Cardiovascular System - Mrs. Cook's Page · A&P Standards • 34) Outline the structure and...
Transcript of Cardiovascular System - Mrs. Cook's Page · A&P Standards • 34) Outline the structure and...
Cardiovascular System
BELLWORK Day One:Define using technology
• angio
• hemo/hema
• cardio
Medical Therapeutics
Standards• 11) Outline the gross normal structure and function of all
body systems and summarize appropriate medical texts in
order to relate sign and symptoms of common diseases and
disorders associated with each.
• (the circulatory system)
• 12) Relate a therapeutic procedure or treatment to a
specific body system. Create a digital or written artifact
explaining anatomy involved with the treatment, reason for
treatment, health care professionals assisting or performing
treatment and patient education, including precautions that
should occur prior to the treatment or procedure.
A&P Standards
• 34) Outline the structure and functions of the anatomy of the
cardiovascular system, paying special attention to the musculature of
the walls, the chambers, and the valves of the heart and blood vessels.
Locate and demonstrate the circulation of blood through the heart;
describe the phases and importance of the cardiac cycle and how heart
rate and cardiac output relate to one another. Listen to heart sounds,
either digitally or with a stethoscope, to identify the normal and
abnormal sounds made during the cardiac cycle. Explain the causes for
abnormal sounds encountered.
Objectives
•Name the parts of the cardiovascular system and
discuss the function of each part.
•Label/Color the heart diagram.
The HeartThe Heart
•Pumps blood
through the blood
vessels to all body
cells.
•Is covered by a
protective sac
called the
pericardium.
•Is divided into
right and left
sides by the
septum.
•Each side
consists of an
atria and a
ventricle.
Layers of the HeartLayers of the Heart
Inside the pericardium, the
heart has three layers of
tissue.
•Epicardium (outermost layer)
•Myocardium (middle layer of
muscular tissue)
•Endocardium (inner layer)
myocardium
epicardium
endocardium
Heart ChambersHeart Chambers
•Right and left atria are the
upper chambers of the heart.
•Right and left ventricles are
the lower chambers of the
heart.
•Fibers in the ventricles
(Purkinje fibers) cause the
ventricles to contract.
•Blood flows through the heart in only one
direction regulated by valves.
Arteries and Veins
Arteries
•Carry blood
away from the
heart.
•Carry blood
toward the heart.
V
e
i
n
s
What is the function of these valves?
APEX
Coronary CirculationCoronary Circulation
Circulation of blood within the heart muscle by
the coronary arteries.
•Coronary arteries branch off of the aorta, which is the
largest artery in the body.
•Coronary arteries encircle the heart to supply the heart
muscle with about 100 gallons of blood daily.
•The heart requires more oxygen than any other organ
in the body except the brain.
Pulmonary CirculationPulmonary
Circulation
Circulation of blood
between the heart and
lungs.
•Pulmonary
arteries are the
only arteries to
carry blood low in
oxygen.
•Pulmonary veins
are the only veins
to carry oxygen
rich blood.
Systemic CirculationSystemic Circulation
Flow of blood between the
heart and the cells of the
entire body.
•Blood travels through
the body in a surge as
a result of the heart
contractions.
•Blood vessels
become smaller in
diameter as the blood
leaves the heart.
arteryarteriole capillary
venule
vein
•Remember arteries leave the heart and veins
return to the heart. Capillaries are the smallest
blood vessels and they serve as a transfer
station between the arteries and veins.
Activity:
• Watch the video from Khan Academy.• https://www.khanacademy.org/science/health-and-medicine/circulatory-
system/circulatory-system-introduction/v/flow-through-the-heart
• Use the video and your book to label the
heart!!! (page 327)
• Make sure to use red and blue colors to
distinguish the oxygen rich blood and the
oxygen poor blood.
• Then use the following slide to draw and
label the path of blood flow in the human
body!!
The path
of blood
flow.
Draw the
color-
coded
diagram.
Exit Ticket
• How many directions does blood flow?
• What is the function of a heart valve?
• Which type of circulation occurs in the
lungs?
• Are the arteries in the legs oxygen rich or
poor?
• Does the pulmonary artery bring oxygen to
the heart or away from the heart to the
lungs?
A & P Bellwork Day 2
Define using technology
• “brady” as in bradycardia
• “tachy” as in tachycardia
• “athero” as in atherosclerosis
• “arterio” as in “arteriosclerosis
A&P Standards
• 34) Outline the structure and functions of the anatomy of
the cardiovascular system, paying special attention to the
musculature of the walls, the chambers, and the valves of
the heart and blood vessels. Locate and demonstrate the
circulation of blood through the heart; describe the phases
and importance of the cardiac cycle and how heart rate and
cardiac output relate to one another. Listen to heart sounds,
either digitally or with a stethoscope, to identify the normal
and abnormal sounds made during the cardiac cycle.
Explain the causes for abnormal sounds encountered.
Objectives for Day 2
• Research and identify the major
arteries and veins of the
circulatory system.
• Research and describe diseases
and disorders associated with
the circulatory system.
Activity: Draw two
human figures.1st-Research and draw the major arteries and veins
that are listed on the following slides (need to know).
