Julie Zimmerman, MSN, RN, CCRN Clinical Nurse Specialist
Objectives Define capnography vs. end tidal CO2 (EtCO 2 ) Identify what normal vs. abnormal EtCO2 values mean and what to do Understand when to apply EtCO2 monitoring as ordered Understand how to document EtCO2 in EPIC
What is Ventilation? Ventilation: movement of air in and out of the lungs End tidal CO2 (EtCO2) is the measurement of carbon dioxide exhaled with each breath Reflects breath-to-breath ventilation or air movement Detects rapid or slow breathing pattern Note: Ventilation equals tidal volume (size of the breath) x respiratory rate. V = TV x RR A patient with a large tidal volume can still hyperventilate with a normal respiratory rate just as a person with a small tidal volume can hypoventilate with a normal respiratory rate.
What is Respiration? Respiration: Process of moving air between the atmosphere and the alveoli. It is describes the distribution of air within the lungs to maintain appropriate concentrations of O 2 and CO 2 in the alveoli Supplemental O 2 will drive a higher concentration of oxygen to diffuse across the alveolar capillary membrane and increase amount of O 2 bound to Hbg and the SaO 2!
Pulse Oximetry / SpO 2 Monitoring SaO 2 is a measurement of the oxygen Saturated on each Hgb molecule and (SpO 2 ) is this measurement determined by pulse oximetry There is an inverse relationship between CO 2 and O 2 levels when one goes, the other goes If a patient is receiving supplemental O 2 Normal inverse relationship is altered! SpO 2 will remain high despite a rising CO 2! CO 2 levels may rise with hypoventilation and the SpO 2 will remain normal for 40 minutes! A drop in SpO 2 is a VERY LATE sign of hypoventilation and apnea http://vam.anest.ufl.edu/fu-downs-chest.pdf
What s the difference between SpO 2 and EtCO 2? Pulse Oximetry (SpO2) Measures Oxygenation Measures oxygen saturation on each Hgb molecule Reflects oxygenation Detects hypoxia Apnea and hypoventilation: If a patient hypoventilates, oxygen saturation can remain normal for 40 minutes! If a patient becomes suddenly apneic, pulse oximetry will continue to show a high saturation! EtCO2 Monitoring Measures Ventilation Measures carbon dioxide exhaled Reflects breath-to-breath ventilation Detects hypoventilation Gold Standard Apnea and hypoventilation: If a patient hypoventilates, EtCO2 will rise indicating accumulating CO2 If a patient becomes suddenly apneic, an EtCO2 monitor will display no breath and alarm after 30 seconds.
Sedation Precedes Respiratory Depression No patient has succumbed to (opioid induced) respiratory depression while awake. APS, 1999 Arousability is the key to assessing sedation! When patients are at risk for opioid induced respiratory depression, sedation level and EtCO 2 monitoring is important. If you feel your patient is at risk and does not have an order for EtCO 2.ASK FOR ONE! McCaffery, M., 2000, Hagle, M., 2004, Kim, J., 2003
Why do we need to know the EtCO2 value? The EtCO2 monitor can provide an EARLY WARNING of an impending respiratory crisis. Normal EtCO2 is between 35 and 45 mmhg EtCO2 values lower or higher are NOT normal and need further investigation Capnography is the evaluation of the CO2 waveform
HYPERventilation EtCO2 less than 35 mmhg Hyperventilation/Hypocapnia Hyperventilation can be caused by many factors from anxiety to bronchospasm to pulmonary embolus. Other reasons CO2 may be low: cardiac arrest, decreased cardiac output, hypotension, cold, severe pulmonary edema.
HYPOventilation EtCO2 greater than 45mmHg = Hypoventilation/Hypercapnia Hypoventilation can be caused by altered mental status such as overdose, sedation, intoxication, postictal states, head trauma, stroke, or by a tiring CHF patient. Other reasons CO2 may be high: Increased cardiac output, fever, sepsis, pain, severe difficulty breathing, and/or depressed respirations due to chronic hypercapnia
Sleep Disordered Breathing (SDB) Describes a group of breathing disorders characterized by abnormalities in the respiratory pattern (pauses in breathing) or the quantity of ventilation during sleep Despite considerable progress, 75%-85% people remain undiagnosed! Obstructive sleep apnea (OSA), repetitive or partial collapse of the pharyngeal airway during sleep for > 10 sec and abrupt arousal to resume breathing. Airflow is absent Central sleep apnea (CSA), brain fails to signal the respiratory muscles to facilitate breathing Both airflow & ventilatory effort are absent Both are exacerbated with the use of opioids and sedatives!
