The Client with Alterations in Cardiac Output

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The Client with Alterations in Cardiac Output

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Title: The Client with Alterations in Cardiac Output

1
The Client with Alterations in Cardiac Output

Lecture
9/26/05
Sherry Burrell, RN, MSN
Rutgers University
Nursing III

2
Assessment Parameters

Cardiac Output
Measures the effectiveness of the hearts pumping
abilities.
CO is defined as the amount of blood that leaves
the heart in one minute.
CO Stroke Volume (SV) X Heart Rate (HR)
Normal CO Approximately 4-8 liters/minute
Cardiac Index CO per square meter of BSA
CO body surface area CI

3
C0 SV x HR

Stroke Volume (SV)
The amount of blood that leaves the heart with
each beat or ventricular contraction.
Not all blood ejected
Normal Adult 70 ml / beat
Ejection Fraction (EF)
The percentage of end-diastole blood actually
ejected with each beat or ventricular
contraction.
Normal adult 55-70 (healthy heart)

4
Stroke Volume

Three factors regulate stroke volume
Preload
The degree of stretch of the ventricle at the end
of diastole.
Contractility
Force of ventricular contraction (systole)
inotropy.
Afterload
The amount of resistance the ventricular wall
must overcome to eject blood during systole.

5
Stroke Volume Cont.,

Preload
The degree of ventricular stretch at end-diastole
The Frank-Starling Law of the Heart
? Preload ? Contractility (to a point)
Factors Affecting Preload
Circulating volume
Body positioning
Atrial systole or kick
Medications
Diuretics (i.e. Lasix)
ACE Inhibitors (i.e. Vasotec)
I.V. Fluids

Starling Curve
6
Stroke Volume Cont.,

Contractility
Positive inotropic agents
? Force of contraction
Negative inotropic agents
? Force of contraction
Factors that affect contractility
Autonomic nervous system (ANS)
Medications
Digoxin (Lanoxin)
Beta-adrenergic blockers (i.e. metoprolol )
Calcium channel blockers (i.e. verapamil )

7
Stroke Volume Cont.,

Afterload
Resistance to ventricular ejection during systole
Factors that affect afterload
Outflow impedance
Left side
High systemic blood pressures (SVR)
Aortic valve stenosis
Right side
High pulmonary blood pressures (PVR)
Pulmonary valve stenosis
Diameter of arterial vessels
Blood characteristics
Medications
ACE (angiotension converting enzyme) inhibitors

8
CO SV x HR

Heart Rate beats per minute (bpm)
? HR ? CO (to a point)
HR gt160 bpm ? CO
Leads to inadequate diastolic filling time ?
time for coronary artery filling and an increase
workload of the heart.
Factors that affect heart rate
ANS
Medications
Atropine sulfate
Digoxin (Lanoxin)
Beta-adrenergic blockers / calcium channel
blockers

9
Assessment Considerations

General Cardiac Symptoms
Fatigue
Chest pain or discomfort
Palpitations
Shortness of breath
Edema
Weight gain
Dizziness
Syncope, loss of consciousness

10
Assessment Special Populations

Gerontologic Considerations
Heart function is adequate at rest limited
ability to respond to stress and takes longer to
return to baseline.
Decrease sensation of chest pain tend to be
under quantified or even absent.
Gender Considerations
Women
Smaller hearts and coronary arteries
Tend to present with atypical symptom of CAD
Other Considerations
Diabetes mellitus and cardiovascular disease
Increased threat decreased symptoms !!

11
Laboratory Analysis

Serum Enzymes
Blood Chemistry
Lipid Studies
Electrolytes
Renal Function Studies
Coagulation Studies
Hematologic Studies

12
Serum Enzymes Cardiac

Creatine Phosphokinase (Total CK / CPK)
Non-Specific enzyme elevated with damage to
heart or skeletal muscles and brain tissue.
Elevates in 4 to 8 hours
Peaks in 15 to 24 hours
Returns to normal in 3 to 4 days
Creatine Phosphokinase Isoenzyme (CPK-MB)
Specific isoenzyme of CPK elevated with cardiac
muscle damage.
Elevates in 4 to 8 hours
Peaks in 15 to 24 hours
Returns to normal in 3 to 4 days

