Preliminary Verified (2024)
Nellcor PM10N (2022)
About this oximeter:
The Nellcor PM10N was tested with its default probe, the DS-100A. This device is designed for portable monitoring of oxygen saturation (SpO2), pulse rate (PR), and perfusion index (PI). It features a 2.5-inch display and after a few minutes of inactivity, it remains powered on but the screen goes black to conserve energy. The Nellcor system includes audible alarms for critical SpO2 levels and other monitored parameters. This device does not have a mechanism for recharging directly. The device takes AA batteries, but unless they are Li-ion 1.5V and high capacity, the unit drains the batteries quickly (after a few hours of continuous use). In our testing, we also experienced more frequent error messages on the device when batteries were low.
Handheld
Type2.48%
ArmsYES
Signal quality indicatorWaveform
indicatorOpenOx Performance
Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision. Here we report Arms based on Open Oximetry device testing using 2013 FDA Guidelines for 510k submissions and 2017 ISO 80601, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). Read more about quantification of oximeter performance on our FAQ.
*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.
Arms 2.48%
Purchase Cost
Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.
500
Lifetime Cost
Here we estimate the 10-year lifetime cost of ownership for this type of pulse oximeter (Caution: We make many assumptions!). Click the settings button next to the cost to see the formula and adjust these assumptions to your local data.
No data
Specification Overview
Manufacturer
Model
Nellcor PM10N (2022)
Type
We categorize devices as fingertip, handheld, tabletop, multiparameter, phone-based or wearable.
Handheld
Reflectance or Transmittance
Some devices may have the capability to function with transmission or reflectance probes. Read more about the difference between reflectance and transmission devices in our FAQ.
Reflectance
Patient population
This indicates the intended patient populations for the device (adult, pediatrics, neonates), as specified by our review of the manufacturers' published specifications. Use in certain patient populations may require procurement of a separate probe.
Adult, Pediatrics
Where made
This indicates the location where the device is manufactured as stated by the manufacturer (or the stated location of the manufacturer). Please note, devices may contain components manufactured in different location.
China
Ingress Protection (IP)
"Ingress Protection" ratings define levels of sealing effectiveness of devices from foreign bodies (e.g. dust) and moisture. Read more at our FAQ.
IP22
Cost
Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.
$500
Features
Here we report device features such as signal quality indicator, waveform, carboxy-Hb, perfusion index and ability to measure Hb. These are based on review of manufacturers' manuals and may be incomplete.
Extended skin pigmentation performance testing
Standard Performance info
Manufacturer claimed Arms (root mean square error) for SpO2 70-100%
Here we report the root mean square error (ARMS) as provided in the manufacturer’s product manual or other literature, which may include data from the 510(k) submission.
No data
Independent Arms (root mean square error) for SpO2 70-100%
Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision. Here we report Arms based on Open Oximetry device testing using 2013 FDA Guidelines for 510k submissions and 2017 ISO 80601, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). Read more about quantification of oximeter performance on our FAQ.
*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.
2.48%
Independent Arms Study Cohort Size
Currently, there is lack of consensus on optimal study cohort sizes for pulse oximeter validation studies. The 2017 ISO 80601 and 2013 FDA regulatory frameworks stipulate at least 10 subjects, 15% of whom should be darkly pigmented.
We report device results as preliminary once at least 10 subjects have been tested, though continue testing devices in as many diverse participants as we can. We are awaiting updated regulatory guidance for optimal cohort sizes.
24
% of study cohort with dark skin pigmentation
Currently, there is lack of consensus on optimal methods for characterizing skin pigment and optimal sample sizes for validation study cohorts. 2017 ISO and 2013 FDA documents stipulate at least 10 subjects, 15% of whom should be darkly pigmented. Here we define ‘dark skin pigmentation’ as Monk Skin Tone Scale HIJ and Individual Typology Angle <-30. For the purpose of data analysis and to avoid operator bias from assigning MST, we use ITA >30 for light, ITA 30 to -30 for medium, ITA < -30 for dark, and ITA < -50 for very dark.
25%
Date independent Arms data collected
This is the most recent date that the Open Oximetry Project collected data in the UCSF Hypoxia Lab to assess this device's performance. If ARMS data were obtained from a source other than the Hypoxia Lab, please review the date for that source. Of note, device performance may be specific to a model year (even if the model name has not changed).
09/17/2024
Source of independent Arms data
Root mean square error (ARMS) is a common measure of pulse oximeter device performance. 'ARMS' may be ascertained from manufacturers' published data, 510k reports, package inserts or primary data from testing conducted by the UCSF Hypoxia Lab. Devices independently tested by the Open Oximetry Project will be marked 'verified' or 'failed' depending on study findings.
UCSF Hypoxia Lab
510k date
Date FDA 510k approved
10/02/2014
CE-XXXX
Open Oximetry attempts to request CE certificates from manufacturers and distributors though this is not always possible. CE numbers shown here are largely obtained from manufacturer's literature and are unverified by our team. Read more about CE marking in our FAQ..
