The Cardiac Failure by CPAP intervention
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May 08, 2024
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About This Presentation
The patient with Cardiac Failure by CPAP intervention
Slide Content
1
The Patient with Heart
Failure
CPAP as an Intervention
The Patient with Heart
Failure
CPAP as an Intervention
2
Objectives
Upon successful completion of this module, the EMS
provider will be able to:
Define heart failure and congestive heart
failure.
Identify causes of heart failure.
Identify symptoms of heart failure.
Identify patterns of medical history related to
the patient with heart failure.
Identify current home medications typically
taken by the patient with congestive heat
failure.
Objectives
Upon successful completion of this module, the EMS
provider will be able to:
Define heart failure and congestive heart
failure.
Identify causes of heart failure.
Identify symptoms of heart failure.
Identify patterns of medical history related to
the patient with heart failure.
Identify current home medications typically
taken by the patient with congestive heat
failure.
3
Objectives cont’d
Identify the difference between the patient with
congestive heart failure and pneumonia.
Identify the assessment of the patient with
congestive heart failure.
Identify the proper procedure for assessing breath
sounds.
Identify treatment goals and options for congestive
heart failure following Region X SOP’s.
Define CPAP as used by EMS for the patient with
pulmonary edema.
Objectives cont’d
Identify the difference between the patient with
congestive heart failure and pneumonia.
Identify the assessment of the patient with
congestive heart failure.
Identify the proper procedure for assessing breath
sounds.
Identify treatment goals and options for congestive
heart failure following Region X SOP’s.
Define CPAP as used by EMS for the patient with
pulmonary edema.
4
Objectives cont’d
Describe how CPAP will benefit the patient with
pulmonary edema.
State indications, contraindications and
medications used with CPAP.
Describe the process of setting up the CPAP
device.
Describe the process of adding in-line Albuterol
with CPAP.
Describe patient assessment while delivery
CPAP.
State components to document when using
CPAP.
Objectives cont’d
Describe how CPAP will benefit the patient with
pulmonary edema.
State indications, contraindications and
medications used with CPAP.
Describe the process of setting up the CPAP
device.
Describe the process of adding in-line Albuterol
with CPAP.
Describe patient assessment while delivery
CPAP.
State components to document when using
CPAP.
5
Objectives cont’d
Demonstrate the set up of CPAP.
Demonstrate the set-up of regular and
in-line Albuterol.
Demonstrate adding in-line Albuterol
with CPAP.
Actively participate in case scenario
discussion.
Successfully complete the post quiz with a
score of 80% or better.
Objectives cont’d
Demonstrate the set up of CPAP.
Demonstrate the set-up of regular and
in-line Albuterol.
Demonstrate adding in-line Albuterol
with CPAP.
Actively participate in case scenario
discussion.
Successfully complete the post quiz with a
score of 80% or better.
6
What is Heart Failure?
A clinical syndrome
Heart’s mechanical performance (ie:
pumping action) is compromised
Cardiac output unable to meet the demands
of the body’s needs
Generally divided into backward
ventricular failure (right heart failure) and
forward ventricular failure (left heart
failure)
Can be of a chronic or acute nature
What is Heart Failure?
A clinical syndrome
Heart’s mechanical performance (ie:
pumping action) is compromised
Cardiac output unable to meet the demands
of the body’s needs
Generally divided into backward
ventricular failure (right heart failure) and
forward ventricular failure (left heart
failure)
Can be of a chronic or acute nature
7
Heart Failure
Variety of causes
Valve disease
Heart disease
Contributing factors to heart failure
Diet -excess fluid or salt intake
Hypertension
Pulmonary embolism
Excessive alcohol or drug usage
Progression of an underlying disease
Heart Failure
Variety of causes
Valve disease
Heart disease
Contributing factors to heart failure
Diet -excess fluid or salt intake
Hypertension
Pulmonary embolism
Excessive alcohol or drug usage
Progression of an underlying disease
8
What is CHF?
Congestive heart failure = CHF
Condition of excess build-up of fluid in the
lungs and/or other body parts/organs
Fluid build-up causes congestion in the
organs seen as edema
May be brought on by diseased heart
valves, hypertension, or some form of
obstructive pulmonary disease
Often a complication of AMI
What is CHF?
Congestive heart failure = CHF
Condition of excess build-up of fluid in the
lungs and/or other body parts/organs
Fluid build-up causes congestion in the
organs seen as edema
May be brought on by diseased heart
valves, hypertension, or some form of
obstructive pulmonary disease
Often a complication of AMI
9
Fluid build-up in CHF may be
pulmonary, peripheral, sacral, or ascites
Fluid build-up in CHF may be
pulmonary, peripheral, sacral, or ascites
10
Understanding CHF
A failure of the pumping action of the heart
Heart is a 2 sided pump
Right side of heart is a low pressure
system
Left side of heart is a high pressure
system
Understanding CHF
A failure of the pumping action of the heart
Heart is a 2 sided pump
Right side of heart is a low pressure
system
Left side of heart is a high pressure
system
11
Heart as a Pump
Left side of heart muscular
Needs to overcome pressure in the arteries to
push/pump blood
Pumps blood flow to the body
Right side of heart less muscular
Pumps blood to the lungs
•Does not need to be a very aggressive
pump with a lot of force
Heart as a Pump
Left side of heart muscular
Needs to overcome pressure in the arteries to
push/pump blood
Pumps blood flow to the body
Right side of heart less muscular
Pumps blood to the lungs
•Does not need to be a very aggressive
pump with a lot of force
12
Starling’s Law
The more the myocardial muscle is
stretched, the greater the force of
contraction (the greater the recoil)
Greater the preload (amount of blood
returned to the right heart), the farther the
myocardium is stretched and the more
forceful a contraction that results leading to
an increased cardiac output
When Starling’s Law fails, the patient is
no longer able to compensate
Starling’s Law
The more the myocardial muscle is
stretched, the greater the force of
contraction (the greater the recoil)
Greater the preload (amount of blood
returned to the right heart), the farther the
myocardium is stretched and the more