13
Cardiac Enzymes

Myoglobin
Non-specific a heme protein found in muscle
tissue elevated with damage to skeletal or
cardiac muscle.
Elevates in 2 to 3 hours
Peaks 6-9 hours
Returns to normal 12 hours
Lactic Acid Dehydrogenase (LDH)
Non-specific enzyme elevated with damage to many
body tissues. (i.e. heart, liver, skeletal
muscle, brain and RBCs) Not frequently used
today.
Elevates in 1 to 3 days
Peaks in 2 to 5 days
Returns to normal 10 to 14 days

14
Cardiac Enzymes Cont.,

Troponin I / T
Specific a contractile protein released with
cardiac muscle damage not normally present in
serum.
Elevates in 4 to 6 hours
Peaks in 10 to 24 hours
Returns to normal in 10 to 15 days
Sensitivity superior to CK-MB within the first 6
hours of event.
Has replaced LDH for clients who delay seeking
treatment.

15
Other Serum Enzymes

C-Reactive Protein
Protein marker of acute inflammatory reactions
Increased serum levels associated with increased
risk of acute cardiovascular events.
Homocysteine
Amino acid presence in serum suggests increased
risk of cardio-vascular events.
Natriuretic Peptides
Hormone-like substances released into bloodstream
with cardiac chamber distention.
Atrial Natriuretic Peptide (ANP)
Brain or B-type Natriuretic Peptide (BNP)

16
Blood Chemistry Analysis

Lipoprotein (Lipid) Profile
Total Cholesterol
Normal lt 200mg/dl
Triglyceride
Normal lt 150 mg/dl
Low Density Lipoproteins (LDL)
Normal lt130 mg/dl / Optimal lt100mg/dl
High Density Lipoproteins (HDL)
Normal gt 40 mg/dl
gt 60 mg/dl cardio-protective

17
Blood Chemistry Analysis Cont.,

Serum Electrolytes
i.e. Na, K, Ca and Mg
Glucose / Hemoglobin A1C
Coagulation Studies
PTT / aPTT
PT / INR
Hematologic Studies
CBC
Renal Function Studies
BUN
Creatinine

18
Diagnostic Testing

Electrocardiography
12-Lead EKG
Continuous bedside monitoring
Ambulatory monitoring
Stress Tests
Thallium Scans
Echocardiograms
Cardiac Catheterizations

Previously Discussed
19
Cardiac Stress Tests

Stressing the heart to monitor performance
Assists in Determining
Coronary artery disease
Cause of chest pain
Functional capacity of heart
Identify dysrhythmias
Effectiveness of medications
Establish goals for a physical fitness routine

20
Cardiac Stress Tests Cont.,

Types of Stress Tests
Exercise
Treadmill (most common)
Bike
Arm crank
Pharmacological
Vasodilating agents to mimic the effects of
exercise
Persantin
Adenosine
Mental / Emotional (new under investigation)
Simulated public speaking
Mental arithmetic test

21
Cardiac Stress Tests Cont.,

Thallium Scan
Often combined with stress tests
Radiological exam to assess how well the coronary
arteries perfuse the myocardium.
Images are taken 1 to 2 minutes prior to end of
stress test and again 3 hours later.
Nursing Considerations
NPO
IV Access

22
Cardiac Stress Tests Cont.,

Nursing Considerations
Explain procedure to client
Maintain NPO status 4 hour before test
Instruct client to avoid stimulants (i.e.
chocolate, caffeine and cigarettes)
Hold certain medications before testing
Exercise i.e. beta-adrenergic blockers
Pharmacologic i.e. Theophylline (24-48 hours
prior)
I.V. access must be obtained

23
Echocardiogram

Ultrasound procedure of the heart combined with
an electrocardiogram (EKG).
Assesses
Cardiac geometry (size shape)
Motion of structures (chamber walls / valves)
Simultaneous EKG assists in interpretation
Can be done in conjunction with stress testing
Referred to as a stress echocardiography or
exercise echocardiography

24
Echocardiogram Cont.,

Types of Echocardiograms
Transcutanoeous
Non-invasive / painless
Transesphogeal (TEE)
Invasive / Clearer images
Nursing Considerations
Explain procedure
NPO 6 hours prior procedure
I.V. access
NPO 4 hours post-procedure
Monitor for complications

25
Cardiac Catheterization

Gold Standard of cardiac diagnostics
Invasive procedure to assess
Cardiac chamber pressures oxygen saturations
Detect congenital or acquired structural defects
Ejection fraction
Often Includes
Coronary arteriography to assess coronary artery
patency
Using X-ray technique called fluoroscopy
Requiring the use of I.V. contrast / dye

