Questão 1
Questão
Indications for Exercise Testing
Chief complaint of [blank_start]dyspnea[blank_end] on exertion
To determine ventilator [blank_start]limitations[blank_end] to work
To determine [blank_start]cardiac[blank_end] limitations to work
To determine [blank_start]maximum[blank_end] workloads for developing or adjusting exercise plan or [blank_start]activities[blank_end]
[blank_start]Disability[blank_end] Purposes
Responda
-
dyspnea
-
limitations
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cardiac
-
maximum
-
activities
-
Disability
Questão 2
Questão
Contraindications
PaO2 < [blank_start]45[blank_end] on RA
PaCO2 > [blank_start]70[blank_end]
FEV1 <[blank_start]30[blank_end]%
Recent [blank_start]MI[blank_end]
Unstable [blank_start]angina[blank_end]
2nd or 3rd degree [blank_start]heart[blank_end] block
[blank_start]Rapid[blank_end] ventricular or atrial [blank_start]arrhythmia[blank_end]
Orthopedic problems that impairs activity
Severe Aortic [blank_start]Stenosis[blank_end]
CHF
[blank_start]Uncontrolled[blank_end] HTN
Neurological Disorders
Dissecting [blank_start]Aneurysm[blank_end]
Severe Pulmonary [blank_start]Hypertension[blank_end]
Responda
-
45
-
70
-
30
-
MI
-
angina
-
heart
-
arrhythmia
-
Rapid
-
Stenosis
-
Uncontrolled
-
Aneurysm
-
Hypertension
Questão 3
Questão
Normal response to stress Test
Heart rate will [blank_start]increase[blank_end] linearly with increased workload
Increased heart rate without ECG changes indicates [blank_start]deconditioning[blank_end]
ST depressions >[blank_start]1[blank_end] mm for [blank_start].8[blank_end] seconds indicates ischemia
PVCs with exercise are associated with ischemia if >[blank_start]10[blank_end] per [blank_start]minute[blank_end]
If systolic blood pressure [blank_start]doesn’t[blank_end] rise, cardiac output is not [blank_start]increasing[blank_end]
Respiratory rate, tidal volume and minute volume will [blank_start]increase[blank_end] during testing
VCO2 and VO2 will rise together to keep RER near [blank_start].8[blank_end]
pH will initially [blank_start]increase[blank_end] but will [blank_start]decrease[blank_end] at anaerobic threshold
VD/VT will [blank_start]decrease[blank_end] because of increased [blank_start]perfusion[blank_end]
Pulmonary Artery pressure will remain [blank_start]constant[blank_end] in normal patients.
Responda
-
increase
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deconditioning
-
1
-
.8
-
10
-
minute
-
doesn’t
-
increasing
-
.8
-
increase
-
increase
-
decrease
-
decrease
-
perfusion
-
constant
Questão 4
Questão
Limitations to Exercise testing
Ventilatory Limitations @ low/mod workload:
Maximum minute ventilation = FEV1 x [blank_start]35[blank_end]
Ve/VO2 >[blank_start]30[blank_end] L/LO2
Respiratory [blank_start]Acidosis[blank_end]
Increased [blank_start]RER[blank_end]
Decrease in O2 Sat
[blank_start]Increased[blank_end] PAP
Normal [blank_start]ECG[blank_end] and HR
Responda
-
35
-
30
-
Acidosis
-
RER
-
Increased
-
ECG
Questão 5
Questão
Limitations to Exercise testing
Cardiac Limitation @ low/mod workload:
Significant [blank_start]ECG[blank_end] Changes
Diastolic Pressure [blank_start]falls[blank_end]
Systolic Pressure does not [blank_start]rise[blank_end]
O2 pulse [blank_start]decreases[blank_end]
Vt, RR, Ve is less than [blank_start]70[blank_end]% of MMV
Responda
-
ECG
-
falls
-
rise
-
decreases
-
70
Questão 6
Questão
Limitations to Exercise testing
Poor Conditioning
Present with [blank_start]increased[blank_end] HR and low/mod workloads with normal ECG and Vt, RR, Ve <[blank_start]70[blank_end]% MMV
Poor Effort
Present when ECG, SaO2 and HR are [blank_start]normal[blank_end] and anaerobic threshold is [blank_start]not[blank_end] achieved and Ve <[blank_start]70[blank_end]% MMV
Responda
-
increased
-
70
-
normal
-
not
-
70
Questão 7
Questão
Workload: Amount of [blank_start]energy[blank_end] being generated by patient during exercise. Measure in kilopond meters (kpm)
Power: Amount of [blank_start]work[blank_end] per minute. Measure in [blank_start]watts[blank_end]. 1 watt = 6.12 kpm/min
Metabolic Equivalents (METS) – Unit that measures O2 [blank_start]consumption[blank_end] per kg of body weight. 1 met = 3.5 mL/O2/kg (normal at rest) VO2 is measured during test and [blank_start]divided[blank_end] by pt weight in kg, then divided by 3.5 to get METS.