forceful a contraction that results leading to
an increased cardiac output
When Starling’s Law fails, the patient is
no longer able to compensate
13
Hypertension
B/P is a measurement
of force against the wall of the arteries
When vessels stiffen due to calcium build-
up (arteriosclerosis) and plaque develops
(atherosclerosis), vessels are less
compliant
Higher pressures are needed to pump
blood through stiffer vessels
Hypertension
B/P is a measurement
of force against the wall of the arteries
When vessels stiffen due to calcium build-
up (arteriosclerosis) and plaque develops
(atherosclerosis), vessels are less
compliant
Higher pressures are needed to pump
blood through stiffer vessels
14
Right Ventricular Failure
Failure of right ventricle as a forward
pump
Back pressure of blood into systemic
venous circulation system
Common causes
Left ventricular failure (AMI)
Systemic hypertension
Pulmonary hypertension
Cor pulmonale –heart
disease due to pulmonary
disease
(ie; effects of COPD)
Right Ventricular Failure
Failure of right ventricle as a forward
pump
Back pressure of blood into systemic
venous circulation system
Common causes
Left ventricular failure (AMI)
Systemic hypertension
Pulmonary hypertension
Cor pulmonale –heart
disease due to pulmonary
disease
(ie; effects of COPD)
15
Progression of Right Heart Failure
Right ventricle cannot eject all of the blood
out
Fluid/pressure builds up
•In right atrium
Backs up into the venous system
Results in pedal/dependent
edema
Visible as JVD
Progression of Right Heart Failure
Right ventricle cannot eject all of the blood
out
Fluid/pressure builds up
•In right atrium
Backs up into the venous system
Results in pedal/dependent
edema
Visible as JVD
16
Right
Sided
Heart
Failure -
A
Systemic
Picture
Right
Sided
Heart
Failure -
A
Systemic
Picture
17
Left Ventricular Failure
Failure of left ventricle to function as a forward
pump
Back pressure of blood into pulmonary circulation
Often causes pulmonary edema
Common causes
Various types of heart disease
•Ischemia / acute MI
•Coronary artery disease (CAD)-
arteriosclerosis/atherosclerosis
•Valve disease
•Chronic hypertension -afterload
•Dysrhythmias
Left Ventricular Failure
Failure of left ventricle to function as a forward
pump
Back pressure of blood into pulmonary circulation
Often causes pulmonary edema
Common causes
Various types of heart disease
•Ischemia / acute MI
•Coronary artery disease (CAD)-
arteriosclerosis/atherosclerosis
•Valve disease
•Chronic hypertension -afterload
•Dysrhythmias
18
Progression of
Left Ventricular Failure
Left ventricle cannot eject all the blood
delivered from the right heart via the
lungs
Left atrial pressure rises and transmitted
to pulmonary veins and capillaries
These high pressures force blood plasma
into alveoli (ie: pulmonary edema)
Oxygen capacity of lungs reduced
Hypoxia develops
Acidosis develops
Progression of
Left Ventricular Failure
Left ventricle cannot eject all the blood
delivered from the right heart via the
lungs
Left atrial pressure rises and transmitted
to pulmonary veins and capillaries
These high pressures force blood plasma
into alveoli (ie: pulmonary edema)
Oxygen capacity of lungs reduced
Hypoxia develops
Acidosis develops
19
Pulmonary
Edema
Severest form
of congestive
heart failure
Left ventricular forward failure
Think left/lungs
Patient develops respiratory distress due to
fluid in the lungs
Note: extremelyrare to have unilateral pulmonary
edema; then related to unusual pathology/med hx
Pulmonary
Edema
Severest form
of congestive
heart failure
Left ventricular forward failure
Think left/lungs
Patient develops respiratory distress due to
fluid in the lungs
Note: extremelyrare to have unilateral pulmonary
edema; then related to unusual pathology/med hx
20
Pathophysiological Changes in
Pulmonary Edema
Left ventricle cannot empty effectively
Fluid moves from capillary beds into
surrounding interstitial tissue alveoli
Fluid in alveoli impedes oxygen exchange
Surfactant lining alveoli washes out
Alveoli stiffen
Alveoli collapse after each breath and are harder to
open
Lungs develop compliance,
airflow obstruction, hyperinflation
to workload of breathing
Pathophysiological Changes in
Pulmonary Edema
Left ventricle cannot empty effectively
Fluid moves from capillary beds into
surrounding interstitial tissue alveoli
Fluid in alveoli impedes oxygen exchange
Surfactant lining alveoli washes out
Alveoli stiffen
Alveoli collapse after each breath and are harder to
open
Lungs develop compliance,
airflow obstruction, hyperinflation
to workload of breathing
21
Symptoms of CHF
In the more chronic setting of right heart
failure, symptoms usually related to
excess fluids in organs and other body
parts
In the more acute left heart failure,
symptoms usually related to excess fluid in
the lungs and therefore respiratory
distress
Symptoms of CHF
In the more chronic setting of right heart
failure, symptoms usually related to
excess fluids in organs and other body
parts
In the more acute left heart failure,
symptoms usually related to excess fluid in
the lungs and therefore respiratory
distress
22
Signs and Symptoms
Right Heart Failure
Dependent edema
Peripheral edema
Hepatomegaly
Splenomegaly
Jugular vein
distension (JVD)
Ascites
Weight gain
Dysrhythmias
Nausea/vomiting
Fatigue
Dizziness
Syncopal episodes
Weakness
Signs and Symptoms
Right Heart Failure
Dependent edema
Peripheral edema
Hepatomegaly
Splenomegaly
Jugular vein
distension (JVD)
Ascites
Weight gain
Dysrhythmias
Nausea/vomiting
Fatigue
Dizziness
Syncopal episodes
Weakness
23
Signs and Symptoms
Left Heart Failure
Shortness of breath
Dyspnea
Orthopnea
Crackles
Wheezing
Hypoxia
Respiratory acidosis
Chest pain
Sweating
Productive cough
Blood tinged sputum
Cyanosis
Palpitations
Dysrhythmias
Hypertension
Anxiety/restlessness
Signs and Symptoms
Left Heart Failure
Shortness of breath
Dyspnea
Orthopnea
Crackles
Wheezing
Hypoxia
Respiratory acidosis
Chest pain
Sweating
Productive cough
Blood tinged sputum
Cyanosis
Palpitations
Dysrhythmias
Hypertension
Anxiety/restlessness
24
Typical medical history pattern of
patient with CHF
Hypertension
Cardiovascular
disease (CVD)
Myocardial infarction
(MI)
Coronary artery
disease (CAD)
Arteriosclerosis
Atherosclerosis
Smoker
Excessive alcohol or
drug use
Cocaine
Methamphetamine
Inhaled solvents
PCP
Dietary intake excess
fluids, excess salt
High cholesterol
Typical medical history pattern of
patient with CHF
Hypertension
Cardiovascular
disease (CVD)
Myocardial infarction
(MI)
Coronary artery
disease (CAD)
Arteriosclerosis
Atherosclerosis
Smoker
Excessive alcohol or
