Ch 15 Human Physio

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Approximately what volume of blood passes through the heart each day?

7,000 liters

What is vasoconstriction?

A decrease in the diameter of a blood vessel

Complete the sentences describing the events that occur during an action potential.

An action potential will not occur unless the membrane potential at the trigger zone (the initial segment of the axon) reaches a level called threshold. When threshold is reached, voltage-gated sodium channels of the initial segment open briefly, allowing to sodium diffuse into the cell. As these ions enter the cell, the cell membrane undergoes depolarization with the membrane potential increasing to a peak of approximately +30mV. As the peak of the action potential is reached, the sodium channels close and the voltage-gated potassium channels open, allowing these ions to diffuse out of the cell. As cations leave the cell, the membrane potential at that part of the membrane is reestablishing resting membrane potential. This phase of the action potential is called repolarization. The membrane potential actually dips lower than -70mV because the potassium channels do not close quickly enough. This phase is called hyperpolarization.

What is vasodilation?

An increase in the diameter of a blood vessel

Semilunar valve

Aortic valve Pulmonary valve

You are listening to a patient's heart. You place your stethoscope between the 5th and 6th ribs. What sounds are you hearing?

Apical heartbeat

Complete each statement by using the appropriate word or phrase from the list. Then place the statements in the order of an action potential repolarization event.

As the membrane potential rises towards zero, the voltage-regulated sodium channels begin closing which in turn reduces the sodium movement to the cell. With membrane potentials approaching +35 mV, the voltage regulated potassium channels become fully activated. Through the activated channels, potassium now flows outward causing the membrane to repolarize back toward the RMP (resting membrane potential). With a longer duration of activation than sodium channels, the potassium channels allow for a greater movement of potassium to the extracellular fluid causing a short period of hyperpolarization.

Mitral valve

Between the left atria and ventricle

Aortic valve

Between the left ventricle and the aorta

Tricuspid valve

Between the right atria and ventricle

Pulmonary valve

Between the right ventricle and the pulmonary trunk

Why does reabsorption dominate the venule end of the capillary?

Blood pressure has decreased but colloid osmotic pressure has remained the same and attracts water into the capillary.

What are the papillary muscles connected to?

Chordae tendineae

What prevents the atrioventricular valves from inverting into the atrium against the pressure of blood from the ventricles?

Chordae tendineae and papillary muscles

Contraction of the right ventricle leads to the what action?

Closing of the tricuspid valve

What factors influence capillary exchange?

Colloid osmotic pressure Hydrostatic pressure

How does the mitral valve close?

Contraction of the left ventricle forces blood against the valve and closes the valve.

By which mechanism do compounds like oxygen, carbon dioxide, and fatty acids move through cell membrane?

Diffusion

Place in order the three layers of the heart wall, listing the deepest layer first to superficial.

Endocardium, myocardium, epicardium

The SA node relays nerve impulses into the AV bundle of the interventricular septum, and the AV node is responsible for the rhythmic contractions of the heart.

False

What process is described as the movement of molecules across a membrane under the influence of hydrostatic pressure?

Filtration

Hydrostatic pressure is highest at the arteriole end of a capillary network. What does that mean in terms of capillary exchange?

Filtration determines capillary exchange here.

What molecule would be unable to diffuse through a cell membrane?

Glycogen

What organ is housed within the thoracic cavity?

Heart

Why is filtration the dominant exchange process at the arteriole end of a capillary?

Hydrostatic pressure is greater at this end.

When does the aortic semilunar valve close?

It closes as the ventricles relax.

What chamber of the heart do the pulmonary veins drain into?

Left atrium

What structure empties blood into the left ventricle?

Left atrium

Which chamber of the heart receives oxygen-rich blood from the lungs?

Left atrium

Which is the correct pathway of blood flow between the lungs and the body?

Left atrium - mitral valve - left ventricle - aortic valve - aorta

Supplies blood to the systemic circulation to deliver oxygen to tissues

Left side of heart

Blood flows from the left atrium into what chamber of the heart?

Left ventricle

What chamber of the heart pushes blood into the aorta?

Left ventricle

What is the function of lymphatic capillaries?

Lymphatic capillaries return excess tissue fluid forced from the capillary networks back to the venous system.

Atrioventricular valve

Mitral valve Tricuspid valve

Which of the following correctly matches the valve to its function?

Mitral valve—permits one—way blood flow from the left atrium to the left ventricle

Select all the mechanism(s) that help in movement of substances through capillary walls.

Osmosis, Filtration, Diffusion

When blood reaches the tissue, what gases are typically exchanged via diffusion?

Oxygen and carbon dioxide

Blood colloid osmotic pressure is primarily determined by what substance?

Plasma proteins

Why do plasma proteins typically remain in the bloodstream and not enter the tissue fluids?

