart muscle cells contract, The Heart’s Cardiac CycleAtria contract simultaneouslyAtria relax, then ventricles contractSystole = contractionDiastole = relaxation Heart ContractionsContraction is initiated by the sinoatrial nodeSequential stimulation occurs at other autorhythmic cells Filling of Heart Chambers – the Cardiac CycleFigure 11.6 The Heart: Cardiac CycleCardiac cycle – events of one complete heart beatMid-to-late The Heart: Cardiac OutputCardiac output (CO)Amount of blood pumped by each side Cardiac Output RegulationFigure 11.7 Regulation of Heart RateStroke volume usually remains relatively constantStarling’s law of the Regulation of Heart RateIncreased heart rateSympathetic nervous systemActivated in a CrisisLow blood pressureHormonesEpinephrineThyroxineExerciseDecreased blood volume Regulation of Heart RateDecreased heart rateParasympathetic nervous systemHigh blood pressure or blood volumeDecreased venous return Blood Vessels: The Vascular SystemTaking blood to the tissues and backArteriesArteriolesCapillariesVenulesVeinsFigure 11.8a The Vascular SystemFigure 11.8b Blood Vessels: AnatomyThree layers (tunics)Tunic intima: EndotheliumTunic mediaSmooth muscleControlled by sympathetic nervous Differences Between Blood Vessel TypesWalls of arteries are the thickestLumens of veins Movement of Blood Through VesselsMost arterial blood is pumped by the heartVeins Capillary BedsCapillary beds consist of two types of vesselsVascular shunt – directly Capillary BedsTrue capillaries – exchange vesselsOxygen and nutrients cross to cellsCarbon dioxide Diffusion at Capillary BedsFigure 11.20 Major Arteries of Systemic CirculationFigure 11.11 Major Veins of Systemic CirculationFigure 11.12 Arterial Supply of the BrainFigure 11.13 Hepatic Portal CirculationFigure 11.14 Circulation to the FetusFigure 11.15 PulsePulse – pressure wave of bloodMonitored at “pressure points” where pulse is easily palpatedFigure 11.16 Blood PressureMeasurements by health professionals are made on the pressure in large Measuring Arterial Blood PressureFigure 11.18 Blood Pressure: Effects of FactorsNeural factorsAutonomic nervous system adjustments (sympathetic division)Renal factorsRegulation Blood Pressure: Effects of FactorsTemperatureHeat has a vasodilation effectCold has a vasoconstricting Variations in Blood PressureHuman normal range is variableNormal140–110 mm Hg systolic80–75 mm Capillary ExchangeSubstances exchanged due to concentration gradientsOxygen and nutrients leave the bloodCarbon Capillary Exchange: MechanismsDirect diffusion across plasma membranesEndocytosis or exocytosisSome capillaries have gaps Developmental Aspects of the Cardiovascular SystemA simple “tube heart” develops in the
Слайды презентации

Слайд 2 The Cardiovascular System
A closed system of the heart

The Cardiovascular SystemA closed system of the heart and blood vesselsThe

and blood vessels
The heart pumps blood
Blood vessels allow blood

to circulate to all parts of the body
The function of the cardiovascular system is to deliver oxygen and nutrients and to remove carbon dioxide and other waste products

Слайд 3 The Heart
Location
Thorax between the lungs
Pointed apex directed toward

The HeartLocationThorax between the lungsPointed apex directed toward left hipAbout the size of your fist

left hip
About the size of your fist


Слайд 4 The Heart: Coverings
Pericardium – a double serous membrane
Visceral

The Heart: CoveringsPericardium – a double serous membraneVisceral pericardium - Next

pericardium - Next to heart
Parietal pericardium - Outside layer
Serous

fluid fills the space between the layers of pericardium

Слайд 5 The Heart Wall: 3 layers
Epicardium
Outside layer
This layer is

The Heart Wall: 3 layersEpicardiumOutside layerThis layer is the parietal pericardiumConnective

the parietal pericardium
Connective tissue layer
Myocardium
Middle layer
Mostly cardiac muscle
Endocardium
Inner layer
Endothelium


Слайд 6 External Heart Anatomy
Figure 11.2a

External Heart AnatomyFigure 11.2a

Слайд 7 The Heart: Chambers
Right and left side act as

The Heart: ChambersRight and left side act as

separate pumps
Four chambers
Atria
Receiving chambers
Right atrium
Left atrium
Ventricles
Discharging chambers
Right ventricle
Left ventricle