drug use
Cocaine
Methamphetamine
Inhaled solvents
PCP
Dietary intake excess
fluids, excess salt
High cholesterol
25
Typical home medication history
pattern of patient with CHF
Diuretic
Digoxin
contractility force of
the heart (inotropic)
Home oxygen therapy
Anti-hypertensive
ACE inhibitors (end in “pril”)
Beta blockers
•heart rate & force
of contractions B/P
•Often end in “olol”
Calcium channel
inhibitors
•Slows movement of
calcium into small
muscles wrapped
around blood
vessels relaxing
blood vessels
•peripheral
vascular resistance
relaxing blood
vessels
Typical home medication history
pattern of patient with CHF
Diuretic
Digoxin
contractility force of
the heart (inotropic)
Home oxygen therapy
Anti-hypertensive
ACE inhibitors (end in “pril”)
Beta blockers
•heart rate & force
of contractions B/P
•Often end in “olol”
Calcium channel
inhibitors
•Slows movement of
calcium into small
muscles wrapped
around blood
vessels relaxing
blood vessels
•peripheral
vascular resistance
relaxing blood
vessels
26
Herbal remedies that may be harmful
when mixed with heart failure
St. John’s wort
Ephedra
Gingko biloba
Kava
Licorice
Ginseng
Aconite
Alisma plantago
Bearberry buchu
Couch grass
Dandelion
Horsetail rush
Juniper
Herbal remedies that may be harmful
when mixed with heart failure
St. John’s wort
Ephedra
Gingko biloba
Kava
Licorice
Ginseng
Aconite
Alisma plantago
Bearberry buchu
Couch grass
Dandelion
Horsetail rush
Juniper
27
EvaluationCHF/PE Pneumonia COPD
History
HTN, heart
problems
n/a
Lung problems
Dyspnea Orthopnea,
PND
Orthopnea
possible
Chronic;
pursed lips
Recent hx
Acute weight
gain, dependent
edema
Fever, malaiseGradual
weight loss
Cough Frothy
sputum
Productive thick
green
Chronic;
productive
Onset Rapid Gradual Gradual
B/P High Normal Normal
Meds
Dig, anti-HTN,
diuretic
Antibiotic, cold prepBronchodilators,
steroids
Tx O
2, NTG,
lasix, MS
O
2, neb, fluidsO
2, neb
EvaluationCHF/PE Pneumonia COPD
History
HTN, heart
problems
n/a
Lung problems
Dyspnea Orthopnea,
PND
Orthopnea
possible
Chronic;
pursed lips
Recent hx
Acute weight
gain, dependent
edema
Fever, malaiseGradual
weight loss
Cough Frothy
sputum
Productive thick
green
Chronic;
productive
Onset Rapid Gradual Gradual
B/P High Normal Normal
Meds
Dig, anti-HTN,
diuretic
Antibiotic, cold prepBronchodilators,
steroids
Tx O
2, NTG,
lasix, MS
O
2, neb, fluidsO
2, neb
28
Separating Signs/Symptoms
Symptom CHF/PE PneumoniaCOPD
SOB Yes Yes Yes
Cough Maybe Yes Early a.m.
Sputum Frothy pinkYellow/greenThick brown
Fever No Yes No
Skin Cold/clammyHot/dry
Normal or dusky
Chest painPossible Maybe No
Smoking hxPossible Possible Usually
Wheezing Maybe;
bilateral
Maybe; same
side as disease
Usually,
bilateral
Crackles Yes; bilateralMaybe; same
side as disease
No
Separating Signs/Symptoms
Symptom CHF/PE PneumoniaCOPD
SOB Yes Yes Yes
Cough Maybe Yes Early a.m.
Sputum Frothy pinkYellow/greenThick brown
Fever No Yes No
Skin Cold/clammyHot/dry
Normal or dusky
Chest painPossible Maybe No
Smoking hxPossible Possible Usually
Wheezing Maybe;
bilateral
Maybe; same
side as disease
Usually,
bilateral
Crackles Yes; bilateralMaybe; same
side as disease
No
29
A Note…
“Old geezers don’t become new
wheezers!”
COPD develops over a long period of time. If
an elderly person does not have a history of
COPD and they are suddenly wheezing, think
a cardiac problem or pulmonary edema.
Assume the worst,
hope for the best
A Note…
“Old geezers don’t become new
wheezers!”
COPD develops over a long period of time. If
an elderly person does not have a history of
COPD and they are suddenly wheezing, think
a cardiac problem or pulmonary edema.
Assume the worst,
hope for the best
30
Patient Assessment -CHF
Acute findings
Recent trouble sleeping
•trips to the bathroom at night
•Orthopnea with number of pillows
•Sleeping in the recliner
•New episodes of paroxysmal nocturnal
dyspnea (PND)
•use of nitroglycerin to stop chest pain
•use of oxygen
Patient Assessment -CHF
Acute findings
Recent trouble sleeping
•trips to the bathroom at night
•Orthopnea with number of pillows
•Sleeping in the recliner
•New episodes of paroxysmal nocturnal
dyspnea (PND)
•use of nitroglycerin to stop chest pain
•use of oxygen
31
Patient Assessment -CHF
General impression
Labored respirations
Audible noisy respirations
Tripod positioning
Frothy sputum production
work of breathing –retractions, tachypnea
Wheezing/crackles bilaterally
Diaphoretic
Change in skin color from norm
Severe anxiety/restlessness
Severe hypertension may be present
Patient Assessment -CHF
General impression
Labored respirations
Audible noisy respirations
Tripod positioning
Frothy sputum production
work of breathing –retractions, tachypnea
Wheezing/crackles bilaterally
Diaphoretic
Change in skin color from norm
Severe anxiety/restlessness
Severe hypertension may be present
32
Patient Assessment -CHF
Signs and symptoms pulmonary edema
Tachypnea
Orthopnea
PND
Noisy labored respirations
Fine crackles/rales
Wheezing –“cardiac asthma”
Coarse crackles/rhonchi larger airways
Coughing with frothy blood tinged sputum
Patient Assessment -CHF
Signs and symptoms pulmonary edema
Tachypnea
Orthopnea
PND
Noisy labored respirations
Fine crackles/rales
Wheezing –“cardiac asthma”
Coarse crackles/rhonchi larger airways
Coughing with frothy blood tinged sputum
33
Obtaining Breath Sounds
Use flat diaphragm surface of stethoscope
Rub stethoscope head between hands to
warm it up before placing on patient’s skin
If audible sounds are heard, ask patient to
cough gently to clear upper airway
Auscultate side to side and top to bottom
Anterior: Posterior:
Obtaining Breath Sounds
Use flat diaphragm surface of stethoscope
Rub stethoscope head between hands to
warm it up before placing on patient’s skin
If audible sounds are heard, ask patient to
cough gently to clear upper airway
Auscultate side to side and top to bottom
Anterior: Posterior:
34
Adventitious (Extra) Breath
Sounds
Check for asymmetry
Crackles: high pitched, continuous sounds
like rubbing hair between fingers
Wheezes: generally high pitched, of musical
quality
Stridor: Harsh inspiratory wheeze indicating
upper airway obstruction
Rhonchi: snoring or gurgling quality
Any extra sound not a crackle or wheeze
is usually rhonchi
Adventitious (Extra) Breath
Sounds
Check for asymmetry
Crackles: high pitched, continuous sounds
like rubbing hair between fingers
Wheezes: generally high pitched, of musical
quality
Stridor: Harsh inspiratory wheeze indicating
upper airway obstruction
Rhonchi: snoring or gurgling quality
Any extra sound not a crackle or wheeze
is usually rhonchi
35
Decision Making –What to Do?