Plasma proteins are too large to diffuse out of the capillaries.

Where is the heart located in relation to other structures?

Posterior to the sternum

Cells of the conducting system in the heart are more sensitive to which ion?

Potassium

What controls blood flow into the capillary network?

Precapillary sphincters

Which valve is found between the right ventricle and the pulmonary trunk?

Pulmonary valve

Which are the two semilunar valves?

Pulmonary valve Aortic valve

Where does the blood that enters the left atria come from?

Pulmonary veins

Supplies blood to the lungs for exchange of respiratory gases

Right side of heart

What chamber of the heart pumps blood into the pulmonary trunk?

Right ventricle

the pacemaker or __ indicates the cardiac cycle

SA node

In an ECG pattern, the PQ interval indicates how long it takes for the cardiac impulse to travel from the

SA node through the AV node.

What vessels bring blood to the right atrium?

Superior vena cava Coronary sinus Inferior vena cava

What controls the relaxation and contraction of the precapillary sphincters?

The availability of oxygen and nutrients to the tissues surrounding the capillary network

What is the pulmonary circuit?

The circuit which carries oxygen-poor blood to the lungs

How does the tricuspid valve close?

The contraction of the right ventricle forces blood against the cusps, which closes the valve.

What is the pericardium?

The covering that encloses the heart

What is hydrostatic pressure?

The force that pushes water into and out of capillaries

What is filtration?

The forced movement of compounds through a membrane via hydrostatic pressure. Diffusion is the natural way it wants to go, but filtration forces it one way

How does the aortic semilunar valve open?

The left ventricle contracts and forces blood through the valve.

The wall of the left ventricle is thicker than the wall of the right ventricle. Why?

The left ventricle has to pump blood farther.

What is the myocardium?

The middle layer of heart tissue composed mostly of cardiac muscle

What is the function of the systemic circuit?

The systemic circuit carries oxygenated blood from the heart to the rest of the body.

What are the ventricles?

The thicker-walled, inferior chambers of the heart

The blood from the right ventricle travels only to the lungs. This physiological attribute explains what anatomical feature?

The wall of the right ventricle is thinner than the wall of the left ventricle.

What is the interatrial septum?

The wall that separates the right and left atria

What is the status of pressures in capillary beds?

There is a net inward pressure at the venule end.

What are the right and left atria?

Thin-walled upper chambers of the heart that receive blood returning to the heart

Describe the aortic valve?

Three semilunar cusps at the base of the aorta

What is the function of the chordae tendineae and papillary muscles?

To prevent the AV valves from inverting into the atria due to the pressure of blood

True or false: The cardiovascular system includes the heart and blood vessels.

True

How does excess tissue fluid return to venous circulation?

Via lymphatic capillaries

Precapillary sphincter

a band of smooth muscle fibers that encircles the capillaries at the arteriole-capillary junctions and controls blood flow to the tissues

the resting membrane potential includes

a high concentration of sodium ions outside the cell membrane and a high concentration of potassium ions inside the cell membrane

signals within the body

action potentials are very fast and can be targeted to a single location and hormones have a very wide response in multiple locations

The left ventricular contraction forces blood into the ___ a large artery.

aorta

blood pressure is detected by sensors at

aorta and carotid arteries

The ___ valve is located between the left ventricle and the aorta.

aortic

The inferior end of the heart that tapers to a blunt point immediately above the diaphragm is called the _____ of the heart.

apex

action potentials

are a form of signaling within the body, involve ions, create voltage, occur in most living organism

Small arteries called ______ are capable of vasoconstriction and vasodilation.

arterioles

hydrostatic pressure is higher

at the begninning of the capillary

the upper chambers of the heart

atria

Blood passes from the left _____ through the mitral valve into the left _____ which then pushes blood out to the _____.

atrium, ventricle, aorta

structure which is used to communicate blood pressure to the nervous system

baroreceptor

The _____ of the heart is the superior border that is a relatively flattened area with several vessels attached.

base

The region of the heart to which the great vessels are attached is called the ______.

base

action potential

begins in the atria and spreads to the ventricle and in the ventricles causes blood to flow through the aorta and pulmonary artery

Where is the mitral, or bicuspid, valve located?

between left atrium and left ventricle

Where is the tricuspid valve located?

between right atrium and right ventricle

The apical heart beat can be detected by feel or by listening what location?

between the 5th and 6th ribs

the primary concern for the brain is

blood pressure

If all of your blood vessels were to vasodilate at the same time, what would happen?

blood pressure would fall dangerously low

Leukocytes

can move within the various tissues, are NOT found almost entirely in the blood stream, CAN leave the bloodstream

blood proteins

cannot leave the bloodstream, are large complesx molecules, are the primary component of the osmotic pressure, and draw water back to the bloodstream from cellular space by osmosis

