Pulse oximeter different readings on different hands

Bob Kronemyer, Anesthesiology News, June 12, 2018 —A study has found that 8.7% of paired pulse oximetry readings varied by 5% or more, when probes were placed on a finger and an earlobe during the administration of general anesthesia or monitored anesthesia care. In addition, 4.6% of paired readings differed by 7% or more.

“Anesthesiologists need to know that differences as large as 7% or more are not uncommon,” said Gabriela Samayoa, MD, the primary author and a research assistant at Montefiore Medical Center, in Bronx, N.Y. “This finding is important because placement of a pulse oximetry probe in a second location may confirm a higher saturation.” The study was presented at the 2017 PostGraduate Assembly in Anesthesiology (abstract P-9011).

In the absence of a second higher reading, “the anesthesiologist might lighten the plane of anesthesia or instrument the airway,” Dr. Samayoa said. “Unnecessarily lightening the anesthetic might result in patient movement that interferes with performing the procedure, patient recall or pain. Unwarranted manipulation of the airway can also result in bleeding, laryngospasm or even unnecessary intubation.”

The study was conducted in 50 adult patients and 566 paired measurements were recorded.

“Anesthesiologists should appreciate that placing a second oximeter probe in a different location might confirm adequate saturation and prevent changes in management that may not only be unnecessary, but may actually cause harm to the patient,” Dr. Samayoa said.

“Anesthesiologists should appreciate that placing a second oximeter probe in a different location might confirm adequate saturation and prevent changes in management that may not only be unnecessary, but may actually cause harm to the patient"

Gabriela Samayoa

Dr. Samayoa noted that differences in pulse oximetry readings are often attributed to patient movement, hypothermia, decreased regional perfusion or vasoconstriction.

Sheldon Goldstein, MD, a co-author and an associate professor of anesthesiology at Montefiore, said if one probe reads 92% and the other reads 97%, “generally, anesthesiologists will presume the higher reading is correct and indicates that the patient is safe. This is not clinically concerning, though, because a saturation of 92% is unlikely to harm a patient. However, if saturation reads 87% in one location, an anesthesiologist might modify the anesthetic, whereas placement of a second probe and confirmation of a saturation of 92% or greater would indicate the patient is not in danger. Therefore, placement of a second probe could prevent unnecessary changes in anesthetic management.”

Dr. Goldstein emphasized the importance of clinical judgment. “Placing a second pulse oximeter probe is acceptable when saturation is somewhat decreased but unchanging. However, if oxygen saturation drops rapidly, therapeutic maneuvers may be the appropriate first step, with application of a second probe occurring afterward.”

He also pointed out that because neither ear nor finger measurements were consistently higher in the study, “the question remains whether each of the probes was accurately measuring saturation at the two locations, due to differences in regional blood flow.”

The authors are considering investigating pulse oximetry readings during carotid endarterectomy, where the surgeon could take a blood gas sample from the carotid artery. “We would compare the reading on the earlobe to the blood gas level, while simultaneously obtaining a blood gas from a radial artery catheter to compare with the pulse oximetry reading from a finger probe,” Dr. Goldstein said.

He said near infrared spectroscopy (NIRS) has shown that changes in regional blood flow may be earlier signs of shock than lactate levels. “Hence, we would be curious when patients have differences in pulse oximetry readings, if this might be a marker for inadequate blood flow or oxygen delivery to the tissues. If this turns out to be the case, perhaps we should be placing two pulse oximeter probes on ill patients and try to optimize hemodynamics until all readings are at or near the higher level.”

The presenters said comparison with NIRS still would need to be performed to determine if differences in pulse oximetry saturation readings do, in fact, correlate with changes in regional blood flow.

These devices have a probe or sensor that looks like a plastic bag clip to be placed onto your fingertip, toe or ear lobe.

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Published: 30th April 2021 06:15 AM  |   Last Updated: 30th April 2021 05:25 PM   |  A+A A-

By Dr Tinku Joseph K

KOCHI: A pulse oximeter is a small device that painlessly and quickly measures your oxygen saturation level, or how much oxygen in your blood. These devices have a probe or sensor that looks like a plastic bag clip to be placed onto your fingertip, toe or ear lobe. A small screen on the probe displays an estimate of blood oxygen levels is in your limbs or other body parts. 

How does it work?
Light-emitting diodes, or LEDs, inside of the pulse oximeter probe give off multiple colours of light, including red. The light shines through the tissues of your fingertip, and the sensor on the other side picks it. Pulse oximeters check the density of light to estimate the number of blood cells carrying oxygen. 

What can affect Pulse oximetry readings?
A pulse oximeter reading is an estimate and may not always be accurate. As the light travels through your fingernail and tissue, several things can affect the accuracy of the SpO2 reading, including:
Skin colour: Skin with more pigment may cause some pulse oximeters to give slightly higher readings.
Problems in the circulation system: Poor blood circulation in your hands and fingers may cause lower readings.

Cold hands: Having cold hands may cause lower readings.
Wet skin: Water or sweat on the skin may reflect the light and affect the measurement.
Bright light: Exterior bright light may interfere with the light detector and cause inaccuracy 
Thick fingernails: Thick nails can block the light penetration and may cause lower readings.
Fingernail polish: Black, blue, and green nail polish may cause significantly lower readings.
Bruises or tattoos on the fingertips: Both may cause inaccurate readings. Try choosing a different finger or limb for a more accurate reading.

Understanding Pulse oximeter readings 

• A blood oxygen saturation level of 95 to 100 per cent on your pulse oximeter is a normal reading for healthy adults and kids.
• If your reading is lower than this more than once, contact your doctor right away.

Signs of low blood oxygen levels

• Difficulty in breathing 
• Fast & shallow breathing
• Confusion
• Blue tinged lips or face

Caring of your Pulse oximeter

• Keep the battery fully charged
• Disinfect with an alcohol swab after usage

Tips for taking readings with a pulse oximeter

• Make sure your hands aren’t too cold or hot, or wet or sweaty.
• Keep your hand and fingers still. Don’t move while you’re taking the reading.
• Avoid placing the pulse oximeter probe on a fingernail that has nail polish or on tattooed skin

(The author is the Chief of International Pulmonology at Amrita Institute of Medical Sciences, Kochi) 

Why does my oximeter give different readings on different fingers?

Which finger is most accurate for pulse oximeter?

Does it matter which hand you use a pulse oximeter on?

What are three conditions that can give a false pulse oximetry reading?