Use critical thinking skills
Decide if patient is sick or not
Obtain current and past history
Obtain vital signs
Look
Skin (wet/dry; color; temp)
JVD present or not
Peripheral / dependent edema present
Subtle signs
Listen
Breath sounds
Decision Making –What to Do?
Use critical thinking skills
Decide if patient is sick or not
Obtain current and past history
Obtain vital signs
Look
Skin (wet/dry; color; temp)
JVD present or not
Peripheral / dependent edema present
Subtle signs
Listen
Breath sounds
36
Making the Right Decision
Does the medical history include
cardiovascular disease?
Does the physical examination/patient
assessment paint a picture of CHF?
Use critical thinking skills
Not treating pulmonary edema means the
body becomes more hypoxic and acidotic
Miss diagnosis (ie: pneumonia) could prove
lethal
This patient will arrest
Making the Right Decision
Does the medical history include
cardiovascular disease?
Does the physical examination/patient
assessment paint a picture of CHF?
Use critical thinking skills
Not treating pulmonary edema means the
body becomes more hypoxic and acidotic
Miss diagnosis (ie: pneumonia) could prove
lethal
This patient will arrest
37
Treatment Goals for CHF
Decrease myocardial workload
Decrease oxygen demand
Decrease fluid retention
Correct hypoxia
Correct acidosis
Treatment Goals for CHF
Decrease myocardial workload
Decrease oxygen demand
Decrease fluid retention
Correct hypoxia
Correct acidosis
38
Treating CHF/Pulmonary
Edema
Decrease myocardial workload
No physical activity (they don’t walk to the
rig)
Sitting the patient upright; dangle feet
Administering oxygen –non-rebreather
CPAP to increase oxygen absorption surface
of lungs
Medications to preload and afterload
Nitroglycerin
Morphine
Lasix –additionally works as diuretic
Treating CHF/Pulmonary
Edema
Decrease myocardial workload
No physical activity (they don’t walk to the
rig)
Sitting the patient upright; dangle feet
Administering oxygen –non-rebreather
CPAP to increase oxygen absorption surface
of lungs
Medications to preload and afterload
Nitroglycerin
Morphine
Lasix –additionally works as diuretic
39
Treatment Goals for Pneumonia
Supply supplemental oxygen as needed
Treat the bacterial infection
Hydrate the patient
•Usually found in the elderly
•Often vague symptoms; use to feeling ill
•Immune system often already weakened
so mortality rate is high with this diagnosis
Treatment Goals for Pneumonia
Supply supplemental oxygen as needed
Treat the bacterial infection
Hydrate the patient
•Usually found in the elderly
•Often vague symptoms; use to feeling ill
•Immune system often already weakened
so mortality rate is high with this diagnosis
40
Region X SOP-Acute
Pulmonary Edema
Begin Routine Medical Care
Take standard precautions
Perform assessments
Identify priority patient and make transport
decisions
•Stay and play?
•Load N go?
Perform routine tasks
•IV-O
2-monitor
Region X SOP-Acute
Pulmonary Edema
Begin Routine Medical Care
Take standard precautions
Perform assessments
Identify priority patient and make transport
decisions
•Stay and play?
•Load N go?
Perform routine tasks
•IV-O
2-monitor
41
What About the IV and
Nitroglycerin?
Region X Medical Directors discussion:
Majority of patients in pulmonary edema will be
hypertensive
Nitroglycerin will help reduce preload which will
lower blood pressure (beneficial)
Do not delay NTG dose, if no contraindications,
to start the IV
•If patient deteriorates before IV established,
can always place an IO
What About the IV and
Nitroglycerin?
Region X Medical Directors discussion:
Majority of patients in pulmonary edema will be
hypertensive
Nitroglycerin will help reduce preload which will
lower blood pressure (beneficial)
Do not delay NTG dose, if no contraindications,
to start the IV
•If patient deteriorates before IV established,
can always place an IO
42
Region X SOP-Acute
Pulmonary Edema
Determine if the patient is stableor
unstable
Stability guided by status of perfusion
B/P and level of consciousness
If stable, the patient can receive more
aggressive care including medications and
procedures (ie: CPAP)
If unstable, Medical Control needs to
coordinate degree of care provided in the
field (ie: meds and CPAP)
Region X SOP-Acute
Pulmonary Edema
Determine if the patient is stableor
unstable
Stability guided by status of perfusion
B/P and level of consciousness
If stable, the patient can receive more
aggressive care including medications and
procedures (ie: CPAP)
If unstable, Medical Control needs to
coordinate degree of care provided in the
field (ie: meds and CPAP)
43
Region X SOP-Acute
Pulmonary Edema -Stable
Nitroglycerin
Nitrate vasodilator
Decreases myocardial workload
•Dilates arterial and venous systems
•preload
•afterload
Carefully monitor blood pressure
Screen for concomitant use of sexual
enhancement drug
•Viagra or Levitra in last 24 hours
•Cialis in past 48 hours
Region X SOP-Acute
Pulmonary Edema -Stable
Nitroglycerin
Nitrate vasodilator
Decreases myocardial workload
•Dilates arterial and venous systems
•preload
•afterload
Carefully monitor blood pressure
Screen for concomitant use of sexual
enhancement drug
•Viagra or Levitra in last 24 hours
•Cialis in past 48 hours
44
