LeeAnna Shepherd
Quiz von , erstellt am more than 1 year ago

Lung Testing (Exercise Testing) Quiz am Data Collection During Exercise testing, erstellt von LeeAnna Shepherd am 18/08/2016.

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LeeAnna Shepherd
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Data Collection During Exercise testing

Frage 1 von 27

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SpO2 – Pulse Ox
Advantage: readings
Disadvantage: Inaccurate with poor perfusion or artifact
Terminate test if SpO2 is <%

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Frage 2 von 27

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Tidal Volume Vt
= VE / RR
Normal: ml per kg of body weight
At low/moderate workloads total ventilation will increase by increasing
At high workloads total ventilation increases by increasing

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Frage 3 von 27

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Frequency of Breathing
(# of accumulated breathes) / testing time in minutes = RR
Normal at rest:

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Frage 4 von 27

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Minute Ventilation
Vt x RR = Ve

Normal Resting: L/min
Normal Exercising: L/min
Maximum minute ventilation = FEV1 x
Should be able to reach % of max
If max minute ventilation is this indicates a primary ventilator limitation to exercise.

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Frage 5 von 27

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Alveolar Minute Ventilation
= (Vt-) x or = VE – (VD x RR)
Estimated anatomical deadspace is ml per lb of body weight

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Frage 6 von 27

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O2 Consumption – (VO2) Amount of O2 in L/min
Normal at Rest: L/min
Normal Exercising: Up to L/min
Requires inline gas analyzers to measure O2%, an FeCO2 and a spirometer

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Frage 7 von 27

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O2 Pulse
Volume of O2 consumer per
(VO2/HR) x = mL O2/beat
Normal Resting: mL O2/beat
Normal Exercising: mL O2/beat
Significance: O2 pulse that doesn’t increase with high HR indicates disease
Tachycardia at rest will O2 pulse
Arrhythmia will O2 pulse
Beta Blockers will O2 pulse
Plateau in O2 consumption will O2 pulse

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Frage 8 von 27

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CO2 Production (VCO2) – Amount of CO2 in L/min
Normal resting: L/min
Normal exercising: Up to l/min
Gives indication of status
FeCO2 x = VCO2

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Frage 9 von 27

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PH
pH will decrease due to increased and acid
In normal patients, pH will not decrease until is reached.

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Frage 10 von 27

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Alveolar-Arterial O2 Tension, A-a Gradient, PAO2-PaO2 or P(A-a)O2
PaO2 < means you should terminate the tes
Normal P(A-a)O2
On RA: -
On 100% O2: Less than
Increase in P(A-a)O2 with in PaO2: Increased right to left , mismatch, defects
Use Supplemental O2 if at rest.

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Frage 11 von 27

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Ventilatory Equivalent for O2 (Ve/VO2)
Relationship of Ve to performed (VO2)
Gives indication of of gas exchange at different workloads
(BTPS)/(STPD)
Normal at rest and low/moderate workloads: L/LVO2
Increase in Ve out of proportion to in VO2 means disease
Increase in Ve/VO2 at rest means

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Frage 12 von 27

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Ventilatory Equivalent for CO2 (Ve/VCO2)
Relationship of Ve to
(BTPS)/(STPD)
Normal: - L/LCO2
Can be used to determine maximum tolerable workloads for patients with disease
Anaerobic threshold reached when Ve/VCO2 is constant but Ve/VO2

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Frage 13 von 27

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PaCO2/ETCO2
Used to calculate
Normal VD/Vt = - at rest
with exercise
Moderate Workloads: PaCO2 is constant, increases
High Workloads: Metabolic due to lactic acid production

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Frage 14 von 27

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Respiratory Exchange Ratio (RER)
Relationship of O2 consumption and CO2 production at the mouth which represents gas exchange in the lungs
RER = / or (FeCO2xVe)/VO2
Normal at rest:
Normal with Exercise: or greater
RER should at anaerobic threshold

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Frage 15 von 27

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Hemodynamics
Cardiac Monitor – Simplest way to monitor heart rate and rhythm.
Normal HR:

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Frage 16 von 27

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Blood Pressure:
Equipment: Indwelling catheter and pressure transducer
You can also take BP
Normal Values:
Systolic:
Diastolic:
Mean:
MAP = (2x + )/3
Heart spends twice as much time in .

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Frage 17 von 27

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Central Venous Pressure (CVP)
Used to Monitor systemic drainage and function of the heart.
Catheter is located in .
Normal: - mmHG or - cmH2O
CVP – AKA:
Right Pressure
R Atriral filling pressue
side preload
Right ventricular pressure
ventricular end pressure

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Frage 18 von 27

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Pulmonary Artery pressure (PAP)
PAP and PCWP are measure with tipped directed pulmonary artery catheter (Swan Ganz)
Catheter is directed through the side of the heart and positioned in
Normal PAP:
Systolic: mmHg
Diastolic: mmHg
Mean: mmHg
Mixed samples should be drawn from pulmonary artery.
If blood is bright red the balloon was or wedged if PaCO2 = PaO2

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Frage 19 von 27

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Pulmonary Capillary Wedge Pressure (PCWP)
When balloon is it will measure PCWP
Normal = mmHg (4-12)
Estimates pulmonary drainage back to heart
PCWP aka:
atrial pressure
Left atrial pressure
Left side preload
ventricular filling pressure
Left end diastolic pressure

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Frage 20 von 27

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Cardiac Output (Qt)
Output of left to systemic circulation
Normal Qt is L/min (4-8) depending on body size
Fick equation: Qt = /(C(a-v)O2x )
If stroke volume is known: Qt= x
Thermal Dilution: Cold saline injection
Cardiac Index = /() Normal: lpm/m2

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Frage 21 von 27

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CVP: ↑ ↑ PAP: N ↓ PCWP: N ↓ QT: N = Heart Failure, Pulmonale, Valve Stenosis

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Frage 22 von 27

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CVP: ↑ PAP: ↑↑ PCWP: N ↓ QT: N = Disorders, Pulm , HTN, Air

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Frage 23 von 27

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CVP: N PAP: ↑ PCWP: ↑↑ QT:↓ = heart Failure, valve stenosis, , High effects

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Frage 24 von 27

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CVP: ↑↑ PAP: ↑ PCWP: ↑ QT: ↑ =
CVP: ↓↓ PAP: ↓ PCWP: ↓ QT: ↓ =

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Frage 25 von 27

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Systemic Vascular resistance (SVR) : Pressure gradient across circulation divided by
SVR = () / Qt
Normal: < mmHg/l/min or 1600 Dynes/sec
SVR is with systemic hypertension or vasoconstriction

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Frage 26 von 27

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Pulmonary Vascular Resistance (PVR): Pressure gradient across circulation divided by Qt
PVR = () / Qt
Normal: < mmHg/L/mi or 200 Dynes/sec
PVR is increased with , HTN, disease

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Frage 27 von 27

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Metabolic Measurements
-by-breath measurement
Determines measurements of VO2, VCO2, RR, Vt
Requires use of one way valve, and continuous sampling of gases.

Mixing Chamber
Pt inspires room air via 1 way valve then exhales into gas mixing chamber with to completely mix the gases
and concentration are measured.

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