Do these on two separate papers.
2nd-Research and label common sites for intravenous
lines (IVs), arterial lines, and sheaths for
catheterizations.
Carotid
Brachial
Radial
Ascending aorta
Descending aorta
Femoral
Popliteal
Dorsalis pedis
Need to Know Arteries:
Need to Know
Veins:Jugular
Subclavian
Cephalic
Brachial
Basilic
Superior vena cava
Inferior vena cava
Great saphenous
Femoral
Popliteal
Continue notes…
• Make sure you take notes on the following
slides concerning pathology diseases and
disorders.
• Define Pathology.
• Describe each disease/disorder.
• Identify those at high risk, causes, and
treatments for each.
Blood PressureBlood pressure
abnormalities can
damage the heart and
other body systems.
The average blood
pressure should be
around 120/80.
•Hypertension (too high)
•Hypotension (too low)
Surge of blood when heart pumps creates pressure against the
walls of the arteries
SYSTOLIC PRESSURE – measured during the contraction phase
DIASTOLIC PRESSURE – measured when the ventricles are relaxed
Average systolic = 120
Average diastolic = 80
General Heart & Lung Diseases
Myocardial infarction
•Disruption of blood flow to the heart muscle; also called
heart attack.
Cardiac Arrest
•Also known as asystole, is the sudden stopping of the heart.
Congestive Heart Failure
•Occurs when the heart is unable to pump the necessary
amount of blood.
Specific Inflammatory Heart
Conditions Specific Inflammatory Conditions of the Heart
•endocarditis
•myocarditis
•bacterial endocarditis
•pericarditis
Other Conditions
•cardiomyopathy •intracardiac tumor
PathologyRisk Factors to
Developing
Cardiovascular
Disease (CVD)
poor diet
smoking
lack of exercise
Abnormal rhythms are called arrhythmias.
•Bradycardia (less than 60)
•Tachycardia (greater than 100)
•Atrial Fibrillation (both atria beat
chaotically and irregularly)
•Ventricular Fibrillation (ventricles
stop pumping blood/most serious)
•Flutter (beating harder or
faster, palpitations; may or
may not be disease related)
•Murmur (defect in valve,
fails to close properly,
gurgling or hissing sound)
Heart Rhythm
Pathology
•Aneurysm
•Arteriosclerosis
•Atherosclerosis
•Phlebitis
•Embolus
•Thrombus
Here are some more…
Directed Reading Activity:
Cardiac Malignancies
• Go to the class website and choose the
directed reading.
• Read the journal and answer the questions.
• Then go to the class website and choose the
tab that says Directed Reading Extended
Assignments.
• Follow the direction related to the article.
Day 3
NOT YET……
Conduction System Part 2Conduction System
The heart’s pacemaker causes regular
contracting of the myocardium resulting in a
regular heartbeat or pulse, which is 60-100 beats
per minute.
Conduction System
Purkinje Fibers
Sinoatrial node (Pacemaker)
Atrioventricular node
Bundle of His
Right and Left Bundle Branches
Use your technology,
label these on your
heart diagram with
pen or marker.
Auscultation means
listening. Physicians use
a stethoscope to listen to
the heart.
The sound “lub dub” is
actually the valves in the
heart closing. First, the
atrioventricular valves
close, and then the
pulmonary and aortic
valves.
Heart rate or pulse
should be between
60 to100 beats per
minute.
Conduction System Part 3Conduction System
Factors affecting the heart rate:
• Health status
• Physical activity
• Emotions
During one cardiac cycle the heart contracts and
relaxes.
Cardiac Cycle = 1 contraction + 1 relaxation
• Medicine
• Drug use
• Alcohol
Common Pulse Locations in the
following arteries:• BRACHIAL – pulse used to measure blood pressure
in the arm
• CAROTID –major artery to head and neck, pulse in the neck
• RADIAL – pulse in the wrist, usually used to take a pulse rate
• FEMORAL –major artery for procedures, located at the top of leg, medial to hip joint
• POPLITEAL – behind the knee, used to determine blood flow to legs when arteriosclerosis is suspected
• PEDAL- top of the foot—checked with foot injuries
• Activity: Calculate your pulse with a partner!!! You can count for a full minute, or 15 seconds and multiply by four.
Blood PressureBlood Pressure
•Measures the force of the
blood surging against the
walls of the arteries.
Systole
Contraction phase of the heart
Diastole
Relaxation phase of the heart
Activity: Directed Reading
Abdominal Aortic Aneurysm
• In addition to answering the 10 questions also complete the following:
• Define abdominal aortic aneurysm (AAA).
• Draw Figure 2 and then describe the anatomy of the aortic arch in 5-7
sentences.
• How does age affect the aorta?
• List a few possible risk factors related to AAA.
• Describe the signs and symptoms related to a AAA.
• List some possible tests given to screen for AAA.
• Name at least three healthcare professionals a patient might see who is
being screened or treated for AAA.
• Describes the types of AAA repair, including treatment for a ruptured
AAA.
• Describe possible risks or complications after AAA repair.
• Name all of the imaging modalities that would be involved with a
AAA patient.