26
Cardiac Catheterization Cont.,

Nursing Care
Prior to procedure
Explain procedure
NPO prior to procedure (8 to 12 hours)
Check allergies (I.V. dye / shellfish / iodine)
Laboratory tests
During procedure
I.V. access
Hemodynamic monitoring
Arterial and venous access via catheters
(sheaths)
Femoral (most common) or brachial

27
Cardiac Catheterization Cont.,

Post-Procedure Nursing Care
Maintain Client Bedrest for 6 to 8 hours
Extremity straight HOB up lt 30 degrees
Maintain Adequate Hydration
IV Fluids (if ordered)
Encourage Fluids
Frequent Monitoring For Complications
Vital signs
Puncture site
Distal pulses
Laboratory results

28
The Client with Alterations in Cardiac Output

Lecture II
9/30/05
Sherry Burrell, RN, MSN
Rutgers University
Nursing III

29
Coronary Artery Disease (CAD)

An insidious, progressive disease resulting in
coronary artery narrowing or total occlusion.
Atherosclerosis
Most common cause of CAD
The abnormal accumulation of plaques on the
vessel wall involves inflammatory process.
Causes narrowing then eventually blockages in the
coronary arteries that reduces myocardial blood
flow CAD
Asymptomatic until 75 occlusion of coronary
artery lumen.

30
Coronary Artery Disease Cont.,

Basis of CAD Management
Framingham Study (1948- cont. today)
Identified specific risk factors and life-style
habits that increase ones risk for developing
atherosclerotic heart disease.

31
CAD Risk Factors

Modifiable
Cigarette smoking
Hypertension (HTN)
Hyperlipidema
Physical inactivity
Diabetes Mellitus
Obesity
Stress / Anxiety
Diet

Non-Modifiable
Increasing Age
Males gt45 years old
Females gt55 years old
Gender
Affects both men and women 1 killer is U.S.
Genetics
Strong genetic component
Ethnicity
Non-whites increased incidences versus whites

32
CAD Interventions

Smoking Cessation
Diet
Exercise
Weight Management
Cholesterol Management
Lipid Profile
Normal every five years
Medications
i.e Zocor, Crestor Niaspan

HTN Management
BP Screenings
Medications
i.e. antihypertensives diuretics.
Diabetes Management
Blood glucose testing
Medications
i.e. oral hypoglycemics insulin

33
Angina Pectoris

As CAD progresses the atherosclerotic plagues
become significant, reducing blood flow to
portions of the myocardium Ischemia.
Myocardial ischemia clinically manifests most
often as angina or chest pain.
Angina pectoris is defined as myocardial ischemia
without cellular death.
Imbalance between myocardial oxygen supply and
demand

34
Myocardial Oxygen Supply and Demand Balance
Demand
Supply
O2
O2

Preload
Afterload
Arterial Oxygen Content
Coronary Artery Blood flow
Heart Rate
Contractility
35
Precipitating Factors Angina

Any situation where oxygen demands are increased
Physical exertion
Tachycardia
Dysrhythmias
Cold weather
Eating a heavy meal
Stress or emotional states

36
Angina Pectoris

Signs and Symptoms
Chest Discomfort or Pain
Can occur anywhere in chest most commonly behind
sternum poor localization
Pain may radiate to the back, arms (left most
common), shoulder, neck or jaw.
Described as pressure, tightness or burning
sensation
Often precipitated by physical exertion or stress
Maybe associated with a few of the following
symptoms
SOB, weakness, anxiety, diaphoresis, N/V,
dizziness or numbness in upper extremities

37
Types of Angina

Stable Angina
Predictable, consistent pain with physical
exertion relieved with rest my usual chest
pain
Rest NTG can be managed medically for years
Unstable Angina
Last longer than stable angina, new onset or
increased frequency / intensity of symptoms
pain at rest
Preinfarction or Crescendo Angina
Lasting longer than 15 minutes /unrelieved by NTG
x3 is a medical emergency!
Call 911 / hospitalization for management

38
Types of Angina Cont.,

Variant / Prinzmetal Angina
Pain at rest maybe cyclic, ST segment
elevation (reversible) usual cause is coronary
artery vasospasm with or without atherosclerotic
plaques
Nitrates calcium channel blockers
Silent Angina
No signs or symptoms ST segment elevation
Nitrates, beta blockers, calcium channel blockers
lifestyle changes