Stable Pulmonary Edema SOP
Lasix
Loop diuretic
Moves sodium (NA
+
) out of blood vessels
•Water follows sodium
•Potassium (K
+
) also pulled out
Vasodilation effects within 5 minutes
•Decreases preload
Diuresis within 20-30 minutes
Peaks within 30 minutes
Stable Pulmonary Edema SOP
Lasix
Loop diuretic
Moves sodium (NA
+
) out of blood vessels
•Water follows sodium
•Potassium (K
+
) also pulled out
Vasodilation effects within 5 minutes
•Decreases preload
Diuresis within 20-30 minutes
Peaks within 30 minutes
45
Stable Pulmonary Edema SOP
Morphine sulfate
Narcotic analgesic
•Reduces anxiety
Dilates venous and arterial systems
•preload
•afterload
•blood pressure
Stimulates nausea center in the brain
Slows respiratory rate in medulla
Stable Pulmonary Edema SOP
Morphine sulfate
Narcotic analgesic
•Reduces anxiety
Dilates venous and arterial systems
•preload
•afterload
•blood pressure
Stimulates nausea center in the brain
Slows respiratory rate in medulla
46
Region X SOP –Pulmonary Edema
Medication Regimen
Stable patient
Nitroglycerin 0.4 mg sl
•One every 3-5 minutes to max dose of 3
Begin CPAP
Lasix 40 mg IVP (80 mg if taken at home)
Morphine 2 mg IVP slow over 2 minutes
•May repeat 2 mg every 2 minutes to max of 10mg
If wheezing, contact Medical Control for
possible Albuterol neb treatment
Region X SOP –Pulmonary Edema
Medication Regimen
Stable patient
Nitroglycerin 0.4 mg sl
•One every 3-5 minutes to max dose of 3
Begin CPAP
Lasix 40 mg IVP (80 mg if taken at home)
Morphine 2 mg IVP slow over 2 minutes
•May repeat 2 mg every 2 minutes to max of 10mg
If wheezing, contact Medical Control for
possible Albuterol neb treatment
47
CPAP
Continuous positive airway pressure
Delivered throughout the respiratory cycle
Noninvasive ventilatory support
Most beneficial when initiated early
Maintains airway in open position
intrathoracic pressure which venous
return to the heart
Preload and afterload both decrease
CPAP
Continuous positive airway pressure
Delivered throughout the respiratory cycle
Noninvasive ventilatory support
Most beneficial when initiated early
Maintains airway in open position
intrathoracic pressure which venous
return to the heart
Preload and afterload both decrease
48
Benefits of CPAP
Increases amount of inspired oxygen
Decreases work load of breathing
Reduces need for intubation
Intubation requires ICCU stay
•Increased exposure to risks associated
with complications due to intubation
•Increases overall hospital length of stay
Benefits of CPAP
Increases amount of inspired oxygen
Decreases work load of breathing
Reduces need for intubation
Intubation requires ICCU stay
•Increased exposure to risks associated
with complications due to intubation
•Increases overall hospital length of stay
49
Redistribution of extravascular lung
water during use of CPAP
Without CPAP With CPAP
Redistribution of extravascular lung
water during use of CPAP
Without CPAP With CPAP
50
51
Indications for CPAP
Patient in acute pulmonary edema with
stable blood pressure
Stable B/P = >100mmHg systolic
FYI –with revised 2011 SOP’s, blood
pressure levels will be shifting to systolic
of 90 as a consistent guideline throughout
the SOP’s
Indications for CPAP
Patient in acute pulmonary edema with
stable blood pressure
Stable B/P = >100mmHg systolic
FYI –with revised 2011 SOP’s, blood
pressure levels will be shifting to systolic
of 90 as a consistent guideline throughout
the SOP’s
52
Contraindications for CPAP
Decreased or altered level of consciousness
Inability of patient to protect their airway from
aspiration
Persistent nausea/vomiting
Need for immediate intubation
Hemodynamic instability (B/P<100)
Note: B/P guideline will be changing to <90 with
revised 2011 SOP
Penetrating chest trauma
Contraindications for CPAP
Decreased or altered level of consciousness
Inability of patient to protect their airway from
aspiration
Persistent nausea/vomiting
Need for immediate intubation
Hemodynamic instability (B/P<100)
Note: B/P guideline will be changing to <90 with
revised 2011 SOP
Penetrating chest trauma
53
Medications Simultaneous With
CPAP
Medications should be started
NTG sl
Then begin CPAP
Then continue medication administration as
indicated
Lasix –40mg or 80mg IVP
Morphine –2 mg IVP repeated every 2 min
CPAP will buy time for the medications to work
Medications Simultaneous With
CPAP
Medications should be started
NTG sl
Then begin CPAP
Then continue medication administration as
indicated
Lasix –40mg or 80mg IVP
Morphine –2 mg IVP repeated every 2 min
CPAP will buy time for the medications to work
54
Did you know…
It is not either / or
(CPAP or meds)
CPAP works WITHmedications
in tandem
Lift the mask to continue administration of
more NTG
Did you know…
It is not either / or
(CPAP or meds)
CPAP works WITHmedications
in tandem
Lift the mask to continue administration of
more NTG
55
CPAP Equipment
Fixed whisper
flow
Connects to
your oxygen
source
CPAP Equipment
Fixed whisper
flow
Connects to
your oxygen
source
56
O
2Tank Duration
Approximate time at 30% FIO
2
D tank 30 min.
E tank 50 min.
M tank 253 min.
H tank 508 min.
*based on 50 psi output
O
2Tank Duration
Approximate time at 30% FIO
2
D tank 30 min.
E tank 50 min.
M tank 253 min.
H tank 508 min.