Sleep Disordered Breathing (SDB) Who is at risk? STOPBANG is a screening tool used to identify those at risk. Performed in the pre-op clinic and noted in EMR Treatment If patient is identified to be at risk they are placed on continuous pulse oximetry monitoring (at least telemetry LOC) after surgery Continuous positive airway pressure (CPAP) or (BiPap) may be needed to keep the airway open Snoring Tired Observed not breathing Blood Pressure (elevated) BMI Age Neck circumference Gender
Opioids Opioids and Sleep Disordered Breathing Decrease respiratory rate even at low doses Decrease in tidal volume at high doses OSA and CSA patients are vulnerable to these effects and are at risk for hypoventilation due to over sedation when receiving opioid analgesia
Beginning October 1st IV PCA order set will automatically include ETCO2 monitoring for the duration of the order. The ordering physician may discontinue this order at any time. If the goals of care change, this order may be discontinued. This level of monitoring is not intended for those patients receiving end of life care
Beginning Oct. 1, all patients receiving IV PCA will have an order for EtCO2 monitoring Alarm Settings EtCO2 high 60 mmhg low 10 mmhg *Alarm* RR slows to < 6bpm *Alarm* further trending to 4bpm will pause PCA! Apnea of 30 seconds *Alarm* What should I do? Provide patient education along with EtCO2 monitoring to promote compliance!! Monitor your patient for drowsiness or drifting off to sleep during conversation This is unacceptable! Assess respiratory status and sedation level closely and inform MD if the patient appears to be too drowsy! Assess respiratory history using the Trend button to identify if RR has been slowing or CO2 is rising or high If the patient is unarousable, stop the PCA and consider implementing reversal agent or implementing ESO for respiratory depression/arrest or call RRT/Code Blue and notify primary MD.
SECOND: Select and ADD to doc flow sheet FIRST: Look for the order in Nursing Misc. Document with every vital sign and PRN THIRD: Enter EtCO2 and O2 values on doc flow sheet
Documentation in the Care Plan
FAQ s What if my patient refuses? First ask why? This is a patient safety device. Our goal is to provide you with adequate pain management; however, these medications have a side effect of lowering your respiratory rate to an unsafe low if you happen to be sensitive to them. The nasal cannula device will identify this quickly and sound an alarm that is intended to wake you up. This is important because we want to be sure you CAN wake up. If you feel the alarm is keeping you from resting, please let your nurse know so they can investigate why. Then provide the patient with the educational handout. (Available in English and Spanish) If the patient still refuses, document that in your charting and let the MD know to DC the order.
FAQ s What if my patient has CPAP? EtCO 2 monitoring is possible with CPAP. Request the assistance of the Respiratory Therapist. Remember, if there is humidification, the Capnoline nasal prongs may malfunction and alarm erroneously.
Troubleshooting Alarms What if the alarms are driving me and my patient crazy? On the Alaris brain, look at the Trend data by selecting EtCO2 on the main screen and select Trend Button. This will show you exactly how the patient has been breathing and when the alarms have sounded. Remember, if the RR trends down to a rate of 6, the pump will alarm a low RR. Once a RR rate slows to a rate of 4, the PCA dose will pause and you must select Restart to begin PCA therapy again EtCO2 > 60 will alarm, consider respiratory pattern of the patient and assess for hypoventilation.
Troubleshooting Alarms Consider the IV PCA dose. Is it too much for this patient and causing them to be too drowsy? Identify if the patient has an obstructive respiratory pattern by watching the waveform? This may warrant further investigation from the MD. Notify MD of your suspicion of apnea. Has the Capnoline nasal cannula sensor gotten moist from skin oils, or humidification? This will cause the module to alarm erroneously. Any O2 therapy that includes humidification will cause the EtCO2 to read erroneously Is the patient a mouth breather and the sensor is not detecting respirations? Reposition tubing and reset pump. EtCO2 may not be an option for this patient. Document and notify the MD to DC order if unable to obtain accurate reading.