39
Management Unstable Angina

Goals of Medical Management
Increase O2 supply decrease O2 demand to the
myocardium.
Prevent MI and death
To actively intervene !!
12-Lead Electrocardiogram (EKG)
Significant CP without EKG changes changes
treated as an MI.
Laboratory Tests
Electrolytes
Cardiac Enzyme Panel
Rule-out MI every 8 hours x 3 / 6 hours x4

40
Management Unstable Angina

Relief of Chest Pain MONA
Morphine (drug of choice)
Oxygen
Nitroglycerine
Increase Coronary Artery Blood Flow
Antiplatelet medications
ASA
Glycoprotein (GP) IIb/IIIa Inhibitors
Heparin
Percutaneous Coronary Intervention (PCI)

41
Management of Unstable Angina
?Demand
?Supply
O2

?Contractility
HR
? Afterload

O2
? Preload
NTG ACE I Morphine
Beta Blockers Ca Channel Blockers ACE I
? Blood Flow
Open Occluded Arteries
NTG Ca Channel Blockers ASA Anticoagulants Morphin
e
PCI
42
Nursing Interventions Unstable Angina

Early Identification of Chest Pain
Assessment of Chest Pain
Chest Pain Intensity- Scales (0-10)
Characteristics- OLD CART
Mentation, overall tissue perfusion
Vital signs, heart rhythm, pulse oximetery
Diagnostics 12- lead EKG and Laboratory tests
Management of Chest Pain MONA

43
Nursing Interventions Unstable Angina

Calm Environment
Anxiety and fear of impending doom (death)
Activity Restrictions
Avoid the valsalva maneuver
Patient Education
Risk factors for CAD
Signs and symptoms of angina
Medications
When to call the doctor
Stress management techniques

See pp.403 box 16-8 Thalen
44
Acute Coronary Syndromes (ACS)

Umbrella term to describe a wide range of
clinical presentations of CAD from unstable
angina to acute myocardial infarction (MI).
Continuum, Not separate disorders!

Acute Myocardial Infarction
Unstable Angina
45
Myocardial Infarction (MI)

An MI is defined as irreversible necrosis (death)
of myocardial tissue, resulting from an abrupt
decrease or total lack of coronary blood supply.
An abrupt and severe disruption of O2 supply and
demand to the myocardium.
Causes
Coronary artery thrombosis (most common)
Coronary artery vasospasm
Cocaine
Trauma
Severe and abrupt hypotension

46
Myocardial Infarction (MI) Cont.,

Signs and Symptoms
Chest Pain
Severe and unrelenting substernal chest pain
often radiating to the back, left arm or jaw.
Lasting for 30 minutes or more
Only relieved by opioids
Occurs without a know precipitating event
usually occurring in the morning
Associated Symptoms
SOB, weakness, anxiety, diaphoresis, N/V,
dizziness or numbness in upper extremities.

47
Myocardial Infarction Cont.,

Pathophysiology
Irreversible cell death within 20-40 minutes of
cessation of blood flow.
Wavefront of cellular death proceeds from
endocardium to epicardium.
EKG changes associated with an MI
Ischemia T wave inversion
Injury ST segment elevation
Infarction Pathological Q waves

48
Types of Myocardial Infarctions

Classified according to muscle layer affected
Q wave MI
Transmural full thickness muscle wall necrosis
Often associated with a more prolonged MI
Non-Q wave MI
Partial-thickness muscle wall necrosis
Often associated with smaller, less complete
occlusions.
i.e. Subendocardial- necrosis of the inner 1/3 to
1/2 of the muscle wall.

49
Types of Myocardial Infarctions

According to anatomical location
Left Ventricle
Anterior Wall
Left Anterior Descending (LAD)
Associated with left ventricular failure,
pulmonary edema cardiogenic shock
Inferior Wall
Right Coronary Artery (RCA)
Associated with dysrhythmias conduction
disturbances
Posterior Wall
RCA or Circumflex Artery
Right Ventricle
Portion of the RCA Rare

50
Complications Post-Acute MI

Dysrhythmias (Most Common)
Sinus Bradycardia
Occurs in about 40 of clients after an acute MI
Sinus Tachycardia
Must be corrected !!
Atrial
PACs or Atrial fibrillation common
Ventricular
PVCs and ventricular tachycardia (VT)
AV Heart Blocks
Most common with inferior wall MI