Figure 11.2c


Слайд 8 Blood Circulation
Figure 11.3

Blood CirculationFigure 11.3

Слайд 9 The Heart: Valves
Allow blood to flow in only

The Heart: ValvesAllow blood to flow in only one directionFour valvesAtrioventricular

one direction
Four valves
Atrioventricular valves – between atria and ventricles
Bicuspid

valve (left)
Tricuspid valve (right)
Semilunar valves between ventricle and artery
Pulmonary semilunar valve
Aortic semilunar valve

Слайд 10 The Heart: Valves
Valves open as blood is pumped

The Heart: ValvesValves open as blood is pumped throughHeld in place

through
Held in place by chordae tendineae (“heart strings”)
Close to

prevent backflow

Слайд 11
Operation of Heart Valves
Figure 11.4

Operation of Heart ValvesFigure 11.4

Слайд 12 The Heart: Associated Great Vessels
Aorta - leaves left

The Heart: Associated Great VesselsAorta - leaves left ventriclePulmonary arteries -

ventricle
Pulmonary arteries - leave right ventricle
Vena cava - enters

right atrium
Pulmonary veins (four) - enter left atrium

Слайд 13
Coronary Circulation
Blood in the heart chambers does not

Coronary CirculationBlood in the heart chambers does not nourish the myocardiumThe

nourish the myocardium
The heart has its own nourishing circulatory

system
Coronary arteries
Cardiac veins
Blood empties into the right atrium via the coronary sinus

Слайд 14 The Heart: Conduction System
Intrinsic conduction system (nodal system)
Heart

The Heart: Conduction SystemIntrinsic conduction system (nodal system)Heart muscle cells contract,

muscle cells contract, without nerve impulses, in a regular,

continuous way
Special tissue sets the pace
Sinoatrial node (SA) - Pacemaker
Atrioventricular node (AV)
Atrioventricular bundle
Bundle branches
Purkinje fibers

Слайд 15 The Heart’s Cardiac Cycle
Atria contract simultaneously
Atria relax, then

The Heart’s Cardiac CycleAtria contract simultaneouslyAtria relax, then ventricles contractSystole = contractionDiastole = relaxation

ventricles contract
Systole = contraction
Diastole = relaxation


Слайд 16 Heart Contractions
Contraction is initiated by the sinoatrial node
Sequential

Heart ContractionsContraction is initiated by the sinoatrial nodeSequential stimulation occurs at other autorhythmic cells

stimulation occurs at other autorhythmic cells


Слайд 17
Filling of Heart Chambers – the Cardiac Cycle
Figure

Filling of Heart Chambers – the Cardiac CycleFigure 11.6

11.6


Слайд 18
The Heart: Cardiac Cycle
Cardiac cycle – events of

The Heart: Cardiac CycleCardiac cycle – events of one complete heart

one complete heart beat
Mid-to-late diastole – blood flows into

ventricles
Ventricular systole – blood pressure builds before ventricle contracts, pushing out blood
Early diastole – atria finish re-filling, ventricular pressure is low

Слайд 19 The Heart: Cardiac Output
Cardiac output (CO)
Amount of blood

The Heart: Cardiac OutputCardiac output (CO)Amount of blood pumped by each

pumped by each side of the heart in one

minute
CO = (heart rate [HR]) x (stroke volume [SV])
Stroke volume
Volume of blood pumped by each ventricle in one contraction

Слайд 20
Cardiac Output Regulation
Figure 11.7

Cardiac Output RegulationFigure 11.7

Слайд 21 Regulation of Heart Rate
Stroke volume usually remains relatively

Regulation of Heart RateStroke volume usually remains relatively constantStarling’s law of

constant
Starling’s law of the heart – the more that

the cardiac muscle is stretched, the stronger the contraction
Changing heart rate is the most common way to change cardiac output

Слайд 22 Regulation of Heart Rate
Increased heart rate
Sympathetic nervous system
Activated

Regulation of Heart RateIncreased heart rateSympathetic nervous systemActivated in a CrisisLow blood pressureHormonesEpinephrineThyroxineExerciseDecreased blood volume

in a Crisis
Low blood pressure
Hormones
Epinephrine
Thyroxine
Exercise
Decreased blood volume


Слайд 23 Regulation of Heart Rate
Decreased heart rate
Parasympathetic nervous system
High

Regulation of Heart RateDecreased heart rateParasympathetic nervous systemHigh blood pressure or blood volumeDecreased venous return

blood pressure or blood volume
Decreased venous return


Слайд 24 Blood Vessels: The Vascular System
Taking blood to the

Blood Vessels: The Vascular SystemTaking blood to the tissues and backArteriesArteriolesCapillariesVenulesVeinsFigure 11.8a

tissues and back
Arteries
Arterioles
Capillaries
Venules
Veins
Figure 11.8a


Слайд 25
The Vascular System
Figure 11.8b

The Vascular SystemFigure 11.8b

Слайд 26 Blood Vessels: Anatomy
Three layers (tunics)
Tunic intima:
Endothelium
Tunic media
Smooth

