Oxygenation, Circulation, Perfusion & CBC PDF Fall 2022

Summary

This document is a set of lecture notes on oxygenation, circulation, perfusion, and CBC. It covers topics like respiratory and cardiovascular anatomy and physiology, factors affecting respiratory and cardiovascular function, and nursing strategies to promote adequate oxygenation. The document presents various relevant diagrams.

Full Transcript

OXYGENATION, CIRCULATION, PERFUSION & CBC
VY WYATT MS, RN
REVISED BY FARAH VILLANUEVA, MSN, FNP-C
TEXAS WOMAN'S UNIVERSITY
NURS 3005: FALL 2022
OBJECTIVES
Describe the principles of respiratory and cardiovascular anatomy and physiology.
Describe the function and role of the respiratory and cardiovascular systems in oxygenation.
Identify factors that affect respiratory and cardiovascular function.
Develop nursing diagnoses that correctly identify problems that may be treated by independent
nursing interventions.
Describe nursing strategies to promote adequate oxygenation and vascular circulation and identify
their rationale.
Plan, implement, and evaluate nursing care related to select nursing diagnoses involving oxygenation
problems.
Evaluate effectiveness of cardiopulmonary nursing interventions.
PULMONARY ANATOMY OVERVIEW
O2 in the atmosphere

Airways

Alveoli

Alveolar capillary membrane

O2 goes into the bloodstream/ CO2 goes out to the alveoli
PULMONARY PHYSIOLOGY OVERVIEW

Gas exchange is made
possible by
Ventilation
Respiration
Perfusion
VENTILATION

Movement of air into and out of the
lungs
Inspiration
Expiration
Factors that contribute to airflow
Condition of the musculature
Compliance of the lung tissue
Airway resistance
RESPIRATORY MUSCLES
Weak muscles = less effective inhalation and
exhalation
Signs of difficulty breathing
Nasal flaring
Retractions
Use of accessory muscles
LUNG COMPLIANCE
Compliance is the ability of the lungs to distend or
expand
Elasticity of lung tissue
Surfactant
Conditions that decrease compliance (stiff lung):
Chronic lung conditions
Emphysema
Pulmonary fibrosis
Aging
Prematurity
AIRWAY RESISTANCE
When the diameter of an airway decreases, the airway resistance
increase and limits the amount of oxygen delivered to the alveoli

Which one of these airways has a higher resistance?

Conditions that increase resistance:
Asthma
Sleep apnea
Edema or inflammation of the airways
Increased secretions
Obstruction or lung masses
RESPIRATION/DIFFUSION
Exchange of oxygen and carbon dioxide
between the atmospheric air in the terminal
alveoli and blood in the capillaries
Movement of gas - areas of higher
pressure/concentration to areas of lower
pressure/concentration
Factors that influence diffusion
Changes in the in the surface area
Thickening of the alveolar-capillary
membrane
Partial pressure
ATELECTASIS
Collapse of alveoli prevents normal gas exchange
May be from lack of surfactant or airway
obstruction
Common hospitalization/ post-op complication

What are some nursing interventions to prevent
atelectasis?
PERFUSION
Process by which oxygenated capillary blood
passes through the body tissues
Factors that influence perfusion
Amount of blood flowing through the lungs
Activity level
Adequate blood supply and proper
cardiovascular functioning
REGULATION OF RESPIRATION
Neural regulation
CNS
Chemical regulation
Chemoreceptors sense changes
in concentration of O2, CO2, and pH
(H+ ions)
Proprioceptors
Sensory receptors in the muscles

What effect would a CNS injury have
on respirations?
GOAL OF VENTILATION FOR OXYGENATION