Anaerobic Threshold – Level of exercise or VO2 at which [blank_start]anaerobic[blank_end] metabolism will begin to supplement aerobic metabolism. Lactic acid increases, pH decreases, HR is stable, Ventilatory equivalent for O2 and CO2 changes.
O2 Max – [blank_start]Work[blank_end] continues to increase but [blank_start]VO2[blank_end] does not.
Responda
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energy
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work
-
watts
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consumption
-
divided
-
anaerobic
-
VO2
-
Work
Questão 8
Questão
Steady State Vs Multistage Testing
Steady State – Pt is exercised at [blank_start]submaximal[blank_end] level for 5-8 minutes at 50-[blank_start]75[blank_end]% of max load.
(220-age = max HR)
Once that target is reached, timing begins, measurements are made during final [blank_start]1[blank_end]-[blank_start]2[blank_end] minutes.
Multistage – Workloads are [blank_start]increased[blank_end] and measurement made at the end of each [blank_start]stage[blank_end] (increase at 15 watts/min)
<50 watts – [blank_start]low[blank_end]
50-100 watts – [blank_start]medium[blank_end]
>100 watts – [blank_start]high[blank_end]
200 watts [blank_start]too[blank_end] high for stress testing.
Can be changed every [blank_start]1[blank_end]-[blank_start]6[blank_end] minutes by increasing [blank_start]speed[blank_end], grade, or [blank_start]resistance[blank_end].
To verify treadmill is at a 10% incline – take a [blank_start]30[blank_end]” carpenter’s level and place on treadmill. The High end should be [blank_start]3[blank_end]” above the low end.
3” Rise / 30” run = 10
Set workload at [blank_start]10[blank_end] – [blank_start]15[blank_end] watts/min to reach 100 -150 watts in 10 min.
Responda
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submaximal
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75
-
1
-
2
-
increased
-
stage
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low
-
medium
-
high
-
too
-
1
-
6
-
speed
-
resistance
-
30
-
3
-
10
-
15
Questão 9
Questão
Stress Test without Gas Analysis (Multistage)
Prepare Patient: 12 lead [blank_start]ECG[blank_end] – resting. Hx and physical exam. Informed consent
Equipment: Treadmill, cycle or step
Pt is stressed until [blank_start]Max[blank_end] HR achieved or pt develops [blank_start]symptoms[blank_end] that indicate to stop.
Workload should gradually be [blank_start]decreased[blank_end] and pt monitored until vitals return to [blank_start]normal[blank_end]
Stress testing with Gas Analysis (Steady State)
Pt is prepared and stressed at [blank_start]sub[blank_end] maximal level for 5-8 minutes
Expired gas is collected near [blank_start]end[blank_end] of each stage and during final [blank_start]1[blank_end] – [blank_start]2[blank_end] minutes of testing
Collected using: Volume Spirometer, pneumotach, or breath by breath analysis.