*based on 50 psi output
57
CPAP
Circuit
Set-up
Package
includes:
Mask
Tubing
Head
strap
CPAP
valve
Air
entrainment
filter
Filter
CPAP
valve
CPAP
Circuit
Set-up
Package
includes:
Mask
Tubing
Head
strap
CPAP
valve
Air
entrainment
filter
Filter
CPAP
valve
58
Most patients need a lot of coaching to
initially tolerate the tight fitting mask
Most patients need a lot of coaching to
initially tolerate the tight fitting mask
59
If The Patient is Wheezing
Contact Medical Control to consider an
order for Albuterol via nebulizer
Medical Control needs to give this
physician’s order
Contact ECRN on radio
•Needs to give the ED MD a report
•Obtains MD’s order
•Relays the response to EMS
If Albuterol is given, monitor for cardiac
side effects (ie: tachycardia)
If The Patient is Wheezing
Contact Medical Control to consider an
order for Albuterol via nebulizer
Medical Control needs to give this
physician’s order
Contact ECRN on radio
•Needs to give the ED MD a report
•Obtains MD’s order
•Relays the response to EMS
If Albuterol is given, monitor for cardiac
side effects (ie: tachycardia)
60
In-line Albuterol Set-up with
CPAP
Cut the CPAP corrugated tubing as close to patient
as possible in smooth area of tubing
Splice Albuterol kit T piece in-line
Remove the mouthpiece and place the adaptor (used for
in-line Albuterol)
Connect adaptor to distal cut end of corrugated CPAP
tubing
Remove Albuterol corrugated tubing and connect
proximal end of CPAP tubing to T piece of Albuterol
Keep Albuterol cup upright
Albuterol kit still needs to be hooked to O
2
In-line Albuterol Set-up with
CPAP
Cut the CPAP corrugated tubing as close to patient
as possible in smooth area of tubing
Splice Albuterol kit T piece in-line
Remove the mouthpiece and place the adaptor (used for
in-line Albuterol)
Connect adaptor to distal cut end of corrugated CPAP
tubing
Remove Albuterol corrugated tubing and connect
proximal end of CPAP tubing to T piece of Albuterol
Keep Albuterol cup upright
Albuterol kit still needs to be hooked to O
2
61
CPAP With In-line Albuterol Set-up
CPAP With In-line Albuterol Set-up
62
Criteria to Discontinue CPAP
Development of hemodynamic instability
B/P drops below 100 systolic
•Revised 2011 SOP B/P level will be 90 systolic
Inability of patient to tolerate tight fitting
mask
Emergent need to intubate the patient
Criteria to Discontinue CPAP
Development of hemodynamic instability
B/P drops below 100 systolic
•Revised 2011 SOP B/P level will be 90 systolic
Inability of patient to tolerate tight fitting
mask
Emergent need to intubate the patient
63
Patient Monitoring During Use
of CPAP
Constant reassessment required:
Patient tolerance
Mental status
Respiratory pattern
Rate, depth, subjective feeling of
improvement
Blood pressure, pulse, SaO
2, EKG rhythm
Complications
Gastric distension, nausea, vomiting
Patient Monitoring During Use
of CPAP
Constant reassessment required:
Patient tolerance
Mental status
Respiratory pattern
Rate, depth, subjective feeling of
improvement
Blood pressure, pulse, SaO
2, EKG rhythm
Complications
Gastric distension, nausea, vomiting
64
Monitoring Improvement With
CPAP
It’s working when:
Level of distress decreases
Respiratory rate is returning toward normal
Pulse oximetry (SaO
2) increasing
Pulse rate decreasing toward normal
Decrease in use of accessory muscles
Ability to speak in fuller sentences returning
Monitoring Improvement With
CPAP
It’s working when:
Level of distress decreases
Respiratory rate is returning toward normal
Pulse oximetry (SaO
2) increasing
Pulse rate decreasing toward normal
Decrease in use of accessory muscles
Ability to speak in fuller sentences returning
65
Contacting Medical Control
Remember:
Early communication with receiving
hospital
Hospital needs to get their regulator for
oxygen source connection
•Usually not kept in each room
Contacting Medical Control
Remember:
Early communication with receiving
hospital
Hospital needs to get their regulator for
oxygen source connection
•Usually not kept in each room
66
Documentation With CPAP
Assessment leading your general
impression to a diagnosis of pulmonary
edema
CPAP level provided (10cmH
2O)
FiO
2provided (100%)
SaO
2serial levels
Vital signs over time
Response to treatment
Any adverse reactions noted
Documentation With CPAP
Assessment leading your general
impression to a diagnosis of pulmonary
edema
CPAP level provided (10cmH
2O)
FiO
2provided (100%)
SaO
2serial levels
Vital signs over time
Response to treatment
Any adverse reactions noted
67
So, What’s Different About BiPAP?
Bi-level positive airway pressure
Uses 2 levels of pressure
Helps move more air into lungs without need
to exhale against higher pressures
CPAP is a larger & noisier machine
Uses extra effort to exhale and can be tiring
Both can be used for sleep apnea
BiPAP easier on those with COPD and
neuromuscular diseases
So, What’s Different About BiPAP?
Bi-level positive airway pressure
Uses 2 levels of pressure
Helps move more air into lungs without need
to exhale against higher pressures
CPAP is a larger & noisier machine
Uses extra effort to exhale and can be tiring
Both can be used for sleep apnea
BiPAP easier on those with COPD and
neuromuscular diseases
68
Case Scenarios
Small Group and Large Group
Discussions
Read the presentation
Form a general impression
Discuss treatment options
Discuss what/how/when to reassess the
patient
Decide what treatment to continue or what
adjustments need to be made
Note: Additional questions are asked on ppt that can be
discussed during group presentations.
Case Scenarios
Small Group and Large Group
Discussions
Read the presentation
Form a general impression
Discuss treatment options
Discuss what/how/when to reassess the
patient
Decide what treatment to continue or what
adjustments need to be made
Note: Additional questions are asked on ppt that can be
discussed during group presentations.
69
Case Scenario #1
Dispatch: You are called to a 70 y/o man
c/o breathing problems
HPI: Increasing shortness of breath for
1 day despite the use of inhalers
PmHx: COPD, Hypertension, and
Diabetes
Medications: Albuterol Inhaler, Lasix, and
Aspirin
Allergies:Penicillin
Case Scenario #1
Dispatch: You are called to a 70 y/o man
c/o breathing problems
HPI: Increasing shortness of breath for
1 day despite the use of inhalers
PmHx: COPD, Hypertension, and
Diabetes
Medications: Albuterol Inhaler, Lasix, and
Aspirin
Allergies:Penicillin
70
Case Scenario #1
Physical Exam: Thin white man on home
oxygen breathing through pursed lips sitting in a
tripod position
Vital Signs: B/P 180/90; HR 120 sinus
tachycardia; RR 30; SaO
288%; LOC alert;
airway patent
Head & neck: Perioral cyanosis, no JVD
Pulmonary: Lung auscultation reveals
inspiratory and expiratory wheezes
Extremities: Cyanotic, no pedal edema
Case Scenario #1
Physical Exam: Thin white man on home
oxygen breathing through pursed lips sitting in a
tripod position
Vital Signs: B/P 180/90; HR 120 sinus
tachycardia; RR 30; SaO
288%; LOC alert;
airway patent
Head & neck: Perioral cyanosis, no JVD
Pulmonary: Lung auscultation reveals
inspiratory and expiratory wheezes
Extremities: Cyanotic, no pedal edema
71
Case Scenario #1
What is your general impression?
Are assessment findings stronger for
exacerbation of COPD or for acute
pulmonary edema?
COPD supported
History
Appearance
Lung sounds
What treatment is indicated?
Case Scenario #1
What is your general impression?
Are assessment findings stronger for
exacerbation of COPD or for acute
pulmonary edema?
COPD supported
History
Appearance
Lung sounds
What treatment is indicated?