The blood vessels that are the site of exchange between the blood and the tissue fluid are the ______.

capillaries

The vessels that are the site of exchange between the blood and the tissue fluid are the .

capillaries

What vessels allow for exchange of oxygen, carbon dioxide, and nutrients between the blood and tissue fluid surrounding cells?

capillaries

where is the most critical blood pressure in the body and what options do you have to control it

capillaries, heart rate (stroke volume), sympathetic and parasympathetic impulses, vasoconstriction/vasodialation, recapillary sphincters

The vital function of gas and nutrient exchange between the blood and tissue fluid and cells takes place in a , a small vessel.

capillary

what ultimately is the objective of your cardiovasular system

capillary exchange

waste that is found within the bloodstream

carbon dioxide

epinephrine

causes rapid heart rate increase, will cause airways to open for breathing, will increase brain alertness, increase muscle preparedness

the electrical conducting system of the heart

causes the heart to contract, conducts action potentials, can be studied in an EKG, and keeps the proper coordination in heart chamber contractions

where are items in bloodstream being transported to

cells

What are the papillary muscles connected to?

chordae tendineae

During ventricular systole, blood in the left ventricle is squeezed upward. This results in _______ of the _______.

closing; mitral valve

The pressure in the capillary due to presence of impermeant solutes is called the ___ osmotic pressure.

colloid

the left side of the heart

contains the bicuspid valve and pumps blood through the body tissues

osmotic pressure (oncotic)

created by blood proteins

parasympathetic action potentials

decrease heart rate and reach the SA node

Blood pressure ______ as the distance from the heart increases.

decreases

In an ECG pattern, the P wave is caused by

depolarization of atrial muscle fibers.

The heart is housed within the mediastinum and rests on the____, a muscle.

diaphragm

the role of cardiovascular system is transportation and delivery. which of these bests explains the importance of blood pressure in this role

diffusion

glucose is required for cellular respiration, which system(s) provide it to the cells

digestive and cardiovascular

the primary function of capillaries

echange nutrients with cells

one of the hormones of the adrenal glands

epinephrine

when a sense of danger is perceived by the brain

epinephrine is released by the adrenal glands, flight or fight response, epinephrine will stimulate heart for rapid heart rate increace

True or false: The cardiovascular system maintains blood flow to all tissues equally all the time.

false

True or false: As oxygen levels in a tissue decrease, the precapillary sphincters contract.

false: Reason: As oxygen levels in the tissue decrease, precapillary sphincters relax in order to let more oxygenated blood into the tissue.

Blood pressure generated by the ventricular contraction provides the force for __________.

filtration

The process of ___ is dependent on blood pressure and is the force which pushes fluid out of the capillary.

filtration

hydrostatic pressure

fluid pressurea dn created by heart contration

How many hollow chambers are found in the heart?

four

cellular respiration

goal is to produce ATP and produces co2 as waste

Blood pressure is ________ at the arteriolar end of a capillary than at the venular end.

greater

blood pressure is determined by

heart rate, vasodialation, vasoconstriction, epinephrine

What pressure is exerted by the blood to push ions and other small molecules through the capillary walls?

hydrostatic pressure

the increace of aterial blood pressure over the normal levels (high blood pressure) can cause and why?

increaced cellular and intersatial fluid levels (swelling) because of increased hydrostatic pressure

sympathetic action potentials

increase heart rate and reach the SA node

Due to oxygen and nutrient needs during exercise, blood flow is ____ to skeletal muscles and ____ to the digestive tract.

increased; decreased

The wall that separates the upper chambers of the heart is the _____, and the wall that separates the lower chambers is the _____.

interatrial septum; interventricular septum

during open heart surgery, the heart is covered in and the chambers filled with potassium solution. this is to keep the heart from beating during the surgery. why does this work?

interferes with repolarization of heart tissue

The colloid osmotic pressure of the blood is greater than the hydrostatic pressure of the tissue fluid at the venule end of the capillary. This causes a net fluid movement ______ the blood.

into

depolarization

is caused by positive ions rushing into the cell and results in reversing of the charges from positive to negative across the membrane

the fluid leaving and returning to the bloodstream directly at the capillary, overall

is greater leaving

the sodium/potassium pump

is used to return ions to original location and moves ions to areas of higher conentration

why does rbc percentage have such a wide range as a possibility (40-55%)

it allows blood oxygen levels to be very tightly controlled regardless of outside conditions (ex altitude)

as action potentials spread throughout the cardiac conduction system. when they reach the AV node there must be a short delay before it continues. what would be the best explanation for that

it allows for blood to flow from the atria and into the ventricles before they begin to depolarize

why is blood pressure such an important factor in survival

it determines the hydrostatic pressure within the capillaires

The heart in its pericardium is located medial to two __

lungs

the excess from the previous question is handled by

lymph vessels

The heart is located in the _______ and is _____ to the diaphragm.