51
Complications Post-Acute MI

Ventricular Aneurysm
Non-contractile, thin ventricular wall ? SV
Leads to acute heart failure, emboli and VT
Ventricular Septal Defect
Rupture of septum shunting of blood
S/Sx Severe CP, syncope, ?BP holosystolic
murmur
Medical emergency high mortality surgery to
correct
Pericarditis
An inflammation of the pericardial sac
S/Sx Pain, friction rub (left sternal border)
Treatment NSAIDS and ASA

52
CAD / Angina / MI Nursing Diagnoses

Acute pain related to an imbalance between
myocardial oxygen supply and demand.
Anxiety related to fear of unknown or death.
Ineffectual coping related to effects of acute
illness and major lifestyle changes.
Activity intolerance related to fatigue
(secondary to an imbalance between oxygen supply
and demand).
Knowledge deficit related to CAD /angina / MI and
its treatments.

53
CAD / Angina / MI Nursing Diagnoses

Powerlessness related to the lack of control over
current situation or disease progression.
Ineffective (cardiopulmonary) tissue perfusion
related to impaired arterial blood flow.
Decreased cardiac output related to altered
Preload
Afterload
Contractility
Heart rate / rhythm

54
Acute MI Management

Goals of Medical Management
Chest pain control
To preserve the myocardium
Prevention or management of complications
Pharmacological / intervention-based therapies
EKG
Positive changes and/or severe CP despite medical
therapies
Laboratory Tests
Electrolytes
Cardiac Enzyme Panel
Rule-in MI and then to monitor response to
treatments

55
Thrombolytic Therapy

Preserves the ischemic myocardium limits the
size of infarction by restoring blood flow
quickly can be done in emergency room.
Thrombolytic Agents
Work by causing lysis of clots clot busters
i.e. Alteplase (t-PA) or Reteplase (r-PA)
Eligibility Criteria
CP gt30 minutes
lt 12 hours from onset (many institutions lt 6
hours)
Positive EKG changes
CP unrelieved with medical therapies (i.e. NTG)

56
Thrombolytic Therapy Cont.,

Exclusion Criteria
History of CVA or any bleeding disorder
Active internal bleeding or recent surgery
Complications
Bleeding and reperfusion dysrhythmias
Nursing Role
I.V. Access
Baseline labs
Monitoring
Subsequent labs, vital signs for complications
Bleeding Precautions

57
Percutaneous Coronary Intervention

Umbrella term for all various of interventional
cardiac catheterization procedures.
Indications
Angina refractory to medical therapies
Proximal coronary artery stenosis single or
double vessels disease
Procedure Nursing Care
Much the same as cardiac catheterizations
Except venous arterial catheters larger lumen
with interventional catheterizations (i.e. stents)

58
Percutaneous Coronary Intervention

Procedural Variations
Angioplasty
Percutaneous Transluminal Coronary Angioplasty
(PTCA)
Balloon tipped-catheter expanded to dilate
vessel
Laser- UV pulse laser to vaporize lesion
Atherectomy
Removal of plaque from vessel
Coronary Artery Stenting
Tiny metal mesh tubes
Drug-eluting Stents Coated with Rapamune
Brachytherapy
For in-stent re-stenosis gamma radiation therapy

59
PCI Cont.,

Nursing Care
Prior to procedure
Explain procedure
NPO prior to procedure ( 8 to 12 hours)
Check allergies (I.V. dye / shellfish / iodine)
Laboratory tests
During procedure
I.V. access
Hemodynamic monitoring
Arterial and venous access via catheters
(sheaths)
Femoral (most common) or brachial

60
PCI Cont.,

Post-Procedure Nursing Care
Maintain Client Bedrest for 6 to 8 hours
Extremity straight HOB up lt 30 degrees
Maintain Adequate Hydration
IV Fluids (if ordered)
Encourage Fluids
Frequent Monitoring For Complications
Vital signs
Puncture site
Distal pulses
Laboratory results

61
PCI Complications

Acute Coronary Artery Occlusion
Thrombosis /emboli or persistent vasospasm
Impaired circulation to distal extremity
Distal arterial emboli
Blue toe syndrome
Disrupted plaques occludes small vessels pulses
and circulation checks are good but, severe pain.
Hemorrhagic Event
i.e. Arterial tear retroperitoneal bleeding
Puncture Site Complications
i.e. Bleeding or hematoma formation
Reperfusion Dysrhythmias