72
Case Scenario #1
IV –O
2, monitor
Albuterol nebulizer started:
• 5 min Vital Signs: B/P 160/90; HR 130; RR 24;
SaO
292%, LOC Alert; lung sounds unchanged
• 10 min Vital Signs: B/P 120/90; HR 120, RR,
24, SaO
292%, LOC Alert; lung sounds less
prominent wheezing; subjectively patient
breathing easier
Case Scenario #1
IV –O
2, monitor
Albuterol nebulizer started:
• 5 min Vital Signs: B/P 160/90; HR 130; RR 24;
SaO
292%, LOC Alert; lung sounds unchanged
• 10 min Vital Signs: B/P 120/90; HR 120, RR,
24, SaO
292%, LOC Alert; lung sounds less
prominent wheezing; subjectively patient
breathing easier
73
Case Scenario #2
Dispatch: 65 y/o woman c/o of shortness
of breath
HPI: 1 week history of progressive
dyspnea with exertion. Unable to lay
down flat without shortness of breath, no
chest pain or cough
PmHx: Hypertension, Diabetes
Medications: Lasix, Atenolol, and
Glucaphage
Case Scenario #2
Dispatch: 65 y/o woman c/o of shortness
of breath
HPI: 1 week history of progressive
dyspnea with exertion. Unable to lay
down flat without shortness of breath, no
chest pain or cough
PmHx: Hypertension, Diabetes
Medications: Lasix, Atenolol, and
Glucaphage
74
Case Scenario #2
Physical Exam: 260 lb woman sitting in
recliner.
Vital Signs: B/P 160/80; HR 140 sinus
tachycardia; RR 30; SaO
278%, LOC
follows commands; airway patent
Head & neck: Cyanosis, JVD present
Pulmonary: Crackles in all lung fields
Extremities: Cyanotic, 3+ pedal edema
Case Scenario #2
Physical Exam: 260 lb woman sitting in
recliner.
Vital Signs: B/P 160/80; HR 140 sinus
tachycardia; RR 30; SaO
278%, LOC
follows commands; airway patent
Head & neck: Cyanosis, JVD present
Pulmonary: Crackles in all lung fields
Extremities: Cyanotic, 3+ pedal edema
75
Case Scenario #2
What is your general impression?
Are assessment findings stronger for
exacerbation of COPD or for acute pulmonary
edema?
Pulmonary edema supported
History
Appearance
Lung sounds
What treatment is indicated?
Case Scenario #2
What is your general impression?
Are assessment findings stronger for
exacerbation of COPD or for acute pulmonary
edema?
Pulmonary edema supported
History
Appearance
Lung sounds
What treatment is indicated?
76
Case Scenario #2
Need to move rapidly
Minimize scene time as much as possible
IV-O
2-monitor
Start nonrebreather until switched to CPAP
Consider AMI so obtain 12 lead EKG
Any contraindications to treatment?
Nitroglycerin?
CPAP?
Lasix?
Morphine?
NO
NO
NO
NO
Case Scenario #2
Need to move rapidly
Minimize scene time as much as possible
IV-O
2-monitor
Start nonrebreather until switched to CPAP
Consider AMI so obtain 12 lead EKG
Any contraindications to treatment?
Nitroglycerin?
CPAP?
Lasix?
Morphine?
NO
NO
NO
NO
77
Case Scenario #2
After CPAP started:
5 min Vital Signs: B/P 100/60; HR 100; RR
24; SaO
284%; LOC: responds to verbal
stimuli
10 min Vital Signs: B/P 60/40; HR 30; RR
6; SaO
260%; LOC unresponsive
Case Scenario #2
After CPAP started:
5 min Vital Signs: B/P 100/60; HR 100; RR
24; SaO
284%; LOC: responds to verbal
stimuli
10 min Vital Signs: B/P 60/40; HR 30; RR
6; SaO
260%; LOC unresponsive
78
Case Scenario #2
What is your general impression now?
Patient is deteriorating
What is your treatment now?
CPAP needs to be discontinued
Patient needs to be bagged and intubated
•One breath every 5-6 seconds before intubation
•One breath every 6-8 seconds after intubation
Hold further repeats of medications used
Consider need for dopamine infusion
Case Scenario #2
What is your general impression now?
Patient is deteriorating
What is your treatment now?
CPAP needs to be discontinued
Patient needs to be bagged and intubated
•One breath every 5-6 seconds before intubation
•One breath every 6-8 seconds after intubation
Hold further repeats of medications used
Consider need for dopamine infusion
79
Case Scenario #3 Documentation
Initial impression was acute pulmonary edema
Based on physical assessment; history;
recent hospitalization for CHF
Treatment was routine medical care
IV –O
2non-rebreather-monitor
CPAP started after ordered by Medical
Control
2 sets of vital signs documented
Initial vital signs (B/P 170/98 –92 –32)
Second reading at the hospital
Case Scenario #3 Documentation
Initial impression was acute pulmonary edema
Based on physical assessment; history;
recent hospitalization for CHF
Treatment was routine medical care
IV –O
2non-rebreather-monitor
CPAP started after ordered by Medical
Control
2 sets of vital signs documented
Initial vital signs (B/P 170/98 –92 –32)
Second reading at the hospital
80
Case Scenario #3 Comments
Documented
Upon arrival patient found sitting upright,
agitated, complaining of chest pain and
difficulty breathing. Audible congested
breathing standing next to patient. Unable to
complete a full sentence. Bilateral pedal
edema noted. Began oxygen via
nonrebreather. IV started. Moved patient to
ambulance. Medical Control contacted and
ordered CPAP to be started. Patient becoming
more agitated. After 5 minutes, SaO
2
increasing. Patient stated breathing was
becoming easier.
Case Scenario #3 Comments
Documented
Upon arrival patient found sitting upright,
agitated, complaining of chest pain and
difficulty breathing. Audible congested
breathing standing next to patient. Unable to
complete a full sentence. Bilateral pedal
edema noted. Began oxygen via
nonrebreather. IV started. Moved patient to
ambulance. Medical Control contacted and
ordered CPAP to be started. Patient becoming
more agitated. After 5 minutes, SaO
2
increasing. Patient stated breathing was
becoming easier.
81
Case Scenario #3 Documentation
cont’d
Patient transported sitting upright.
Continued CPAP during entire call.
Transported patient into ED on portable O
2
with CPAP continued.
Case Scenario #3 Documentation
cont’d
Patient transported sitting upright.
Continued CPAP during entire call.
Transported patient into ED on portable O
2
with CPAP continued.