123
Extended Performance info
Extended skin color data
This figure shows the forehead skin color for healthy volunteer participants in the study cohort tested with this pulse oximeter. Each square represents one subject, with the square’s color corresponding to the Monk Skin Tone Scale category observed by UCSF Hypoxia Lab clinical research coordinators. More info on skin color quantification.
% of dark cohort with very dark skin pigment
All devices were tested in participants with light, medium and dark skin pigment as defined by Individual Typology Angle. The value reported here indicates the percentage of individuals from the 'dark' pigment cohort (i.e. ITA < -30) who also had Individual Typology Angle <-50 (i.e. 'very dark' pigment).
50%
Skin pigment bias for SpO2 70-85%
This number (i.e. 'differential bias’ or 'disparate bias') describes how much pulse oximeter performance is impacted by skin pigment. This is done by using real data to model what happens if we compare how accurate SpO2 is (i.e. how SpO2 compares to gold standard blood SaO2 co-oximetry) for a healthy volunteer with very light skin pigment and SpO2 accuracy for a healthy volunteer with very dark skin pigment (i.e., an ITA difference of 100), by subtracting the difference. Read more about differential bias here in our FAQ.
1.61%
Skin pigment bias for SpO2 85-100%
This number (i.e. 'differential bias’ or 'disparate bias') describes how much pulse oximeter performance is impacted by skin pigment. This is done by using real data to model what happens if we compare how accurate SpO2 is (i.e. how SpO2 compares to gold standard blood SaO2 co-oximetry) for a healthy volunteer with very light skin pigment and SpO2 accuracy for a healthy volunteer with very dark skin pigment (i.e., an ITA difference of 100), by subtracting the difference. Read more about differential bias here in our FAQ.
0.2%
Bias by skin pigment
Bias in dark skin pigment (SpO2 70-84)
This shows the average difference between the oxygen levels measured by the pulse oximeter (SpO2) and the actual blood oxygen levels (SaO2) for participants with dark skin pigment when their oxygen levels are between 70-84%. Negative values indicate the pulse oximeter SpO2 underestimates actual blood oxygen SaO2. Positive values indicate pulse oximeter SpO2 overestimates actual blood oxygen SaO2.
3.33
Bias in medium skin pigment (SpO2 70-84)
This shows the average difference between the oxygen levels measured by the pulse oximeter (SpO2) and the actual blood oxygen levels (SaO2) on average for participants with medium skin pigment when their oxygen levels are between 70-84%. Negative values indicate the pulse oximeter SpO2 underestimates actual blood oxygen SaO2. Positive values indicate pulse oximeter SpO2 overestimates actual blood oxygen SaO2.
1.54
Bias in light skin pigment (SpO2 70-84)
This shows the average difference between the oxygen levels measured by the pulse oximeter (SpO2) and the actual blood oxygen levels (SaO2) on average for participants with light skin pigment when their oxygen levels are between 70-84%. Negative values indicate the pulse oximeter SpO2 underestimates actual blood oxygen SaO2. Positive values indicate pulse oximeter SpO2 overestimates actual blood oxygen SaO2.
1.77
Bias in dark skin pigment (SpO2 85-100)
This shows the average difference between the oxygen levels measured by the pulse oximeter (SpO2) and the actual blood oxygen levels (SaO2) on average for participants with dark skin pigment when their oxygen levels are between 85-100%. Negative values indicate the pulse oximeter SpO2 underestimates actual blood oxygen SaO2. Positive values indicate pulse oximeter SpO2 overestimates actual blood oxygen SaO2.
1.53
Bias in medium skin pigment (SpO2 85-100)
This shows the average difference between the oxygen levels measured by the pulse oximeter (SpO2) and the actual blood oxygen levels (SaO2) on average for participants with medium skin pigment when their oxygen levels are between 85-100%. Negative values indicate the pulse oximeter SpO2 underestimates actual blood oxygen SaO2. Positive values indicate pulse oximeter SpO2 overestimates actual blood oxygen SaO2.
1.45
Bias in light skin pigment (SpO2 85-100)
This shows the average difference between the oxygen levels measured by the pulse oximeter (SpO2) and the actual blood oxygen levels (SaO2) on average for participants with light skin pigment when their oxygen levels are between 85-100%. Negative values indicate the pulse oximeter SpO2 underestimates actual blood oxygen SaO2. Positive values indicate pulse oximeter SpO2 overestimates actual blood oxygen SaO2.
1.58
% of cohort with low pulsatility amplitude
We measured percent modulation of infrared red (IR) signal, sometimes also referred to as pulsatility amplitude or perfusion index. This is sometimes used as an imperfect and indirect surrogate for perfusion and signal strength. Here we show the percentage of the cohort tested with this device who had low pulsatility amplitude based on values reported by one of our reference devices, the Nellcor PM1000N. We take the pulsatility amplitude from the PM1000N and divide by 10 for greater consistency with our other reference devices. Of note, this correction factor makes the number from the PM1000N comparable but not the same as PI reported by Masimo devices, for example.
30
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