See pp. 735 table 28-7 Smeltzer Bare
62
Cardiac Surgery

Coronary Artery Bypass Graft (CABG)
A surgical revascularization procedure blockages
are bypassed using internal mammary artery or
great saphenous vein.
Indications
Angina unrelieved by medical therapies
Left main disease
Triple vessel disease
Single or double vessel disease not amendable to
PCI or failed PCI

63
Cardiac Surgery CABG

Different Surgical Approaches
On-Pump (Traditional CABG)
Cardiopulmonary bypass machine (extracorporeal
circulation) heart stopped during procedure
Off-Pump
Beating heart procedure uses octopus device
to stabilize the myocardium during procedure
Minimally Invasive Direct CABG (MIDCABG)
Single vessel disease not amendable by PCI
procedures
Small thoracotomy incision off-pump approach

64
Cardiac Surgery CABG

Complications
Stroke (2 post-bypass reperfusion)
Hypertension
Hypotension
Bleeding
Dysrhythmias
Cardiac Tamponade

65
CABG Post-Operative Nursing Care

Maintain airway patency
Continuous bedside monitoring
Mediastinal chest tube management
Monitor drainage avoid kinks in tubing
Assess pain levels frequently and provide relief
Provide relief from anxiety and fear
Assess the surgical incisions for s/sx of
infection
Assess the extremity from which vessel harvested
Look for signs impaired circulation edema
Monitor for complications

66
Management of an Acute MI
?Demand
?Supply
O2

?Contractility
HR
? Afterload

O2
? Preload
NTG ACE I Morphine
Beta Blockers Ca Channel Blockers ACE I
Open Occluded Arteries
? Blood Flow
NTG Ca Channel Blockers ASA Anticoagulants Morphin
e
PCI Thrombolytics CABG
67
Cardiac Rehabilitation

Education and support for client and family
Initiated once client is free of symptoms
Focuses
Education
Psychological Support
Physical Conditioning
Goals
Maximize QOL
Limit progression of CAD
Prevent further cardiac events

68
Cardiac Rehabilitation

Phases of Cardiac Rehabilitation
Phase I Inpatient (post-event)
Education on medications, rest-activity balance,
follow-up appointments when to call doctor or
911.
Low-level physical conditioning i.e. self-care
mobilization.
Phase II Outpatient Supervised
Physical conditioning education on risk factor
modification
Phase III Outpatient Self-Directed
Maintain cardiovascular stability long-term
physical conditioning

69
The Client with Alterations in Cardiac Output

Lecture III
10/10/05
Sherry Burrell, RN, MSN
Rutgers University
Nursing III

70
Hemodynamics

Describe the intravascular pressures and the flow
occurring when the myocardium contracts and blood
is pumped via the vascular system through-out the
body.
Basic Principles
Blood flow throughout the cardiovascular system
from area of higher pressures to areas of lower
pressures.
Pressures created by cardiac cycle systole
diastole
Pressures Cardiac chambers and vessels

71
Hemodynamic Monitoring

Two Major Categories
Non-Invasive
i.e. Taking a blood pressure or a pulse
Invasive
Intra-arterial blood pressure monitoring
(A-lines)
Central venous pressures (CVP) catheters
Pulmonary artery (PA) catheters (Swan-Ganz)

72
Invasive Hemodynamic Monitoring

Three Components
Transducer Converts fluid waves into electrical
signals
Amplifier Increases the size of the electrical
signal
Monitor / Recorder Displays the signal and saves
data
Specialized Equipment
Catheter access to client
Semi-rigid (high pressure) tubing
Three-way stop cock
Intraflow or In-line flow device
Inflatable pressurized sleeve / bag
I.V. Solution 0.9 NSS with heparin added

73
Invasive Hemodynamic Monitoring Cont.,

Calibration of Equipment
Leveling
Transducer at the
level of right atrium
Zeroing
Atmospheric pressure

Lets see how its done

http//www.eonreality.com/demos/e-learning/ccn/uni
t3_4demo/e2_electdemo.html
74
Intra-arterial BP Monitoring

Indicated for direct, continuous blood pressure
monitoring in the critically ill client.
Measures systolic, diastolic mean arterial
pressures (MAP)
Allows for serial samplings of ABGs
Considered low-risk
More accurate than cuff pressures in low CO and
shock (not affected by vasoconstriction)
NEVER USED TO GIVE MEDICATIONS !!

