Introduction To The Cardiovascular System PDF

Summary

This document provides an introduction to the cardiovascular system, including its anatomy, function, and diagnostic tests. It covers the structure and function of the heart, blood vessels, and the electrical conduction system. The document also discusses different types of diagnostic tests.

Full Transcript

INTRODUCTION TO
THE
CARDIOVASCULAR
SYSTEM

NP02L019 ELO A · Version 2.0

Foundations and Adult Health Nursing, 8th ed., pp. 1517-1526
Introduction to Critical Care Nursing, 8th ed., pp. 282-288; pp. 307-311
ENABLING LEARNING OBJECTIVE
Explain the structure, function, diagnostic exams, and
interventions for patients with a cardiovascular disorder.
THE CARDIOVASCULAR SYSTEM
THE CARDIOVASCULAR SYSTEM
The cardiovascular also called circulatory system
Transportation system of the body

Delivers oxygen and nutrients to the cells
Support their individual activities

Transports the cells’ waste products to the appropriate organs
for disposal.
THE HEART
ANATOMY
The heart is not much larger than a fist
Pumps 1,000 gallons of blood every day
Beats 100,000 times a day
Transports the blood 60,000 miles
Located in the chest cavity between the lungs
Area called the mediastinum.
Two-thirds lies on the left of the midline
The wider base of the heart lies above and below the second
rib
The apex
Narrow part of the heart lies inferiorly
To the left between the fifth and sixth ribs near the diaphragm
THE HEART WALL
Made of three layers
1. Pericardium
Two-layered serous membrane
Between the two layers is fluid that allows the heart to move

2. Myocardium
The bulk of the heart wall
Thickest and strongest layer
Composed of cardiac muscle tissue
Contraction of this layer is responsible for pumping blood

3. Endocardium
Innermost layer
Composed of a thin layer of connective tissue
FUNCTIONS
The right side receives deoxygenated blood and pumps it
to the lungs

The left side receives oxygenated blood from the lungs
and pumps it throughout the body
CHAMBERS
The heart is divided into the right and left halves by the septum.
There are four chambers
Right chamber
1. Right atrium- upper right chamber
Receives deoxygenated blood from the entire body
2. Right ventricle- lower chamber
Receives deoxygenated blood from the right atrium
Left chamber
1. Left atrium- upper chamber
Receives deoxygenated blood from the right atrium
2. Left ventricle- lower chamber
Receives oxygenated blood from the left atrium though the mitral valve
Thickest and most muscular section of the heart
Pumps oxygenated blood to all parts of the body
VALVES
Keep blood moving forward and prevent backflow
Atrioventricular valves
1. Tricuspid valve
Contains three flaps
Located between the right atrium and the right ventricle
2. Mitral valve
Contains two flaps
Located between the left atrium and left ventricle
Semilunar valves
1. Pulmonary valve
Contains three flaps
Located between the left atrium and left ventricle
2. Aortic valve
Contains three flaps
Located between he left ventricle and the aorta
ELECTRICAL CONDUCTION
CONDUCTION SYSTEM OF THE HEART

Made up of specialized masses of tissue in the heart wall
Allows inherent ability to contract in a rhythmic pattern
Called automaticity

Cells also respond to stimulus in the same way that nerve
cells
Called irritability
AUTONOMIC CONTROL

Autonomic nervous system - control cardiovascular
system
Sympathetic
Increases force of contraction
Increases acceleration of AV conduction time

Parasympathetic
Decrease in sinus node discharge
Slows conduction
CARDIAC CYCLE
Cardiac cycle is a complete heartbeat
The two atria contract while the two ventricles relax
When the two ventricles contract the two atria relax
Relaxation phase
Diastole
Contraction phase
Systole
One cardiac cycle = 0.8 seconds
HEART SOUNDS
Lub dub
Sounds are produced by the closure of the valves
Lub – the first sound heart is S1
AV valves (tricuspid and mitral) close
Dub- the second heart sound S2
Semilunar valves (pulmonic and aortic) close
Murmur
Swishing sound
Can be normal or abnormal
Abnormal would indicate ineffective closure of the valves
Pacemaker of the heart
Causes contraction of the
atria.

