Capnography is worth getting right 鈥� here鈥檚 how

Capnography

Capnography is worth getting right 鈥� here鈥檚 how

A recent webinar reviewed its value to EMS and shared tips for ensuring accuracy

April 30, 2025 12:06 PM •

John Erich

CO₂ levels provide insight

For EMS, Kroboth began, capnography provides a useful window into three things:

Metabolism, because carbon dioxide (CO₂) is produced by metabolizing tissues.
Perfusion, or how well nutrients are being circulated to the tissues for metabolism to occur and CO₂ is moving to the lungs for exhalation.
Ventilation, or how CO₂is being exhausted out.

鈥淚t鈥檚 literally the thing that can give you three-plus sets of status on a patient,鈥� Kroboth said.

Carbon dioxide originates as a byproduct of metabolism through the Krebs cycle, which produces hydrogen ions. These react with bicarbonate from the kidneys in the bloodstream and convert to CO₂ and water. The CO₂ is transported to the lungs and exhaled; the liquid is excreted through the kidneys via urination. This bicarbonate buffering system transports about 60% of the carbon dioxide the body produces.

CO₂ is highly soluble in liquid, meaning its values and waveform can be used for patients with fluid in their lungs in cases such as flash pulmonary edema or drownings.

For accurate capnography, materials matter

That鈥檚 where capnography comes in. Sampling exhaled breaths allows evaluation of end-tidal carbon dioxide (EtCO₂) levels, the concentration of CO₂ at the end of exhalation. This produces both a numerical value and capnogram waveform that is extremely valuable to clinicians.

Doing that accurately requires a few things. One is the right choice of sampling set.

鈥淚t鈥檚 really critical you [have] a continuous sampling line from the atmosphere to your monitor,鈥� Kroboth said. 鈥淏ecause if you have anything that has breaks 鈥� and it鈥檚 not continuous, you can allow for ambient air to enter that circuit and give you false readings at your meter.鈥�

For many in EMS, inline sampling has fallen out of favor. The sensors can be bulky and cumbersome on the ET tube, potentially difficult in transport and affected by ambient light. Conversely, sidestream sampling 鈥� done by drawing a small sample of exhaled air from the breathing circuit 鈥� is smaller and more portable, works for both intubated and nonintubated patients, and is quick and versatile in all settings, including EMS.

If you鈥檙e using inline while bagging with a bag-valve mask, Kroboth advised, use a strap around the head to ensure a good seal and pay close attention to pre- versus postintervention values, as ventilatory management is more effective when titrated to EtCO₂ rather than governed by more arbitrary numbers.

Patient comfort may also be an overlooked factor. The mouth scoops on some sampling sets can be rigid and uncomfortable. 鈥荣 , Kroboth noted, are softer and more compliant for patients and provide functional advantages as well, sampling through both nostrils and the mouth scoop. Alternatives may deliver oxygen through one nostril and sample CO₂ through the other, which can be uncomfortable and, more important, impact accuracy. Medtronic鈥檚 version delivers oxygen via small holes that saturate the environment around the patient鈥檚 face.

鈥楤uyer definitely beware鈥�

Safety is an issue too. Kroboth and Goodloe briefly addressed the standard warnings that often grace capnography packaging 鈥� including one about fire risk if using oxygen within three feet of an open flame, defibrillation equipment or anything producing sparks.

鈥淢ost defib cables are at three feet,鈥� Kroboth noted. 鈥淲e don鈥檛 ever measure how far the defibrillator pads are from the nasal cannula, but for most people that鈥檚 probably 鈥� about six, eight, 10 inches, maybe 12 inches if you鈥檙e running the Jolly Green Giant.鈥�

If you try synchronized cardioversion while doing something like monitoring capnography on a v-tach patient with a pulse, he added, 鈥淚t could be a bad day pretty quick.鈥�

Goodloe鈥檚 EMS system uses more end-tidal CO₂ circuits than any system in North America, he said 鈥� a testament to how seriously it takes capnography. That naturally led EMSA leaders to look at cost. What they found was, while there are discount capnography products available, they may sacrifice performance.