ABG Normal Values
PaO2 80 – 100 mm Hg
PaCO2 35 – 45 mm Hg
SpO2 95 – 100 %
ALTERATIONS IN RESPIRATORY FUNCTIONING
HYPOventilation HYPERventilation Hypoxia
Decreased respirations Increased rate/depth Inadequate tissue oxygenation at
Inadequate alveolar ventilation of respirations the cellular level
where body’s O2 demands are not Lungs remove CO2 faster than it is Life-threatening condition
being met produced from cellular Causes (see next slide)
Body retains CO2 and can lead to metabolism and can lead to
respiratory acidosis respiratory alkalosis S/S: Restlessness, decreased LOC,
Occurs with atelectasis, sedation, Sometimes is a compensatory behavioral changes, increased HR,
drug overdose mechanism for a metabolic increase RR, cyanosis
imbalance (fever, metabolic
S/S: Changes in mental status/ acidosis, aspirin poisoning)
LOC, convulsions, dysrhythmias, Can occur with severe anxiety
potential cardiac arrest, death
S/S: Lightheadedness, loss of
consciousness
CAUSATIVE FACTORS FOR HYPOXIA
O2 carrying capacity
Anemia (decreased Hgb production, RBC destruction, blood loss)
Carbon monoxide poisoning
Physiological

Hypovolemia
Physiological

(decreased circulating blood volume leading to hypoxia)
Factors
Factors

Shock
Severe dehydration
Inspired O2 Concentration
Airway obstructions
Decreased environmental oxygen (such as at high altitudes)
Hypoventilation
Metabolic Rate
Persistent fever
CARDIOVASCULAR SYSTEM
ANATOMY OF THE CARDIOVASCULAR SYSTEM
BLOOD FLOW REGULATION

Cardiac output
CO = SV x HR
Stroke volume affected by:
Preload
Afterload
Contractility
REGULATION OF THE CARDIOVASCULAR SYSTEM

Conduction system
Blood flow to the cardiovascular
system
Factors affecting the function of the
heart:
Nervous system
Hormones
Drugs
CONDUCTION SYSTEM
Electrical impulses
P wave
QRS complex
T wave
Telemetry monitoring
12 lead ECG
ALTERATIONS IN CONDUCTION

RHYTHM HR SV CO

BRADYCARDIA

TACHYCARDIA

ATRIAL FIBRILLATION

VENTRICULAR FIBRILLATION
DEEP VEIN THROMBOSIS
ALTERATIONS IN CORONARY CIRCULATION
Myocardial Ischemia

Stable Angina Myocardial Infarction (MI)
Acute Coronary Syndrome (ACS)
Cause Temporary imbalance between the amount of Sudden decrease in coronary blood flow or increase
oxygen needed by the heart and the amount in myocardial oxygen demand without adequate
delivered to the heart muscles perfusion
Infarction occurs from untreated ischemia
Aggravating factors Transient chest pain often precipitated by activities Chest pain (crushing, squeezing, stabbing) can occur
that increase myocardial oxygen demand with activity or rest
Duration ~3-5 min > 20 min

Alleviating factors Often relieved with rest and vasodilators Not relieved by rest, repositioning or
(commonly sublingual nitroglycerin) sublingual nitroglycerin
Treatment Treatment will vary depending on severity of MEDICAL EMERGENCY
blockage
Patient education
ALTERATIONS IN CARDIAC OUTPUT
Heart failure
Inability to pump sufficient blood
Inadequate perfusion and oxygenation of
tissues
Causes
Chronic HTN
CAD
Incompetent valves
FACTORS AFFECTING CARDIOPULMONARY FUNCTIONING