mediastinum; superior

this part of the brain is responsible for basic blood pressure and heart rate

medulla oblongata

The left atrioventricular valve is also called the ____ valve.

mitral or bicuspid

The ______ valve is located at the opening into the left ventricle and the ____ valve is located at the exit from the left ventricle.

mitral, aortic

the heart consists of

myocardium

the resting membrane potential is

negative inside and positive outside the membrane

is the blood able to flow to all tissues fully at all times

no

Innervation of smooth muscle in the arterial and arteriolar walls is by ______ fibers.

only sympathetic

an action potential begins by

opening of sodium channels

action potentials begin by

opening of voltage-activated sodium channels

the net flow of fluid at the end of the capillary is

out from plasma to the cells

potassium ion channels opening

outside of cell becomes more positive and repolarization

The left atrium receives ______ blood from the ______.

oxygen-rich; pulmonary veins

The small clumps of muscle to which the chordae tendineae are attached are called the ______ muscles.

papillary

when blood pressure drops, the reaction would be to

parasympathetic impulses decrease and sympathetic impulses increase

covering of the heart

pericardium

why must there be both a systemic and pulmonary circuit of the cardiac cycle

pressure cannot be maintained sufficiently in a single circuit and one must exchange with the cells the other with the lungs

closing of heart valves

prevents backward blood flow and causes lubb and dubb

Deoxygenated blood travels from the heart to the lungs via the ______ circuit.

pulmonary

When the right ventricle contracts, blood is pushed through the _____ valve into the pulmonary trunk.

pulmonary

Blood leaving the right ventricle flows into the ______.

pulmonary trunk

In capillary exchange, plasma colloid osmotic pressure favors _____ and capillary blood pressure favors ______.

reabsorption; filtration

In an ECG pattern, the T wave is caused by

repolarization of ventricular muscle fibers.

membrane potential

repolarization= potassium rushing out of cell

waste products of cellular respiration and other processes are removed from the cells and body by

respiratory system, cardiovasuclar system, urinary system

Blood from the superior and inferior vena cavae and the coronary sinus flow into the ______.

right atrium

Which heart chamber receives blood that is low in oxygen?

right atrium

A blood cell is traveling in the inferior vena cava and approaches the heart. Rank the following structures in the order in which the cell encounters them.

right atrium, right ventricle, pulmonary trunk, pulmonary artery, lungs

The pulmonary circuit receives blood from the ______ side of the heart and the systemic circuit receives blood from the ______ side of the heart.

right, left

osmotic pressure is higher

roughly equal throughout

the SA node

sends action potentials across the atria and sends action potentials after sodium channels open

action potentials which convey pressure information TO the brain are carried along

sensory fibers

small molecules can leave the capillaires and enter intersatial fluid through

sinusoids (pores)

A nurse wants to measure a patient's blood pressure. She will have to use a(n)

sphygmomanometer

which of these is a property of cardiac muscle. why does this occur?

spontaneous depolarization and intrinsic contraction SA node contains ion channels that leak

which of these is a property of cardiac muscle and why

spontaneous depolarization and intrinsisc contraction because SA node contains ion channels that leak

red blood cells

survive for 120 days on average

if your heart rate is 120 BPM during exercise which of these would be true

sympathetic impulses are dominant

if your heart rate is at 120 BPM during exercise which of these would be true

sympathetic impulses are dominant

Oxygenated blood travels from the heart to the rest of the body via the ______ circuit.

systemic

the QRS complex of an EKG represents

the onset of ventricular systole

if there is a heart defect that includes a small hole in the septum of the heart which of these would be most likely

there may be a decrease in the amount of oxygen in the bloodstream leaving through the aorta

The right atrioventricular valve is also called the _____ valve.

tricuspid

Blood passes from the right atrium, through the ___ valve into the right ventricle. The right ventricle contracts and pushes blood through the pulmonic valve into the pulmonary ____, which delivers blood to the lungs.

tricuspid, trunk/arteries

True or false: Blood plasma proteins are too large to pass through the capillaries and into the tissues.

true

True or false: More fluid leaves the capillaries than is reabsorbed.

true

Contraction of the smooth muscle in the tunica media of blood vessels causes .

vasoconstriction

Sympathetic stimulation of vascular smooth muscle causes ______.

vasoconstriction

List three ways the brain can control blood pressure and blood flow to different regions of the body?

vasoconstriction/vasodilation, sphincters, and blood pressure

Relaxation of the smooth muscles in the tunica media of blood vessels causes ______.

vasodilation

How is it possible your blood vessels have enough room for 8 liters of blood but we only actually have 5 liters of blood?

while fully vasodialated vessels might take up a larger volume, they would never all be dialated at the same time and a certain percentage of vessels are always vasoconstricted reducing the total volume


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