鈥淲hat I鈥檒l just say is, buyer definitely beware,鈥� Goodloe said. 鈥淐ompatibility is not the same thing as equality 鈥� I would encourage you to take a deep dive on your equipment 鈥� not just capnography circuits, but anything, really 鈥� and make sure that what you think you鈥檙e buying is what you really are. Many of these devices in the capnography world do not have the dual-channel sampling. They do not have the dual-channel oxygen delivery 鈥� and that is obviously not the same.鈥�

Know the waveform

Kroboth explored interpretation of the capnography waveform and what its variations can mean. There are three main points to remember, he said:

The D-to-E segment of the waveform, or righthand downslope, represents inspiration and should go straight down.
It should return, at the E point, back to zero or baseline. If it doesn鈥檛, it suggests the patient is rebreathing exhaled gas, which may signal an equipment problem or mask over the face preventing fully clearing the previously exhaled breath.
The ensuing B-C-D phase should be distinct and clearly defined. A to B, or the start of exhalation, clears dead space air; B to C is the bronchial phase; and C to D is the alveolar phase of exhalation 鈥� where the most gas exchange occurs.

鈥淒-to-E straight down, back to zero, B to C, C to D tells me I鈥檓 not rebreathing, tells me I have an unobstructed inhalation phase, and tells me, from an airway perspective, my airways are intact,鈥� Kroboth noted.

Capnography waveform Medtronic Microstream.png — Understand the capnography waveform, and it can provide great diagnostic value.

How the waveform changes is diagnostically valuable. A C peak that鈥檚 bigger than D signals alveoli are collapsed or atelectasized, as in severe emphysema. A low EtCO₂ with a high respiratory rate and good waveform may reflect a panic attack or something more serious 鈥� if the patient had a blow to the head, for instance, it could be an early compensatory sign for intracranial pressure increasing with bleeding.

Providers should also understand the difference between the capnography waveform and capnography value displayed on the monitor 鈥� and pay attention to the waveform. The waveform is instant, reflecting each breath. The value is an average of the last 20 seconds, helping to account for patients talking, sobbing or with irregular respiratory patterns.

鈥淚f they stop breathing and the capnograph stays flat for 30 seconds 鈥� the 鈥榥o breath鈥� alarm kicks off saying, 鈥楬ey, you need to check that patient,鈥欌€� Kroboth said. 鈥淚t鈥檚 good to know this because there are other things, like pulse oximetry, that can have up to a 90-second lag time. The longest thing you鈥檙e working with in terms of alarms here is 30 seconds. But the waveform is instant, and it鈥檚 visual for you.鈥�

Added Goodloe, 鈥淪ome of these patients we know are truly so dynamic that we don鈥檛 want to wait 30 seconds. We certainly don鈥檛 want to wait 90 seconds to have information we can act upon and intervene to promote better oxygenation and ventilation [and] ultimately better perfusion.

鈥淸That鈥檚] one of the key take-homes: Be sure to know what your device is showing you.鈥�

If it鈥檚 atypical, Kroboth urged, check your patient 鈥� then check your sampling line.

鈥淥ne thing could be 鈥� the patient fell asleep and the sampling line fell off. So when you have something that鈥檚 atypical or wrong, check the patient, check the sampling line and then compare the two.鈥�

Tips to enhance accuracy

Some further advice for accurate capnography:

Ensure compatibility between sampling line and monitor. Make sure attachments are secure (but avoid overtwisting, which can lead to breakage and leaking).
When beginning capnography, allow a few seconds for the device to initialize. For most devices that takes less than 20 seconds.

鈥淣o different than the gas meter you鈥檙e taking to sample a gas leak environment on a 911 incident, you want it to calibrate to atmospheric norm,鈥� Kroboth said. 鈥淭he capno system is actually very forgiving. On the in-between cycles, it will actually monitor atmospheric normal 鈥� If you have the overzealous provider who applies the circuit to the patient first and then plugs it in, it鈥檚 OK. Give it 20 to 30 seconds and it will actually calibrate the atmospheric norm and give you accurate values. Just don鈥檛 take the first thing you see right off the jump.鈥�

Case studies

The final section of the webinar reviewed some case studies. The first involved the familiar shark fin reading as an indicator of airway obstruction, a common finding in bronchoconstriction and what capnography is most noted for.

Paramedics inside ambulance with teenage boy on stretcher — For EMS personnel, it鈥檚 worth investing in a good stethoscope, as the back of the ambulance can be a difficult environment for discerning subtle sounds.

The constriction that causes this occurs in the bronchioles and, by reducing air passage, reduces the C phase on the capnogram. These patients will begin breathing more rapidly, but their CO₂ concentration will rise over time because their bronchioles are so tight they will retain CO₂ by not being able to ventilate it out.