Allows for complete fill contraction
of atrium allowing ventricles to fill
with blood

“Atrioventricular bundle”
Divides into left and right bundle branch
Branches divide into Purkinje fibers which cause contraction of the ventricles
HEART MURMUR
Sound described as:
Rumbling
Blowing
Harsh
Musical
Murmurs graded Grade I (low intensity) to Grade VI
(loudest intensity)
CHECK ON LEARNING
What is meant by automaticity?
CHECK ON LEARNING
How does irritability play a role in the conduction of the
heart?
CHECK ON LEARNING
Activity:

Trace a drop of blood through the heart.
CHECK ON LEARNING
Which of the heart’s chambers is the thickest and most
muscular?

a. Right atrium.
b. Right ventricle.
c. Left atrium.
d. Left ventricle.
CHECK ON LEARNING
A patient reports being diagnosed with a murmur. Which
phenomenon can be used to explain what might be the
cause of this occurrence?

a. Inappropriate closure of the ventricular lock.
b. The entrance of blood into partially contracted chambers.
c. Ineffective closure of the valves.
d. Inadequate levels of blood as it leaves the atria.
CIRCULATION
SYSTEMIC CIRCULATION
Three main types of blood vessels carry blood to and
from the heart
1. Arteries
Carry blood away from the heart
Arterioles (smaller vessels) branch from arteries and carry blood to
tissues
2. Veins
3. Capillaries
Microscopic vessels within the tissues
Exchange oxygen and nutrients for carbon dioxide
Join to form tiny veins (venules) that link with large veins to carry blood
back to the heart
CORONARY CIRCULATION
Right and left coronary arteries branch off from the aorta
Right coronary artery and its two major branches
Perfuse the right atrium, right ventricle, and the posterior
portion of the left ventricle
Left coronary artery
Supplies blood to the anterior wall of the left ventricle and the
apex of the left ventricle
PULMONARY CIRCULATION
Deoxygenated blood is pumped from the right ventricle
Returns to the left atrium of the heart via the pulmonary
veins
Deoxygenated blood in the pulmonary circulation is
moved via arteries
Oxygenated blood is moved via veins
This is opposite of normal circulation
COMPONENTS OF CARDIAC OUTPUT
Determined by heart rate and stroke volume
Preload
Afterload
Contractility
Preload – Degree of ventricular stretch before next
contraction
Afterload – Amount of resistance the ventricles must
overcome to deliver the stroke volume into vasculature
Contractility – Strength of myocardial muscle fiber
shortening during the systolic phase of the cardiac cycle.
BLOOD CIRCULATION
CHECK ON LEARNING
The right and left coronary arteries branch off what blood
vessel?
DIAGNOSTIC TESTS
DIAGNOSTIC TESTS
Chest radiograph
Illustrates heart size, shape, position, and outline of shapes
Fluoroscopy
Allows for observation of movement
Angiogram
Radiographs the circulatory process
Aids in the diagnosis of vessel occlusion
The nurse’s role pre-procedure is to explain the procedure
After the procedure, check the site of catheter insertion for excess
bleeding
DIAGNOSTIC TESTS
Cardiac catheterization
Used to visualize heart’s chambers, valves, vessels, and
coronary arteries
Aids in diagnosis, prevention of progression of disease and
accurate treatment
ANGIOGRAM AND CARDIAC
CATHETERIZATION
Used for diagnosis of cardiac pathology and congenital anomalies

Measure pressures within the heart

Assessment of the blood in the heart

Determinations of valvular defects

Ensure patient does not have iodine or shellfish allergy

Performed under sterile conditions

Requires informed consent
ANGIOGRAM AND CARDIAC
CATHETERIZATION
After the procedure