75
Intra-arterial BP Monitoring Cont.,

Insertion Sites
Radial (most common)
Brachial
Femoral
Insertion Techniques
Percutaneous
Cut-down (if necessary)
Insertion Assessment
Distal Blood Flow
Doppler Ultrasound
Allens Test

76
Intra-arterial BP Monitoring Cont.,

Nursing Considerations
Monitor for complications
Compromised blood flow to distal extremity
i.e. thrombosis or arterial spasm
Insertion Site
i.e. Infection, bleeding, hematoma or skin
breakdown
Maintenance of System
Sterile dressing changes
Tubing, caps and flush bag changes

77
Central Venous Pressure (CVP) Catheters

Measures the pressures in the right atrium.
Used to assess right ventricular function and
venous blood return to heart.
CVP / Right Atrial Pressures Reflection of
right ventricular filling pressures (preload).
Normal Limit 2- 6 mm Hg
Increased CVP Fluid Overload
Decreased CVP Hypovolemia

78
CVP Catheters Cont.,

Insertion Sites
Internal Jugular
Subclavian Vein
Tip advanced to the

Superior Vena Cava
Prior to Use
Chest X-Ray
Confirm placement
Rule-out pneumo- or hemo- thorax

79
CVP Catheters Cont.,

Complications
Dislodgement
Infection
Air Embolism
Cardiac dysrhythmias
Nursing Care
Sterile dressing changes
Tubing, caps and fluid bag changes
Flushing of lumens never tie off !!

80
Pulmonary Artery (PA) Catheters

Used to assess left ventricular function.
Multi-Tasking Catheters
Right Atrial Pressures (same as CVP)
Pulmonary Artery
Pulmonary artery systolic pressures (PAS)
Pulmonary artery diastole pressures (PAD)
Pulmonary artery mean pressure (MAP)
Left Atrial Pressures
Pulmonary artery occluded pressures (PAOP)
Normal limit 5-13 mmHg
Reflection of left ventricular filling pressures
(preload)

81
PA Catheters Cont.,

Multi-Tasking Catheters Cont.,
Intermittent Cardiac Output
Specialized PA Catheters
Additional Features
Continuous I.V. infusions
Continuous CO monitoring
Continuous venous mixed oxygen saturation
monitoring
Represents venous blood saturations from many
body tissues
Monitors balance between O2 supply and demand
Temporary transvenous pacing wires

82
PA Catheters Cont.,

Insertion Sites
Internal Jugular
Subclavian Vein
Threaded into the right atrium,
to right ventricle
finally
resting in the
pulmonary artery.
Prior To Use
Chest x-ray
Ensure proper placement
R/O pneumo- or hemo- thorax

83
PA Catheters Cont.,

Complications
Dislodgement
Infection
Air embolism
Cardiac Dysrhythmias
Thromboembolism
Pulmonary Artery rupture
Nursing Care
Sterile dressing changes
Tubing, caps and fluid bag changes
Flushing of lumens Never tie off !!

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Heart Failure

The inability of the heart to pump adequate
amounts of blood to meet bodys needs for oxygen
nutrients.
Common causes
CAD
HTN
Cardiac Infections
Cardiomyopathy
Valvular Disorders
Myocardial Infarction
Dysrhythmias

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Classification of Heart Failure

Onset
Acute heart failure
Chronic heart failure
Affected portion of the cardiac cycle
Diastolic heart failure
Systolic heart failure
Affected side of the heart
Left heart failure
Right heart failure
Stages of heart failure severity
New York Heart Association
American Heart Association/American College of
Cardiology

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Acute or Chronic Heart Failure

Describes the speed of onset of heart failure
Acute Heart Failure
Sudden onset
No compensatory mechanisms
May experience acute pulmonary
edema,?CO or cardiogenic shock
Chronic Heart Failure
Gradual (insidious) Onset
Presence of compensatory mechanisms
Structural heart chamber changes (dilation or
hypertrophy)
Fluid overload sodium and water retention
Ongoing process may deteriorate into acute HF
i.e. Onset of dysrhythmias or cessation of
medications

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Heat Failure Compensatory Mechanisms

Sympathetic Nervous System
Decreased tissue perfusion results in activation
of the sympathetic nervous system, resulting in
? Heart rate
? Contractility
Vasoconstriction of arteries, arterioles veins
(?afterload ?preload)
RAAS Renin-Angiotension-Aldosterone System
Decreased renal perfusion stimulates the
increased release of renin? angiotensin II
production, resulting in
Vasoconstriction (? afterload)
Release of aldosterone Na water retention
(?preload)

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Heat Failure Compensatory Mechanisms

Ventricular Remodeling
Final compensatory mechanism
The ventricles change in size shape in order to
overcome the ? resistance (afterload) of heart
failure.
Hypertrophy
The ventricles thicken and become stiff resulting
in impairing filling during diastole.
Dilation
The heart muscle becomes over-stretched resulting
in a decreased force of contraction during
systole.
Overtime these mechanisms may actually worsen
heart failure !!