Measurement Includes: Exhaled [blank_start]Volume[blank_end], Temperature, Time of collection, respiratory [blank_start]rate[blank_end], [blank_start]Fe[blank_end]O2, [blank_start]Fe[blank_end]CO2
Allows for calculation of: [blank_start]Minute[blank_end] ventilation, Vt, [blank_start]VO2[blank_end], CO2 Production, Respiratory Exchange [blank_start]Ratio[blank_end], VE/VO2, VE/VCO2
Responda
-
ECG
-
Max
-
symptoms
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decreased
-
normal
-
sub
-
1
-
2
-
end
-
Volume
-
rate
-
Fe
-
Fe
-
Minute
-
VO2
-
Ratio
Questão 10
Questão
Stress Testing with Gas Analysis and ABG
ABG is performed [blank_start]same[blank_end] time as gas analysis
Inability to stabilize arm for [blank_start]puncture[blank_end] is a problem. Arterial line would be [blank_start]preferred[blank_end]
Indicated for patients with primary [blank_start]pulmonary[blank_end] problems
Additional measurements: Physiologic [blank_start]Deadspace[blank_end], [blank_start]VA[blank_end], VD/Vt, [blank_start]Cardiac[blank_end] Output
Responda
-
same
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puncture
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preferred
-
pulmonary
-
VA
-
Cardiac
-
Deadspace
Questão 11
Questão
Bruce Protocol: Workload is increased every [blank_start]3[blank_end] minutes.
Borg Scale: Scale of 1 – [blank_start]20[blank_end].
Modified Borg Scale: 1 – [blank_start]10[blank_end]
Questão 12
Questão
Specific Reasons for ending exercise test
[blank_start]2[blank_end]mm elevation in [blank_start]ST[blank_end] segment
Inverted [blank_start]T[blank_end] waves
Presence of large [blank_start]Q[blank_end] waves
Vtach or [blank_start]SVT[blank_end]
Multifocal [blank_start]PVC[blank_end]
2nd or 3rd degree heart block [blank_start]changes[blank_end]
Exercise induced right or left bundle branch block
[blank_start]Angina[blank_end] that progresses with testing
Sweating and pallor
Systolic pressure >[blank_start]250[blank_end] or diastolic >[blank_start]100[blank_end]
Systolic Pressure does not [blank_start]increase[blank_end] or falls[blank_start]10[blank_end] as workload increases
Lightheadedness
Cyanosis
Nausea
Muscle [blank_start]Cramps[blank_end]
Hyperventilation
Responda
-
2
-
ST
-
T
-
Q
-
SVT
-
PVC
-
changes
-
Angina
-
250
-
100
-
10
-
increase
-
Cramps
Questão 13
Questão
Tidal Volume Loops
Plotted on top of [blank_start]FVC[blank_end] loop
[blank_start]IC[blank_end] during exercise is used to position the loop on top of [blank_start]resting[blank_end] loop
Normal response to exercise will demonstrate a decrease in [blank_start]IRV[blank_end] and [blank_start]ERV[blank_end] in order to increase Vt and Ve
Questão 14
Questão
Pt with Hypoxemia
Monitor titration with pulse ox
If resting SpO2 is low do O2 titration at [blank_start]rest[blank_end] before exercise titration
Questão 15
Questão
6 Minute Walk test
Pt is to walk as far as possible in [blank_start]6[blank_end] minutes
Pt can slow down or rest if needed.
Record Symptoms and SpO2 during [blank_start]rest[blank_end] stop
Terminate test if significant [blank_start]angina[blank_end], mental confusion or SpO2 <[blank_start]85[blank_end]%
Questão 16
Questão
Safety
Do a HX for [blank_start]contraindications[blank_end], Physical [blank_start]Exam[blank_end], [blank_start]ECG[blank_end] and [blank_start]ABG[blank_end]
Responda
-
contraindications
-
Exam
-
ECG
-
ABG