Severe lower airway obstruction may also produce a silent chest.

鈥淭o get a lung sound, you have to have enough airflow through the tubes to make resonance,鈥� Kroboth said. 鈥淚f it鈥檚 so tight that you鈥檙e not getting good airflow in and out 鈥� look over to the left on your monitor while you鈥檙e listening and make sure you have that end-tidal wave going across. If you have the end-tidal wave going across, you know they鈥檙e breathing; they just might not have enough tidal volume to 鈥� make the sound.鈥�

For EMS personnel, he added, it鈥檚 worth investing in a good stethoscope, as the back of the ambulance can be a difficult environment for discerning subtle sounds.

Capnography can help providers prioritize treatment. In the severe bronchospasm patient, either a bronchodilator or subcutaneous epinephrine may be appropriate, Kroboth added, but preparing a dual nebulizer takes more time. Better progress can come from starting with the epi, then chasing it with the dual neb in the bronchoconstricted patient who is tachypnic, normocarbic or hypercarbic.

Remember that even with the presence of fluid in the lungs that鈥檚 severe enough to round the C-to-D portion of the end-tidal wave, the displayed value will still be accurate due to CO₂鈥檚 diffusion ability through liquid. For these patients, consider CPAP. By inhibiting full exhalation, positive end expiratory pressure (PEEP) will cause EtCO₂ to rise. That鈥檚 an appropriate course for CHF patients to keep alveoli open and oxygen diffusing, along with nitrates to decrease preload and a 15-lead EKG to rule out heart attack.

Capnography is very useful in sepsis. As the body battles its infection, it becomes increasingly hypermetabolic and acidotic. Blood vessels dilate, capillaries can start to leak, and the heart can become 鈥渇loppy鈥� 鈥� 鈥淵ou don鈥檛 get that good cellular function [and] contractility,鈥� Kroboth said. Perfusion will fall, and perfusion becomes primarily heart rate-driven.

This patient will be breathing fast (more than 22 beats per minute) with low carbon dioxide. That should prompt EMS personnel to consider sepsis. Researchers have found correlation, Kroboth noted, between an EtCO₂ value below 24 and septic shock. 鈥淥ne of the things capnography can really do for us is give us accurate respiratory rates, so we can appreciate when a person is compensating or upregulating in that instance,鈥� he said. Start these patients with fluid, then address the vasculature. And 鈥渋f the patient starts to pee on your cot because you鈥檝e started to reperfuse their kidneys,鈥� Kroboth added, 鈥渢hat鈥檚 a win 鈥� It sucks to clean up, but it tells you you鈥檝e made headway by getting that good renal perfusion.鈥�

The real decision-maker

Another case study involved an 8-year-old with exertional dyspnea playing basketball. His vitals: heart rate 108, oxygen saturation 94%, blood pressure 129/82. That saturation is low for a healthy child, Goodloe observed, but providers aren鈥檛 getting a full picture of the respiratory situation. Here adding the capnography value 鈥� 44 with severe shark fin, the high end of normal 鈥� reveals more bronchoconstriction than first thought.

鈥淵ou [may] say, 鈥榃ell, it鈥檚 just one more channel.鈥� It also happens to be the real decision-maker in cases like this,鈥� Goodloe emphasized. 鈥淒on鈥檛 forget a liberal application of capnography in patients that are experiencing and presenting with respiratory distress or even just having a little trouble breathing. That could be a huge mask of what really is underneath from a pathophysiology standpoint.鈥�

A final case study looked at capnography鈥檚 value in deciding if to terminate resuscitation in the field or not. This posed a male in his 50s down for an unknown period following cardiac arrest. Thirty minutes of ACLS yielded an end-tidal of 9, down from 11. With an EtCO₂ that low that far into a resuscitation, Goodloe said, he鈥檇 be comfortable calling it for futility. 鈥淚t鈥檚 not just the absolute number, but it鈥檚 the trending of what has happened,鈥� he said.

That can hold true even for more normal end-tidal CO₂ values in the 30s and 40s 鈥� for someone in cardiac arrest, for instance, or with a COPD history and values that started in the 90s. Interpret later readings in context, not alone, and if they鈥檝e persistently declined despite prolonged resuscitative efforts and good-quality CPR, particularly with asystole or PEA, it can justify termination.