Blood Vessels: AnatomyThree layers (tunics)Tunic intima: EndotheliumTunic mediaSmooth muscleControlled by sympathetic

muscle
Controlled by sympathetic nervous system
Tunic externa
Mostly fibrous connective tissue


Слайд 27 Differences Between Blood Vessel Types
Walls of arteries are

Differences Between Blood Vessel TypesWalls of arteries are the thickestLumens of

the thickest
Lumens of veins are larger
Skeletal muscle “milks” blood

in veins toward the heart
Walls of capillaries are only one cell layer thick to allow for exchanges between blood and tissue

Слайд 28 Movement of Blood Through Vessels
Most arterial blood is

Movement of Blood Through VesselsMost arterial blood is pumped by the

pumped by the heart
Veins use the milking action of

muscles to help move blood

Figure 11.9


Слайд 29 Capillary Beds
Capillary beds consist of two types of

Capillary BedsCapillary beds consist of two types of vesselsVascular shunt –

vessels
Vascular shunt – directly connects an arteriole to a

venule

Figure 11.10


Слайд 30 Capillary Beds
True capillaries – exchange vessels
Oxygen and nutrients

Capillary BedsTrue capillaries – exchange vesselsOxygen and nutrients cross to cellsCarbon

cross to cells
Carbon dioxide and metabolic waste products cross

into blood

Figure 11.10


Слайд 31
Diffusion at Capillary Beds
Figure 11.20

Diffusion at Capillary BedsFigure 11.20

Слайд 32 Major Arteries of Systemic Circulation
Figure 11.11

Major Arteries of Systemic CirculationFigure 11.11

Слайд 33
Major Veins of Systemic Circulation
Figure 11.12

Major Veins of Systemic CirculationFigure 11.12

Слайд 34
Arterial Supply of the Brain
Figure 11.13

Arterial Supply of the BrainFigure 11.13

Слайд 35
Hepatic Portal Circulation
Figure 11.14

Hepatic Portal CirculationFigure 11.14

Слайд 36
Circulation to the Fetus
Figure 11.15

Circulation to the FetusFigure 11.15

Слайд 37 Pulse
Pulse – pressure wave of blood
Monitored at “pressure

PulsePulse – pressure wave of bloodMonitored at “pressure points” where pulse is easily palpatedFigure 11.16

points” where pulse is easily palpated
Figure 11.16


Слайд 38 Blood Pressure
Measurements by health professionals are made on

Blood PressureMeasurements by health professionals are made on the pressure in

the pressure in large arteries
Systolic – pressure at the

peak of ventricular contraction
Diastolic – pressure when ventricles relax
Pressure in blood vessels decreases as the distance away from the heart increases

Слайд 39
Measuring Arterial Blood Pressure
Figure 11.18

Measuring Arterial Blood PressureFigure 11.18

Слайд 40 Blood Pressure: Effects of Factors
Neural factors
Autonomic nervous system

Blood Pressure: Effects of FactorsNeural factorsAutonomic nervous system adjustments (sympathetic division)Renal

adjustments (sympathetic division)
Renal factors
Regulation by altering blood volume
Renin –

hormonal control

Слайд 41 Blood Pressure: Effects of Factors
Temperature
Heat has a vasodilation

Blood Pressure: Effects of FactorsTemperatureHeat has a vasodilation effectCold has a

effect
Cold has a vasoconstricting effect
Chemicals
Various substances can cause increases

or decreases
Diet

Слайд 42 Variations in Blood Pressure
Human normal range is variable
Normal
140–110

Variations in Blood PressureHuman normal range is variableNormal140–110 mm Hg systolic80–75

mm Hg systolic
80–75 mm Hg diastolic
Hypotension
Low systolic (below 110

mm HG)
Often associated with illness
Hypertension
High systolic (above 140 mm HG)
Can be dangerous if it is chronic

Слайд 43 Capillary Exchange
Substances exchanged due to concentration gradients
Oxygen and

Capillary ExchangeSubstances exchanged due to concentration gradientsOxygen and nutrients leave the

nutrients leave the blood
Carbon dioxide and other wastes leave

the cells

Слайд 44 Capillary Exchange: Mechanisms
Direct diffusion across plasma membranes
Endocytosis or

Capillary Exchange: MechanismsDirect diffusion across plasma membranesEndocytosis or exocytosisSome capillaries have

exocytosis
Some capillaries have gaps (intercellular clefts)
Plasma membrane not joined

by tight junctions
Fenestrations of some capillaries
Fenestrations = pores

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