Level of health
Developmental considerations
Infants and toddlers
School-age children and adolescents
Young and middle-aged adults
Older adults
 LIFESTYLE FACTORS Substance Abuse
Excessive alcohol or drug use
impairs tissue oxygenation
Exercise Usually also has poor
Nutrition People who perform aerobic nutritional intake
Obesity: Decreases lung expansion, exercise have a lower pulse Can depress respiratory
increased body weight increases tissue rate and blood pressure, center
O2 demands, at risk for anemia lower cholesterol level,
Malnourishment: Respiratory muscle increased blood flow, and
wasting, weak cough results in retained greater O2 extraction Stress
pulmonary secretions, at risk for anemia, Increases metabolic rate
high cholesterol endangers CV health and O2 demands
Cardioprotective nutrients: fiber, whole People with chronic or life
grains, fresh fruit, veggies, nuts,
Smoking
Linked to heart disease, COPD threatening diseases cannot
antioxidants, lean meats, fish, omega-3 tolerate this demand
COPD patients: encouraged to avoid and cancer
high carb diets (carbs are metabolized to Smokers have a 10x higher risk of
carbon dioxide). Implement high developing lung cancer Environmental
protein/high calorie for energy Women taking birth control pills Factors
who smoke are at risk for Smog, asbestos, talcum
developing blood clots powder, dust,
Harm of secondhand smoke secondhand smoke
 ASSESSMENT
APPLYING THE
NURSING PROCESS
EVALUATION DIAGNOSIS
TO THE
CARDIOVASCULAR
& PULMONARY
IMPLEMENTATION PLANNING SYSTEM
ASSESSMENT

Health history Physical assessment Vital signs
Inspection Diagnostic tests
Palpation
Percussion
Auscultation
PULSE OXIMETRY MONITORING
Non-invasive measurement of
arterial oxygen

Can be intermittent or continuous
 DIAGNOSTIC TESTS

Blood Studies Cardiac Functioning Ventilation and Oxygenation
Complete Blood Count Holter monitor Arterial Blood Gases
Cardiac Enzymes ECG exercise stress test Pulmonary Function Tests
Cardiac Troponins Thalium stress test Peak Expiratory Flow Rate
Serum Electrolytes Electrophysiological study Bronchoscopy
Cholesterol Echocardiography Lung Scan
Brain natriuretic peptide Scintigraphy Thoracentesis
C-reactive protein Cardiac catheterization and Sputum studies
angiography Capnography
 Ineffective
airway
clearance

Impaired gas
Anxiety
exchange

Nursing
Diagnoses Ineffective
Fatigue breathing
pattern

Decreased
Activity
cardiac
intolerance
output
PLANNING

Outcome Identification and Planning
Demonstrate improved gas exchange
Preserve cardiopulmonary function
Demonstrate coping methods and self-care
behaviors
IMPLEMENTATION: NURSING INTERVENTIONS

Promoting Optimal Function
Healthy lifestyle
Maintaining good nutrition
Small meals may help
Nasal cannula during meals if
needed
Adequate hydration
Vaccination
Pollution-free environment
IMPLEMENTATION: NURSING INTERVENTIONS
Promoting lung expansion
Breathing exercises
Deep breathing
Incentive spirometer
Pursed-lip breathing
Diaphragmatic breathing
Controlling pain
Ambulation
Positioning
IMPLEMENTATION: NURSING INTERVENTIONS

Promoting and controlling cough
Voluntary coughing vs involuntary coughing
Productive vs nonproductive cough
Cough medications:
Expectorants
Suppressants
Lozenges
IMPLEMENTATION: NURSING INTERVENTIONS
Loosen and mobilize secretions
Chest physiotherapy (CPT)
Percussion
Vibration
Postural drainage
IMPLEMENTATION: NURSING INTERVENTIONS
Meeting oxygen needs with medications
Administering inhaled medications
Bronchodilators
Mucolytic agents
Corticosteroids
Patient education
Proper technique and use
Rinsing mouth out after use
Cleaning nebulizer and inhalers
Keep track of amount of medication
left
 PRACTICE QUESTION
The nurse is educating an adolescent with asthma on how to use a metered-dose inhaler. Which
education point follows recommended guidelines?