Assess circulation to the extremity used for catheter insertion

Check peripheral pulses, color, and sensation of the extremity

Observe the puncture site for hematoma and bleeding

Monitor vital signs

The patient is supine for a pre-determined time and a compression
device is applied over the insertion site to prevent hemorrhage
ELECTROCARDIOGRAM (EKG)
A graphic study of the conduction system within the
myocardium to determine transmission of cardiac
impulses through the muscles and conduction tissue
HEART MONITOR
Used to continually monitor heart rhythm and electrical activity
Monitors display a visual representation of cardiac activity
Telemetry monitor monitors the patient from a remote location by a
transmitter
The signals are sent to a central location
Trained technician or nurse monitors the cardiac activity
Most patients that require continuous cardiac monitoring are in a
critical care environment or telemetry unit with nursing staff that
has been trained in cardiac care.
HOLTER MONITOR
Used when the patient is discharged to home and monitor
heart rhythms
Monitor for suspected cardiac disease with normal resting
heart rate
EXERCISE STRESS TEST
Performs prescribed exercise
Walking on treadmill, stair climbing
THALLIUM SCANNING
Thallium is a radioactive isotope that is injected into the
patient.
Transported actively into normal cells during activity.
With ischemia, the thallium will not be picked up
Shows up in scans as a “cold spot”.
Indicates ischemic or infarcted myocardial tissue
ECHOCARDIOGRAPHY
Ultrasound directed at the heart.
Used to show size, shape, motion and cardiac output
(ejection fraction)
Define an EKG.
LABORATORY STUDIES
COAGULATION STUDIES
Used for patients receiving anticoagulation medications
for:
Myocardial infarction
Atrial fibrillation
Valve replacement

Study components
Partial prothrombin time (PTT) when patient is taking heparin
Prothrombin time (PT) and International ration (INR) when
patient is taking Coumadin
CARDIAC ENZYMES
Proteins - CK, CK-MB, and Troponin I
Released blood from the necrotic heart muscle after myocardial infarction

CK and CK-MB
Also found in skeletal muscle
Elevated following trauma, surgery and muscle diseases

Troponin I
The most cardiac specific
Gold standard of cardiac enzymes
Sensitive and can indicate a very small amount of myocardial damage
Rises in 3 hours after MI
Not influenced by skeletal muscle or renal failure
B-TYPE NATRIURETIC PEPTIDE (BNP)
Hormone excreted by the heart in response to ventricular
expansion and pressure overload

Level >100 pg/mL indicate heart failure
The higher the level, the more severe the heart failure
CHECK ON LEARNING
Following an angiogram with a left groin insertion site, the
nurse will include in the plan of care provisions for: (Select
all that apply).

a. Checking pedal pulses.
b. Ambulating with assistance 2 hours after recovery.
c. Checking color and warmth of left leg frequently.
d. Sandbagging over insertion site.
e. Placing patient in semi-Fowler’s position.
CHECK ON LEARNING
The nurse outlines which of these cardiac enzymes to be
the most cardiac specific?
a. Complete blood count (CBC).
b. Troponin I.
c. B-type natriuretic peptide (BNP).
d. Electrocardiography (ECG).
INTERVENTIONAL CARDIOLOGY
PURPOSE OF INTERVENTIONAL
CARDIOLOGY
Treatment for Acute Coronary Syndrome

Goals:
Reperfusion
Reduce ischemia
Prevent further damage to the myocardium
PERCUTANEOUS CORONARY
INTERVENTION (PCI)
Indication:
Unstable angina
NSTEMI (with hemodynamic instability)

PTCA –
Compresses plaque in the coronary artery
Increases blood flow to the myocardium

Coronary stent –
Provides structural support to compress plaque against the
artery wall
PTCA
CORONARY STENT
CHECK ON LEARNING
How can you differentiate a PTCA from a coronary stent?
REVIEW OF MAIN POINTS
Anatomy/physiology of the cardiovascular system
Electrical conduction system
Circulation
Diagnostics tests
Interventions
QUESTIONS ?