82
Case Scenario #3 Documentation
cont’d
Pt contact: 0954
Depart scene: 1025
“Drugs”
0959 -Oxygen -15 l –non-rebreather
1001 –0.9 NS 1000ml –TKO –IV
1005 –CPAP /oxygen –15l –CPAP mask
“`Cardiac rhythm”
0958 –sinus
1035 -sinus
Case Scenario #3 Documentation
cont’d
Pt contact: 0954
Depart scene: 1025
“Drugs”
0959 -Oxygen -15 l –non-rebreather
1001 –0.9 NS 1000ml –TKO –IV
1005 –CPAP /oxygen –15l –CPAP mask
“`Cardiac rhythm”
0958 –sinus
1035 -sinus
83
Case Scenario #3 Documentation
Discussion
What went well?
Recognized pulmonary edema
CPAP used with positive patient response
Case Scenario #3 Documentation
Discussion
What went well?
Recognized pulmonary edema
CPAP used with positive patient response
84
Case Scenario #3 Documentation
Discussion
What could be improved upon?
Long on-scene time (0954 –1025 -31 mins)
Delay in initiating O
2therapy –5 minutes
Waited for MC to order CPAP –11 min delay
•No Medical Control direction needed to initiate
No other meds given for pulmonary edema
Only 2 sets of vital signs taken on a critical
patient
Case Scenario #3 Documentation
Discussion
What could be improved upon?
Long on-scene time (0954 –1025 -31 mins)
Delay in initiating O
2therapy –5 minutes
Waited for MC to order CPAP –11 min delay
•No Medical Control direction needed to initiate
No other meds given for pulmonary edema
Only 2 sets of vital signs taken on a critical
patient
85
Case Scenario #4
Dispatch: You are called to a 84 year-old
female c/o breathing problems
HPI: Running low grade fevers, not feeling
well for 4 days
PmHx: MI, Hypertension, TIA’s
Medications: Plavix,Lasix, Lisinopril
Allergies:Iodine, shellfish
Case Scenario #4
Dispatch: You are called to a 84 year-old
female c/o breathing problems
HPI: Running low grade fevers, not feeling
well for 4 days
PmHx: MI, Hypertension, TIA’s
Medications: Plavix,Lasix, Lisinopril
Allergies:Iodine, shellfish
86
Case Scenario #4
Physical Exam:
Vital Signs: B/P 142/80; HR 96 sinus
rhythm; RR 28; SaO
292%, LOC follows
commands; airway patent
Head & neck: Pale, no JVD
Pulmonary: Crackles in right lower lung
field
Extremities: Pale, pedal pulses palpable
Case Scenario #4
Physical Exam:
Vital Signs: B/P 142/80; HR 96 sinus
rhythm; RR 28; SaO
292%, LOC follows
commands; airway patent
Head & neck: Pale, no JVD
Pulmonary: Crackles in right lower lung
field
Extremities: Pale, pedal pulses palpable
87
Case Scenario #4
What is your general impression?
Are assessment findings stronger for
acute pulmonary edema or pneumonia?
Pneumonia supported?
History
Appearance
Lung sounds not so helpful
What treatment is indicated?
Case Scenario #4
What is your general impression?
Are assessment findings stronger for
acute pulmonary edema or pneumonia?
Pneumonia supported?
History
Appearance
Lung sounds not so helpful
What treatment is indicated?
88
Case Scenario #4
What is your treatment now?
IV-O2-monitor
Fluids
•Faster than keep open but not a fluid
challenge
Diagnosis confirmed at the hospital with
chest x-ray and labs
Case Scenario #4
What is your treatment now?
IV-O2-monitor
Fluids
•Faster than keep open but not a fluid
challenge
Diagnosis confirmed at the hospital with
chest x-ray and labs
89
Case Scenario #4
Patients with pneumonia need fluids
Patients with congestive heart failure need
fluid restrictions
A wrong diagnosis and therefore wrong
treatment approach could be harmful for
both patients
Case Scenario #4
Patients with pneumonia need fluids
Patients with congestive heart failure need
fluid restrictions
A wrong diagnosis and therefore wrong
treatment approach could be harmful for
both patients
90
Case Scenario #5
Dispatch: You are called to a home for a 78
year-old male with severe SOB
HPI: Has been getting progressively SOB past 2
days; slept in recliner last night
PmHx: MI x3; hypertension, diverticulitis,
seizures
Medications: Aspirin, Hydrodiuril, Verapamil,
NTG PRN, Coumadin, Phenobarbital
Allergies: none
Case Scenario #5
Dispatch: You are called to a home for a 78
year-old male with severe SOB
HPI: Has been getting progressively SOB past 2
days; slept in recliner last night
PmHx: MI x3; hypertension, diverticulitis,
seizures
Medications: Aspirin, Hydrodiuril, Verapamil,
NTG PRN, Coumadin, Phenobarbital
Allergies: none
91
Case Scenario #5
Physical Exam:
Vital Signs: B/P 172/96; HR 110 sinus
tachycardia; RR 36; SaO
288%, LOC follows
commands; extremely anxious; airway patent
Head & neck: JVD
Pulmonary: Crackles mid way up lung fields
bilaterally
Extremities: Cyanotic, pedal edema palpable
Case Scenario #5
Physical Exam:
Vital Signs: B/P 172/96; HR 110 sinus
tachycardia; RR 36; SaO
288%, LOC follows
commands; extremely anxious; airway patent
Head & neck: JVD
Pulmonary: Crackles mid way up lung fields
bilaterally
Extremities: Cyanotic, pedal edema palpable
92
Case Scenario #5
What is your general impression?
What is your treatment plan?
Write a run report
Include initial assessment
Document treatment interventions indicated
Document reassessment performed
Discuss as a group what needs to be
included
Case Scenario #5
What is your general impression?
What is your treatment plan?
Write a run report
Include initial assessment
Document treatment interventions indicated
Document reassessment performed
Discuss as a group what needs to be
included
93
94
95
Bibliography
Bledsoe, B., Porter, R., Cherry, R. Paramedic
Care: Principles and Practices. Brady. 2009.
Limmer, D., O’Keefe, M. Emergency Care, 10
th
Edition. Brady. 2005.
Region X SOP’s March 2007; Amended
January 1, 2008.
http://whisperflow.respironics.com/
www.emsworld.com
Variety internet websites for CPAP and
pulmonary edema
Bibliography
Bledsoe, B., Porter, R., Cherry, R. Paramedic
Care: Principles and Practices. Brady. 2009.
Limmer, D., O’Keefe, M. Emergency Care, 10
th
Edition. Brady. 2005.
Region X SOP’s March 2007; Amended
January 1, 2008.
http://whisperflow.respironics.com/
www.emsworld.com
Variety internet websites for CPAP and
pulmonary edema
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