A. Inhale through the nose instead of the mouth.
B. Be sure to shake the canister before using it.
C. Inhale the medication rapidly.
D. Inhale two sprays with one breath for faster action.
PRACTICE QUESTION
The nurse is educating an adolescent with asthma on how to use a metered-dose inhaler. Which education point
follows recommended guidelines?
A. Inhale through the nose instead of the mouth.
B. Be sure to shake the canister before using it.
C. Inhale the medication rapidly.
D. Inhale two sprays with one breath for faster action.

RATIONALE: A metered-dose inhaler (MDI) delivers a controlled dose of medication with each compression of the
canister. The canister must be shaken to mix the medication properly. MDIs are inhaled through the mouth, into the
lungs. The medication should be inhaled slowly to ensure a sufficient dose enters the lungs. If the order is for two
sprays, these sprays are administered with one spray for each breath. The inhaled breath should be held briefly after
each spray in order to prevent immediately exhaling the medication.
IMPLEMENTATION: NURSING INTERVENTIONS
Proving supplemental oxygen
Sources of oxygen
Oxygen flow rate
Humidification

Considered a medication and
requires order
DON'T DELAY O2 ADMINISTRATION
IN EMERGENCY SITUATIONS
Highly flammable
SPECIAL CONSIDERATIONS FOR COPD

In patients with COPD, the administration of excessive
oxygen causes them to hypoventilate
These patients have adapted to a high CO2 level,
therefore their stimulus to breathe is a decreased
arterial oxygen level
The resulting hypoventilation with excessive oxygen
administration causes retention of CO2, which can lead
to respiratory acidosis and respiratory arrest

Target SpO2 for COPD clients is 88-92%
Oxygen Nasal Cannula Simple face mask Venturi mask Partial/
Delivery Device Non-rebreather mask

Example

Flow rate Low Flow:1-6 L/min 6-12 L/min 4-6 L/min 10-15 L/min
O2 delivered (24%-44%) 35%-50% 24%-50% 60%-90%
High Flow: Up to 60
L/min (65%-90%)
Consideration Flow rates ≥4 L/min dries Contraindicated for Has flow-control Allow reservoir bag to
mucosa and needs patients who retain CO2, meter on the mask fill up with O2, should
humidification, may induce feelings of never be deflated
Unable to use with nasal claustrophobia,
obstruction, less effective interrupts
if patient is a eating/drinking
mouth-breather
PRACTICE QUESTION
A nurse is delivering 5 L/min oxygen to a client via nasal cannula. What percentage of delivered oxygen is
the client receiving?

A. 28%
B. 32%
C. 40%
D. 47%
 PRACTICE QUESTION
A nurse is delivering 5 L/min oxygen to a client via nasal cannula. What percentage of delivered oxygen
is the client receiving?
A. 28%
B. 32%
C. 40%
D. 47%

RATIONALE: A nasal cannula is used to deliver from 1 L/minute to 6 L/minute of oxygen. 1 L/minute =
24%, 2 L/minute = 28%, 3 L/minute = 32%, 4 L/minute = 36%, 5 L/minute = 40%, and 6 L/minute = 44%

What else should the nurse do for this patient?
IMPLEMENTATION: NURSING INTERVENTIONS
Artificial airways
Oral airway
Prevents obstruction of the trachea by
displacement of the tongue into the
oropharynx
Endotracheal airways
Short-term use to ventilate, relieve
upper airway obstruction, protect
against aspiration, clear secretions
Tracheostomy
Long-term assistance, surgical incision
made into trachea
IMPLEMENTATION: NURSING INTERVENTIONS
Noninvasive mechanical ventilation
Continuous positive airway pressure (CPAP)
Bilevel positive airway pressure (BiPAP)
Be sure the mask fits and assess for facial injury or skin
breakdown
Invasive mechanical ventilation
Lifesaving intervention via ETT or tracheostomy
Various ventilator modes
Generally used with sedation
Ventilator-associated pneumonia is a concern (mortality rate
20%-50%)
IMPLEMENTATION: NURSING INTERVENTIONS