89
Myocardial Disease / Injury Impaired Ventricular
Performance

Cardiac
Output

Cardiac
Workload

Vicious Cycle of Heart Failure

? SNS
? HR
? Contractility
Vasoconstriction

Ventricular Remolding Dilation Hypertrophy
? RAAS Vasoconstriction Na/H2O Retention
90
Systolic or Diastolic Heart Failure

Described HF based on cardiac cycle
Diastolic Heart Failure
Disorder of ventricular filling
Structural changes usually ventricular
hypertrophy
Normal Ejection Fraction
Systolic Heart Failure (more common)
Disorder of ventricular contraction
Structural changes usually ventricular dilation
? Ejection Fraction (lt 40)
Combined diastolic systolic impairments are
common.

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Systolic Diastolic Heart Failure Remodeling
(Jessup Brozena, 2003)
92
Left Right Sided Heart Failure

Describes Heart failure based on the side of the
heart that is affected.
Left-Sided Failure
Left ventricular failure
Pulmonary congestion
Sign/Symptoms i.e. fatigue, SOB, dyspnea, PND,
orthopena, crackles, dry cough, tachycardia
Right-Sided Failure
Right ventricular failure
Systemic congestion
Signs/Symptoms i.e. weakness, peripheral edema,
weight gain, JVD, hepatomegaly, anorexia N/V.

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NYHA Functional Classification of HF

I No symptoms and no limitation in ordinary
physical activity.
II Mild symptoms and slight limitation during
ordinary activity. Comfortable at rest.
III Marked limitation in activity due to
symptoms, even during less-than-ordinary
activity. Comfortable only at rest.
IV Severe limitations. Experiences symptoms
even while at rest.

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AHA/ACC Classification System of HF
(Jessup Brozena, 2003)
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Heart Failure Nursing Diagnoses

Impaired gas exchange related to ventilation
perfusion imbalance.
Decreased cardiac output related to altered
Preload
Contractility
Afterload
Heart rate /rhythm
Activity intolerance related to fatigue
(secondary to by an imbalance between oxygen
supply and demand).
Ineffective (cardiopulmonary) tissue perfusion
related to impaired arterial blood flow.

96
Heart Failure Nursing Diagnoses

Excess fluid volume related to excess fluid or
sodium intake and retention of fluid secondary to
heart failure and its treatments.
Anxiety related to breathlessness and / or
restlessness secondary to inadequate oxygenation.
Powerlessness related to inability to perform
usual role responsibilities.
Knowledge deficit related to heart failure and
its treatments.

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Nursing Management Heat Failure

Nursing Considerations
Respiratory
Supplemental oxygen
Good lung assessment
Monitoring
Hemodynamic Monitoring
Daily Weights
I Os
Laboratory Results
i.e. electrolytes, BNP digoxin levels
Maintain
Small frequent meals low in salt
Skin integrity

98
Nursing Management Heat Failure

Nursing considerations Cont.,
Promote rest and avoid fatigue
Assess for peripheral edema
Client Education
Medications
Lifestyle changes
i.e. low-sodium diet activity-rest balance
Daily weights
S/Sx of worsening heart failure to report
Importance of follow-up care

99
Heart Failure Management

Goals of management
Relief of health failure symptoms
Enhance cardiac performance
Pharmacologic Management
Reduce Cardiac Workload
Diuretics ?Preload watch for hypokalemia
Nitrates ? Preload
ACE I / ARBs ?Preload ?Afterload
Beta blockers / ACE I Enhance reverse remolding
Increase Positive Inotropic Effects
i.e. Digoxin (Lanoxin)

100
Heart Failure Management

Mechanical Assist Devices
Intra Aortic Balloon Pump (IABP)
Most widely used temporary assist device
Augments diastolic coronary artery blood flow,
enhances renal perfusion reduces afterload
Used to reduce cardiac workload when medical
therapies are refractory
i.e. Acute MI, after cardiac surgery or heart
Failure

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Heart Failure Management