Suctioning
Might be uncomfortable or distressing
Can cause hypoxia
Possible complications
Oral Nasotracheal
Infection
Cardiac arrhythmias
Trauma
Monitor patient during procedure
Color, HR, response
Tracheal Endotracheal
(Open System) (Closed System)
IMPLEMENTATION: NURSING INTERVENTIONS

Thoracentesis
One time removal of fluid or air in the pleural space
Chest tube(s)
Indwelling catheter inserted into the pleural space to relieve:
Pneumothorax
Hemothorax
Pleural effusion
Connected to drainage unit
IMPLEMENTATION: NURSING INTERVENTIONS

Nursing responsibilities for chest tubes:
Assisting with insertion and removal of chest Never clamp the tubing
tube ○ Doesn’t allow for drainage and can cause
Have emergency supplies ready at bedside the lung to collapse
Keep below level of thorax Do not "milk" or "strip" the tube
Check that drainage tube has no dependent ○ Can damage delicate lung tissue and not
loops or kinks necessary to maintain chest tube
Observe the water seal patency
EVALUATION
Ask about improvement in dyspnea, activity level, fatigue

Auscultate lung sounds

Evaluate pulse oximetry changes in relation to oxygen therapy or when weaning off oxygen

Use diagnostic results
DO NOT HESITATE to intervene/notify provider of deteriorating oxygenation status – helps
PREVENT an emergency situation or the need for CPR
PROMOTING
CIRCULATION
 COMPLETE BLOOD COUNT (CBC)
CBC Function Normal Range Analysis
Red Blood Contains hemoglobin 4.2–5.9 × 1012/L Low: Anemia
Cell
What are some possible explanations for low
Hematocrit Ratio: volume of red Male: 42%–50%
Hgb or Hct?
blood cells to the total Female: 40%–48%
volume of blood
High: Polycythemia
Hemoglobin Protein responsible for Male: 13–18 g/dL
transporting oxygen in Female: 12–16 g/dL
the blood
Leukocytes White blood cells 5,000–10,000/mm3 Low: Risk for infection
(inflammatory, immune High: Active infection or inflammatory response
defense) present
Platelets Involved in clotting and 100,000–400,000/mm3 Low: Risk for bleeding
coagulation High: Risk for hypercoagulability
 COAGULATION STUDIES

Coagulation Function Normal Range Analysis

Prothrombin time (PT) Measures time it takes for clot 9.5–12 sec Low: Risk for hypercoagulability
formation
Partial thromboplastin Measures time it takes for clot 20–45 sec High: Risk for bleeding
time (activated) (aPTT) formation
(different pathway of coagulation What are some nursing
cascade from PT) considerations?
International Ratio: Patient’s PT/control 1 How do anticoagulants affect
Normalized Ratio (INR) these values?
EMERGENCY SITUATIONS

MAINTAINING AN AIRWAY IS A PRIORITY
Administer oxygen
Interventions vary depending on severity and
underlying cause

Always have emergency supplies ready

Activate appropriate emergency response
CARDIOPULMONARY RESUSCITATION
When cardiac arrest occurs, oxygen cannot be
delivered to tissues resulting in respiratory acidosis
Permanent heart, brain, and vital organ damage
occurs within 4-6 min
CPR
Maintain circulation with effective chest
compressions
Establish airway
Initiate breathing
Early defibrillation
REFERENCES
Potter, P. A., Perry, A. G., Stockert, P., & Hall, A. (2023). Fundamentals of nursing (11th ed.). Elsevier.

Lynn, P. (2019). Taylor’s clinical nursing skills: A nursing process approach (5th ed.). Philadelphia, PA: Wolters Kluwer
Heath.

Taylor, C., Lynn, P. & Bartlett, J. (2019). Taylor: Fundamentals of nursing (9th ed.). Philadelphia, PA: Wolters Kluwer.
 THANK YOU!
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